src/cryptography/x509/name.py - platform/external/python/cryptography - Git at Google

 # This file is dual licensed under the terms of the Apache License, Version
 # 2.0, and the BSD License. See the LICENSE file in the root of this repository
 # for complete details.

 from __future__ import absolute_import, division, print_function

 from enum import Enum

 import six

 from cryptography import utils
 from cryptography.hazmat.backends import _get_backend
 from cryptography.x509.oid import NameOID, ObjectIdentifier


 class _ASN1Type(Enum):
     UTF8String = 12
     NumericString = 18
     PrintableString = 19
     T61String = 20
     IA5String = 22
     UTCTime = 23
     GeneralizedTime = 24
     VisibleString = 26
     UniversalString = 28
     BMPString = 30


 _ASN1_TYPE_TO_ENUM = {i.value: i for i in _ASN1Type}
 _SENTINEL = object()
 _NAMEOID_DEFAULT_TYPE = {
     NameOID.COUNTRY_NAME: _ASN1Type.PrintableString,
     NameOID.JURISDICTION_COUNTRY_NAME: _ASN1Type.PrintableString,
     NameOID.SERIAL_NUMBER: _ASN1Type.PrintableString,
     NameOID.DN_QUALIFIER: _ASN1Type.PrintableString,
     NameOID.EMAIL_ADDRESS: _ASN1Type.IA5String,
     NameOID.DOMAIN_COMPONENT: _ASN1Type.IA5String,
 }

 #: Short attribute names from RFC 4514:
 #: https://tools.ietf.org/html/rfc4514#page-7
 _NAMEOID_TO_NAME = {
     NameOID.COMMON_NAME: "CN",
     NameOID.LOCALITY_NAME: "L",
     NameOID.STATE_OR_PROVINCE_NAME: "ST",
     NameOID.ORGANIZATION_NAME: "O",
     NameOID.ORGANIZATIONAL_UNIT_NAME: "OU",
     NameOID.COUNTRY_NAME: "C",
     NameOID.STREET_ADDRESS: "STREET",
     NameOID.DOMAIN_COMPONENT: "DC",
     NameOID.USER_ID: "UID",
 }


 def _escape_dn_value(val):
     """Escape special characters in RFC4514 Distinguished Name value."""

     if not val:
         return ""

     # See https://tools.ietf.org/html/rfc4514#section-2.4
     val = val.replace("\\", "\\\\")
     val = val.replace('"', '\\"')
     val = val.replace("+", "\\+")
     val = val.replace(",", "\\,")
     val = val.replace(";", "\\;")
     val = val.replace("<", "\\<")
     val = val.replace(">", "\\>")
     val = val.replace("\0", "\\00")

     if val[0] in ("#", " "):
         val = "\\" + val
     if val[-1] == " ":
         val = val[:-1] + "\\ "

     return val


 class NameAttribute(object):
     def __init__(self, oid, value, _type=_SENTINEL):
         if not isinstance(oid, ObjectIdentifier):
             raise TypeError(
                 "oid argument must be an ObjectIdentifier instance."
             )

         if not isinstance(value, six.text_type):
             raise TypeError("value argument must be a text type.")

         if (
             oid == NameOID.COUNTRY_NAME
             or oid == NameOID.JURISDICTION_COUNTRY_NAME
         ):
             if len(value.encode("utf8")) != 2:
                 raise ValueError(
                     "Country name must be a 2 character country code"
                 )

         # The appropriate ASN1 string type varies by OID and is defined across
         # multiple RFCs including 2459, 3280, and 5280. In general UTF8String
         # is preferred (2459), but 3280 and 5280 specify several OIDs with
         # alternate types. This means when we see the sentinel value we need
         # to look up whether the OID has a non-UTF8 type. If it does, set it
         # to that. Otherwise, UTF8!
         if _type == _SENTINEL:
             _type = _NAMEOID_DEFAULT_TYPE.get(oid, _ASN1Type.UTF8String)

         if not isinstance(_type, _ASN1Type):
             raise TypeError("_type must be from the _ASN1Type enum")

         self._oid = oid
         self._value = value
         self._type = _type

     oid = utils.read_only_property("_oid")
     value = utils.read_only_property("_value")

     def rfc4514_string(self):
         """
         Format as RFC4514 Distinguished Name string.

