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android / platform / external / python / asn1crypto / 67a55d70b5793782d570553f94212d3d0e8b9fbc / . / asn1crypto / x509.py
blob: 2cce9a512073c5d4fa0acefca0fe259bacd6328d [file] [log] [blame]
# coding: utf-8
"""
ASN.1 type classes for X.509 certificates. Exports the following items:
- Attributes()
- Certificate()
- Extensions()
- GeneralName()
- GeneralNames()
- Name()
Other type classes are defined that help compose the types listed above.
"""
from __future__ import unicode_literals, division, absolute_import, print_function
from contextlib import contextmanager
from encodings import idna # noqa
import hashlib
import re
import socket
import stringprep
import sys
import unicodedata
from ._errors import unwrap
from ._iri import iri_to_uri, uri_to_iri
from ._ordereddict import OrderedDict
from ._types import type_name, str_cls, bytes_to_list
from .algos import AlgorithmIdentifier, AnyAlgorithmIdentifier, DigestAlgorithm, SignedDigestAlgorithm
from .core import (
Any,
BitString,
BMPString,
Boolean,
Choice,
Concat,
Enumerated,
GeneralizedTime,
GeneralString,
IA5String,
Integer,
Null,
NumericString,
ObjectIdentifier,
OctetBitString,
OctetString,
ParsableOctetString,
PrintableString,
Sequence,
SequenceOf,
Set,
SetOf,
TeletexString,
UniversalString,
UTCTime,
UTF8String,
VisibleString,
VOID,
)
from .keys import PublicKeyInfo
from .util import int_to_bytes, int_from_bytes, inet_ntop, inet_pton
# The structures in this file are taken from https://tools.ietf.org/html/rfc5280
# and a few other supplementary sources, mostly due to extra supported
# extension and name OIDs
class DNSName(IA5String):
_encoding = 'idna'
_bad_tag = (12, 19)
def __ne__(self, other):
return not self == other
def __eq__(self, other):
"""
Equality as defined by https://tools.ietf.org/html/rfc5280#section-7.2
:param other:
Another DNSName object
:return:
A boolean
"""
if not isinstance(other, DNSName):
return False
return self.__unicode__().lower() == other.__unicode__().lower()
def set(self, value):
"""
Sets the value of the DNS name
: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)
))
if value.startswith('.'):
encoded_value = b'.' + value[1:].encode(self._encoding)
else:
encoded_value = value.encode(self._encoding)
self._unicode = value
self.contents = encoded_value
self._header = None
if self._trailer != b'':
self._trailer = b''
class URI(IA5String):
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 = iri_to_uri(value)
self._header = None
if self._trailer != b'':
self._trailer = b''
def __ne__(self, other):
return not self == other
def __eq__(self, other):
"""
Equality as defined by https://tools.ietf.org/html/rfc5280#section-7.4
:param other:
Another URI object
:return:
A boolean
"""
if not isinstance(other, URI):
return False
return iri_to_uri(self.native, True) == iri_to_uri(other.native, True)
def __unicode__(self):
"""
:return:
A unicode string
"""
if self.contents is None:
return ''
if self._unicode is None:
self._unicode = uri_to_iri(self._merge_chunks())
return self._unicode
class EmailAddress(IA5String):
_contents = None
# If the value has gone through the .set() method, thus normalizing it
_normalized = False
# In the wild we've seen this encoded as a UTF8String and PrintableString
_bad_tag = (12, 19)
@property
def contents(self):
"""
:return:
A byte string of the DER-encoded contents of the sequence
"""
return self._contents
@contents.setter
def contents(self, value):
"""
:param value:
A byte string of the DER-encoded contents of the sequence
"""
self._normalized = False
self._contents = value
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)
))
if value.find('@') != -1:
mailbox, hostname = value.rsplit('@', 1)
encoded_value = mailbox.encode('ascii') + b'@' + hostname.encode('idna')
else:
encoded_value = value.encode('ascii')
self._normalized = True
self._unicode = value
self.contents = encoded_value
self._header = None
if self._trailer != b'':
self._trailer = b''
def __unicode__(self):
"""
:return:
A unicode string
"""
# We've seen this in the wild as a PrintableString, and since ascii is a
# subset of cp1252, we use the later for decoding to be more user friendly
if self._unicode is None:
contents = self._merge_chunks()
if contents.find(b'@') == -1:
self._unicode = contents.decode('cp1252')
else:
mailbox, hostname = contents.rsplit(b'@', 1)
self._unicode = mailbox.decode('cp1252') + '@' + hostname.decode('idna')
return self._unicode
def __ne__(self, other):
return not self == other
def __eq__(self, other):
"""
Equality as defined by https://tools.ietf.org/html/rfc5280#section-7.5
:param other:
Another EmailAddress object
:return:
A boolean
"""
if not isinstance(other, EmailAddress):
return False
if not self._normalized:
self.set(self.native)
if not other._normalized:
other.set(other.native)
if self._contents.find(b'@') == -1 or other._contents.find(b'@') == -1:
return self._contents == other._contents
other_mailbox, other_hostname = other._contents.rsplit(b'@', 1)
mailbox, hostname = self._contents.rsplit(b'@', 1)
if mailbox != other_mailbox:
return False
if hostname.lower() != other_hostname.lower():
return False
return True
class IPAddress(OctetString):
def parse(self, spec=None, spec_params=None):
"""
This method is not applicable to IP addresses
"""
raise ValueError(unwrap(
'''
IP address values can not be parsed
'''
))
def set(self, value):
"""
Sets the value of the object
:param value:
A unicode string containing an IPv4 address, IPv4 address with CIDR,
an IPv6 address or IPv6 address with CIDR
"""
if not isinstance(value, str_cls):
raise TypeError(unwrap(
'''
%s value must be a unicode string, not %s
''',
type_name(self),
type_name(value)
))
original_value = value
has_cidr = value.find('/') != -1
cidr = 0
if has_cidr:
parts = value.split('/', 1)
value = parts[0]
cidr = int(parts[1])
if cidr < 0:
raise ValueError(unwrap(
'''
%s value contains a CIDR range less than 0
''',
type_name(self)
))
if value.find(':') != -1:
family = socket.AF_INET6
if cidr > 128:
raise ValueError(unwrap(
'''
%s value contains a CIDR range bigger than 128, the maximum
value for an IPv6 address
''',
type_name(self)
))
cidr_size = 128
else:
family = socket.AF_INET
if cidr > 32:
raise ValueError(unwrap(
'''
%s value contains a CIDR range bigger than 32, the maximum
value for an IPv4 address
''',
type_name(self)
))
cidr_size = 32
cidr_bytes = b''
if has_cidr:
cidr_mask = '1' * cidr
cidr_mask += '0' * (cidr_size - len(cidr_mask))
cidr_bytes = int_to_bytes(int(cidr_mask, 2))
cidr_bytes = (b'\x00' * ((cidr_size // 8) - len(cidr_bytes))) + cidr_bytes
self._native = original_value
self.contents = inet_pton(family, value) + cidr_bytes
self._bytes = self.contents
self._header = None
if self._trailer != b'':
self._trailer = b''
@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:
byte_string = self.__bytes__()
byte_len = len(byte_string)
value = None
cidr_int = None
if byte_len in set([32, 16]):
value = inet_ntop(socket.AF_INET6, byte_string[0:16])
if byte_len > 16:
cidr_int = int_from_bytes(byte_string[16:])
elif byte_len in set([8, 4]):
value = inet_ntop(socket.AF_INET, byte_string[0:4])
if byte_len > 4:
cidr_int = int_from_bytes(byte_string[4:])
if cidr_int is not None:
cidr_bits = '{0:b}'.format(cidr_int)
cidr = len(cidr_bits.rstrip('0'))
value = value + '/' + str_cls(cidr)
self._native = value
return self._native
def __ne__(self, other):
return not self == other
def __eq__(self, other):
"""
:param other:
Another IPAddress object
:return:
A boolean
"""
if not isinstance(other, IPAddress):
return False
return self.__bytes__() == other.__bytes__()
class Attribute(Sequence):
_fields = [
('type', ObjectIdentifier),
('values', SetOf, {'spec': Any}),
]
class Attributes(SequenceOf):
_child_spec = Attribute
class KeyUsage(BitString):
_map = {
0: 'digital_signature',
1: 'non_repudiation',
2: 'key_encipherment',
3: 'data_encipherment',
4: 'key_agreement',
5: 'key_cert_sign',
6: 'crl_sign',
7: 'encipher_only',
8: 'decipher_only',
}
class PrivateKeyUsagePeriod(Sequence):
_fields = [
('not_before', GeneralizedTime, {'implicit': 0, 'optional': True}),
('not_after', GeneralizedTime, {'implicit': 1, 'optional': True}),
]
class NotReallyTeletexString(TeletexString):
"""
OpenSSL (and probably some other libraries) puts ISO-8859-1
into TeletexString instead of ITU T.61. We use Windows-1252 when
decoding since it is a superset of ISO-8859-1, and less likely to
cause encoding issues, but we stay strict with encoding to prevent
us from creating bad data.
