# coding: utf-8 """ ASN.1 type classes for universal types. Exports the following items: - load() - Any() - Asn1Value() - BitString() - BMPString() - Boolean() - CharacterString() - Choice() - EmbeddedPdv() - Enumerated() - GeneralizedTime() - GeneralString() - GraphicString() - IA5String() - InstanceOf() - Integer() - IntegerBitString() - IntegerOctetString() - Null() - NumericString() - ObjectDescriptor() - ObjectIdentifier() - OctetBitString() - OctetString() - PrintableString() - Real() - RelativeOid() - Sequence() - SequenceOf() - Set() - SetOf() - TeletexString() - UniversalString() - UTCTime() - UTF8String() - VideotexString() - VisibleString() - VOID - Void() Other type classes are defined that help compose the types listed above. """ from __future__ import unicode_literals, division, absolute_import, print_function from datetime import datetime, timedelta from fractions import Fraction import binascii import copy import math import re import sys from . import _teletex_codec from ._errors import unwrap from ._ordereddict import OrderedDict from ._types import type_name, str_cls, byte_cls, int_types, chr_cls from .parser import _parse, _dump_header from .util import int_to_bytes, int_from_bytes, timezone, extended_datetime, create_timezone, utc_with_dst if sys.version_info <= (3,): from cStringIO import StringIO as BytesIO range = xrange # noqa _PY2 = True else: from io import BytesIO _PY2 = False _teletex_codec.register() CLASS_NUM_TO_NAME_MAP = { 0: 'universal', 1: 'application', 2: 'context', 3: 'private', } CLASS_NAME_TO_NUM_MAP = { 'universal': 0, 'application': 1, 'context': 2, 'private': 3, 0: 0, 1: 1, 2: 2, 3: 3, } METHOD_NUM_TO_NAME_MAP = { 0: 'primitive', 1: 'constructed', } _OID_RE = re.compile(r'^\d+(\.\d+)*$') # A global tracker to ensure that _setup() is called for every class, even # if is has been called for a parent class. This allows different _fields # definitions for child classes. Without such a construct, the child classes # would just see the parent class attributes and would use them. _SETUP_CLASSES = {} def load(encoded_data, strict=False): """ Loads a BER/DER-encoded byte string and construct a universal object based on the tag value: - 1: Boolean - 2: Integer - 3: BitString - 4: OctetString - 5: Null - 6: ObjectIdentifier - 7: ObjectDescriptor - 8: InstanceOf - 9: Real - 10: Enumerated - 11: EmbeddedPdv - 12: UTF8String - 13: RelativeOid - 16: Sequence, - 17: Set - 18: NumericString - 19: PrintableString - 20: TeletexString - 21: VideotexString - 22: IA5String - 23: UTCTime - 24: GeneralizedTime - 25: GraphicString - 26: VisibleString - 27: GeneralString - 28: UniversalString - 29: CharacterString - 30: BMPString :param encoded_data: A byte string of BER or DER-encoded data :param strict: A boolean indicating if trailing data should be forbidden - if so, a ValueError will be raised when trailing data exists :raises: ValueError - when strict is True and trailing data is present ValueError - when the encoded value tag a tag other than listed above ValueError - when the ASN.1 header length is longer than the data TypeError - when encoded_data is not a byte string :return: An instance of the one of the universal classes """ return Asn1Value.load(encoded_data, strict=strict) class Asn1Value(object): """ The basis of all ASN.1 values """ # The integer 0 for primitive, 1 for constructed method = None # An integer 0 through 3 - see CLASS_NUM_TO_NAME_MAP for value class_ = None # An integer 1 or greater indicating the tag number tag = None # An alternate tag allowed for this type - used for handling broken # structures where a string value is encoded using an incorrect tag _bad_tag = None # If the value has been implicitly tagged implicit = False # If explicitly tagged, a tuple of 2-element tuples containing the # class int and tag int, from innermost to outermost explicit = None # The BER/DER header bytes _header = None # Raw encoded value bytes not including class, method, tag, length header contents = None # The BER/DER trailer bytes _trailer = b'' # The native python representation of the value - this is not used by # some classes since they utilize _bytes or _unicode _native = None @classmethod def load(cls, encoded_data, strict=False, **kwargs): """ Loads a BER/DER-encoded byte string using the current class as the spec :param encoded_data: A byte string of BER or DER-encoded data :param strict: A boolean indicating if trailing data should be forbidden - if so, a ValueError will be raised when trailing data exists :return: An instance of the current class """ if not isinstance(encoded_data, byte_cls): raise TypeError('encoded_data must be a byte string, not %s' % type_name(encoded_data)) spec = None if cls.tag is not None: spec = cls value, _ = _parse_build(encoded_data, spec=spec, spec_params=kwargs, strict=strict) return value def __init__(self, explicit=None, implicit=None, no_explicit=False, tag_type=None, class_=None, tag=None, optional=None, default=None, contents=None, method=None): """ The optional parameter is not used, but rather included so we don't have to delete it from the parameter dictionary when passing as keyword args :param explicit: An int tag number for explicit tagging, or a 2-element tuple of class and tag. :param implicit: An int tag number for implicit tagging, or a 2-element tuple of class and tag. :param no_explicit: If explicit tagging info should be removed from this instance. Used internally to allow contructing the underlying value that has been wrapped in an explicit tag. :param tag_type: None for normal values, or one of "implicit", "explicit" for tagged values. Deprecated in favor of explicit and implicit params. :param class_: The class for the value - defaults to "universal" if tag_type is None, otherwise defaults to "context". Valid values include: - "universal" - "application" - "context" - "private" Deprecated in favor of explicit and implicit params. :param tag: The integer tag to override - usually this is used with tag_type or class_. Deprecated in favor of explicit and implicit params. :param optional: Dummy parameter that allows "optional" key in spec param dicts :param default: The default value to use if the value is currently None :param contents: A byte string of the encoded contents of the value :param method: The method for the value - no default value since this is normally set on a class. Valid values include: - "primitive" or 0 - "constructed" or 1 :raises: ValueError - when implicit, explicit, tag_type, class_ or tag are invalid values """ try: if self.__class__ not in _SETUP_CLASSES: cls = self.__class__ # Allow explicit to be specified as a simple 2-element tuple # instead of requiring the user make a nested tuple if cls.explicit is not None and isinstance(cls.explicit[0], int_types): cls.explicit = (cls.explicit, ) if hasattr(cls, '_setup'): self._setup() _SETUP_CLASSES[cls] = True # Normalize tagging values if explicit is not None: if isinstance(explicit, int_types): if class_ is None: class_ = 'context' explicit = (class_, explicit) # Prevent both explicit and tag_type == 'explicit' if tag_type == 'explicit': tag_type = None tag = None if implicit is not None: if isinstance(implicit, int_types): if class_ is None: class_ = 'context' implicit = (class_, implicit) # Prevent both implicit and tag_type == 'implicit' if tag_type == 'implicit': tag_type = None tag = None # Convert old tag_type API to explicit/implicit params if tag_type is not None: if class_ is None: class_ = 'context' if tag_type == 'explicit': explicit = (class_, tag) elif tag_type == 'implicit': implicit = (class_, tag) else: raise ValueError(unwrap( ''' tag_type must be one of "implicit", "explicit", not %s ''', repr(tag_type) )) if explicit is not None: # Ensure we have a tuple of 2-element tuples if len(explicit) == 2 and isinstance(explicit[1], int_types): explicit = (explicit, ) for class_, tag in explicit: invalid_class = None if isinstance(class_, int_types): if class_ not in CLASS_NUM_TO_NAME_MAP: invalid_class = class_ else: if class_ not in CLASS_NAME_TO_NUM_MAP: invalid_class = class_ class_ = CLASS_NAME_TO_NUM_MAP[class_] if invalid_class is not None: raise ValueError(unwrap( ''' explicit class must be one of "universal", "application", "context", "private", not %s ''', repr(invalid_class) )) if tag is not None: if not isinstance(tag, int_types): raise TypeError(unwrap( ''' explicit tag must be an integer, not %s ''', type_name(tag) )) if self.explicit is None: self.explicit = ((class_, tag), ) else: self.explicit = self.explicit + ((class_, tag), ) elif implicit is not None: class_, tag = implicit if class_ not in CLASS_NAME_TO_NUM_MAP: raise ValueError(unwrap( ''' implicit class must be one of "universal", "application", "context", "private", not %s ''', repr(class_) )) if tag is not None: if not isinstance(tag, int_types): raise TypeError(unwrap( ''' implicit tag must be an integer, not %s ''', type_name(tag) )) self.class_ = CLASS_NAME_TO_NUM_MAP[class_] self.tag = tag self.implicit = True else: if class_ is not None: if class_ not in CLASS_NAME_TO_NUM_MAP: raise ValueError(unwrap( ''' class_ must be one of "universal", "application", "context", "private", not %s ''', repr(class_) )) self.class_ = CLASS_NAME_TO_NUM_MAP[class_] if self.class_ is None: self.class_ = 0 if tag is not None: self.tag = tag if method is not None: if method not in set(["primitive", 0, "constructed", 1]): raise ValueError(unwrap( ''' method must be one of "primitive" or "constructed", not %s ''', repr(method) )) if method == "primitive": method = 0 elif method == "constructed": method = 1 self.method = method if no_explicit: self.explicit = None if contents is not None: self.contents = contents elif default is not None: self.set(default) except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while constructing %s' % type_name(self),) + args raise e def __str__(self): """ Since str is different in Python 2 and 3, this calls the appropriate method, __unicode__() or __bytes__() :return: A unicode string """ if _PY2: return self.__bytes__() else: return self.__unicode__() def __repr__(self): """ :return: A unicode string """ if _PY2: return '<%s %s b%s>' % (type_name(self), id(self), repr(self.dump())) else: return '<%s %s %s>' % (type_name(self), id(self), repr(self.dump())) def __bytes__(self): """ A fall-back method for print() in Python 2 :return: A byte string of the output of repr() """ return self.__repr__().encode('utf-8') def __unicode__(self): """ A fall-back method for print() in Python 3 :return: A unicode string of the output of repr() """ return self.__repr__() def _new_instance(self): """ Constructs a new copy of the current object, preserving any tagging :return: An Asn1Value object """ new_obj = self.__class__() new_obj.class_ = self.class_ new_obj.tag = self.tag new_obj.implicit = self.implicit new_obj.explicit = self.explicit return new_obj def __copy__(self): """ Implements the copy.copy() interface :return: A new shallow copy of the current Asn1Value object """ new_obj = self._new_instance() new_obj._copy(self, copy.copy) return new_obj def __deepcopy__(self, memo): """ Implements the copy.deepcopy() interface :param memo: A dict for memoization :return: A new deep copy of the current Asn1Value object """ new_obj = self._new_instance() memo[id(self)] = new_obj new_obj._copy(self, copy.deepcopy) return new_obj def copy(self): """ Copies the object, preserving any special tagging from it :return: An Asn1Value object """ return copy.deepcopy(self) def retag(self, tagging, tag=None): """ Copies the object, applying a new tagging to it :param tagging: A dict containing the keys "explicit" and "implicit". Legacy API allows a unicode string of "implicit" or "explicit". :param tag: A integer tag number. Only used when tagging is a unicode string. :return: An Asn1Value object """ # This is required to preserve the old API if not isinstance(tagging, dict): tagging = {tagging: tag} new_obj = self.__class__(explicit=tagging.get('explicit'), implicit=tagging.get('implicit')) new_obj._copy(self, copy.deepcopy) return new_obj def untag(self): """ Copies the object, removing any special tagging from it :return: An Asn1Value object """ new_obj = self.__class__() new_obj._copy(self, copy.deepcopy) return new_obj def _copy(self, other, copy_func): """ Copies the contents of another Asn1Value object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ if self.__class__ != other.__class__: raise TypeError(unwrap( ''' Can not copy values from %s object to %s object ''', type_name(other), type_name(self) )) self.contents = other.contents self._native = copy_func(other._native) def debug(self, nest_level=1): """ Show the binary data and parsed data in a tree structure """ prefix = ' ' * nest_level # This interacts with Any and moves the tag, implicit, explicit, _header, # contents, _footer to the parsed value so duplicate data isn't present has_parsed = hasattr(self, 'parsed') _basic_debug(prefix, self) if has_parsed: self.parsed.debug(nest_level + 2) elif hasattr(self, 'chosen'): self.chosen.debug(nest_level + 2) else: if _PY2 and isinstance(self.native, byte_cls): print('%s Native: b%s' % (prefix, repr(self.native))) else: print('%s Native: %s' % (prefix, self.native)) def dump(self, force=False): """ Encodes the value using DER :param force: If the encoded contents already exist, clear them and regenerate to ensure they are in DER format instead of BER format :return: A byte string of the DER-encoded value """ contents = self.contents # If the length is indefinite, force the re-encoding if self._header is not None and self._header[-1:] == b'\x80': force = True if self._header is None or force: if isinstance(self, Constructable) and self._indefinite: self.method = 0 header = _dump_header(self.class_, self.method, self.tag, self.contents) if self.explicit is not None: for class_, tag in self.explicit: header = _dump_header(class_, 1, tag, header + self.contents) + header self._header = header self._trailer = b'' return self._header + contents + self._trailer class ValueMap(): """ Basic functionality that allows for mapping values from ints or OIDs to python unicode strings """ # A dict from primitive value (int or OID) to unicode string. This needs # to be defined in the source code _map = None # A dict from unicode string to int/OID. This is automatically generated # from _map the first time it is needed _reverse_map = None def _setup(self): """ Generates _reverse_map from _map """ cls = self.__class__ if cls._map is None or cls._reverse_map is not None: return cls._reverse_map = {} for key, value in cls._map.items(): cls._reverse_map[value] = key class Castable(object): """ A mixin to handle converting an object between different classes that represent the same encoded value, but with different rules for converting to and from native Python values """ def cast(self, other_class): """ Converts the current object into an object of a different class. The new class must use the ASN.1 encoding for the value. :param other_class: The class to instantiate the new object from :return: An instance of the type other_class """ if other_class.tag != self.