         Use short attribute name if available, otherwise fall back to OID
         dotted string.
         """
         key = _NAMEOID_TO_NAME.get(self.oid, self.oid.dotted_string)
         return "%s=%s" % (key, _escape_dn_value(self.value))

     def __eq__(self, other):
         if not isinstance(other, NameAttribute):
             return NotImplemented

         return self.oid == other.oid and self.value == other.value

     def __ne__(self, other):
         return not self == other

     def __hash__(self):
         return hash((self.oid, self.value))

     def __repr__(self):
         return "<NameAttribute(oid={0.oid}, value={0.value!r})>".format(self)


 class RelativeDistinguishedName(object):
     def __init__(self, attributes):
         attributes = list(attributes)
         if not attributes:
             raise ValueError("a relative distinguished name cannot be empty")
         if not all(isinstance(x, NameAttribute) for x in attributes):
             raise TypeError("attributes must be an iterable of NameAttribute")

         # Keep list and frozenset to preserve attribute order where it matters
         self._attributes = attributes
         self._attribute_set = frozenset(attributes)

         if len(self._attribute_set) != len(attributes):
             raise ValueError("duplicate attributes are not allowed")

     def get_attributes_for_oid(self, oid):
         return [i for i in self if i.oid == oid]

     def rfc4514_string(self):
         """
         Format as RFC4514 Distinguished Name string.

         Within each RDN, attributes are joined by '+', although that is rarely
         used in certificates.
         """
         return "+".join(attr.rfc4514_string() for attr in self._attributes)

     def __eq__(self, other):
         if not isinstance(other, RelativeDistinguishedName):
             return NotImplemented

         return self._attribute_set == other._attribute_set

     def __ne__(self, other):
         return not self == other

     def __hash__(self):
         return hash(self._attribute_set)

     def __iter__(self):
         return iter(self._attributes)

     def __len__(self):
         return len(self._attributes)

     def __repr__(self):
         return "<RelativeDistinguishedName({})>".format(self.rfc4514_string())


 class Name(object):
     def __init__(self, attributes):
         attributes = list(attributes)
         if all(isinstance(x, NameAttribute) for x in attributes):
             self._attributes = [
                 RelativeDistinguishedName([x]) for x in attributes
             ]
         elif all(isinstance(x, RelativeDistinguishedName) for x in attributes):
             self._attributes = attributes
         else:
             raise TypeError(
                 "attributes must be a list of NameAttribute"
                 " or a list RelativeDistinguishedName"
             )

     def rfc4514_string(self):
         """
         Format as RFC4514 Distinguished Name string.
         For example 'CN=foobar.com,O=Foo Corp,C=US'

         An X.509 name is a two-level structure: a list of sets of attributes.
         Each list element is separated by ',' and within each list element, set
         elements are separated by '+'. The latter is almost never used in
         real world certificates. According to RFC4514 section 2.1 the
         RDNSequence must be reversed when converting to string representation.
         """
         return ",".join(
             attr.rfc4514_string() for attr in reversed(self._attributes)
         )

     def get_attributes_for_oid(self, oid):
         return [i for i in self if i.oid == oid]

     @property
     def rdns(self):
         return self._attributes

     def public_bytes(self, backend=None):
         backend = _get_backend(backend)
         return backend.x509_name_bytes(self)

     def __eq__(self, other):
         if not isinstance(other, Name):
             return NotImplemented

         return self._attributes == other._attributes

     def __ne__(self, other):
         return not self == other

     def __hash__(self):
         # TODO: this is relatively expensive, if this looks like a bottleneck
         # for you, consider optimizing!
         return hash(tuple(self._attributes))

     def __iter__(self):
         for rdn in self._attributes:
             for ava in rdn:
                 yield ava

     def __len__(self):
         return sum(len(rdn) for rdn in self._attributes)

     def __repr__(self):
         rdns = ",".join(attr.rfc4514_string() for attr in self._attributes)

         if six.PY2:
             return "<Name({})>".format(rdns.encode("utf8"))
         else:
             return "<Name({})>".format(rdns)
	# This file is dual licensed under the terms of the Apache License, Version
	# 2.0, and the BSD License. See the LICENSE file in the root of this repository
	# for complete details.