"""
_decoding_encoding = 'cp1252'
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._decoding_encoding)
return self._unicode
@contextmanager
def strict_teletex():
try:
NotReallyTeletexString._decoding_encoding = 'teletex'
yield
finally:
NotReallyTeletexString._decoding_encoding = 'cp1252'
class DirectoryString(Choice):
_alternatives = [
('teletex_string', NotReallyTeletexString),
('printable_string', PrintableString),
('universal_string', UniversalString),
('utf8_string', UTF8String),
('bmp_string', BMPString),
# This is an invalid/bad alternative, but some broken certs use it
('ia5_string', IA5String),
]
class NameType(ObjectIdentifier):
_map = {
'2.5.4.3': 'common_name',
'2.5.4.4': 'surname',
'2.5.4.5': 'serial_number',
'2.5.4.6': 'country_name',
'2.5.4.7': 'locality_name',
'2.5.4.8': 'state_or_province_name',
'2.5.4.9': 'street_address',
'2.5.4.10': 'organization_name',
'2.5.4.11': 'organizational_unit_name',
'2.5.4.12': 'title',
'2.5.4.15': 'business_category',
'2.5.4.17': 'postal_code',
'2.5.4.20': 'telephone_number',
'2.5.4.41': 'name',
'2.5.4.42': 'given_name',
'2.5.4.43': 'initials',
'2.5.4.44': 'generation_qualifier',
'2.5.4.45': 'unique_identifier',
'2.5.4.46': 'dn_qualifier',
'2.5.4.65': 'pseudonym',
'2.5.4.97': 'organization_identifier',
# https://www.trustedcomputinggroup.org/wp-content/uploads/Credential_Profile_EK_V2.0_R14_published.pdf
'2.23.133.2.1': 'tpm_manufacturer',
'2.23.133.2.2': 'tpm_model',
'2.23.133.2.3': 'tpm_version',
'2.23.133.2.4': 'platform_manufacturer',
'2.23.133.2.5': 'platform_model',
'2.23.133.2.6': 'platform_version',
# https://tools.ietf.org/html/rfc2985#page-26
'1.2.840.113549.1.9.1': 'email_address',
# Page 10 of https://cabforum.org/wp-content/uploads/EV-V1_5_5.pdf
'1.3.6.1.4.1.311.60.2.1.1': 'incorporation_locality',
'1.3.6.1.4.1.311.60.2.1.2': 'incorporation_state_or_province',
'1.3.6.1.4.1.311.60.2.1.3': 'incorporation_country',
# https://tools.ietf.org/html/rfc4519#section-2.39
'0.9.2342.19200300.100.1.1': 'user_id',
# https://tools.ietf.org/html/rfc2247#section-4
'0.9.2342.19200300.100.1.25': 'domain_component',
# http://www.alvestrand.no/objectid/0.2.262.1.10.7.20.html
'0.2.262.1.10.7.20': 'name_distinguisher',
}
# This order is largely based on observed order seen in EV certs from
# Symantec and DigiCert. Some of the uncommon name-related fields are
# just placed in what seems like a reasonable order.
preferred_order = [
'incorporation_country',
'incorporation_state_or_province',
'incorporation_locality',
'business_category',
'serial_number',
'country_name',
'postal_code',
'state_or_province_name',
'locality_name',
'street_address',
'organization_name',
'organizational_unit_name',
'title',
'common_name',
'user_id',
'initials',
'generation_qualifier',
'surname',
'given_name',
'name',
'pseudonym',
'dn_qualifier',
'telephone_number',
'email_address',
'domain_component',
'name_distinguisher',
'organization_identifier',
'tpm_manufacturer',
'tpm_model',
'tpm_version',
'platform_manufacturer',
'platform_model',
'platform_version',
]
@classmethod
def preferred_ordinal(cls, attr_name):
"""
Returns an ordering value for a particular attribute key.
Unrecognized attributes and OIDs will be sorted lexically at the end.
:return:
An orderable value.
"""
attr_name = cls.map(attr_name)
if attr_name in cls.preferred_order:
ordinal = cls.preferred_order.index(attr_name)
else:
ordinal = len(cls.preferred_order)
return (ordinal, attr_name)
@property
def human_friendly(self):
"""
:return:
A human-friendly unicode string to display to users
"""
return {
'common_name': 'Common Name',
'surname': 'Surname',
'serial_number': 'Serial Number',
'country_name': 'Country',
'locality_name': 'Locality',
'state_or_province_name': 'State/Province',
'street_address': 'Street Address',
'organization_name': 'Organization',
'organizational_unit_name': 'Organizational Unit',
'title': 'Title',
'business_category': 'Business Category',
'postal_code': 'Postal Code',
'telephone_number': 'Telephone Number',
'name': 'Name',
'given_name': 'Given Name',
'initials': 'Initials',
'generation_qualifier': 'Generation Qualifier',
'unique_identifier': 'Unique Identifier',
'dn_qualifier': 'DN Qualifier',
'pseudonym': 'Pseudonym',
'email_address': 'Email Address',
'incorporation_locality': 'Incorporation Locality',
'incorporation_state_or_province': 'Incorporation State/Province',
'incorporation_country': 'Incorporation Country',
'domain_component': 'Domain Component',
'name_distinguisher': 'Name Distinguisher',
'organization_identifier': 'Organization Identifier',
'tpm_manufacturer': 'TPM Manufacturer',
'tpm_model': 'TPM Model',
'tpm_version': 'TPM Version',
'platform_manufacturer': 'Platform Manufacturer',
'platform_model': 'Platform Model',
'platform_version': 'Platform Version',
'user_id': 'User ID',
}.get(self.native, self.native)
class NameTypeAndValue(Sequence):
_fields = [
('type', NameType),
('value', Any),
]
_oid_pair = ('type', 'value')
_oid_specs = {
'common_name': DirectoryString,
'surname': DirectoryString,
'serial_number': DirectoryString,
'country_name': DirectoryString,
'locality_name': DirectoryString,
'state_or_province_name': DirectoryString,
'street_address': DirectoryString,
'organization_name': DirectoryString,
'organizational_unit_name': DirectoryString,
'title': DirectoryString,
'business_category': DirectoryString,
'postal_code': DirectoryString,
'telephone_number': PrintableString,
'name': DirectoryString,
'given_name': DirectoryString,
'initials': DirectoryString,
'generation_qualifier': DirectoryString,
'unique_identifier': OctetBitString,
'dn_qualifier': DirectoryString,
'pseudonym': DirectoryString,
# https://tools.ietf.org/html/rfc2985#page-26
'email_address': EmailAddress,
# Page 10 of https://cabforum.org/wp-content/uploads/EV-V1_5_5.pdf
'incorporation_locality': DirectoryString,
'incorporation_state_or_province': DirectoryString,
'incorporation_country': DirectoryString,
'domain_component': DNSName,
'name_distinguisher': DirectoryString,
'organization_identifier': DirectoryString,
'tpm_manufacturer': UTF8String,
'tpm_model': UTF8String,
'tpm_version': UTF8String,
'platform_manufacturer': UTF8String,
'platform_model': UTF8String,
'platform_version': UTF8String,
'user_id': DirectoryString,
}
_prepped = None
@property
def prepped_value(self):
"""
Returns the value after being processed by the internationalized string
preparation as specified by RFC 5280
:return:
A unicode string
"""
if self._prepped is None:
self._prepped = self._ldap_string_prep(self['value'].native)
return self._prepped
def __ne__(self, other):
return not self == other
def __eq__(self, other):
"""
Equality as defined by https://tools.ietf.org/html/rfc5280#section-7.1
:param other:
Another NameTypeAndValue object
:return:
A boolean
"""
if not isinstance(other, NameTypeAndValue):
return False
if other['type'].native != self['type'].native:
return False
return other.prepped_value == self.prepped_value
def _ldap_string_prep(self, string):
"""
Implements the internationalized string preparation algorithm from
RFC 4518. https://tools.ietf.org/html/rfc4518#section-2
:param string:
A unicode string to prepare
:return:
A prepared unicode string, ready for comparison
"""
# Map step
string = re.sub('[\u00ad\u1806\u034f\u180b-\u180d\ufe0f-\uff00\ufffc]+', '', string)
string = re.sub('[\u0009\u000a\u000b\u000c\u000d\u0085]', ' ', string)
if sys.maxunicode == 0xffff:
# Some installs of Python 2.7 don't support 8-digit unicode escape
# ranges, so we have to break them into pieces
# Original was: \U0001D173-\U0001D17A and \U000E0020-\U000E007F
string = re.sub('\ud834[\udd73-\udd7a]|\udb40[\udc20-\udc7f]|\U000e0001', '', string)
else:
string = re.sub('[\U0001D173-\U0001D17A\U000E0020-\U000E007F\U000e0001]', '', string)
string = re.sub(
'[\u0000-\u0008\u000e-\u001f\u007f-\u0084\u0086-\u009f\u06dd\u070f\u180e\u200c-\u200f'
'\u202a-\u202e\u2060-\u2063\u206a-\u206f\ufeff\ufff9-\ufffb]+',
'',
string
)
string = string.replace('\u200b', '')
string = re.sub('[\u00a0\u1680\u2000-\u200a\u2028-\u2029\u202f\u205f\u3000]', ' ', string)
string = ''.join(map(stringprep.map_table_b2, string))
# Normalize step
string = unicodedata.normalize('NFKC', string)
# Prohibit step
for char in string:
if stringprep.in_table_a1(char):
raise ValueError(unwrap(
'''
X.509 Name objects may not contain unassigned code points
'''
))
if stringprep.in_table_c8(char):