__class__.tag: raise TypeError(unwrap( ''' Can not covert a value from %s object to %s object since they use different tags: %d versus %d ''', type_name(other_class), type_name(self), other_class.tag, self.__class__.tag )) new_obj = other_class() new_obj.class_ = self.class_ new_obj.implicit = self.implicit new_obj.explicit = self.explicit new_obj._header = self._header new_obj.contents = self.contents new_obj._trailer = self._trailer if isinstance(self, Constructable): new_obj.method = self.method new_obj._indefinite = self._indefinite return new_obj class Constructable(object): """ A mixin to handle string types that may be constructed from chunks contained within an indefinite length BER-encoded container """ # Instance attribute indicating if an object was indefinite # length when parsed - affects parsing and dumping _indefinite = False def _merge_chunks(self): """ :return: A concatenation of the native values of the contained chunks """ if not self._indefinite: return self._as_chunk() pointer = 0 contents_len = len(self.contents) output = None while pointer < contents_len: # We pass the current class as the spec so content semantics are preserved sub_value, pointer = _parse_build(self.contents, pointer, spec=self.__class__) if output is None: output = sub_value._merge_chunks() else: output += sub_value._merge_chunks() if output is None: return self._as_chunk() return output def _as_chunk(self): """ A method to return a chunk of data that can be combined for constructed method values :return: A native Python value that can be added together. Examples include byte strings, unicode strings or tuples. """ return self.contents def _setable_native(self): """ Returns a native value that can be round-tripped into .set(), to result in a DER encoding. This differs from .native in that .native is designed for the end use, and may account for the fact that the merged value is further parsed as ASN.1, such as in the case of ParsableOctetString() and ParsableOctetBitString(). :return: A python value that is valid to pass to .set() """ return self.native def _copy(self, other, copy_func): """ Copies the contents of another Constructable object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ super(Constructable, self)._copy(other, copy_func) # We really don't want to dump BER encodings, so if we see an # indefinite encoding, let's re-encode it if other._indefinite: self.set(other._setable_native()) class Void(Asn1Value): """ A representation of an optional value that is not present. Has .native property and .dump() method to be compatible with other value classes. """ contents = b'' def __eq__(self, other): """ :param other: The other Primitive to compare to :return: A boolean """ return other.__class__ == self.__class__ def __nonzero__(self): return False def __len__(self): return 0 def __iter__(self): return iter(()) @property def native(self): """ The native Python datatype representation of this value :return: None """ return None def dump(self, force=False): """ Encodes the value using DER :param force: If the encoded contents already exist, clear them and regenerate to ensure they are in DER format instead of BER format :return: A byte string of the DER-encoded value """ return b'' VOID = Void() class Any(Asn1Value): """ A value class that can contain any value, and allows for easy parsing of the underlying encoded value using a spec. This is normally contained in a Structure that has an ObjectIdentifier field and _oid_pair and _oid_specs defined. """ # The parsed value object _parsed = None def __init__(self, value=None, **kwargs): """ Sets the value of the object before passing to Asn1Value.__init__() :param value: An Asn1Value object that will be set as the parsed value """ Asn1Value.__init__(self, **kwargs) try: if value is not None: if not isinstance(value, Asn1Value): raise TypeError(unwrap( ''' value must be an instance of Asn1Value, not %s ''', type_name(value) )) self._parsed = (value, value.__class__, None) self.contents = value.dump() except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while constructing %s' % type_name(self),) + args raise e @property def native(self): """ The native Python datatype representation of this value :return: The .native value from the parsed value object """ if self._parsed is None: self.parse() return self._parsed[0].native @property def parsed(self): """ Returns the parsed object from .parse() :return: The object returned by .parse() """ if self._parsed is None: self.parse() return self._parsed[0] def parse(self, spec=None, spec_params=None): """ Parses the contents generically, or using a spec with optional params :param spec: A class derived from Asn1Value that defines what class_ and tag the value should have, and the semantics of the encoded value. The return value will be of this type. If omitted, the encoded value will be decoded using the standard universal tag based on the encoded tag number. :param spec_params: A dict of params to pass to the spec object :return: An object of the type spec, or if not present, a child of Asn1Value """ if self._parsed is None or self._parsed[1:3] != (spec, spec_params): try: passed_params = spec_params or {} _tag_type_to_explicit_implicit(passed_params) if self.explicit is not None: if 'explicit' in passed_params: passed_params['explicit'] = self.explicit + passed_params['explicit'] else: passed_params['explicit'] = self.explicit contents = self._header + self.contents + self._trailer parsed_value, _ = _parse_build( contents, spec=spec, spec_params=passed_params ) self._parsed = (parsed_value, spec, spec_params) # Once we've parsed the Any value, clear any attributes from this object # since they are now duplicate self.tag = None self.explicit = None self.implicit = False self._header = b'' self.contents = contents self._trailer = b'' except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while parsing %s' % type_name(self),) + args raise e return self._parsed[0] def _copy(self, other, copy_func): """ Copies the contents of another Any object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ super(Any, self)._copy(other, copy_func) self._parsed = copy_func(other._parsed) def dump(self, force=False): """ Encodes the value using DER :param force: If the encoded contents already exist, clear them and regenerate to ensure they are in DER format instead of BER format :return: A byte string of the DER-encoded value """ if self._parsed is None: self.parse() return self._parsed[0].dump(force=force) class Choice(Asn1Value): """ A class to handle when a value may be one of several options """ # The index in _alternatives of the validated alternative _choice = None # The name of the chosen alternative _name = None # The Asn1Value object for the chosen alternative _parsed = None # Choice overrides .contents to be a property so that the code expecting # the .contents attribute will get the .contents of the chosen alternative _contents = None # A list of tuples in one of the following forms. # # Option 1, a unicode string field name and a value class # # ("name", Asn1ValueClass) # # Option 2, same as Option 1, but with a dict of class params # # ("name", Asn1ValueClass, {'explicit': 5}) _alternatives = None # A dict that maps tuples of (class_, tag) to an index in _alternatives _id_map = None # A dict that maps alternative names to an index in _alternatives _name_map = None @classmethod def load(cls, encoded_data, strict=False, **kwargs): """ Loads a BER/DER-encoded byte string using the current class as the spec :param encoded_data: A byte string of BER or DER encoded data :param strict: A boolean indicating if trailing data should be forbidden - if so, a ValueError will be raised when trailing data exists :return: A instance of the current class """ if not isinstance(encoded_data, byte_cls): raise TypeError('encoded_data must be a byte string, not %s' % type_name(encoded_data)) value, _ = _parse_build(encoded_data, spec=cls, spec_params=kwargs, strict=strict) return value def _setup(self): """ Generates _id_map from _alternatives to allow validating contents """ cls = self.__class__ cls._id_map = {} cls._name_map = {} for index, info in enumerate(cls._alternatives): if len(info) < 3: info = info + ({},) cls._alternatives[index] = info id_ = _build_id_tuple(info[2], info[1]) cls._id_map[id_] = index cls._name_map[info[0]] = index def __init__(self, name=None, value=None, **kwargs): """ Checks to ensure implicit tagging is not being used since it is incompatible with Choice, then forwards on to Asn1Value.__init__() :param name: The name of the alternative to be set - used with value. Alternatively this may be a dict with a single key being the name and the value being the value, or a two-element tuple of the name and the value. :param value: The alternative value to set - used with name :raises: ValueError - when implicit param is passed (or legacy tag_type param is "implicit") """ _tag_type_to_explicit_implicit(kwargs) Asn1Value.__init__(self, **kwargs) try: if kwargs.get('implicit') is not None: raise ValueError(unwrap( ''' The Choice type can not be implicitly tagged even if in an implicit module - due to its nature any tagging must be explicit ''' )) if name is not None: if isinstance(name, dict): if len(name) != 1: raise ValueError(unwrap( ''' When passing a dict as the "name" argument to %s, it must have a single key/value - however %d were present ''', type_name(self), len(name) )) name, value = list(name.items())[0] if isinstance(name, tuple): if len(name) != 2: raise ValueError(unwrap( ''' When passing a tuple as the "name" argument to %s, it must have two elements, the name and value - however %d were present ''', type_name(self), len(name) )) value = name[1] name = name[0] if name not in self._name_map: raise ValueError(unwrap( ''' The name specified, "%s", is not a valid alternative for %s ''', name, type_name(self) )) self._choice = self._name_map[name] _, spec, params = self._alternatives[self._choice] if not isinstance(value, spec): value = spec(value, **params) else: value = _fix_tagging(value, params) self._parsed = value except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while constructing %s' % type_name(self),) + args raise e @property def contents(self): """ :return: A byte string of the DER-encoded contents of the chosen alternative """ if self._parsed is not None: return self._parsed.contents return self._contents @contents.setter def contents(self, value): """ :param value: A byte string of the DER-encoded contents of the chosen alternative """ self._contents = value @property def name(self): """ :return: A unicode string of the field name of the chosen alternative """ if not self._name: self._name = self._alternatives[self._choice][0] return self._name def parse(self): """ Parses the detected alternative :return: An Asn1Value object of the chosen alternative """ if self._parsed is None: try: _, spec, params = self._alternatives[self._choice] self._parsed, _ = _parse_build(self._contents, spec=spec, spec_params=params) except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while parsing %s' % type_name(self),) + args raise e return self._parsed @property def chosen(self): """ :return: An Asn1Value object of the chosen alternative """ return self.parse() @property def native(self): """ The native Python datatype representation of this value :return: The .native value from the contained value object """ return self.chosen.native def validate(self, class_, tag, contents): """ Ensures that the class and tag specified exist as an alternative :param class_: The integer class_ from the encoded value header :param tag: The integer tag from the encoded value header :param contents: A byte string of the contents of the value - used when the object is explicitly tagged :raises: ValueError - when value is not a valid alternative """ id_ = (class_, tag) if self.explicit is not None: if self.explicit[-1] != id_: raise ValueError(unwrap( ''' %s was explicitly tagged, but the value provided does not match the class and tag ''', type_name(self) )) ((class_, _, tag, _, _, _), _) = _parse(contents, len(contents)) id_ = (class_, tag) if id_ in self._id_map: self._choice = self._id_map[id_] return # This means the Choice was implicitly tagged if self.class_ is not None and self.tag is not None: if len(self._alternatives) > 1: raise ValueError(unwrap( ''' %s was implicitly tagged, but more than one alternative exists ''', type_name(self) )) if id_ == (self.class_, self.tag): self._choice = 0 return asn1 = self._format_class_tag(class_, tag) asn1s = [self._format_class_tag(pair[0], pair[1]) for pair in self._id_map] raise ValueError(unwrap( ''' Value %s did not match the class and tag of any of the alternatives in %s: %s ''', asn1, type_name(self), ', '.join(asn1s) )) def _format_class_tag(self, class_, tag): """ :return: A unicode string of a human-friendly representation of the class and tag """ return '[%s %s]' % (CLASS_NUM_TO_NAME_MAP[class_].upper(), tag) def _copy(self, other, copy_func): """ Copies the contents of another Choice object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ super(Choice, self)._copy(other, copy_func) self._choice = other._choice self._name = other._name self._parsed = copy_func(other._parsed) def dump(self, force=False): """ Encodes the value using DER :param force: If the encoded contents already exist, clear them and regenerate to ensure they are in DER format instead of BER format :return: A byte string of the DER-encoded value """ # If the length is indefinite, force the re-encoding if self._header is not None and self._header[-1:] == b'\x80': force = True self._contents = self.chosen.dump(force=force) if self._header is None or force: self._header = b'' if self.explicit is not None: for class_, tag in self.explicit: self._header = _dump_header(class_, 1, tag, self._header + self._contents) + self._header return self._header + self._contents class Concat(object): """ A class that contains two or more encoded child values concatentated together. THIS IS NOT PART OF THE ASN.1 SPECIFICATION! This exists to handle the x509.TrustedCertificate() class for OpenSSL certificates containing extra information. """ # A list of the specs of the concatenated values _child_specs = None _children = None @classmethod def load(cls, encoded_data, strict=False): """ Loads a BER/DER-encoded byte string using the current class as the spec :param encoded_data: A byte string of BER or DER encoded data :param strict: A boolean indicating if trailing data should be forbidden - if so, a ValueError will be raised when trailing data exists :return: A Concat object """ return cls(contents=encoded_data, strict=strict) def __init__(self, value=None, contents=None, strict=False): """ :param value: A native Python datatype to initialize the object value with :param contents: A byte string of the encoded contents of the value :param strict: A boolean indicating if trailing data should be forbidden - if so, a ValueError will be raised when trailing data exists in contents :raises: ValueError - when an error occurs with one of the children TypeError - when an error occurs with one of the children """ if contents is not None: try: contents_len = len(contents) self._children = [] offset = 0 for spec in self._child_specs: if offset < contents_len: child_value, offset = _parse_build(contents, pointer=offset, spec=spec) else: child_value = spec() self._children.append(child_value) if strict and offset != contents_len: extra_bytes = contents_len - offset raise ValueError('Extra data - %d bytes of trailing data were provided' % extra_bytes) except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while constructing %s' % type_name(self),) + args raise e if value is not None: if self._children is None: self._children = [None] * len(self._child_specs) for index, data in enumerate(value): self.