	from __future__ import absolute_import, division, print_function

	from enum import Enum

	import six

	from cryptography import utils
	from cryptography.hazmat.backends import _get_backend
	from cryptography.x509.oid import NameOID, ObjectIdentifier


	class _ASN1Type(Enum):
	UTF8String = 12
	NumericString = 18
	PrintableString = 19
	T61String = 20
	IA5String = 22
	UTCTime = 23
	GeneralizedTime = 24
	VisibleString = 26
	UniversalString = 28
	BMPString = 30


	_ASN1_TYPE_TO_ENUM = {i.value: i for i in _ASN1Type}
	_SENTINEL = object()
	_NAMEOID_DEFAULT_TYPE = {
	NameOID.COUNTRY_NAME: _ASN1Type.PrintableString,
	NameOID.JURISDICTION_COUNTRY_NAME: _ASN1Type.PrintableString,
	NameOID.SERIAL_NUMBER: _ASN1Type.PrintableString,
	NameOID.DN_QUALIFIER: _ASN1Type.PrintableString,
	NameOID.EMAIL_ADDRESS: _ASN1Type.IA5String,
	NameOID.DOMAIN_COMPONENT: _ASN1Type.IA5String,
	}

	#: Short attribute names from RFC 4514:
	#: https://tools.ietf.org/html/rfc4514#page-7
	_NAMEOID_TO_NAME = {
	NameOID.COMMON_NAME: "CN",
	NameOID.LOCALITY_NAME: "L",
	NameOID.STATE_OR_PROVINCE_NAME: "ST",
	NameOID.ORGANIZATION_NAME: "O",
	NameOID.ORGANIZATIONAL_UNIT_NAME: "OU",
	NameOID.COUNTRY_NAME: "C",
	NameOID.STREET_ADDRESS: "STREET",
	NameOID.DOMAIN_COMPONENT: "DC",
	NameOID.USER_ID: "UID",
	}


	def _escape_dn_value(val):
	"""Escape special characters in RFC4514 Distinguished Name value."""

	if not val:
	return ""

	# See https://tools.ietf.org/html/rfc4514#section-2.4
	val = val.replace("\\", "\\\\")
	val = val.replace('"', '\\"')
	val = val.replace("+", "\\+")
	val = val.replace(",", "\\,")
	val = val.replace(";", "\\;")
	val = val.replace("<", "\\<")
	val = val.replace(">", "\\>")
	val = val.replace("\0", "\\00")

	if val[0] in ("#", " "):
	val = "\\" + val
	if val[-1] == " ":
	val = val[:-1] + "\\ "

	return val


	class NameAttribute(object):
	def __init__(self, oid, value, _type=_SENTINEL):
	if not isinstance(oid, ObjectIdentifier):
	raise TypeError(
	"oid argument must be an ObjectIdentifier instance."
	)

	if not isinstance(value, six.text_type):
	raise TypeError("value argument must be a text type.")

	if (
	oid == NameOID.COUNTRY_NAME
	or oid == NameOID.JURISDICTION_COUNTRY_NAME
	):
	if len(value.encode("utf8")) != 2:
	raise ValueError(
	"Country name must be a 2 character country code"
	)

	# The appropriate ASN1 string type varies by OID and is defined across
	# multiple RFCs including 2459, 3280, and 5280. In general UTF8String
	# is preferred (2459), but 3280 and 5280 specify several OIDs with
	# alternate types. This means when we see the sentinel value we need
	# to look up whether the OID has a non-UTF8 type. If it does, set it
	# to that. Otherwise, UTF8!
	if _type == _SENTINEL:
	_type = _NAMEOID_DEFAULT_TYPE.get(oid, _ASN1Type.UTF8String)

	if not isinstance(_type, _ASN1Type):
	raise TypeError("_type must be from the _ASN1Type enum")

	self._oid = oid
	self._value = value
	self._type = _type

	oid = utils.read_only_property("_oid")
	value = utils.read_only_property("_value")

	def rfc4514_string(self):
	"""
	Format as RFC4514 Distinguished Name string.