raise ValueError(unwrap(
'''
X.509 Name objects may not contain change display or
zzzzdeprecated characters
'''
))
if stringprep.in_table_c3(char):
raise ValueError(unwrap(
'''
X.509 Name objects may not contain private use characters
'''
))
if stringprep.in_table_c4(char):
raise ValueError(unwrap(
'''
X.509 Name objects may not contain non-character code points
'''
))
if stringprep.in_table_c5(char):
raise ValueError(unwrap(
'''
X.509 Name objects may not contain surrogate code points
'''
))
if char == '\ufffd':
raise ValueError(unwrap(
'''
X.509 Name objects may not contain the replacement character
'''
))
# Check bidirectional step - here we ensure that we are not mixing
# left-to-right and right-to-left text in the string
has_r_and_al_cat = False
has_l_cat = False
for char in string:
if stringprep.in_table_d1(char):
has_r_and_al_cat = True
elif stringprep.in_table_d2(char):
has_l_cat = True
if has_r_and_al_cat:
first_is_r_and_al = stringprep.in_table_d1(string[0])
last_is_r_and_al = stringprep.in_table_d1(string[-1])
if has_l_cat or not first_is_r_and_al or not last_is_r_and_al:
raise ValueError(unwrap(
'''
X.509 Name object contains a malformed bidirectional
sequence
'''
))
# Insignificant space handling step
string = ' ' + re.sub(' +', ' ', string).strip() + ' '
return string
class RelativeDistinguishedName(SetOf):
_child_spec = NameTypeAndValue
@property
def hashable(self):
"""
:return:
A unicode string that can be used as a dict key or in a set
"""
output = []
values = self._get_values(self)
for key in sorted(values.keys()):
output.append('%s: %s' % (key, values[key]))
# Unit separator is used here since the normalization process for
# values moves any such character, and the keys are all dotted integers
# or under_score_words
return '\x1F'.join(output)
def __ne__(self, other):
return not self == other
def __eq__(self, other):
"""
Equality as defined by https://tools.ietf.org/html/rfc5280#section-7.1
:param other:
Another RelativeDistinguishedName object
:return:
A boolean
"""
if not isinstance(other, RelativeDistinguishedName):
return False
if len(self) != len(other):
return False
self_types = self._get_types(self)
other_types = self._get_types(other)
if self_types != other_types:
return False
self_values = self._get_values(self)
other_values = self._get_values(other)
for type_name_ in self_types:
if self_values[type_name_] != other_values[type_name_]:
return False
return True
def _get_types(self, rdn):
"""
Returns a set of types contained in an RDN
:param rdn:
A RelativeDistinguishedName object
:return:
A set object with unicode strings of NameTypeAndValue type field
values
"""
return set([ntv['type'].native for ntv in rdn])
def _get_values(self, rdn):
"""
Returns a dict of prepped values contained in an RDN
:param rdn:
A RelativeDistinguishedName object
:return:
A dict object with unicode strings of NameTypeAndValue value field
values that have been prepped for comparison
"""
output = {}
[output.update([(ntv['type'].native, ntv.prepped_value)]) for ntv in rdn]
return output
class RDNSequence(SequenceOf):
_child_spec = RelativeDistinguishedName
@property
def hashable(self):
"""
:return:
A unicode string that can be used as a dict key or in a set
"""
# Record separator is used here since the normalization process for
# values moves any such character, and the keys are all dotted integers
# or under_score_words
return '\x1E'.join(rdn.hashable for rdn in self)
def __ne__(self, other):
return not self == other
def __eq__(self, other):
"""
Equality as defined by https://tools.ietf.org/html/rfc5280#section-7.1
:param other:
Another RDNSequence object
:return:
A boolean
"""
if not isinstance(other, RDNSequence):
return False
if len(self) != len(other):
return False
for index, self_rdn in enumerate(self):
if other[index] != self_rdn:
return False
return True
class Name(Choice):
_alternatives = [
('', RDNSequence),
]
_human_friendly = None
_sha1 = None
_sha256 = None
@classmethod
def build(cls, name_dict, use_printable=False):
"""
Creates a Name object from a dict of unicode string keys and values.
The keys should be from NameType._map, or a dotted-integer OID unicode
string.
:param name_dict:
A dict of name information, e.g. {"common_name": "Will Bond",
"country_name": "US", "organization": "Codex Non Sufficit LC"}
:param use_printable:
A bool - if PrintableString should be used for encoding instead of
UTF8String. This is for backwards compatibility with old software.
:return:
An x509.Name object
"""
rdns = []
if not use_printable:
encoding_name = 'utf8_string'
encoding_class = UTF8String
else:
encoding_name = 'printable_string'
encoding_class = PrintableString
# Sort the attributes according to NameType.preferred_order
name_dict = OrderedDict(
sorted(
name_dict.items(),
key=lambda item: NameType.preferred_ordinal(item[0])
)
)
for attribute_name, attribute_value in name_dict.items():
attribute_name = NameType.map(attribute_name)
if attribute_name == 'email_address':
value = EmailAddress(attribute_value)
elif attribute_name == 'domain_component':
value = DNSName(attribute_value)
elif attribute_name in set(['dn_qualifier', 'country_name', 'serial_number']):
value = DirectoryString(
name='printable_string',
value=PrintableString(attribute_value)
)
else:
value = DirectoryString(
name=encoding_name,
value=encoding_class(attribute_value)
)
rdns.append(RelativeDistinguishedName([
NameTypeAndValue({
'type': attribute_name,
'value': value
})
]))
return cls(name='', value=RDNSequence(rdns))
@property
def hashable(self):
"""
:return:
A unicode string that can be used as a dict key or in a set
"""
return self.chosen.hashable
def __len__(self):
return len(self.chosen)
def __ne__(self, other):
return not self == other
def __eq__(self, other):
"""
Equality as defined by https://tools.ietf.org/html/rfc5280#section-7.1
:param other:
Another Name object
:return:
A boolean
"""
if not isinstance(other, Name):
return False
return self.chosen == other.chosen
@property
def native(self):
if self._native is None:
self._native = OrderedDict()
for rdn in self.chosen.native:
for type_val in rdn:
field_name = type_val['type']
if field_name in self._native:
existing = self._native[field_name]
if not isinstance(existing, list):
existing = self._native[field_name] = [existing]
existing.append(type_val['value'])
else:
self._native[field_name] = type_val['value']
return self._native
@property
def human_friendly(self):
"""
:return:
A human-friendly unicode string containing the parts of the name
"""
if self._human_friendly is None:
data = OrderedDict()
last_field = None
for rdn in self.chosen:
for type_val in rdn:
field_name = type_val['type'].human_friendly
last_field = field_name
if field_name in data:
data[field_name] = [data[field_name]]
data[field_name].append(type_val['value'])
else:
data[field_name] = type_val['value']
to_join = []
keys = data.keys()
if last_field == 'Country':
keys = reversed(list(keys))
for key in keys:
value = data[key]
native_value = self._recursive_humanize(value)
to_join.append('%s: %s' % (key, native_value))
has_comma = False
for element in to_join:
if element.find(',') != -1:
has_comma = True
break
separator = ', ' if not has_comma else '; '
self._human_friendly = separator.join(to_join[::-1])
return self._human_friendly
def _recursive_humanize(self, value):
"""
Recursively serializes data compiled from the RDNSequence
:param value:
An Asn1Value object, or a list of Asn1Value objects
:return:
A unicode string
"""
if isinstance(value, list):
return', '.join(
reversed([self._recursive_humanize(sub_value) for sub_value in value])
)
return value.native
@property
def sha1(self):
"""
:return:
The SHA1 hash of the DER-encoded bytes of this name
"""
if self._sha1 is None:
self._sha1 = hashlib.sha1(self.dump()).digest()
return self._sha1
@property
def sha256(self):
"""
:return:
The SHA-256 hash of the DER-encoded bytes of this name
"""
if self._sha256 is None:
self._sha256 = hashlib.sha256(self.dump()).digest()
return self._sha256
class AnotherName(Sequence):
_fields = [
('type_id', ObjectIdentifier),
('value', Any, {'explicit': 0}),
]
class CountryName(Choice):
class_ = 1
tag = 1
_alternatives = [
('x121_dcc_code', NumericString),
('iso_3166_alpha2_code', PrintableString),
]
class AdministrationDomainName(Choice):
class_ = 1
tag = 2
_alternatives = [
('numeric', NumericString),
('printable', PrintableString),
]