__setitem__(index, data) def __str__(self): """ Since str is different in Python 2 and 3, this calls the appropriate method, __unicode__() or __bytes__() :return: A unicode string """ if _PY2: return self.__bytes__() else: return self.__unicode__() def __bytes__(self): """ A byte string of the DER-encoded contents """ return self.dump() def __unicode__(self): """ :return: A unicode string """ return repr(self) def __repr__(self): """ :return: A unicode string """ return '<%s %s %s>' % (type_name(self), id(self), repr(self.dump())) def __copy__(self): """ Implements the copy.copy() interface :return: A new shallow copy of the Concat object """ new_obj = self.__class__() new_obj._copy(self, copy.copy) return new_obj def __deepcopy__(self, memo): """ Implements the copy.deepcopy() interface :param memo: A dict for memoization :return: A new deep copy of the Concat object and all child objects """ new_obj = self.__class__() memo[id(self)] = new_obj new_obj._copy(self, copy.deepcopy) return new_obj def copy(self): """ Copies the object :return: A Concat object """ return copy.deepcopy(self) def _copy(self, other, copy_func): """ Copies the contents of another Concat object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ if self.__class__ != other.__class__: raise TypeError(unwrap( ''' Can not copy values from %s object to %s object ''', type_name(other), type_name(self) )) self._children = copy_func(other._children) def debug(self, nest_level=1): """ Show the binary data and parsed data in a tree structure """ prefix = ' ' * nest_level print('%s%s Object #%s' % (prefix, type_name(self), id(self))) print('%s Children:' % (prefix,)) for child in self._children: child.debug(nest_level + 2) def dump(self, force=False): """ Encodes the value using DER :param force: If the encoded contents already exist, clear them and regenerate to ensure they are in DER format instead of BER format :return: A byte string of the DER-encoded value """ contents = b'' for child in self._children: contents += child.dump(force=force) return contents @property def contents(self): """ :return: A byte string of the DER-encoded contents of the children """ return self.dump() def __len__(self): """ :return: Integer """ return len(self._children) def __getitem__(self, key): """ Allows accessing children by index :param key: An integer of the child index :raises: KeyError - when an index is invalid :return: The Asn1Value object of the child specified """ if key > len(self._child_specs) - 1 or key < 0: raise KeyError(unwrap( ''' No child is definition for position %d of %s ''', key, type_name(self) )) return self._children[key] def __setitem__(self, key, value): """ Allows settings children by index :param key: An integer of the child index :param value: An Asn1Value object to set the child to :raises: KeyError - when an index is invalid ValueError - when the value is not an instance of Asn1Value """ if key > len(self._child_specs) - 1 or key < 0: raise KeyError(unwrap( ''' No child is defined for position %d of %s ''', key, type_name(self) )) if not isinstance(value, Asn1Value): raise ValueError(unwrap( ''' Value for child %s of %s is not an instance of asn1crypto.core.Asn1Value ''', key, type_name(self) )) self._children[key] = value def __iter__(self): """ :return: An iterator of child values """ return iter(self._children) class Primitive(Asn1Value): """ Sets the class_ and method attributes for primitive, universal values """ class_ = 0 method = 0 def __init__(self, value=None, default=None, contents=None, **kwargs): """ Sets the value of the object before passing to Asn1Value.__init__() :param value: A native Python datatype to initialize the object value with :param default: The default value if no value is specified :param contents: A byte string of the encoded contents of the value """ Asn1Value.__init__(self, **kwargs) try: if contents is not None: self.contents = contents elif value is not None: self.set(value) elif default is not None: self.set(default) except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while constructing %s' % type_name(self),) + args raise e def set(self, value): """ Sets the value of the object :param value: A byte string """ if not isinstance(value, byte_cls): raise TypeError(unwrap( ''' %s value must be a byte string, not %s ''', type_name(self), type_name(value) )) self._native = value self.contents = value self._header = None if self._trailer != b'': self._trailer = b'' def dump(self, force=False): """ Encodes the value using DER :param force: If the encoded contents already exist, clear them and regenerate to ensure they are in DER format instead of BER format :return: A byte string of the DER-encoded value """ # If the length is indefinite, force the re-encoding if self._header is not None and self._header[-1:] == b'\x80': force = True if force: native = self.native self.contents = None self.set(native) return Asn1Value.dump(self) def __ne__(self, other): return not self == other def __eq__(self, other): """ :param other: The other Primitive to compare to :return: A boolean """ if not isinstance(other, Primitive): return False if self.contents != other.contents: return False # We compare class tag numbers since object tag numbers could be # different due to implicit or explicit tagging if self.__class__.tag != other.__class__.tag: return False if self.__class__ == other.__class__ and self.contents == other.contents: return True # If the objects share a common base class that is not too low-level # then we can compare the contents self_bases = (set(self.__class__.__bases__) | set([self.__class__])) - set([Asn1Value, Primitive, ValueMap]) other_bases = (set(other.__class__.__bases__) | set([other.__class__])) - set([Asn1Value, Primitive, ValueMap]) if self_bases | other_bases: return self.contents == other.contents # When tagging is going on, do the extra work of constructing new # objects to see if the dumped representation are the same if self.implicit or self.explicit or other.implicit or other.explicit: return self.untag().dump() == other.untag().dump() return self.dump() == other.dump() class AbstractString(Constructable, Primitive): """ A base class for all strings that have a known encoding. In general, we do not worry ourselves with confirming that the decoded values match a specific set of characters, only that they are decoded into a Python unicode string """ # The Python encoding name to use when decoding or encoded the contents _encoding = 'latin1' # Instance attribute of (possibly-merged) unicode string _unicode = None def set(self, value): """ Sets the value of the string :param value: A unicode string """ if not isinstance(value, str_cls): raise TypeError(unwrap( ''' %s value must be a unicode string, not %s ''', type_name(self), type_name(value) )) self._unicode = value self.contents = value.encode(self._encoding) self._header = None if self._indefinite: self._indefinite = False self.method = 0 if self._trailer != b'': self._trailer = b'' def __unicode__(self): """ :return: A unicode string """ if self.contents is None: return '' if self._unicode is None: self._unicode = self._merge_chunks().decode(self._encoding) return self._unicode def _copy(self, other, copy_func): """ Copies the contents of another AbstractString object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ super(AbstractString, self)._copy(other, copy_func) self._unicode = other._unicode @property def native(self): """ The native Python datatype representation of this value :return: A unicode string or None """ if self.contents is None: return None return self.__unicode__() class Boolean(Primitive): """ Represents a boolean in both ASN.1 and Python """ tag = 1 def set(self, value): """ Sets the value of the object :param value: True, False or another value that works with bool() """ self._native = bool(value) self.contents = b'\x00' if not value else b'\xff' self._header = None if self._trailer != b'': self._trailer = b'' # Python 2 def __nonzero__(self): """ :return: True or False """ return self.__bool__() def __bool__(self): """ :return: True or False """ return self.contents != b'\x00' @property def native(self): """ The native Python datatype representation of this value :return: True, False or None """ if self.contents is None: return None if self._native is None: self._native = self.__bool__() return self._native class Integer(Primitive, ValueMap): """ Represents an integer in both ASN.1 and Python """ tag = 2 def set(self, value): """ Sets the value of the object :param value: An integer, or a unicode string if _map is set :raises: ValueError - when an invalid value is passed """ if isinstance(value, str_cls): if self._map is None: raise ValueError(unwrap( ''' %s value is a unicode string, but no _map provided ''', type_name(self) )) if value not in self._reverse_map: raise ValueError(unwrap( ''' %s value, %s, is not present in the _map ''', type_name(self), value )) value = self._reverse_map[value] elif not isinstance(value, int_types): raise TypeError(unwrap( ''' %s value must be an integer or unicode string when a name_map is provided, not %s ''', type_name(self), type_name(value) )) self._native = self._map[value] if self._map and value in self._map else value self.contents = int_to_bytes(value, signed=True) self._header = None if self._trailer != b'': self._trailer = b'' def __int__(self): """ :return: An integer """ return int_from_bytes(self.contents, signed=True) @property def native(self): """ The native Python datatype representation of this value :return: An integer or None """ if self.contents is None: return None if self._native is None: self._native = self.__int__() if self._map is not None and self._native in self._map: self._native = self._map[self._native] return self._native class _IntegerBitString(object): """ A mixin for IntegerBitString and BitString to parse the contents as an integer. """ # Tuple of 1s and 0s; set through native _unused_bits = () def _as_chunk(self): """ Parse the contents of a primitive BitString encoding as an integer value. Allows reconstructing indefinite length values. :raises: ValueError - when an invalid value is passed :return: A list with one tuple (value, bits, unused_bits) where value is an integer with the value of the BitString, bits is the bit count of value and unused_bits is a tuple of 1s and 0s. """ if self._indefinite: # return an empty chunk, for cases like \x23\x80\x00\x00 return [] unused_bits_len = ord(self.contents[0]) if _PY2 else self.contents[0] value = int_from_bytes(self.contents[1:]) bits = (len(self.contents) - 1) * 8 if not unused_bits_len: return [(value, bits, ())] if len(self.contents) == 1: # Disallowed by X.690 §8.6.2.3 raise ValueError('Empty bit string has {0} unused bits'.format(unused_bits_len)) if unused_bits_len > 7: # Disallowed by X.690 §8.6.2.2 raise ValueError('Bit string has {0} unused bits'.format(unused_bits_len)) unused_bits = _int_to_bit_tuple(value & ((1 << unused_bits_len) - 1), unused_bits_len) value >>= unused_bits_len bits -= unused_bits_len return [(value, bits, unused_bits)] def _chunks_to_int(self): """ Combines the chunks into a single value. :raises: ValueError - when an invalid value is passed :return: A tuple (value, bits, unused_bits) where value is an integer with the value of the BitString, bits is the bit count of value and unused_bits is a tuple of 1s and 0s. """ if not self._indefinite: # Fast path return self._as_chunk()[0] value = 0 total_bits = 0 unused_bits = () # X.690 §8.6.3 allows empty indefinite encodings for chunk, bits, unused_bits in self._merge_chunks(): if total_bits & 7: # Disallowed by X.690 §8.6.4 raise ValueError('Only last chunk in a bit string may have unused bits') total_bits += bits value = (value << bits) | chunk return value, total_bits, unused_bits def _copy(self, other, copy_func): """ Copies the contents of another _IntegerBitString object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ super(_IntegerBitString, self)._copy(other, copy_func) self._unused_bits = other._unused_bits @property def unused_bits(self): """ The unused bits of the bit string encoding. :return: A tuple of 1s and 0s """ # call native to set _unused_bits self.native return self._unused_bits class BitString(_IntegerBitString, Constructable, Castable, Primitive, ValueMap): """ Represents a bit string from ASN.1 as a Python tuple of 1s and 0s """ tag = 3 _size = None def _setup(self): """ Generates _reverse_map from _map """ ValueMap._setup(self) cls = self.__class__ if cls._map is not None: cls._size = max(self._map.keys()) + 1 def set(self, value): """ Sets the value of the object :param value: An integer or a tuple of integers 0 and 1 :raises: ValueError - when an invalid value is passed """ if isinstance(value, set): if self._map is None: raise ValueError(unwrap( ''' %s._map has not been defined ''', type_name(self) )) bits = [0] * self._size self._native = value for index in range(0, self._size): key = self._map.get(index) if key is None: continue if key in value: bits[index] = 1 value = ''.join(map(str_cls, bits)) elif value.