	Use short attribute name if available, otherwise fall back to OID
	dotted string.
	"""
	key = _NAMEOID_TO_NAME.get(self.oid, self.oid.dotted_string)
	return "%s=%s" % (key, _escape_dn_value(self.value))

	def __eq__(self, other):
	if not isinstance(other, NameAttribute):
	return NotImplemented

	return self.oid == other.oid and self.value == other.value

	def __ne__(self, other):
	return not self == other

	def __hash__(self):
	return hash((self.oid, self.value))

	def __repr__(self):
	return "<NameAttribute(oid={0.oid}, value={0.value!r})>".format(self)


	class RelativeDistinguishedName(object):
	def __init__(self, attributes):
	attributes = list(attributes)
	if not attributes:
	raise ValueError("a relative distinguished name cannot be empty")
	if not all(isinstance(x, NameAttribute) for x in attributes):
	raise TypeError("attributes must be an iterable of NameAttribute")

	# Keep list and frozenset to preserve attribute order where it matters
	self._attributes = attributes
	self._attribute_set = frozenset(attributes)

	if len(self._attribute_set) != len(attributes):
	raise ValueError("duplicate attributes are not allowed")

	def get_attributes_for_oid(self, oid):
	return [i for i in self if i.oid == oid]

	def rfc4514_string(self):
	"""
	Format as RFC4514 Distinguished Name string.

	Within each RDN, attributes are joined by '+', although that is rarely
	used in certificates.
	"""
	return "+".join(attr.rfc4514_string() for attr in self._attributes)

	def __eq__(self, other):
	if not isinstance(other, RelativeDistinguishedName):
	return NotImplemented

	return self._attribute_set == other._attribute_set

	def __ne__(self, other):
	return not self == other

	def __hash__(self):
	return hash(self._attribute_set)

	def __iter__(self):
	return iter(self._attributes)

	def __len__(self):
	return len(self._attributes)

	def __repr__(self):
	return "<RelativeDistinguishedName({})>".format(self.rfc4514_string())


	class Name(object):
	def __init__(self, attributes):
	attributes = list(attributes)
	if all(isinstance(x, NameAttribute) for x in attributes):
	self._attributes = [
	RelativeDistinguishedName([x]) for x in attributes
	]
	elif all(isinstance(x, RelativeDistinguishedName) for x in attributes):
	self._attributes = attributes
	else:
	raise TypeError(
	"attributes must be a list of NameAttribute"
	" or a list RelativeDistinguishedName"
	)

	def rfc4514_string(self):
	"""
	Format as RFC4514 Distinguished Name string.
	For example 'CN=foobar.com,O=Foo Corp,C=US'

	An X.509 name is a two-level structure: a list of sets of attributes.
	Each list element is separated by ',' and within each list element, set
	elements are separated by '+'. The latter is almost never used in
	real world certificates. According to RFC4514 section 2.1 the
	RDNSequence must be reversed when converting to string representation.
	"""
	return ",".join(
	attr.rfc4514_string() for attr in reversed(self._attributes)
	)

	def get_attributes_for_oid(self, oid):
	return [i for i in self if i.oid == oid]

	@property
	def rdns(self):
	return self._attributes

	def public_bytes(self, backend=None):
	backend = _get_backend(backend)
	return backend.x509_name_bytes(self)

	def __eq__(self, other):
	if not isinstance(other, Name):
	return NotImplemented

	return self._attributes == other._attributes

	def __ne__(self, other):
	return not self == other

	def __hash__(self):
	# TODO: this is relatively expensive, if this looks like a bottleneck
	# for you, consider optimizing!
	return hash(tuple(self._attributes))

	def __iter__(self):
	for rdn in self._attributes:
	for ava in rdn:
	yield ava

	def __len__(self):
	return sum(len(rdn) for rdn in self._attributes)

	def __repr__(self):
	rdns = ",".join(attr.rfc4514_string() for attr in self._attributes)

	if six.PY2:
	return "<Name({})>".format(rdns.encode("utf8"))
	else:
	return "<Name({})>".format(rdns)