class PrivateDomainName(Choice):
_alternatives = [
('numeric', NumericString),
('printable', PrintableString),
]
class PersonalName(Set):
_fields = [
('surname', PrintableString, {'implicit': 0}),
('given_name', PrintableString, {'implicit': 1, 'optional': True}),
('initials', PrintableString, {'implicit': 2, 'optional': True}),
('generation_qualifier', PrintableString, {'implicit': 3, 'optional': True}),
]
class TeletexPersonalName(Set):
_fields = [
('surname', TeletexString, {'implicit': 0}),
('given_name', TeletexString, {'implicit': 1, 'optional': True}),
('initials', TeletexString, {'implicit': 2, 'optional': True}),
('generation_qualifier', TeletexString, {'implicit': 3, 'optional': True}),
]
class OrganizationalUnitNames(SequenceOf):
_child_spec = PrintableString
class TeletexOrganizationalUnitNames(SequenceOf):
_child_spec = TeletexString
class BuiltInStandardAttributes(Sequence):
_fields = [
('country_name', CountryName, {'optional': True}),
('administration_domain_name', AdministrationDomainName, {'optional': True}),
('network_address', NumericString, {'implicit': 0, 'optional': True}),
('terminal_identifier', PrintableString, {'implicit': 1, 'optional': True}),
('private_domain_name', PrivateDomainName, {'explicit': 2, 'optional': True}),
('organization_name', PrintableString, {'implicit': 3, 'optional': True}),
('numeric_user_identifier', NumericString, {'implicit': 4, 'optional': True}),
('personal_name', PersonalName, {'implicit': 5, 'optional': True}),
('organizational_unit_names', OrganizationalUnitNames, {'implicit': 6, 'optional': True}),
]
class BuiltInDomainDefinedAttribute(Sequence):
_fields = [
('type', PrintableString),
('value', PrintableString),
]
class BuiltInDomainDefinedAttributes(SequenceOf):
_child_spec = BuiltInDomainDefinedAttribute
class TeletexDomainDefinedAttribute(Sequence):
_fields = [
('type', TeletexString),
('value', TeletexString),
]
class TeletexDomainDefinedAttributes(SequenceOf):
_child_spec = TeletexDomainDefinedAttribute
class PhysicalDeliveryCountryName(Choice):
_alternatives = [
('x121_dcc_code', NumericString),
('iso_3166_alpha2_code', PrintableString),
]
class PostalCode(Choice):
_alternatives = [
('numeric_code', NumericString),
('printable_code', PrintableString),
]
class PDSParameter(Set):
_fields = [
('printable_string', PrintableString, {'optional': True}),
('teletex_string', TeletexString, {'optional': True}),
]
class PrintableAddress(SequenceOf):
_child_spec = PrintableString
class UnformattedPostalAddress(Set):
_fields = [
('printable_address', PrintableAddress, {'optional': True}),
('teletex_string', TeletexString, {'optional': True}),
]
class E1634Address(Sequence):
_fields = [
('number', NumericString, {'implicit': 0}),
('sub_address', NumericString, {'implicit': 1, 'optional': True}),
]
class NAddresses(SetOf):
_child_spec = OctetString
class PresentationAddress(Sequence):
_fields = [
('p_selector', OctetString, {'explicit': 0, 'optional': True}),
('s_selector', OctetString, {'explicit': 1, 'optional': True}),
('t_selector', OctetString, {'explicit': 2, 'optional': True}),
('n_addresses', NAddresses, {'explicit': 3}),
]
class ExtendedNetworkAddress(Choice):
_alternatives = [
('e163_4_address', E1634Address),
('psap_address', PresentationAddress, {'implicit': 0})
]
class TerminalType(Integer):
_map = {
3: 'telex',
4: 'teletex',
5: 'g3_facsimile',
6: 'g4_facsimile',
7: 'ia5_terminal',
8: 'videotex',
}
class ExtensionAttributeType(Integer):
_map = {
1: 'common_name',
2: 'teletex_common_name',
3: 'teletex_organization_name',
4: 'teletex_personal_name',
5: 'teletex_organization_unit_names',
6: 'teletex_domain_defined_attributes',
7: 'pds_name',
8: 'physical_delivery_country_name',
9: 'postal_code',
10: 'physical_delivery_office_name',
11: 'physical_delivery_office_number',
12: 'extension_of_address_components',
13: 'physical_delivery_personal_name',
14: 'physical_delivery_organization_name',
15: 'extension_physical_delivery_address_components',
16: 'unformatted_postal_address',
17: 'street_address',
18: 'post_office_box_address',
19: 'poste_restante_address',
20: 'unique_postal_name',
21: 'local_postal_attributes',
22: 'extended_network_address',
23: 'terminal_type',
}
class ExtensionAttribute(Sequence):
_fields = [
('extension_attribute_type', ExtensionAttributeType, {'implicit': 0}),
('extension_attribute_value', Any, {'explicit': 1}),
]
_oid_pair = ('extension_attribute_type', 'extension_attribute_value')
_oid_specs = {
'common_name': PrintableString,
'teletex_common_name': TeletexString,
'teletex_organization_name': TeletexString,
'teletex_personal_name': TeletexPersonalName,
'teletex_organization_unit_names': TeletexOrganizationalUnitNames,
'teletex_domain_defined_attributes': TeletexDomainDefinedAttributes,
'pds_name': PrintableString,
'physical_delivery_country_name': PhysicalDeliveryCountryName,
'postal_code': PostalCode,
'physical_delivery_office_name': PDSParameter,
'physical_delivery_office_number': PDSParameter,
'extension_of_address_components': PDSParameter,
'physical_delivery_personal_name': PDSParameter,
'physical_delivery_organization_name': PDSParameter,
'extension_physical_delivery_address_components': PDSParameter,
'unformatted_postal_address': UnformattedPostalAddress,
'street_address': PDSParameter,
'post_office_box_address': PDSParameter,
'poste_restante_address': PDSParameter,
'unique_postal_name': PDSParameter,
'local_postal_attributes': PDSParameter,
'extended_network_address': ExtendedNetworkAddress,
'terminal_type': TerminalType,
}
class ExtensionAttributes(SequenceOf):
_child_spec = ExtensionAttribute
class ORAddress(Sequence):
_fields = [
('built_in_standard_attributes', BuiltInStandardAttributes),
('built_in_domain_defined_attributes', BuiltInDomainDefinedAttributes, {'optional': True}),
('extension_attributes', ExtensionAttributes, {'optional': True}),
]
class EDIPartyName(Sequence):
_fields = [
('name_assigner', DirectoryString, {'implicit': 0, 'optional': True}),
('party_name', DirectoryString, {'implicit': 1}),
]
class GeneralName(Choice):
_alternatives = [
('other_name', AnotherName, {'implicit': 0}),
('rfc822_name', EmailAddress, {'implicit': 1}),
('dns_name', DNSName, {'implicit': 2}),
('x400_address', ORAddress, {'implicit': 3}),
('directory_name', Name, {'explicit': 4}),
('edi_party_name', EDIPartyName, {'implicit': 5}),
('uniform_resource_identifier', URI, {'implicit': 6}),
('ip_address', IPAddress, {'implicit': 7}),
('registered_id', ObjectIdentifier, {'implicit': 8}),
]
def __ne__(self, other):
return not self == other
def __eq__(self, other):
"""
Does not support other_name, x400_address or edi_party_name
:param other:
The other GeneralName to compare to
:return:
A boolean
"""
if self.name in ('other_name', 'x400_address', 'edi_party_name'):
raise ValueError(unwrap(
'''
Comparison is not supported for GeneralName objects of
choice %s
''',
self.name
))
if other.name in ('other_name', 'x400_address', 'edi_party_name'):
raise ValueError(unwrap(
'''
Comparison is not supported for GeneralName objects of choice
%s''',
other.name
))
if self.name != other.name:
return False
return self.chosen == other.chosen
class GeneralNames(SequenceOf):
_child_spec = GeneralName
class Time(Choice):
_alternatives = [
('utc_time', UTCTime),
('general_time', GeneralizedTime),
]
class Validity(Sequence):
_fields = [
('not_before', Time),
('not_after', Time),
]
class BasicConstraints(Sequence):
_fields = [
('ca', Boolean, {'default': False}),
('path_len_constraint', Integer, {'optional': True}),
]
class AuthorityKeyIdentifier(Sequence):
_fields = [
('key_identifier', OctetString, {'implicit': 0, 'optional': True}),
('authority_cert_issuer', GeneralNames, {'implicit': 1, 'optional': True}),
('authority_cert_serial_number', Integer, {'implicit': 2, 'optional': True}),
]
class DistributionPointName(Choice):
_alternatives = [
('full_name', GeneralNames, {'implicit': 0}),
('name_relative_to_crl_issuer', RelativeDistinguishedName, {'implicit': 1}),
]
class ReasonFlags(BitString):
_map = {
0: 'unused',
1: 'key_compromise',
2: 'ca_compromise',
3: 'affiliation_changed',
4: 'superseded',
5: 'cessation_of_operation',
6: 'certificate_hold',
7: 'privilege_withdrawn',
8: 'aa_compromise',
}
class GeneralSubtree(Sequence):
_fields = [
('base', GeneralName),
('minimum', Integer, {'implicit': 0, 'default': 0}),
('maximum', Integer, {'implicit': 1, 'optional': True}),