__class__ == tuple: if self._map is None: self._native = value else: self._native = set() for index, bit in enumerate(value): if bit: name = self._map.get(index, index) self._native.add(name) value = ''.join(map(str_cls, value)) else: raise TypeError(unwrap( ''' %s value must be a tuple of ones and zeros or a set of unicode strings, not %s ''', type_name(self), type_name(value) )) if self._map is not None: if len(value) > self._size: raise ValueError(unwrap( ''' %s value must be at most %s bits long, specified was %s long ''', type_name(self), self._size, len(value) )) # A NamedBitList must have trailing zero bit truncated. See # https://www.itu.int/ITU-T/studygroups/com17/languages/X.690-0207.pdf # section 11.2, # https://tools.ietf.org/html/rfc5280#page-134 and # https://www.ietf.org/mail-archive/web/pkix/current/msg10443.html value = value.rstrip('0') size = len(value) size_mod = size % 8 extra_bits = 0 if size_mod != 0: extra_bits = 8 - size_mod value += '0' * extra_bits size_in_bytes = int(math.ceil(size / 8)) if extra_bits: extra_bits_byte = int_to_bytes(extra_bits) else: extra_bits_byte = b'\x00' if value == '': value_bytes = b'' else: value_bytes = int_to_bytes(int(value, 2)) if len(value_bytes) != size_in_bytes: value_bytes = (b'\x00' * (size_in_bytes - len(value_bytes))) + value_bytes self.contents = extra_bits_byte + value_bytes self._unused_bits = (0,) * extra_bits self._header = None if self._indefinite: self._indefinite = False self.method = 0 if self._trailer != b'': self._trailer = b'' def __getitem__(self, key): """ Retrieves a boolean version of one of the bits based on a name from the _map :param key: The unicode string of one of the bit names :raises: ValueError - when _map is not set or the key name is invalid :return: A boolean if the bit is set """ is_int = isinstance(key, int_types) if not is_int: if not isinstance(self._map, dict): raise ValueError(unwrap( ''' %s._map has not been defined ''', type_name(self) )) if key not in self._reverse_map: raise ValueError(unwrap( ''' %s._map does not contain an entry for "%s" ''', type_name(self), key )) if self._native is None: self.native if self._map is None: if len(self._native) >= key + 1: return bool(self._native[key]) return False if is_int: key = self._map.get(key, key) return key in self._native def __setitem__(self, key, value): """ Sets one of the bits based on a name from the _map :param key: The unicode string of one of the bit names :param value: A boolean value :raises: ValueError - when _map is not set or the key name is invalid """ is_int = isinstance(key, int_types) if not is_int: if self._map is None: raise ValueError(unwrap( ''' %s._map has not been defined ''', type_name(self) )) if key not in self._reverse_map: raise ValueError(unwrap( ''' %s._map does not contain an entry for "%s" ''', type_name(self), key )) if self._native is None: self.native if self._map is None: new_native = list(self._native) max_key = len(new_native) - 1 if key > max_key: new_native.extend([0] * (key - max_key)) new_native[key] = 1 if value else 0 self._native = tuple(new_native) else: if is_int: key = self._map.get(key, key) if value: if key not in self._native: self._native.add(key) else: if key in self._native: self._native.remove(key) self.set(self._native) @property def native(self): """ The native Python datatype representation of this value :return: If a _map is set, a set of names, or if no _map is set, a tuple of integers 1 and 0. None if no value. """ # For BitString we default the value to be all zeros if self.contents is None: if self._map is None: self.set(()) else: self.set(set()) if self._native is None: int_value, bit_count, self._unused_bits = self._chunks_to_int() bits = _int_to_bit_tuple(int_value, bit_count) if self._map: self._native = set() for index, bit in enumerate(bits): if bit: name = self._map.get(index, index) self._native.add(name) else: self._native = bits return self._native class OctetBitString(Constructable, Castable, Primitive): """ Represents a bit string in ASN.1 as a Python byte string """ tag = 3 # Instance attribute of (possibly-merged) byte string _bytes = None # Tuple of 1s and 0s; set through native _unused_bits = () def set(self, value): """ Sets the value of the object :param value: A byte string :raises: ValueError - when an invalid value is passed """ if not isinstance(value, byte_cls): raise TypeError(unwrap( ''' %s value must be a byte string, not %s ''', type_name(self), type_name(value) )) self._bytes = value # Set the unused bits to 0 self.contents = b'\x00' + value self._unused_bits = () self._header = None if self._indefinite: self._indefinite = False self.method = 0 if self._trailer != b'': self._trailer = b'' def __bytes__(self): """ :return: A byte string """ if self.contents is None: return b'' if self._bytes is None: if not self._indefinite: self._bytes, self._unused_bits = self._as_chunk()[0] else: chunks = self._merge_chunks() self._unused_bits = () for chunk in chunks: if self._unused_bits: # Disallowed by X.690 §8.6.4 raise ValueError('Only last chunk in a bit string may have unused bits') self._unused_bits = chunk[1] self._bytes = b''.join(chunk[0] for chunk in chunks) return self._bytes def _copy(self, other, copy_func): """ Copies the contents of another OctetBitString object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ super(OctetBitString, self)._copy(other, copy_func) self._bytes = other._bytes self._unused_bits = other._unused_bits def _as_chunk(self): """ Allows reconstructing indefinite length values :raises: ValueError - when an invalid value is passed :return: List with one tuple, consisting of a byte string and an integer (unused bits) """ unused_bits_len = ord(self.contents[0]) if _PY2 else self.contents[0] if not unused_bits_len: return [(self.contents[1:], ())] if len(self.contents) == 1: # Disallowed by X.690 §8.6.2.3 raise ValueError('Empty bit string has {0} unused bits'.format(unused_bits_len)) if unused_bits_len > 7: # Disallowed by X.690 §8.6.2.2 raise ValueError('Bit string has {0} unused bits'.format(unused_bits_len)) mask = (1 << unused_bits_len) - 1 last_byte = ord(self.contents[-1]) if _PY2 else self.contents[-1] # zero out the unused bits in the last byte. zeroed_byte = last_byte & ~mask value = self.contents[1:-1] + (chr(zeroed_byte) if _PY2 else bytes((zeroed_byte,))) unused_bits = _int_to_bit_tuple(last_byte & mask, unused_bits_len) return [(value, unused_bits)] @property def native(self): """ The native Python datatype representation of this value :return: A byte string or None """ if self.contents is None: return None return self.__bytes__() @property def unused_bits(self): """ The unused bits of the bit string encoding. :return: A tuple of 1s and 0s """ # call native to set _unused_bits self.native return self._unused_bits class IntegerBitString(_IntegerBitString, Constructable, Castable, Primitive): """ Represents a bit string in ASN.1 as a Python integer """ tag = 3 def set(self, value): """ Sets the value of the object :param value: An integer :raises: ValueError - when an invalid value is passed """ if not isinstance(value, int_types): raise TypeError(unwrap( ''' %s value must be a positive integer, not %s ''', type_name(self), type_name(value) )) if value < 0: raise ValueError(unwrap( ''' %s value must be a positive integer, not %d ''', type_name(self), value )) self._native = value # Set the unused bits to 0 self.contents = b'\x00' + int_to_bytes(value, signed=True) self._unused_bits = () self._header = None if self._indefinite: self._indefinite = False self.method = 0 if self._trailer != b'': self._trailer = b'' @property def native(self): """ The native Python datatype representation of this value :return: An integer or None """ if self.contents is None: return None if self._native is None: self._native, __, self._unused_bits = self._chunks_to_int() return self._native class OctetString(Constructable, Castable, Primitive): """ Represents a byte string in both ASN.1 and Python """ tag = 4 # Instance attribute of (possibly-merged) byte string _bytes = None def set(self, value): """ Sets the value of the object :param value: A byte string """ if not isinstance(value, byte_cls): raise TypeError(unwrap( ''' %s value must be a byte string, not %s ''', type_name(self), type_name(value) )) self._bytes = value self.contents = value self._header = None if self._indefinite: self._indefinite = False self.method = 0 if self._trailer != b'': self._trailer = b'' def __bytes__(self): """ :return: A byte string """ if self.contents is None: return b'' if self._bytes is None: self._bytes = self._merge_chunks() return self._bytes def _copy(self, other, copy_func): """ Copies the contents of another OctetString object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ super(OctetString, self)._copy(other, copy_func) self._bytes = other._bytes @property def native(self): """ The native Python datatype representation of this value :return: A byte string or None """ if self.contents is None: return None return self.__bytes__() class IntegerOctetString(Constructable, Castable, Primitive): """ Represents a byte string in ASN.1 as a Python integer """ tag = 4 # An explicit length in bytes the integer should be encoded to. This should # generally not be used since DER defines a canonical encoding, however some # use of this, such as when storing elliptic curve private keys, requires an # exact number of bytes, even if the leading bytes are null. _encoded_width = None def set(self, value): """ Sets the value of the object :param value: An integer :raises: ValueError - when an invalid value is passed """ if not isinstance(value, int_types): raise TypeError(unwrap( ''' %s value must be a positive integer, not %s ''', type_name(self), type_name(value) )) if value < 0: raise ValueError(unwrap( ''' %s value must be a positive integer, not %d ''', type_name(self), value )) self._native = value self.contents = int_to_bytes(value, signed=False, width=self._encoded_width) self._header = None if self._indefinite: self._indefinite = False self.method = 0 if self._trailer != b'': self._trailer = b'' @property def native(self): """ The native Python datatype representation of this value :return: An integer or None """ if self.contents is None: return None if self._native is None: self._native = int_from_bytes(self._merge_chunks()) return self._native def set_encoded_width(self, width): """ Set the explicit enoding width for the integer :param width: An integer byte width to encode the integer to """ self._encoded_width = width # Make sure the encoded value is up-to-date with the proper width if self.contents is not None and len(self.contents) != width: self.set(self.native) class ParsableOctetString(Constructable, Castable, Primitive): tag = 4 _parsed = None # Instance attribute of (possibly-merged) byte string _bytes = None def __init__(self, value=None, parsed=None, **kwargs): """ Allows providing a parsed object that will be serialized to get the byte string value :param value: A native Python datatype to initialize the object value with :param parsed: If value is None and this is an Asn1Value object, this will be set as the parsed value, and the value will be obtained by calling .dump() on this object. """ set_parsed = False if value is None and parsed is not None and isinstance(parsed, Asn1Value): value = parsed.dump() set_parsed = True Primitive.__init__(self, value=value, **kwargs) if set_parsed: self._parsed = (parsed, parsed.__class__, None) def set(self, value): """ Sets the value of the object :param value: A byte string """ if not isinstance(value, byte_cls): raise TypeError(unwrap( ''' %s value must be a byte string, not %s ''', type_name(self), type_name(value) )) self._bytes = value self.contents = value self._header = None if self._indefinite: self._indefinite = False self.method = 0 if self._trailer != b'': self._trailer = b'' def parse(self, spec=None, spec_params=None): """ Parses the contents generically, or using a spec with optional params :param spec: A class derived from Asn1Value that defines what class_ and tag the value should have, and the semantics of the encoded value. The return value will be of this type. If omitted, the encoded value will be decoded using the standard universal tag based on the encoded tag number. :param spec_params: A dict of params to pass to the spec object :return: An object of the type spec, or if not present, a child of Asn1Value """ if self._parsed is None or self._parsed[1:3] != (spec, spec_params): parsed_value, _ = _parse_build(self.__bytes__(), spec=spec, spec_params=spec_params) self._parsed = (parsed_value, spec, spec_params) return self._parsed[0] def __bytes__(self): """ :return: A byte string """ if self.contents is None: return b'' if self._bytes is None: self._bytes = self._merge_chunks() return self._bytes def _setable_native(self): """ Returns a byte string that can be passed into .set() :return: A python value that is valid to pass to .set() """ return self.__bytes__() def _copy(self, other, copy_func): """ Copies the contents of another ParsableOctetString object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ super(ParsableOctetString, self)._copy(other, copy_func) self._bytes = other._bytes self._parsed = copy_func(other._parsed) @property def native(self): """ The native Python datatype representation of this value :return: A byte string or None """ if self.contents is None: return None if self._parsed is not None: return self._parsed[0].native else: return self.