]
class GeneralSubtrees(SequenceOf):
_child_spec = GeneralSubtree
class NameConstraints(Sequence):
_fields = [
('permitted_subtrees', GeneralSubtrees, {'implicit': 0, 'optional': True}),
('excluded_subtrees', GeneralSubtrees, {'implicit': 1, 'optional': True}),
]
class DistributionPoint(Sequence):
_fields = [
('distribution_point', DistributionPointName, {'explicit': 0, 'optional': True}),
('reasons', ReasonFlags, {'implicit': 1, 'optional': True}),
('crl_issuer', GeneralNames, {'implicit': 2, 'optional': True}),
]
_url = False
@property
def url(self):
"""
:return:
None or a unicode string of the distribution point's URL
"""
if self._url is False:
self._url = None
name = self['distribution_point']
if name.name != 'full_name':
raise ValueError(unwrap(
'''
CRL distribution points that are relative to the issuer are
not supported
'''
))
for general_name in name.chosen:
if general_name.name == 'uniform_resource_identifier':
url = general_name.native
if url.lower().startswith(('http://', 'https://', 'ldap://', 'ldaps://')):
self._url = url
break
return self._url
class CRLDistributionPoints(SequenceOf):
_child_spec = DistributionPoint
class DisplayText(Choice):
_alternatives = [
('ia5_string', IA5String),
('visible_string', VisibleString),
('bmp_string', BMPString),
('utf8_string', UTF8String),
]
class NoticeNumbers(SequenceOf):
_child_spec = Integer
class NoticeReference(Sequence):
_fields = [
('organization', DisplayText),
('notice_numbers', NoticeNumbers),
]
class UserNotice(Sequence):
_fields = [
('notice_ref', NoticeReference, {'optional': True}),
('explicit_text', DisplayText, {'optional': True}),
]
class PolicyQualifierId(ObjectIdentifier):
_map = {
'1.3.6.1.5.5.7.2.1': 'certification_practice_statement',
'1.3.6.1.5.5.7.2.2': 'user_notice',
}
class PolicyQualifierInfo(Sequence):
_fields = [
('policy_qualifier_id', PolicyQualifierId),
('qualifier', Any),
]
_oid_pair = ('policy_qualifier_id', 'qualifier')
_oid_specs = {
'certification_practice_statement': IA5String,
'user_notice': UserNotice,
}
class PolicyQualifierInfos(SequenceOf):
_child_spec = PolicyQualifierInfo
class PolicyIdentifier(ObjectIdentifier):
_map = {
'2.5.29.32.0': 'any_policy',
}
class PolicyInformation(Sequence):
_fields = [
('policy_identifier', PolicyIdentifier),
('policy_qualifiers', PolicyQualifierInfos, {'optional': True})
]
class CertificatePolicies(SequenceOf):
_child_spec = PolicyInformation
class PolicyMapping(Sequence):
_fields = [
('issuer_domain_policy', PolicyIdentifier),
('subject_domain_policy', PolicyIdentifier),
]
class PolicyMappings(SequenceOf):
_child_spec = PolicyMapping
class PolicyConstraints(Sequence):
_fields = [
('require_explicit_policy', Integer, {'implicit': 0, 'optional': True}),
('inhibit_policy_mapping', Integer, {'implicit': 1, 'optional': True}),
]
class KeyPurposeId(ObjectIdentifier):
_map = {
# https://tools.ietf.org/html/rfc5280#page-45
'2.5.29.37.0': 'any_extended_key_usage',
'1.3.6.1.5.5.7.3.1': 'server_auth',
'1.3.6.1.5.5.7.3.2': 'client_auth',
'1.3.6.1.5.5.7.3.3': 'code_signing',
'1.3.6.1.5.5.7.3.4': 'email_protection',
'1.3.6.1.5.5.7.3.5': 'ipsec_end_system',
'1.3.6.1.5.5.7.3.6': 'ipsec_tunnel',
'1.3.6.1.5.5.7.3.7': 'ipsec_user',
'1.3.6.1.5.5.7.3.8': 'time_stamping',
'1.3.6.1.5.5.7.3.9': 'ocsp_signing',
# http://tools.ietf.org/html/rfc3029.html#page-9
'1.3.6.1.5.5.7.3.10': 'dvcs',
# http://tools.ietf.org/html/rfc6268.html#page-16
'1.3.6.1.5.5.7.3.13': 'eap_over_ppp',
'1.3.6.1.5.5.7.3.14': 'eap_over_lan',
# https://tools.ietf.org/html/rfc5055#page-76
'1.3.6.1.5.5.7.3.15': 'scvp_server',
'1.3.6.1.5.5.7.3.16': 'scvp_client',
# https://tools.ietf.org/html/rfc4945#page-31
'1.3.6.1.5.5.7.3.17': 'ipsec_ike',
# https://tools.ietf.org/html/rfc5415#page-38
'1.3.6.1.5.5.7.3.18': 'capwap_ac',
'1.3.6.1.5.5.7.3.19': 'capwap_wtp',
# https://tools.ietf.org/html/rfc5924#page-8
'1.3.6.1.5.5.7.3.20': 'sip_domain',
# https://tools.ietf.org/html/rfc6187#page-7
'1.3.6.1.5.5.7.3.21': 'secure_shell_client',
'1.3.6.1.5.5.7.3.22': 'secure_shell_server',
# https://tools.ietf.org/html/rfc6494#page-7
'1.3.6.1.5.5.7.3.23': 'send_router',
'1.3.6.1.5.5.7.3.24': 'send_proxied_router',
'1.3.6.1.5.5.7.3.25': 'send_owner',
'1.3.6.1.5.5.7.3.26': 'send_proxied_owner',
# https://tools.ietf.org/html/rfc6402#page-10
'1.3.6.1.5.5.7.3.27': 'cmc_ca',
'1.3.6.1.5.5.7.3.28': 'cmc_ra',
'1.3.6.1.5.5.7.3.29': 'cmc_archive',
# https://tools.ietf.org/html/draft-ietf-sidr-bgpsec-pki-profiles-15#page-6
'1.3.6.1.5.5.7.3.30': 'bgpspec_router',
# https://www.ietf.org/proceedings/44/I-D/draft-ietf-ipsec-pki-req-01.txt
'1.3.6.1.5.5.8.2.2': 'ike_intermediate',
# https://msdn.microsoft.com/en-us/library/windows/desktop/aa378132(v=vs.85).aspx
# and https://support.microsoft.com/en-us/kb/287547
'1.3.6.1.4.1.311.10.3.1': 'microsoft_trust_list_signing',
'1.3.6.1.4.1.311.10.3.2': 'microsoft_time_stamp_signing',
'1.3.6.1.4.1.311.10.3.3': 'microsoft_server_gated',
'1.3.6.1.4.1.311.10.3.3.1': 'microsoft_serialized',
'1.3.6.1.4.1.311.10.3.4': 'microsoft_efs',
'1.3.6.1.4.1.311.10.3.4.1': 'microsoft_efs_recovery',
'1.3.6.1.4.1.311.10.3.5': 'microsoft_whql',
'1.3.6.1.4.1.311.10.3.6': 'microsoft_nt5',
'1.3.6.1.4.1.311.10.3.7': 'microsoft_oem_whql',
'1.3.6.1.4.1.311.10.3.8': 'microsoft_embedded_nt',
'1.3.6.1.4.1.311.10.3.9': 'microsoft_root_list_signer',
'1.3.6.1.4.1.311.10.3.10': 'microsoft_qualified_subordination',
'1.3.6.1.4.1.311.10.3.11': 'microsoft_key_recovery',
'1.3.6.1.4.1.311.10.3.12': 'microsoft_document_signing',
'1.3.6.1.4.1.311.10.3.13': 'microsoft_lifetime_signing',
'1.3.6.1.4.1.311.10.3.14': 'microsoft_mobile_device_software',
# https://support.microsoft.com/en-us/help/287547/object-ids-associated-with-microsoft-cryptography
'1.3.6.1.4.1.311.20.2.2': 'microsoft_smart_card_logon',
# https://opensource.apple.com/source
# - /Security/Security-57031.40.6/Security/libsecurity_keychain/lib/SecPolicy.cpp
# - /libsecurity_cssm/libsecurity_cssm-36064/lib/oidsalg.c
'1.2.840.113635.100.1.2': 'apple_x509_basic',
'1.2.840.113635.100.1.3': 'apple_ssl',
'1.2.840.113635.100.1.4': 'apple_local_cert_gen',
'1.2.840.113635.100.1.5': 'apple_csr_gen',
'1.2.840.113635.100.1.6': 'apple_revocation_crl',
'1.2.840.113635.100.1.7': 'apple_revocation_ocsp',
'1.2.840.113635.100.1.8': 'apple_smime',
'1.2.840.113635.100.1.9': 'apple_eap',
'1.2.840.113635.100.1.10': 'apple_software_update_signing',
'1.2.840.113635.100.1.11': 'apple_ipsec',
'1.2.840.113635.100.1.12': 'apple_ichat',
'1.2.840.113635.100.1.13': 'apple_resource_signing',
'1.2.840.113635.100.1.14': 'apple_pkinit_client',
'1.2.840.113635.100.1.15': 'apple_pkinit_server',
'1.2.840.113635.100.1.16': 'apple_code_signing',
'1.2.840.113635.100.1.17': 'apple_package_signing',
'1.2.840.113635.100.1.18': 'apple_id_validation',
'1.2.840.113635.100.1.20': 'apple_time_stamping',
'1.2.840.113635.100.1.21': 'apple_revocation',
'1.2.840.113635.100.1.22': 'apple_passbook_signing',
'1.2.840.113635.100.1.23': 'apple_mobile_store',
'1.2.840.113635.100.1.24': 'apple_escrow_service',
'1.2.840.113635.100.1.25': 'apple_profile_signer',
'1.2.840.113635.100.1.26': 'apple_qa_profile_signer',
'1.2.840.113635.100.1.27': 'apple_test_mobile_store',
'1.2.840.113635.100.1.28': 'apple_otapki_signer',
'1.2.840.113635.100.1.29': 'apple_test_otapki_signer',
'1.2.840.113625.100.1.30': 'apple_id_validation_record_signing_policy',
'1.2.840.113625.100.1.31': 'apple_smp_encryption',
'1.2.840.113625.100.1.32': 'apple_test_smp_encryption',
'1.2.840.113635.100.1.33': 'apple_server_authentication',
'1.2.840.113635.100.1.34': 'apple_pcs_escrow_service',
# http://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.201-2.pdf
'2.16.840.1.101.3.6.8': 'piv_card_authentication',
'2.16.840.1.101.3.6.7': 'piv_content_signing',
# https://tools.ietf.org/html/rfc4556.html
'1.3.6.1.5.2.3.4': 'pkinit_kpclientauth',
'1.3.6.1.5.2.3.5': 'pkinit_kpkdc',
# https://www.adobe.com/devnet-docs/acrobatetk/tools/DigSig/changes.html
'1.2.840.113583.1.1.5': 'adobe_authentic_documents_trust',
# https://www.idmanagement.gov/wp-content/uploads/sites/1171/uploads/fpki-pivi-cert-profiles.pdf
'2.16.840.1.101.3.8.7': 'fpki_pivi_content_signing'
}
class ExtKeyUsageSyntax(SequenceOf):
_child_spec = KeyPurposeId
class AccessMethod(ObjectIdentifier):
_map = {
'1.3.6.1.5.5.7.48.1': 'ocsp',
'1.3.6.1.5.5.7.48.2': 'ca_issuers',
'1.3.6.1.5.5.7.48.3': 'time_stamping',
'1.3.6.1.5.5.7.48.5': 'ca_repository',
}
class AccessDescription(Sequence):
_fields = [
('access_method', AccessMethod),
('access_location', GeneralName),
]
class AuthorityInfoAccessSyntax(SequenceOf):
_child_spec = AccessDescription
class SubjectInfoAccessSyntax(SequenceOf):
_child_spec = AccessDescription
# https://tools.ietf.org/html/rfc7633
class Features(SequenceOf):
_child_spec = Integer
class EntrustVersionInfo(Sequence):
_fields = [
('entrust_vers', GeneralString),
('entrust_info_flags', BitString)
]
class NetscapeCertificateType(BitString):
_map = {
0: 'ssl_client',
1: 'ssl_server',
2: 'email',
3: 'object_signing',
4: 'reserved',
5: 'ssl_ca',
6: 'email_ca',
7: 'object_signing_ca',
}
class Version(Integer):
_map = {
0: 'v1',
1: 'v2',
2: 'v3',
}
class TPMSpecification(Sequence):
_fields = [
('family', UTF8String),
('level', Integer),
('revision', Integer),
]
class SetOfTPMSpecification(SetOf):
_child_spec = TPMSpecification
class TCGSpecificationVersion(Sequence):
_fields = [
('major_version', Integer),
('minor_version', Integer),
('revision', Integer),
]
class TCGPlatformSpecification(Sequence):
_fields = [
('version', TCGSpecificationVersion),
('platform_class', OctetString),
]
class SetOfTCGPlatformSpecification(SetOf):
_child_spec = TCGPlatformSpecification
class EKGenerationType(Enumerated):
_map = {
0: 'internal',
1: 'injected',
2: 'internal_revocable',
3: 'injected_revocable',
}
class EKGenerationLocation(Enumerated):
_map = {
0: 'tpm_manufacturer',
1: 'platform_manufacturer',
2: 'ek_cert_signer',
}
class EKCertificateGenerationLocation(Enumerated):
_map = {
0: 'tpm_manufacturer',
1: 'platform_manufacturer',
2: 'ek_cert_signer',
}
class EvaluationAssuranceLevel(Enumerated):
_map = {
1: 'level1',
2: 'level2',
3: 'level3',
4: 'level4',
5: 'level5',
6: 'level6',
7: 'level7',
}
class EvaluationStatus(Enumerated):
_map = {
0: 'designed_to_meet',
1: 'evaluation_in_progress',
2: 'evaluation_completed',
}
class StrengthOfFunction(Enumerated):
_map = {
0: 'basic',
1: 'medium',
2: 'high',
}
class URIReference(Sequence):
_fields = [
('uniform_resource_identifier', IA5String),
('hash_algorithm', DigestAlgorithm, {'optional': True}),
('hash_value', BitString, {'optional': True}),
]
class CommonCriteriaMeasures(Sequence):
_fields = [
('version', IA5String),
('assurance_level', EvaluationAssuranceLevel),
('evaluation_status', EvaluationStatus),
('plus', Boolean, {'default': False}),
('strengh_of_function', StrengthOfFunction, {'implicit': 0, 'optional': True}),
('profile_oid', ObjectIdentifier, {'implicit': 1, 'optional': True}),
('profile_url', URIReference, {'implicit': 2, 'optional': True}),
('target_oid', ObjectIdentifier, {'implicit': 3, 'optional': True}),
('target_uri', URIReference, {'implicit': 4, 'optional': True}),
]
class SecurityLevel(Enumerated):
_map = {
1: 'level1',
2: 'level2',
3: 'level3',
4: 'level4',
}
class FIPSLevel(Sequence):
_fields = [
('version', IA5String),
('level', SecurityLevel),
('plus', Boolean, {'default': False}),
]
class TPMSecurityAssertions(Sequence):
_fields = [
('version', Version, {'default': 'v1'}),
('field_upgradable', Boolean, {'default': False}),
('ek_generation_type', EKGenerationType, {'implicit': 0, 'optional': True}),
('ek_generation_location', EKGenerationLocation, {'implicit': 1, 'optional': True}),
('ek_certificate_generation_location', EKCertificateGenerationLocation, {'implicit': 2, 'optional': True}),
('cc_info', CommonCriteriaMeasures, {'implicit': 3, 'optional': True}),
('fips_level', FIPSLevel, {'implicit': 4, 'optional': True}),
('iso_9000_certified', Boolean, {'implicit': 5, 'default': False}),
('iso_9000_uri', IA5String, {'optional': True}),
]
class SetOfTPMSecurityAssertions(SetOf):
_child_spec = TPMSecurityAssertions
class SubjectDirectoryAttributeId(ObjectIdentifier):
_map = {
# https://tools.ietf.org/html/rfc2256#page-11
'2.5.4.52': 'supported_algorithms',
# https://www.trustedcomputinggroup.org/wp-content/uploads/Credential_Profile_EK_V2.0_R14_published.pdf
'2.23.133.2.16': 'tpm_specification',
'2.23.133.2.17': 'tcg_platform_specification',
'2.23.133.2.18': 'tpm_security_assertions',
# https://tools.ietf.org/html/rfc3739#page-18
'1.3.6.1.5.5.7.9.1': 'pda_date_of_birth',
'1.3.6.1.5.5.7.9.2': 'pda_place_of_birth',
'1.3.6.1.5.5.7.9.3': 'pda_gender',
'1.3.6.1.5.5.7.9.4': 'pda_country_of_citizenship',
'1.3.6.1.5.5.7.9.5': 'pda_country_of_residence',
# https://holtstrom.com/michael/tools/asn1decoder.php
'1.2.840.113533.7.68.29': 'entrust_user_role',
}
class SetOfGeneralizedTime(SetOf):
_child_spec = GeneralizedTime
class SetOfDirectoryString(SetOf):
_child_spec = DirectoryString
class SetOfPrintableString(SetOf):
_child_spec = PrintableString
class SupportedAlgorithm(Sequence):
_fields = [
('algorithm_identifier', AnyAlgorithmIdentifier),
('intended_usage', KeyUsage, {'explicit': 0, 'optional': True}),
('intended_certificate_policies', CertificatePolicies, {'explicit': 1, 'optional': True}),
]
class SetOfSupportedAlgorithm(SetOf):
_child_spec = SupportedAlgorithm
class SubjectDirectoryAttribute(Sequence):
_fields = [
('type', SubjectDirectoryAttributeId),
('values', Any),
]
_oid_pair = ('type', 'values')
_oid_specs = {
'supported_algorithms': SetOfSupportedAlgorithm,
'tpm_specification': SetOfTPMSpecification,
'tcg_platform_specification': SetOfTCGPlatformSpecification,
'tpm_security_assertions': SetOfTPMSecurityAssertions,
'pda_date_of_birth': SetOfGeneralizedTime,
'pda_place_of_birth': SetOfDirectoryString,
'pda_gender': SetOfPrintableString,
'pda_country_of_citizenship': SetOfPrintableString,
'pda_country_of_residence': SetOfPrintableString,
}
def _values_spec(self):
type_ = self['type'].native
if type_ in self._oid_specs:
return self._oid_specs[type_]
return SetOf
_spec_callbacks = {
'values': _values_spec
}
class SubjectDirectoryAttributes(SequenceOf):
_child_spec = SubjectDirectoryAttribute
class ExtensionId(ObjectIdentifier):
_map = {
'2.5.29.9': 'subject_directory_attributes',
'2.5.29.14': 'key_identifier',
'2.5.29.15': 'key_usage',
'2.5.29.16': 'private_key_usage_period',
'2.5.29.17': 'subject_alt_name',
'2.5.29.18': 'issuer_alt_name',
'2.5.29.19': 'basic_constraints',
'2.5.29.30': 'name_constraints',
'2.5.29.31': 'crl_distribution_points',
'2.5.29.32': 'certificate_policies',
'2.5.29.33': 'policy_mappings',
'2.5.29.35': 'authority_key_identifier',
'2.5.29.36': 'policy_constraints',
'2.5.29.37': 'extended_key_usage',
'2.5.29.46': 'freshest_crl',
'2.5.29.54': 'inhibit_any_policy',
'1.3.6.1.5.5.7.1.1': 'authority_information_access',
'1.3.6.1.5.5.7.1.11': 'subject_information_access',
# https://tools.ietf.org/html/rfc7633
'1.3.6.1.5.5.7.1.24': 'tls_feature',
'1.3.6.1.5.5.7.48.1.5': 'ocsp_no_check',
'1.2.840.113533.7.65.0': 'entrust_version_extension',
'2.16.840.1.113730.1.1': 'netscape_certificate_type',
# https://tools.ietf.org/html/rfc6962.html#page-14
'1.3.6.1.4.1.11129.2.4.2': 'signed_certificate_timestamp_list',
}
class Extension(Sequence):
_fields = [
('extn_id', ExtensionId),
('critical', Boolean, {'default': False}),
('extn_value', ParsableOctetString),
]
_oid_pair = ('extn_id', 'extn_value')
_oid_specs = {
'subject_directory_attributes': SubjectDirectoryAttributes,
'key_identifier': OctetString,
'key_usage': KeyUsage,
'private_key_usage_period': PrivateKeyUsagePeriod,
'subject_alt_name': GeneralNames,
'issuer_alt_name': GeneralNames,
'basic_constraints': BasicConstraints,
'name_constraints': NameConstraints,
'crl_distribution_points': CRLDistributionPoints,
'certificate_policies': CertificatePolicies,
'policy_mappings': PolicyMappings,
'authority_key_identifier': AuthorityKeyIdentifier,
'policy_constraints': PolicyConstraints,
'extended_key_usage': ExtKeyUsageSyntax,
'freshest_crl': CRLDistributionPoints,
'inhibit_any_policy': Integer,
'authority_information_access': AuthorityInfoAccessSyntax,
'subject_information_access': SubjectInfoAccessSyntax,
'tls_feature': Features,
'ocsp_no_check': Null,
'entrust_version_extension': EntrustVersionInfo,
'netscape_certificate_type': NetscapeCertificateType,
'signed_certificate_timestamp_list': OctetString,
}
class Extensions(SequenceOf):
_child_spec = Extension
class TbsCertificate(Sequence):
_fields = [
('version', Version, {'explicit': 0, 'default': 'v1'}),
('serial_number', Integer),
('signature', SignedDigestAlgorithm),
('issuer', Name),
('validity', Validity),
('subject', Name),
('subject_public_key_info', PublicKeyInfo),