__bytes__() @property def parsed(self): """ Returns the parsed object from .parse() :return: The object returned by .parse() """ if self._parsed is None: self.parse() return self._parsed[0] def dump(self, force=False): """ Encodes the value using DER :param force: If the encoded contents already exist, clear them and regenerate to ensure they are in DER format instead of BER format :return: A byte string of the DER-encoded value """ # If the length is indefinite, force the re-encoding if self._indefinite: force = True if force: if self._parsed is not None: native = self.parsed.dump(force=force) else: native = self.native self.contents = None self.set(native) return Asn1Value.dump(self) class ParsableOctetBitString(ParsableOctetString): tag = 3 def set(self, value): """ Sets the value of the object :param value: A byte string :raises: ValueError - when an invalid value is passed """ if not isinstance(value, byte_cls): raise TypeError(unwrap( ''' %s value must be a byte string, not %s ''', type_name(self), type_name(value) )) self._bytes = value # Set the unused bits to 0 self.contents = b'\x00' + value self._header = None if self._indefinite: self._indefinite = False self.method = 0 if self._trailer != b'': self._trailer = b'' def _as_chunk(self): """ Allows reconstructing indefinite length values :raises: ValueError - when an invalid value is passed :return: A byte string """ unused_bits_len = ord(self.contents[0]) if _PY2 else self.contents[0] if unused_bits_len: raise ValueError('ParsableOctetBitString should have no unused bits') return self.contents[1:] class Null(Primitive): """ Represents a null value in ASN.1 as None in Python """ tag = 5 contents = b'' def set(self, value): """ Sets the value of the object :param value: None """ self.contents = b'' @property def native(self): """ The native Python datatype representation of this value :return: None """ return None class ObjectIdentifier(Primitive, ValueMap): """ Represents an object identifier in ASN.1 as a Python unicode dotted integer string """ tag = 6 # A unicode string of the dotted form of the object identifier _dotted = None @classmethod def map(cls, value): """ Converts a dotted unicode string OID into a mapped unicode string :param value: A dotted unicode string OID :raises: ValueError - when no _map dict has been defined on the class TypeError - when value is not a unicode string :return: A mapped unicode string """ if cls._map is None: raise ValueError(unwrap( ''' %s._map has not been defined ''', type_name(cls) )) if not isinstance(value, str_cls): raise TypeError(unwrap( ''' value must be a unicode string, not %s ''', type_name(value) )) return cls._map.get(value, value) @classmethod def unmap(cls, value): """ Converts a mapped unicode string value into a dotted unicode string OID :param value: A mapped unicode string OR dotted unicode string OID :raises: ValueError - when no _map dict has been defined on the class or the value can't be unmapped TypeError - when value is not a unicode string :return: A dotted unicode string OID """ if cls not in _SETUP_CLASSES: cls()._setup() _SETUP_CLASSES[cls] = True if cls._map is None: raise ValueError(unwrap( ''' %s._map has not been defined ''', type_name(cls) )) if not isinstance(value, str_cls): raise TypeError(unwrap( ''' value must be a unicode string, not %s ''', type_name(value) )) if value in cls._reverse_map: return cls._reverse_map[value] if not _OID_RE.match(value): raise ValueError(unwrap( ''' %s._map does not contain an entry for "%s" ''', type_name(cls), value )) return value def set(self, value): """ Sets the value of the object :param value: A unicode string. May be a dotted integer string, or if _map is provided, one of the mapped values. :raises: ValueError - when an invalid value is passed """ if not isinstance(value, str_cls): raise TypeError(unwrap( ''' %s value must be a unicode string, not %s ''', type_name(self), type_name(value) )) self._native = value if self._map is not None: if value in self._reverse_map: value = self._reverse_map[value] self.contents = b'' first = None for index, part in enumerate(value.split('.')): part = int(part) # The first two parts are merged into a single byte if index == 0: first = part continue elif index == 1: if first > 2: raise ValueError(unwrap( ''' First arc must be one of 0, 1 or 2, not %s ''', repr(first) )) elif first < 2 and part >= 40: raise ValueError(unwrap( ''' Second arc must be less than 40 if first arc is 0 or 1, not %s ''', repr(part) )) part = (first * 40) + part encoded_part = chr_cls(0x7F & part) part = part >> 7 while part > 0: encoded_part = chr_cls(0x80 | (0x7F & part)) + encoded_part part = part >> 7 self.contents += encoded_part self._header = None if self._trailer != b'': self._trailer = b'' def __unicode__(self): """ :return: A unicode string """ return self.dotted @property def dotted(self): """ :return: A unicode string of the object identifier in dotted notation, thus ignoring any mapped value """ if self._dotted is None: output = [] part = 0 for byte in self.contents: if _PY2: byte = ord(byte) part = part * 128 part += byte & 127 # Last byte in subidentifier has the eighth bit set to 0 if byte & 0x80 == 0: if len(output) == 0: if part >= 80: output.append(str_cls(2)) output.append(str_cls(part - 80)) elif part >= 40: output.append(str_cls(1)) output.append(str_cls(part - 40)) else: output.append(str_cls(0)) output.append(str_cls(part)) else: output.append(str_cls(part)) part = 0 self._dotted = '.'.join(output) return self._dotted @property def native(self): """ The native Python datatype representation of this value :return: A unicode string or None. If _map is not defined, the unicode string is a string of dotted integers. If _map is defined and the dotted string is present in the _map, the mapped value is returned. """ if self.contents is None: return None if self._native is None: self._native = self.dotted if self._map is not None and self._native in self._map: self._native = self._map[self._native] return self._native class ObjectDescriptor(Primitive): """ Represents an object descriptor from ASN.1 - no Python implementation """ tag = 7 class InstanceOf(Primitive): """ Represents an instance from ASN.1 - no Python implementation """ tag = 8 class Real(Primitive): """ Represents a real number from ASN.1 - no Python implementation """ tag = 9 class Enumerated(Integer): """ Represents a enumerated list of integers from ASN.1 as a Python unicode string """ tag = 10 def set(self, value): """ Sets the value of the object :param value: An integer or a unicode string from _map :raises: ValueError - when an invalid value is passed """ if not isinstance(value, int_types) and not isinstance(value, str_cls): raise TypeError(unwrap( ''' %s value must be an integer or a unicode string, not %s ''', type_name(self), type_name(value) )) if isinstance(value, str_cls): if value not in self._reverse_map: raise ValueError(unwrap( ''' %s value "%s" is not a valid value ''', type_name(self), value )) value = self._reverse_map[value] elif value not in self._map: raise ValueError(unwrap( ''' %s value %s is not a valid value ''', type_name(self), value )) Integer.set(self, value) @property def native(self): """ The native Python datatype representation of this value :return: A unicode string or None """ if self.contents is None: return None if self._native is None: self._native = self._map[self.__int__()] return self._native class UTF8String(AbstractString): """ Represents a UTF-8 string from ASN.1 as a Python unicode string """ tag = 12 _encoding = 'utf-8' class RelativeOid(ObjectIdentifier): """ Represents an object identifier in ASN.1 as a Python unicode dotted integer string """ tag = 13 class Sequence(Asn1Value): """ Represents a sequence of fields from ASN.1 as a Python object with a dict-like interface """ tag = 16 class_ = 0 method = 1 # A list of child objects, in order of _fields children = None # Sequence overrides .contents to be a property so that the mutated state # of child objects can be checked to ensure everything is up-to-date _contents = None # Variable to track if the object has been mutated _mutated = False # A list of tuples in one of the following forms. # # Option 1, a unicode string field name and a value class # # ("name", Asn1ValueClass) # # Option 2, same as Option 1, but with a dict of class params # # ("name", Asn1ValueClass, {'explicit': 5}) _fields = [] # A dict with keys being the name of a field and the value being a unicode # string of the method name on self to call to get the spec for that field _spec_callbacks = None # A dict that maps unicode string field names to an index in _fields _field_map = None # A list in the same order as _fields that has tuples in the form (class_, tag) _field_ids = None # An optional 2-element tuple that defines the field names of an OID field # and the field that the OID should be used to help decode. Works with the # _oid_specs attribute. _oid_pair = None # A dict with keys that are unicode string OID values and values that are # Asn1Value classes to use for decoding a variable-type field. _oid_specs = None # A 2-element tuple of the indexes in _fields of the OID and value fields _oid_nums = None # Predetermined field specs to optimize away calls to _determine_spec() _precomputed_specs = None def __init__(self, value=None, default=None, **kwargs): """ Allows setting field values before passing everything else along to Asn1Value.__init__() :param value: A native Python datatype to initialize the object value with :param default: The default value if no value is specified """ Asn1Value.__init__(self, **kwargs) check_existing = False if value is None and default is not None: check_existing = True if self.children is None: if self.contents is None: check_existing = False else: self._parse_children() value = default if value is not None: try: # Fields are iterated in definition order to allow things like # OID-based specs. Otherwise sometimes the value would be processed # before the OID field, resulting in invalid value object creation. if self._fields: keys = [info[0] for info in self._fields] unused_keys = set(value.keys()) else: keys = value.keys() unused_keys = set(keys) for key in keys: # If we are setting defaults, but a real value has already # been set for the field, then skip it if check_existing: index = self._field_map[key] if index < len(self.children) and self.children[index] is not VOID: if key in unused_keys: unused_keys.remove(key) continue if key in value: self.__setitem__(key, value[key]) unused_keys.remove(key) if len(unused_keys): raise ValueError(unwrap( ''' One or more unknown fields was passed to the constructor of %s: %s ''', type_name(self), ', '.join(sorted(list(unused_keys))) )) except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while constructing %s' % type_name(self),) + args raise e @property def contents(self): """ :return: A byte string of the DER-encoded contents of the sequence """ if self.children is None: return self._contents if self._is_mutated(): self._set_contents() return self._contents @contents.setter def contents(self, value): """ :param value: A byte string of the DER-encoded contents of the sequence """ self._contents = value def _is_mutated(self): """ :return: A boolean - if the sequence or any children (recursively) have been mutated """ mutated = self._mutated if self.children is not None: for child in self.children: if isinstance(child, Sequence) or isinstance(child, SequenceOf): mutated = mutated or child._is_mutated() return mutated def _lazy_child(self, index): """ Builds a child object if the child has only been parsed into a tuple so far """ child = self.children[index] if child.__class__ == tuple: child = self.children[index] = _build(*child) return child def __len__(self): """ :return: Integer """ # We inline this check to prevent method invocation each time if self.children is None: self._parse_children() return len(self.children) def __getitem__(self, key): """ Allows accessing fields by name or index :param key: A unicode string of the field name, or an integer of the field index :raises: KeyError - when a field name or index is invalid :return: The Asn1Value object of the field specified """ # We inline this check to prevent method invocation each time if self.children is None: self._parse_children() if not isinstance(key, int_types): if key not in self._field_map: raise KeyError(unwrap( ''' No field named "%s" defined for %s ''', key, type_name(self) )) key = self._field_map[key] if key >= len(self.children): raise KeyError(unwrap( ''' No field numbered %s is present in this %s ''', key, type_name(self) )) try: return self._lazy_child(key) except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while parsing %s' % type_name(self),) + args raise e def __setitem__(self, key, value): """ Allows settings fields by name or index :param key: A unicode string of the field name, or an integer of the field index :param value: A native Python datatype to set the field value to. This method will construct the appropriate Asn1Value object from _fields. :raises: ValueError - when a field name or index is invalid """ # We inline this check to prevent method invocation each time if self.children is None: self._parse_children() if not isinstance(key, int_types): if key not in self._field_map: raise KeyError(unwrap( ''' No field named "%s" defined for %s ''', key, type_name(self) )) key = self._field_map[key] field_name, field_spec, value_spec, field_params, _ = self._determine_spec(key) new_value = self._make_value(field_name, field_spec, value_spec, field_params, value) invalid_value = False if isinstance(new_value, Any): invalid_value = new_value.parsed is None else: invalid_value = new_value.contents is None if invalid_value: raise ValueError(unwrap( ''' Value for field "%s" of %s is not set ''', field_name, type_name(self) )) self.children[key] = new_value if self._native is not None: self._native[self._fields[key][0]] = self.children[key].native self._mutated = True def __delitem__(self, key): """ Allows deleting optional or default fields by name or index :param key: A unicode string of the field name, or an integer of the field index :raises: ValueError - when a field name or index is invalid, or the field is not optional or defaulted """ # We inline this check to prevent method invocation each time if self.children is None: self._parse_children() if not isinstance(key, int_types): if key not in self._field_map: raise KeyError(unwrap( ''' No field named "%s" defined for %s ''', key, type_name(self) )) key = self._field_map[key] name, _, params = self._fields[key] if not params or ('default' not in params and 'optional' not in params): raise ValueError(unwrap( ''' Can not delete the value for the field "%s" of %s since it is not optional or defaulted ''', name, type_name(self) )) if 'optional' in params: self.children[key] = VOID if self._native is not None: self._native[name] = None else: self.__setitem__(key, None) self._mutated = True def __iter__(self): """ :return: An iterator of field key names """ for info in self._fields: yield info[0] def _set_contents(self, force=False): """ Updates the .contents attribute of the value with the encoded value of all of the child objects :param force: Ensure all contents are in DER format instead of possibly using cached BER-encoded data """ if self.children is None: self._parse_children() contents = BytesIO() for index, info in enumerate(self._fields): child = self.children[index] if child is None: child_dump = b'' elif child.__class__ == tuple: if force: child_dump = self._lazy_child(index).dump(force=force) else: child_dump = child[3] + child[4] + child[5] else: child_dump = child.dump(force=force) # Skip values that are the same as the default if info[2] and 'default' in info[2]: default_value = info[1](**info[2]) if default_value.dump() == child_dump: continue contents.write(child_dump) self._contents = contents.getvalue() self._header = None if self._trailer != b'': self._trailer = b'' def _setup(self): """ Generates _field_map, _field_ids and _oid_nums for use in parsing """ cls = self.__class__ cls._field_map = {} cls._field_ids = [] cls._precomputed_specs = [] for index, field in enumerate(cls._fields): if len(field) < 3: field = field + ({},) cls._fields[index] = field cls._field_map[field[0]] = index cls._field_ids.append(_build_id_tuple(field[2], field[1])) if cls._oid_pair is not None: cls._oid_nums = (cls._field_map[cls._oid_pair[0]], cls._field_map[cls._oid_pair[1]]) for index, field in enumerate(cls._fields): has_callback = cls._spec_callbacks is not None and field[0] in cls._spec_callbacks is_mapped_oid = cls._oid_nums is not None and cls._oid_nums[1] == index if has_callback or is_mapped_oid: cls._precomputed_specs.append(None) else: cls._precomputed_specs.append((field[0], field[1], field[1], field[2], None)) def _determine_spec(self, index): """ Determine how a value for a field should be constructed :param index: The field number :return: A tuple containing the following elements: - unicode string of the field name - Asn1Value class of the field spec - Asn1Value class of the value spec - None or dict of params to pass to the field spec - None or Asn1Value class indicating the value spec was derived from an OID or a spec callback """ name, field_spec, field_params = self._fields[index] value_spec = field_spec spec_override = None if self._spec_callbacks is not None and name in self._spec_callbacks: callback = self._spec_callbacks[name] spec_override = callback(self) if spec_override: # Allow a spec callback to specify both the base spec and # the override, for situations such as OctetString and parse_as if spec_override.