('issuer_unique_id', OctetBitString, {'implicit': 1, 'optional': True}),
('subject_unique_id', OctetBitString, {'implicit': 2, 'optional': True}),
('extensions', Extensions, {'explicit': 3, 'optional': True}),
]
class Certificate(Sequence):
_fields = [
('tbs_certificate', TbsCertificate),
('signature_algorithm', SignedDigestAlgorithm),
('signature_value', OctetBitString),
]
_processed_extensions = False
_critical_extensions = None
_subject_directory_attributes_value = None
_key_identifier_value = None
_key_usage_value = None
_subject_alt_name_value = None
_issuer_alt_name_value = None
_basic_constraints_value = None
_name_constraints_value = None
_crl_distribution_points_value = None
_certificate_policies_value = None
_policy_mappings_value = None
_authority_key_identifier_value = None
_policy_constraints_value = None
_freshest_crl_value = None
_inhibit_any_policy_value = None
_extended_key_usage_value = None
_authority_information_access_value = None
_subject_information_access_value = None
_private_key_usage_period_value = None
_tls_feature_value = None
_ocsp_no_check_value = None
_issuer_serial = None
_authority_issuer_serial = False
_crl_distribution_points = None
_delta_crl_distribution_points = None
_valid_domains = None
_valid_ips = None
_self_issued = None
_self_signed = None
_sha1 = None
_sha256 = None
def _set_extensions(self):
"""
Sets common named extensions to private attributes and creates a list
of critical extensions
"""
self._critical_extensions = set()
for extension in self['tbs_certificate']['extensions']:
name = extension['extn_id'].native
attribute_name = '_%s_value' % name
if hasattr(self, attribute_name):
setattr(self, attribute_name, extension['extn_value'].parsed)
if extension['critical'].native:
self._critical_extensions.add(name)
self._processed_extensions = True
@property
def critical_extensions(self):
"""
Returns a set of the names (or OID if not a known extension) of the
extensions marked as critical
:return:
A set of unicode strings
"""
if not self._processed_extensions:
self._set_extensions()
return self._critical_extensions
@property
def private_key_usage_period_value(self):
"""
This extension is used to constrain the period over which the subject
private key may be used
:return:
None or a PrivateKeyUsagePeriod object
"""
if not self._processed_extensions:
self._set_extensions()
return self._private_key_usage_period_value
@property
def subject_directory_attributes_value(self):
"""
This extension is used to contain additional identification attributes
about the subject.
:return:
None or a SubjectDirectoryAttributes object
"""
if not self._processed_extensions:
self._set_extensions()
return self._subject_directory_attributes_value
@property
def key_identifier_value(self):
"""
This extension is used to help in creating certificate validation paths.
It contains an identifier that should generally, but is not guaranteed
to, be unique.
:return:
None or an OctetString object
"""
if not self._processed_extensions:
self._set_extensions()
return self._key_identifier_value
@property
def key_usage_value(self):
"""
This extension is used to define the purpose of the public key
contained within the certificate.
:return:
None or a KeyUsage
"""
if not self._processed_extensions:
self._set_extensions()
return self._key_usage_value
@property
def subject_alt_name_value(self):
"""
This extension allows for additional names to be associate with the
subject of the certificate. While it may contain a whole host of
possible names, it is usually used to allow certificates to be used
with multiple different domain names.
:return:
None or a GeneralNames object
"""
if not self._processed_extensions:
self._set_extensions()
return self._subject_alt_name_value
@property
def issuer_alt_name_value(self):
"""
This extension allows associating one or more alternative names with
the issuer of the certificate.
:return:
None or an x509.GeneralNames object
"""
if not self._processed_extensions:
self._set_extensions()
return self._issuer_alt_name_value
@property
def basic_constraints_value(self):
"""
This extension is used to determine if the subject of the certificate
is a CA, and if so, what the maximum number of intermediate CA certs
after this are, before an end-entity certificate is found.
:return:
None or a BasicConstraints object
"""
if not self._processed_extensions:
self._set_extensions()
return self._basic_constraints_value
@property
def name_constraints_value(self):
"""
This extension is used in CA certificates, and is used to limit the
possible names of certificates issued.
:return:
None or a NameConstraints object
"""
if not self._processed_extensions:
self._set_extensions()
return self._name_constraints_value
@property
def crl_distribution_points_value(self):
"""
This extension is used to help in locating the CRL for this certificate.
:return:
None or a CRLDistributionPoints object
extension
"""
if not self._processed_extensions:
self._set_extensions()
return self._crl_distribution_points_value
@property
def certificate_policies_value(self):
"""
This extension defines policies in CA certificates under which
certificates may be issued. In end-entity certificates, the inclusion
of a policy indicates the issuance of the certificate follows the
policy.
:return:
None or a CertificatePolicies object
"""
if not self._processed_extensions:
self._set_extensions()
return self._certificate_policies_value
@property
def policy_mappings_value(self):
"""
This extension allows mapping policy OIDs to other OIDs. This is used
to allow different policies to be treated as equivalent in the process
of validation.
:return:
None or a PolicyMappings object
"""
if not self._processed_extensions:
self._set_extensions()
return self._policy_mappings_value
@property
def authority_key_identifier_value(self):
"""
This extension helps in identifying the public key with which to
validate the authenticity of the certificate.
:return:
None or an AuthorityKeyIdentifier object
"""
if not self._processed_extensions:
self._set_extensions()
return self._authority_key_identifier_value
@property
def policy_constraints_value(self):
"""
This extension is used to control if policy mapping is allowed and
when policies are required.
:return:
None or a PolicyConstraints object
"""
if not self._processed_extensions:
self._set_extensions()
return self._policy_constraints_value
@property
def freshest_crl_value(self):
"""
This extension is used to help locate any available delta CRLs
:return:
None or an CRLDistributionPoints object
"""
if not self._processed_extensions:
self._set_extensions()
return self._freshest_crl_value
@property
def inhibit_any_policy_value(self):
"""
This extension is used to prevent mapping of the any policy to
specific requirements
:return:
None or a Integer object
"""
if not self._processed_extensions:
self._set_extensions()
return self._inhibit_any_policy_value
@property
def extended_key_usage_value(self):
"""
This extension is used to define additional purposes for the public key
beyond what is contained in the basic constraints.
:return:
None or an ExtKeyUsageSyntax object
"""
if not self._processed_extensions:
self._set_extensions()
return self._extended_key_usage_value
@property
def authority_information_access_value(self):
"""
This extension is used to locate the CA certificate used to sign this
certificate, or the OCSP responder for this certificate.
:return:
None or an AuthorityInfoAccessSyntax object
"""
if not self._processed_extensions:
self._set_extensions()
return self._authority_information_access_value
@property
def subject_information_access_value(self):
"""
This extension is used to access information about the subject of this
certificate.
:return:
None or a SubjectInfoAccessSyntax object
"""
if not self._processed_extensions:
self._set_extensions()
return self._subject_information_access_value
@property
def tls_feature_value(self):
"""
This extension is used to list the TLS features a server must respond
with if a client initiates a request supporting them.
:return:
None or a Features object
"""
if not self._processed_extensions:
self._set_extensions()
return self._tls_feature_value
@property
def ocsp_no_check_value(self):
"""
This extension is used on certificates of OCSP responders, indicating
that revocation information for the certificate should never need to
be verified, thus preventing possible loops in path validation.