__class__ == tuple and len(spec_override) == 2: field_spec, value_spec = spec_override if value_spec is None: value_spec = field_spec spec_override = None # When no field spec is specified, use a single return value as that elif field_spec is None: field_spec = spec_override value_spec = field_spec spec_override = None else: value_spec = spec_override elif self._oid_nums is not None and self._oid_nums[1] == index: oid = self._lazy_child(self._oid_nums[0]).native if oid in self._oid_specs: spec_override = self._oid_specs[oid] value_spec = spec_override return (name, field_spec, value_spec, field_params, spec_override) def _make_value(self, field_name, field_spec, value_spec, field_params, value): """ Contructs an appropriate Asn1Value object for a field :param field_name: A unicode string of the field name :param field_spec: An Asn1Value class that is the field spec :param value_spec: An Asn1Value class that is the vaue spec :param field_params: None or a dict of params for the field spec :param value: The value to construct an Asn1Value object from :return: An instance of a child class of Asn1Value """ if value is None and 'optional' in field_params: return VOID specs_different = field_spec != value_spec is_any = issubclass(field_spec, Any) if issubclass(value_spec, Choice): is_asn1value = isinstance(value, Asn1Value) is_tuple = isinstance(value, tuple) and len(value) == 2 is_dict = isinstance(value, dict) and len(value) == 1 if not is_asn1value and not is_tuple and not is_dict: raise ValueError(unwrap( ''' Can not set a native python value to %s, which has the choice type of %s - value must be an instance of Asn1Value ''', field_name, type_name(value_spec) )) if is_tuple or is_dict: value = value_spec(value) if not isinstance(value, value_spec): wrapper = value_spec() wrapper.validate(value.class_, value.tag, value.contents) wrapper._parsed = value new_value = wrapper else: new_value = value elif isinstance(value, field_spec): new_value = value if specs_different: new_value.parse(value_spec) elif (not specs_different or is_any) and not isinstance(value, value_spec): if (not is_any or specs_different) and isinstance(value, Asn1Value): raise TypeError(unwrap( ''' %s value must be %s, not %s ''', field_name, type_name(value_spec), type_name(value) )) new_value = value_spec(value, **field_params) else: if isinstance(value, value_spec): new_value = value else: if isinstance(value, Asn1Value): raise TypeError(unwrap( ''' %s value must be %s, not %s ''', field_name, type_name(value_spec), type_name(value) )) new_value = value_spec(value) # For when the field is OctetString or OctetBitString with embedded # values we need to wrap the value in the field spec to get the # appropriate encoded value. if specs_different and not is_any: wrapper = field_spec(value=new_value.dump(), **field_params) wrapper._parsed = (new_value, new_value.__class__, None) new_value = wrapper new_value = _fix_tagging(new_value, field_params) return new_value def _parse_children(self, recurse=False): """ Parses the contents and generates Asn1Value objects based on the definitions from _fields. :param recurse: If child objects that are Sequence or SequenceOf objects should be recursively parsed :raises: ValueError - when an error occurs parsing child objects """ cls = self.__class__ if self._contents is None: if self._fields: self.children = [VOID] * len(self._fields) for index, (_, _, params) in enumerate(self._fields): if 'default' in params: if cls._precomputed_specs[index]: field_name, field_spec, value_spec, field_params, _ = cls._precomputed_specs[index] else: field_name, field_spec, value_spec, field_params, _ = self._determine_spec(index) self.children[index] = self._make_value(field_name, field_spec, value_spec, field_params, None) return try: self.children = [] contents_length = len(self._contents) child_pointer = 0 field = 0 field_len = len(self._fields) parts = None again = child_pointer < contents_length while again: if parts is None: parts, child_pointer = _parse(self._contents, contents_length, pointer=child_pointer) again = child_pointer < contents_length if field < field_len: _, field_spec, value_spec, field_params, spec_override = ( cls._precomputed_specs[field] or self._determine_spec(field)) # If the next value is optional or default, allow it to be absent if field_params and ('optional' in field_params or 'default' in field_params): if self._field_ids[field] != (parts[0], parts[2]) and field_spec != Any: # See if the value is a valid choice before assuming # that we have a missing optional or default value choice_match = False if issubclass(field_spec, Choice): try: tester = field_spec(**field_params) tester.validate(parts[0], parts[2], parts[4]) choice_match = True except (ValueError): pass if not choice_match: if 'optional' in field_params: self.children.append(VOID) else: self.children.append(field_spec(**field_params)) field += 1 again = True continue if field_spec is None or (spec_override and issubclass(field_spec, Any)): field_spec = value_spec spec_override = None if spec_override: child = parts + (field_spec, field_params, value_spec) else: child = parts + (field_spec, field_params) # Handle situations where an optional or defaulted field definition is incorrect elif field_len > 0 and field + 1 <= field_len: missed_fields = [] prev_field = field - 1 while prev_field >= 0: prev_field_info = self._fields[prev_field] if len(prev_field_info) < 3: break if 'optional' in prev_field_info[2] or 'default' in prev_field_info[2]: missed_fields.append(prev_field_info[0]) prev_field -= 1 plural = 's' if len(missed_fields) > 1 else '' missed_field_names = ', '.join(missed_fields) raise ValueError(unwrap( ''' Data for field %s (%s class, %s method, tag %s) does not match the field definition%s of %s ''', field + 1, CLASS_NUM_TO_NAME_MAP.get(parts[0]), METHOD_NUM_TO_NAME_MAP.get(parts[1]), parts[2], plural, missed_field_names )) else: child = parts if recurse: child = _build(*child) if isinstance(child, (Sequence, SequenceOf)): child._parse_children(recurse=True) self.children.append(child) field += 1 parts = None index = len(self.children) while index < field_len: name, field_spec, field_params = self._fields[index] if 'default' in field_params: self.children.append(field_spec(**field_params)) elif 'optional' in field_params: self.children.append(VOID) else: raise ValueError(unwrap( ''' Field "%s" is missing from structure ''', name )) index += 1 except (ValueError, TypeError) as e: self.children = None args = e.args[1:] e.args = (e.args[0] + '\n while parsing %s' % type_name(self),) + args raise e def spec(self, field_name): """ Determines the spec to use for the field specified. Depending on how the spec is determined (_oid_pair or _spec_callbacks), it may be necessary to set preceding field values before calling this. Usually specs, if dynamic, are controlled by a preceding ObjectIdentifier field. :param field_name: A unicode string of the field name to get the spec for :return: A child class of asn1crypto.core.Asn1Value that the field must be encoded using """ if not isinstance(field_name, str_cls): raise TypeError(unwrap( ''' field_name must be a unicode string, not %s ''', type_name(field_name) )) if self._fields is None: raise ValueError(unwrap( ''' Unable to retrieve spec for field %s in the class %s because _fields has not been set ''', repr(field_name), type_name(self) )) index = self._field_map[field_name] info = self._determine_spec(index) return info[2] @property def native(self): """ The native Python datatype representation of this value :return: An OrderedDict or None. If an OrderedDict, all child values are recursively converted to native representation also. """ if self.contents is None: return None if self._native is None: if self.children is None: self._parse_children(recurse=True) try: self._native = OrderedDict() for index, child in enumerate(self.children): if child.__class__ == tuple: child = _build(*child) self.children[index] = child try: name = self._fields[index][0] except (IndexError): name = str_cls(index) self._native[name] = child.native except (ValueError, TypeError) as e: self._native = None args = e.args[1:] e.args = (e.args[0] + '\n while parsing %s' % type_name(self),) + args raise e return self._native def _copy(self, other, copy_func): """ Copies the contents of another Sequence object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ super(Sequence, self)._copy(other, copy_func) if self.children is not None: self.children = [] for child in other.children: if child.__class__ == tuple: self.children.append(child) else: self.children.append(child.copy()) def debug(self, nest_level=1): """ Show the binary data and parsed data in a tree structure """ if self.children is None: self._parse_children() prefix = ' ' * nest_level _basic_debug(prefix, self) for field_name in self: child = self._lazy_child(self._field_map[field_name]) if child is not VOID: print('%s Field "%s"' % (prefix, field_name)) child.debug(nest_level + 3) def dump(self, force=False): """ Encodes the value using DER :param force: If the encoded contents already exist, clear them and regenerate to ensure they are in DER format instead of BER format :return: A byte string of the DER-encoded value """ # If the length is indefinite, force the re-encoding if self._header is not None and self._header[-1:] == b'\x80': force = True # We can't force encoding if we don't have a spec if force and self._fields == [] and self.__class__ is Sequence: force = False if force: self._set_contents(force=force) if self._fields and self.children is not None: for index, (field_name, _, params) in enumerate(self._fields): if self.children[index] is not VOID: continue if 'default' in params or 'optional' in params: continue raise ValueError(unwrap( ''' Field "%s" is missing from structure ''', field_name )) return Asn1Value.dump(self) class SequenceOf(Asn1Value): """ Represents a sequence (ordered) of a single type of values from ASN.1 as a Python object with a list-like interface """ tag = 16 class_ = 0 method = 1 # A list of child objects children = None # SequenceOf overrides .contents to be a property so that the mutated state # of child objects can be checked to ensure everything is up-to-date _contents = None # Variable to track if the object has been mutated _mutated = False # An Asn1Value class to use when parsing children _child_spec = None def __init__(self, value=None, default=None, contents=None, spec=None, **kwargs): """ Allows setting child objects and the _child_spec via the spec parameter before passing everything else along to Asn1Value.__init__() :param value: A native Python datatype to initialize the object value with :param default: The default value if no value is specified :param contents: A byte string of the encoded contents of the value :param spec: A class derived from Asn1Value to use to parse children """ if spec: self._child_spec = spec Asn1Value.__init__(self, **kwargs) try: if contents is not None: self.contents = contents else: if value is None and default is not None: value = default if value is not None: for index, child in enumerate(value): self.__setitem__(index, child) # Make sure a blank list is serialized if self.contents is None: self._set_contents() except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while constructing %s' % type_name(self),) + args raise e @property def contents(self): """ :return: A byte string of the DER-encoded contents of the sequence """ if self.children is None: return self._contents if self._is_mutated(): self._set_contents() return self._contents @contents.setter def contents(self, value): """ :param value: A byte string of the DER-encoded contents of the sequence """ self._contents = value def _is_mutated(self): """ :return: A boolean - if the sequence or any children (recursively) have been mutated """ mutated = self._mutated if self.children is not None: for child in self.children: if isinstance(child, Sequence) or isinstance(child, SequenceOf): mutated = mutated or child._is_mutated() return mutated def _lazy_child(self, index): """ Builds a child object if the child has only been parsed into a tuple so far """ child = self.children[index] if child.__class__ == tuple: child = _build(*child) self.children[index] = child return child def _make_value(self, value): """ Constructs a _child_spec value from a native Python data type, or an appropriate Asn1Value object :param value: A native Python value, or some child of Asn1Value :return: An object of type _child_spec """ if isinstance(value, self._child_spec): new_value = value elif issubclass(self._child_spec, Any): if isinstance(value, Asn1Value): new_value = value else: raise ValueError(unwrap( ''' Can not set a native python value to %s where the _child_spec is Any - value must be an instance of Asn1Value ''', type_name(self) )) elif issubclass(self._child_spec, Choice): if not isinstance(value, Asn1Value): raise ValueError(unwrap( ''' Can not set a native python value to %s where the _child_spec is the choice type %s - value must be an instance of Asn1Value ''', type_name(self), self._child_spec.__name__ )) if not isinstance(value, self._child_spec): wrapper = self._child_spec() wrapper.validate(value.class_, value.tag, value.contents) wrapper._parsed = value value = wrapper new_value = value else: return self._child_spec(value=value) params = {} if self._child_spec.explicit: params['explicit'] = self._child_spec.explicit if self._child_spec.implicit: params['implicit'] = (self._child_spec.class_, self._child_spec.tag) return _fix_tagging(new_value, params) def __len__(self): """ :return: An integer """ # We inline this checks to prevent method invocation each time if self.children is None: self._parse_children() return len(self.children) def __getitem__(self, key): """ Allows accessing children via index :param key: Integer index of child """ # We inline this checks to prevent method invocation each time if self.children is None: self._parse_children() return self._lazy_child(key) def __setitem__(self, key, value): """ Allows overriding a child via index :param key: Integer index of child :param value: Native python datatype that will be passed to _child_spec to create new child object """ # We inline this checks to prevent method invocation each time if self.children is None: self._parse_children() new_value = self._make_value(value) # If adding at the end, create a space for the new value if key == len(self.children): self.children.append(None) if self._native is not None: self._native.append(None) self.children[key] = new_value if self._native is not None: self._native[key] = self.children[key].native self._mutated = True def __delitem__(self, key): """ Allows removing a child via index :param key: Integer index of child """ # We inline this checks to prevent method invocation each time if self.children is None: self._parse_children() self.children.pop(key) if self._native is not None: self._native.pop(key) self._mutated = True def __iter__(self): """ :return: An iter() of child objects """ # We inline this checks to prevent method invocation each time if self.children is None: self._parse_children() for index in range(0, len(self.children)): yield self._lazy_child(index) def __contains__(self, item): """ :param item: An object of the type cls._child_spec :return: A boolean if the item is contained in this SequenceOf """ if item is None or item is VOID: return False if not isinstance(item, self._child_spec): raise TypeError(unwrap( ''' Checking membership in %s is only available for instances of %s, not %s ''', type_name(self), type_name(self._child_spec), type_name(item) )) for child in self: if child == item: return True return False def append(self, value): """ Allows adding a child to the end of the sequence :param value: Native python datatype that will be passed to _child_spec to create new child object """ # We inline this checks to prevent method invocation each time if self.children is None: self._parse_children() self.children.append(self._make_value(value)) if self._native is not None: self._native.append(self.children[-1].native) self._mutated = True def _set_contents(self, force=False): """ Encodes all child objects into the contents for this object :param force: Ensure all contents are in DER format instead of possibly using cached BER-encoded data """ if self.children is None: self._parse_children() contents = BytesIO() for child in self: contents.write(child.dump(force=force)) self._contents = contents.getvalue() self._header = None if self._trailer != b'': self._trailer = b'' def _parse_children(self, recurse=False): """ Parses the contents and generates Asn1Value objects based on the definitions from _child_spec. :param recurse: If child objects that are Sequence or SequenceOf objects should be recursively parsed :raises: ValueError - when an error occurs parsing child objects """ try: self.children = [] if self._contents is None: return contents_length = len(self._contents) child_pointer = 0 while child_pointer < contents_length: parts, child_pointer = _parse(self._contents, contents_length, pointer=child_pointer) if self._child_spec: child = parts + (self._child_spec,) else: child = parts if recurse: child = _build(*child) if isinstance(child, (Sequence, SequenceOf)): child._parse_children(recurse=True) self.children.append(child) except (ValueError, TypeError) as e: self.children = None args = e.args[1:] e.args = (e.args[0] + '\n while parsing %s' % type_name(self),) + args raise e def spec(self): """ Determines the spec to use for child values. :return: A child class of asn1crypto.core.Asn1Value that child values must be encoded using """ return self._child_spec @property def native(self): """ The native Python datatype representation of this value :return: A list or None. If a list, all child values are recursively converted to native representation also. """ if self.contents is None: return None if self._native is None: if self.children is None: self._parse_children(recurse=True) try: self._native = [child.native for child in self] except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while parsing %s' % type_name(self),) + args raise e return self._native def _copy(self, other, copy_func): """ Copies the contents of another SequenceOf object to itself :param object: Another instance of the same class :param copy_func: An reference of copy.copy() or copy.deepcopy() to use when copying lists, dicts and objects """ super(SequenceOf, self)._copy(other, copy_func) if self.children is not None: self.children = [] for child in other.children: if child.__class__ == tuple: self.children.append(child) else: self.children.append(child.copy()) def debug(self, nest_level=1): """ Show the binary data and parsed data in a tree structure """ if self.children is None: self._parse_children() prefix = ' ' * nest_level _basic_debug(prefix, self) for child in self: child.debug(nest_level + 1) def dump(self, force=False): """ Encodes the value using DER :param force: If the encoded contents already exist, clear them and regenerate to ensure they are in DER format instead of BER format :return: A byte string of the DER-encoded value """ # If the length is indefinite, force the re-encoding if self._header is not None and self._header[-1:] == b'\x80': force = True if force: self._set_contents(force=force) return Asn1Value.dump(self) class Set(Sequence): """ Represents a set of fields (unordered) from ASN.1 as a Python object with a dict-like interface """ method = 1 class_ = 0 tag = 17 # A dict of 2-element tuples in the form (class_, tag) as keys and integers # as values that are the index of the field in _fields _field_ids = None def _setup(self): """ Generates _field_map, _field_ids and _oid_nums for use in parsing """ cls = self.__class__ cls._field_map = {} cls._field_ids = {} cls._precomputed_specs = [] for index, field in enumerate(cls._fields): if len(field) < 3: field = field + ({},) cls._fields[index] = field cls._field_map[field[0]] = index cls._field_ids[_build_id_tuple(field[2], field[1])] = index if cls._oid_pair is not None: cls._oid_nums = (cls._field_map[cls._oid_pair[0]], cls._field_map[cls._oid_pair[1]]) for index, field in enumerate(cls._fields): has_callback = cls._spec_callbacks is not None and field[0] in cls._spec_callbacks is_mapped_oid = cls._oid_nums is not None and cls._oid_nums[1] == index if has_callback or is_mapped_oid: cls._precomputed_specs.append(None) else: cls._precomputed_specs.append((field[0], field[1], field[1], field[2], None)) def _parse_children(self, recurse=False): """ Parses the contents and generates Asn1Value objects based on the definitions from _fields. :param recurse: If child objects that are Sequence or SequenceOf objects should be recursively parsed :raises: ValueError - when an error occurs parsing child objects """ cls = self.__class__ if self._contents is None: if self._fields: self.children = [VOID] * len(self._fields) for index, (_, _, params) in enumerate(self._fields): if 'default' in params: if cls._precomputed_specs[index]: field_name, field_spec, value_spec, field_params, _ = cls._precomputed_specs[index] else: field_name, field_spec, value_spec, field_params, _ = self._determine_spec(index) self.children[index] = self._make_value(field_name, field_spec, value_spec, field_params, None) return try: child_map = {} contents_length = len(self.contents) child_pointer = 0 seen_field = 0 while child_pointer < contents_length: parts, child_pointer = _parse(self.contents, contents_length, pointer=child_pointer) id_ = (parts[0], parts[2]) field = self._field_ids.get(id_) if field is None: raise ValueError(unwrap( ''' Data for field %s (%s class, %s method, tag %s) does not match any of the field definitions ''', seen_field, CLASS_NUM_TO_NAME_MAP.get(parts[0]), METHOD_NUM_TO_NAME_MAP.get(parts[1]), parts[2], )) _, field_spec, value_spec, field_params, spec_override = ( cls._precomputed_specs[field] or self._determine_spec(field)) if field_spec is None or (spec_override and issubclass(field_spec, Any)): field_spec = value_spec spec_override = None if spec_override: child = parts + (field_spec, field_params, value_spec) else: child = parts + (field_spec, field_params) if recurse: child = _build(*child) if isinstance(child, (Sequence, SequenceOf)): child._parse_children(recurse=True) child_map[field] = child seen_field += 1 total_fields = len(self._fields) for index in range(0, total_fields): if index in child_map: continue name, field_spec, value_spec, field_params, spec_override = ( cls._precomputed_specs[index] or self._determine_spec(index)) if field_spec is None or (spec_override and issubclass(field_spec, Any)): field_spec = value_spec spec_override = None missing = False if not field_params: missing = True elif 'optional' not in field_params and 'default' not in field_params: missing = True elif 'optional' in field_params: child_map[index] = VOID elif 'default' in field_params: child_map[index] = field_spec(**field_params) if missing: raise ValueError(unwrap( ''' Missing required field "%s" from %s ''', name, type_name(self) )) self.children = [] for index in range(0, total_fields): self.children.append(child_map[index]) except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while parsing %s' % type_name(self),) + args raise e def _set_contents(self, force=False): """ Encodes all child objects into the contents for this object. This method is overridden because a Set needs to be encoded by removing defaulted fields and then sorting the fields by tag. :param force: Ensure all contents are in DER format instead of possibly using cached BER-encoded data """ if self.children is None: self._parse_children() child_tag_encodings = [] for index, child in enumerate(self.children): child_encoding = child.dump(force=force) # Skip encoding defaulted children name, spec, field_params = self._fields[index] if 'default' in field_params: if spec(**field_params).dump() == child_encoding: continue child_tag_encodings.append((child.tag, child_encoding)) child_tag_encodings.sort(key=lambda ct: ct[0]) self._contents = b''.join([ct[1] for ct in child_tag_encodings]) self._header = None if self._trailer != b'': self._trailer = b'' class SetOf(SequenceOf): """ Represents a set (unordered) of a single type of values from ASN.1 as a Python object with a list-like interface """ tag = 17 def _set_contents(self, force=False): """ Encodes all child objects into the contents for this object. This method is overridden because a SetOf needs to be encoded by sorting the child encodings. :param force: Ensure all contents are in DER format instead of possibly using cached BER-encoded data """ if self.children is None: self._parse_children() child_encodings = [] for child in self: child_encodings.append(child.dump(force=force)) self._contents = b''.join(sorted(child_encodings)) self._header = None if self._trailer != b'': self._trailer = b'' class EmbeddedPdv(Sequence): """ A sequence structure """ tag = 11 class NumericString(AbstractString): """ Represents a numeric string from ASN.1 as a Python unicode string """ tag = 18 _encoding = 'latin1' class PrintableString(AbstractString): """ Represents a printable string from ASN.1 as a Python unicode string """ tag = 19 _encoding = 'latin1' class TeletexString(AbstractString): """ Represents a teletex string from ASN.1 as a Python unicode string """ tag = 20 _encoding = 'teletex' class VideotexString(OctetString): """ Represents a videotex string from ASN.1 as a Python byte string """ tag = 21 class IA5String(AbstractString): """ Represents an IA5 string from ASN.1 as a Python unicode string """ tag = 22 _encoding = 'ascii' class AbstractTime(AbstractString): """ Represents a time from ASN.1 as a Python datetime.datetime object """ @property def _parsed_time(self): """ The parsed datetime string. :raises: ValueError - when an invalid value is passed :return: A dict with the parsed values """ string = str_cls(self) m = self._TIMESTRING_RE.match(string) if not m: raise ValueError(unwrap( ''' Error parsing %s to a %s ''', string, type_name(self), )) groups = m.groupdict() tz = None if groups['zulu']: tz = timezone.utc elif groups['dsign']: sign = 1 if groups['dsign'] == '+' else -1 tz = create_timezone(sign * timedelta( hours=int(groups['dhour']), minutes=int(groups['dminute'] or 0) )) if groups['fraction']: # Compute fraction in microseconds fract = Fraction( int(groups['fraction']), 10 ** len(groups['fraction']) ) * 1000000 if groups['minute'] is None: fract *= 3600 elif groups['second'] is None: fract *= 60 fract_usec = int(fract.limit_denominator(1)) else: fract_usec = 0 return { 'year': int(groups['year']), 'month': int(groups['month']), 'day': int(groups['day']), 'hour': int(groups['hour']), 'minute': int(groups['minute'] or 0), 'second': int(groups['second'] or 0), 'tzinfo': tz, 'fraction': fract_usec, } @property def native(self): """ The native Python datatype representation of this value :return: A datetime.datetime object, asn1crypto.util.extended_datetime object or None. The datetime object is usually timezone aware. If it's naive, then it's in the sender's local time; see X.680 sect. 42.3 """ if self.contents is None: return None if self._native is None: parsed = self._parsed_time fraction = parsed.pop('fraction', 0) value = self._get_datetime(parsed) if fraction: value += timedelta(microseconds=fraction) self._native = value return self._native class UTCTime(AbstractTime): """ Represents a UTC time from ASN.1 as a timezone aware Python datetime.datetime object """ tag = 23 # Regular expression for UTCTime as described in X.680 sect. 43 and ISO 8601 _TIMESTRING_RE = re.compile(r''' ^ # YYMMDD (?P\d{2}) (?P\d{2}) (?P\d{2}) # hhmm or hhmmss (?P\d{2}) (?P\d{2}) (?P\d{2})? # Matches nothing, needed because GeneralizedTime uses this. (?P) # Z or [-+]hhmm (?: (?PZ) | (?: (?P[-+]) (?P\d{2}) (?P\d{2}) ) ) $ ''', re.X) def set(self, value): """ Sets the value of the object :param value: A unicode string or a datetime.datetime object :raises: ValueError - when an invalid value is passed """ if isinstance(value, datetime): if not value.tzinfo: raise ValueError('Must be timezone aware') # Convert value to UTC. value = value.astimezone(utc_with_dst) if not 1950 <= value.year <= 2049: raise ValueError('Year of the UTCTime is not in range [1950, 2049], use GeneralizedTime instead') value = value.strftime('%y%m%d%H%M%SZ') if _PY2: value = value.decode('ascii') AbstractString.set(self, value) # Set it to None and let the class take care of converting the next # time that .native is called self._native = None def _get_datetime(self, parsed): """ Create a datetime object from the parsed time. :return: An aware datetime.datetime object """ # X.680 only specifies that UTCTime is not using a century. # So "18" could as well mean 2118 or 1318. # X.509 and CMS specify to use UTCTime for years earlier than 2050. # Assume that UTCTime is only used for years [1950, 2049]. if parsed['year'] < 50: parsed['year'] += 2000 else: parsed['year'] += 1900 return datetime(**parsed) class GeneralizedTime(AbstractTime): """ Represents a generalized time from ASN.1 as a Python datetime.datetime object or asn1crypto.util.extended_datetime object in UTC """ tag = 24 # Regular expression for GeneralizedTime as described in X.680 sect. 42 and ISO 8601 _TIMESTRING_RE = re.compile(r''' ^ # YYYYMMDD (?P\d{4}) (?P\d{2}) (?P\d{2}) # hh or hhmm or hhmmss (?P\d{2}) (?: (?P\d{2}) (?P\d{2})? )? # Optional fraction; [.,]dddd (one or more decimals) # If Seconds are given, it's fractions of Seconds. # Else if Minutes are given, it's fractions of Minutes. # Else it's fractions of Hours. (?: [,.] (?P\d+) )? # Optional timezone. If left out, the time is in local time. # Z or [-+]hh or [-+]hhmm (?: (?PZ) | (?: (?P[-+]) (?P\d{2}) (?P\d{2})? ) )? $ ''', re.X) def set(self, value): """ Sets the value of the object :param value: A unicode string, a datetime.datetime object or an asn1crypto.util.extended_datetime object :raises: ValueError - when an invalid value is passed """ if isinstance(value, (datetime, extended_datetime)): if not value.tzinfo: raise ValueError('Must be timezone aware') # Convert value to UTC. value = value.astimezone(utc_with_dst) if value.microsecond: fraction = '.' + str(value.microsecond).zfill(6).rstrip('0') else: fraction = '' value = value.strftime('%Y%m%d%H%M%S') + fraction + 'Z' if _PY2: value = value.decode('ascii') AbstractString.set(self, value) # Set it to None and let the class take care of converting the next # time that .native is called self._native = None def _get_datetime(self, parsed): """ Create a datetime object from the parsed time. :return: A datetime.datetime object or asn1crypto.util.extended_datetime object. It may or may not be aware. """ if parsed['year'] == 0: # datetime does not support year 0. Use extended_datetime instead. return extended_datetime(**parsed) else: return datetime(**parsed) class GraphicString(AbstractString): """ Represents a graphic string from ASN.1 as a Python unicode string """ tag = 25 # This is technically not correct since this type can contain any charset _encoding = 'latin1' class VisibleString(AbstractString): """ Represents a visible string from ASN.1 as a Python unicode string """ tag = 26 _encoding = 'latin1' class GeneralString(AbstractString): """ Represents a general string from ASN.1 as a Python unicode string """ tag = 27 # This is technically not correct since this type can contain any charset _encoding = 'latin1' class UniversalString(AbstractString): """ Represents a universal string from ASN.1 as a Python unicode string """ tag = 28 _encoding = 'utf-32-be' class CharacterString(AbstractString): """ Represents a character string from ASN.1 as a Python unicode string """ tag = 29 # This is technically not correct since this type can contain any charset _encoding = 'latin1' class BMPString(AbstractString): """ Represents a BMP string from ASN.1 as a Python unicode string """ tag = 30 _encoding = 'utf-16-be' def _basic_debug(prefix, self): """ Prints out basic information about an Asn1Value object. Extracted for reuse among different classes that customize the debug information. :param prefix: A unicode string of spaces to prefix output line with :param self: The object to print the debugging information about """ print('%s%s Object #%s' % (prefix, type_name(self), id(self))) if self._header: print('%s Header: 0x%s' % (prefix, binascii.hexlify(self._header or b'').decode('utf-8'))) has_header = self.method is not None and self.class_ is not None and self.tag is not None if has_header: method_name = METHOD_NUM_TO_NAME_MAP.get(self.method) class_name = CLASS_NUM_TO_NAME_MAP.get(self.class_) if self.explicit is not None: for class_, tag in self.explicit: print( '%s %s tag %s (explicitly tagged)' % ( prefix, CLASS_NUM_TO_NAME_MAP.get(class_), tag ) ) if has_header: print('%s %s %s %s' % (prefix, method_name, class_name, self.tag)) elif self.implicit: if has_header: print('%s %s %s tag %s (implicitly tagged)' % (prefix, method_name, class_name, self.tag)) elif has_header: print('%s %s %s tag %s' % (prefix, method_name, class_name, self.tag)) if self._trailer: print('%s Trailer: 0x%s' % (prefix, binascii.hexlify(self._trailer or b'').decode('utf-8'))) print('%s Data: 0x%s' % (prefix, binascii.hexlify(self.contents or b'').decode('utf-8'))) def _tag_type_to_explicit_implicit(params): """ Converts old-style "tag_type" and "tag" params to "explicit" and "implicit" :param params: A dict of parameters to convert from tag_type/tag to explicit/implicit """ if 'tag_type' in params: if params['tag_type'] == 'explicit': params['explicit'] = (params.get('class', 2), params['tag']) elif params['tag_type'] == 'implicit': params['implicit'] = (params.get('class', 2), params['tag']) del params['tag_type'] del params['tag'] if 'class' in params: del params['class'] def _fix_tagging(value, params): """ Checks if a value is properly tagged based on the spec, and re/untags as necessary :param value: An Asn1Value object :param params: A dict of spec params :return: An Asn1Value that is properly tagged """ _tag_type_to_explicit_implicit(params) retag = False if 'implicit' not in params: if value.implicit is not False: retag = True else: if isinstance(params['implicit'], tuple): class_, tag = params['implicit'] else: tag = params['implicit'] class_ = 'context' if value.implicit is False: retag = True elif value.class_ != CLASS_NAME_TO_NUM_MAP[class_] or value.tag != tag: retag = True if params.get('explicit') != value.explicit: retag = True if retag: return value.retag(params) return value def _build_id_tuple(params, spec): """ Builds a 2-element tuple used to identify fields by grabbing the class_ and tag from an Asn1Value class and the params dict being passed to it :param params: A dict of params to pass to spec :param spec: An Asn1Value class :return: A 2-element integer tuple in the form (class_, tag) """ # Handle situations where the spec is not known at setup time if spec is None: return (None, None) required_class = spec.class_ required_tag = spec.tag _tag_type_to_explicit_implicit(params) if 'explicit' in params: if isinstance(params['explicit'], tuple): required_class, required_tag = params['explicit'] else: required_class = 2 required_tag = params['explicit'] elif 'implicit' in params: if isinstance(params['implicit'], tuple): required_class, required_tag = params['implicit'] else: required_class = 2 required_tag = params['implicit'] if required_class is not None and not isinstance(required_class, int_types): required_class = CLASS_NAME_TO_NUM_MAP[required_class] required_class = params.get('class_', required_class) required_tag = params.get('tag', required_tag) return (required_class, required_tag) def _int_to_bit_tuple(value, bits): """ Format value as a tuple of 1s and 0s. :param value: A non-negative integer to format :param bits: Number of bits in the output :return: A tuple of 1s and 0s with bits members. """ if not value and not bits: return () result = tuple(map(int, format(value, '0{0}b'.format(bits)))) if len(result) != bits: raise ValueError('Result too large: {0} > {1}'.format(len(result), bits)) return result _UNIVERSAL_SPECS = { 1: Boolean, 2: Integer, 3: BitString, 4: OctetString, 5: Null, 6: ObjectIdentifier, 7: ObjectDescriptor, 8: InstanceOf, 9: Real, 10: Enumerated, 11: EmbeddedPdv, 12: UTF8String, 13: RelativeOid, 16: Sequence, 17: Set, 18: NumericString, 19: PrintableString, 20: TeletexString, 21: VideotexString, 22: IA5String, 23: UTCTime, 24: GeneralizedTime, 25: GraphicString, 26: VisibleString, 27: GeneralString, 28: UniversalString, 29: CharacterString, 30: BMPString } def _build(class_, method, tag, header, contents, trailer, spec=None, spec_params=None, nested_spec=None): """ Builds an Asn1Value object generically, or using a spec with optional params :param class_: An integer representing the ASN.1 class :param method: An integer representing the ASN.1 method :param tag: An integer representing the ASN.1 tag :param header: A byte string of the ASN.1 header (class, method, tag, length) :param contents: A byte string of the ASN.1 value :param trailer: A byte string of any ASN.1 trailer (only used by indefinite length encodings) :param spec: A class derived from Asn1Value that defines what class_ and tag the value should have, and the semantics of the encoded value. The return value will be of this type. If omitted, the encoded value will be decoded using the standard universal tag based on the encoded tag number. :param spec_params: A dict of params to pass to the spec object :param nested_spec: For certain Asn1Value classes (such as OctetString and BitString), the contents can be further parsed and interpreted as another Asn1Value. This parameter controls the spec for that sub-parsing. :return: An object of the type spec, or if not specified, a child of Asn1Value """ if spec_params is not None: _tag_type_to_explicit_implicit(spec_params) if header is None: return VOID header_set = False # If an explicit specification was passed in, make sure it matches if spec is not None: # If there is explicit tagging and contents, we have to split # the header and trailer off before we do the parsing no_explicit = spec_params and 'no_explicit' in spec_params if not no_explicit and (spec.explicit or (spec_params and 'explicit' in spec_params)): if spec_params: value = spec(**spec_params) else: value = spec() original_explicit = value.explicit explicit_info = reversed(original_explicit) parsed_class = class_ parsed_method = method parsed_tag = tag to_parse = contents explicit_header = header explicit_trailer = trailer or b'' for expected_class, expected_tag in explicit_info: if parsed_class != expected_class: raise ValueError(unwrap( ''' Error parsing %s - explicitly-tagged class should have been %s, but %s was found ''', type_name(value), CLASS_NUM_TO_NAME_MAP.get(expected_class), CLASS_NUM_TO_NAME_MAP.get(parsed_class, parsed_class) )) if parsed_method != 1: raise ValueError(unwrap( ''' Error parsing %s - explicitly-tagged method should have been %s, but %s was found ''', type_name(value), METHOD_NUM_TO_NAME_MAP.get(1), METHOD_NUM_TO_NAME_MAP.get(parsed_method, parsed_method) )) if parsed_tag != expected_tag: raise ValueError(unwrap( ''' Error parsing %s - explicitly-tagged tag should have been %s, but %s was found ''', type_name(value), expected_tag, parsed_tag )) info, _ = _parse(to_parse, len(to_parse)) parsed_class, parsed_method, parsed_tag, parsed_header, to_parse, parsed_trailer = info if not isinstance(value, Choice): explicit_header += parsed_header explicit_trailer = parsed_trailer + explicit_trailer value = _build(*info, spec=spec, spec_params={'no_explicit': True}) value._header = explicit_header value._trailer = explicit_trailer value.explicit = original_explicit header_set = True else: if spec_params: value = spec(contents=contents, **spec_params) else: value = spec(contents=contents) if spec is Any: pass elif isinstance(value, Choice): value.validate(class_, tag, contents) try: # Force parsing the Choice now value.contents = header + value.contents header = b'' value.parse() except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while parsing %s' % type_name(value),) + args raise e else: if class_ != value.class_: raise ValueError(unwrap( ''' Error parsing %s - class should have been %s, but %s was found ''', type_name(value), CLASS_NUM_TO_NAME_MAP.get(value.class_), CLASS_NUM_TO_NAME_MAP.get(class_, class_) )) if method != value.method: # Allow parsing a primitive method as constructed if the value # is indefinite length. This is to allow parsing BER. ber_indef = method == 1 and value.method == 0 and trailer == b'\x00\x00' if not ber_indef or not isinstance(value, Constructable): raise ValueError(unwrap( ''' Error parsing %s - method should have been %s, but %s was found ''', type_name(value), METHOD_NUM_TO_NAME_MAP.get(value.method), METHOD_NUM_TO_NAME_MAP.get(method, method) )) else: value.method = method value._indefinite = True if tag != value.tag: if isinstance(value._bad_tag, tuple): is_bad_tag = tag in value._bad_tag else: is_bad_tag = tag == value._bad_tag if not is_bad_tag: raise ValueError(unwrap( ''' Error parsing %s - tag should have been %s, but %s was found ''', type_name(value), value.tag, tag )) # For explicitly tagged, un-speced parsings, we use a generic container # since we will be parsing the contents and discarding the outer object # anyway a little further on elif spec_params and 'explicit' in spec_params: original_value = Asn1Value(contents=contents, **spec_params) original_explicit = original_value.explicit to_parse = contents explicit_header = header explicit_trailer = trailer or b'' for expected_class, expected_tag in reversed(original_explicit): info, _ = _parse(to_parse, len(to_parse)) _, _, _, parsed_header, to_parse, parsed_trailer = info explicit_header += parsed_header explicit_trailer = parsed_trailer + explicit_trailer value = _build(*info, spec=spec, spec_params={'no_explicit': True}) value._header = header + value._header value._trailer += trailer or b'' value.explicit = original_explicit header_set = True # If no spec was specified, allow anything and just process what # is in the input data else: if tag not in _UNIVERSAL_SPECS: raise ValueError(unwrap( ''' Unknown element - %s class, %s method, tag %s ''', CLASS_NUM_TO_NAME_MAP.get(class_), METHOD_NUM_TO_NAME_MAP.get(method), tag )) spec = _UNIVERSAL_SPECS[tag] value = spec(contents=contents, class_=class_) ber_indef = method == 1 and value.method == 0 and trailer == b'\x00\x00' if ber_indef and isinstance(value, Constructable): value._indefinite = True value.method = method if not header_set: value._header = header value._trailer = trailer or b'' # Destroy any default value that our contents have overwritten value._native = None if nested_spec: try: value.parse(nested_spec) except (ValueError, TypeError) as e: args = e.args[1:] e.args = (e.args[0] + '\n while parsing %s' % type_name(value),) + args raise e return value def _parse_build(encoded_data, pointer=0, spec=None, spec_params=None, strict=False): """ Parses a byte string generically, or using a spec with optional params :param encoded_data: A byte string that contains BER-encoded data :param pointer: The index in the byte string to parse from :param spec: A class derived from Asn1Value that defines what class_ and tag the value should have, and the semantics of the encoded value. The return value will be of this type. If omitted, the encoded value will be decoded using the standard universal tag based on the encoded tag number. :param spec_params: A dict of params to pass to the spec object :param strict: A boolean indicating if trailing data should be forbidden - if so, a ValueError will be raised when trailing data exists :return: A 2-element tuple: - 0: An object of the type spec, or if not specified, a child of Asn1Value - 1: An integer indicating how many bytes were consumed """ encoded_len = len(encoded_data) info, new_pointer = _parse(encoded_data, encoded_len, pointer) if strict and new_pointer != pointer + encoded_len: extra_bytes = pointer + encoded_len - new_pointer raise ValueError('Extra data - %d bytes of trailing data were provided' % extra_bytes) return (_build(*info, spec=spec, spec_params=spec_params), new_pointer)