:return:
None or a Null object (if present)
"""
if not self._processed_extensions:
self._set_extensions()
return self._ocsp_no_check_value
@property
def signature(self):
"""
:return:
A byte string of the signature
"""
return self['signature_value'].native
@property
def signature_algo(self):
"""
:return:
A unicode string of "rsassa_pkcs1v15", "rsassa_pss", "dsa", "ecdsa"
"""
return self['signature_algorithm'].signature_algo
@property
def hash_algo(self):
"""
:return:
A unicode string of "md2", "md5", "sha1", "sha224", "sha256",
"sha384", "sha512", "sha512_224", "sha512_256"
"""
return self['signature_algorithm'].hash_algo
@property
def public_key(self):
"""
:return:
The PublicKeyInfo object for this certificate
"""
return self['tbs_certificate']['subject_public_key_info']
@property
def subject(self):
"""
:return:
The Name object for the subject of this certificate
"""
return self['tbs_certificate']['subject']
@property
def issuer(self):
"""
:return:
The Name object for the issuer of this certificate
"""
return self['tbs_certificate']['issuer']
@property
def serial_number(self):
"""
:return:
An integer of the certificate's serial number
"""
return self['tbs_certificate']['serial_number'].native
@property
def key_identifier(self):
"""
:return:
None or a byte string of the certificate's key identifier from the
key identifier extension
"""
if not self.key_identifier_value:
return None
return self.key_identifier_value.native
@property
def issuer_serial(self):
"""
:return:
A byte string of the SHA-256 hash of the issuer concatenated with
the ascii character ":", concatenated with the serial number as
an ascii string
"""
if self._issuer_serial is None:
self._issuer_serial = self.issuer.sha256 + b':' + str_cls(self.serial_number).encode('ascii')
return self._issuer_serial
@property
def not_valid_after(self):
"""
:return:
A datetime of latest time when the certificate is still valid
"""
return self['tbs_certificate']['validity']['not_after'].native
@property
def not_valid_before(self):
"""
:return:
A datetime of the earliest time when the certificate is valid
"""
return self['tbs_certificate']['validity']['not_before'].native
@property
def authority_key_identifier(self):
"""
:return:
None or a byte string of the key_identifier from the authority key
identifier extension
"""
if not self.authority_key_identifier_value:
return None
return self.authority_key_identifier_value['key_identifier'].native
@property
def authority_issuer_serial(self):
"""
:return:
None or a byte string of the SHA-256 hash of the isser from the
authority key identifier extension concatenated with the ascii
character ":", concatenated with the serial number from the
authority key identifier extension as an ascii string
"""
if self._authority_issuer_serial is False:
akiv = self.authority_key_identifier_value
if akiv and akiv['authority_cert_issuer'].native:
issuer = self.authority_key_identifier_value['authority_cert_issuer'][0].chosen
# We untag the element since it is tagged via being a choice from GeneralName
issuer = issuer.untag()
authority_serial = self.authority_key_identifier_value['authority_cert_serial_number'].native
self._authority_issuer_serial = issuer.sha256 + b':' + str_cls(authority_serial).encode('ascii')
else:
self._authority_issuer_serial = None
return self._authority_issuer_serial
@property
def crl_distribution_points(self):
"""
Returns complete CRL URLs - does not include delta CRLs
:return:
A list of zero or more DistributionPoint objects
"""
if self._crl_distribution_points is None:
self._crl_distribution_points = self._get_http_crl_distribution_points(self.crl_distribution_points_value)
return self._crl_distribution_points
@property
def delta_crl_distribution_points(self):
"""
Returns delta CRL URLs - does not include complete CRLs
:return:
A list of zero or more DistributionPoint objects
"""
if self._delta_crl_distribution_points is None:
self._delta_crl_distribution_points = self._get_http_crl_distribution_points(self.freshest_crl_value)
return self._delta_crl_distribution_points
def _get_http_crl_distribution_points(self, crl_distribution_points):
"""
Fetches the DistributionPoint object for non-relative, HTTP CRLs
referenced by the certificate
:param crl_distribution_points:
A CRLDistributionPoints object to grab the DistributionPoints from
:return:
A list of zero or more DistributionPoint objects
"""
output = []
if crl_distribution_points is None:
return []
for distribution_point in crl_distribution_points:
distribution_point_name = distribution_point['distribution_point']
if distribution_point_name is VOID:
continue
# RFC 5280 indicates conforming CA should not use the relative form
if distribution_point_name.name == 'name_relative_to_crl_issuer':
continue
# This library is currently only concerned with HTTP-based CRLs
for general_name in distribution_point_name.chosen:
if general_name.name == 'uniform_resource_identifier':
output.append(distribution_point)
return output
@property
def ocsp_urls(self):
"""
:return:
A list of zero or more unicode strings of the OCSP URLs for this
cert
"""
if not self.authority_information_access_value:
return []
output = []
for entry in self.authority_information_access_value:
if entry['access_method'].native == 'ocsp':
location = entry['access_location']
if location.name != 'uniform_resource_identifier':
continue
url = location.native
if url.lower().startswith(('http://', 'https://', 'ldap://', 'ldaps://')):
output.append(url)
return output
@property
def valid_domains(self):
"""
:return:
A list of unicode strings of valid domain names for the certificate.
Wildcard certificates will have a domain in the form: *.example.com
"""
if self._valid_domains is None:
self._valid_domains = []
# For the subject alt name extension, we can look at the name of
# the choice selected since it distinguishes between domain names,
# email addresses, IPs, etc
if self.subject_alt_name_value:
for general_name in self.subject_alt_name_value:
if general_name.name == 'dns_name' and general_name.native not in self._valid_domains:
self._valid_domains.append(general_name.native)
# If there was no subject alt name extension, and the common name
# in the subject looks like a domain, that is considered the valid
# list. This is done because according to
# https://tools.ietf.org/html/rfc6125#section-6.4.4, the common
# name should not be used if the subject alt name is present.
else:
pattern = re.compile('^(\\*\\.)?(?:[a-zA-Z0-9](?:[a-zA-Z0-9\\-]*[a-zA-Z0-9])?\\.)+[a-zA-Z]{2,}$')
for rdn in self.subject.chosen:
for name_type_value in rdn:
if name_type_value['type'].native == 'common_name':
value = name_type_value['value'].native
if pattern.match(value):
self._valid_domains.append(value)
return self._valid_domains
@property
def valid_ips(self):
"""
:return:
A list of unicode strings of valid IP addresses for the certificate
"""
if self._valid_ips is None:
self._valid_ips = []
if self.subject_alt_name_value:
for general_name in self.subject_alt_name_value:
if general_name.name == 'ip_address':
self._valid_ips.append(general_name.native)
return self._valid_ips
@property
def ca(self):
"""
:return;
A boolean - if the certificate is marked as a CA
"""
return self.basic_constraints_value and self.basic_constraints_value['ca'].native
@property
def max_path_length(self):
"""
:return;
None or an integer of the maximum path length
"""
if not self.ca:
return None
return self.basic_constraints_value['path_len_constraint'].native
@property
def self_issued(self):
"""
:return:
A boolean - if the certificate is self-issued, as defined by RFC
5280
"""
if self._self_issued is None:
self._self_issued = self.subject == self.issuer
return self._self_issued
@property
def self_signed(self):
"""
:return:
A unicode string of "no" or "maybe". The "maybe" result will
be returned if the certificate issuer and subject are the same.
If a key identifier and authority key identifier are present,
they will need to match otherwise "no" will be returned.
To verify is a certificate is truly self-signed, the signature
will need to be verified. See the certvalidator package for
one possible solution.
"""
if self._self_signed is None:
self._self_signed = 'no'
if self.self_issued:
if self.key_identifier:
if not self.authority_key_identifier:
self._self_signed = 'maybe'
elif self.authority_key_identifier == self.key_identifier:
self._self_signed = 'maybe'
else:
self._self_signed = 'maybe'
return self._self_signed
@property
def sha1(self):
"""
:return:
The SHA-1 hash of the DER-encoded bytes of this complete certificate
"""
if self._sha1 is None:
self._sha1 = hashlib.sha1(self.dump()).digest()
return self._sha1
@property
def sha1_fingerprint(self):
"""
:return:
A unicode string of the SHA-1 hash, formatted using hex encoding
with a space between each pair of characters, all uppercase
"""
return ' '.join('%02X' % c for c in bytes_to_list(self.sha1))
@property
def sha256(self):
"""
:return:
The SHA-256 hash of the DER-encoded bytes of this complete
certificate
"""
if self._sha256 is None:
self._sha256 = hashlib.sha256(self.dump()).digest()
return self._sha256
@property
def sha256_fingerprint(self):
"""
:return:
A unicode string of the SHA-256 hash, formatted using hex encoding
with a space between each pair of characters, all uppercase
"""
return ' '.join('%02X' % c for c in bytes_to_list(self.sha256))
def is_valid_domain_ip(self, domain_ip):
"""
Check if a domain name or IP address is valid according to the
certificate
:param domain_ip:
A unicode string of a domain name or IP address
:return:
A boolean - if the domain or IP is valid for the certificate
"""
if not isinstance(domain_ip, str_cls):
raise TypeError(unwrap(
'''
domain_ip must be a unicode string, not %s
''',
type_name(domain_ip)
))
encoded_domain_ip = domain_ip.encode('idna').decode('ascii').lower()
is_ipv6 = encoded_domain_ip.find(':') != -1
is_ipv4 = not is_ipv6 and re.match('^\\d+\\.\\d+\\.\\d+\\.\\d+$', encoded_domain_ip)
is_domain = not is_ipv6 and not is_ipv4
# Handle domain name checks
if is_domain:
if not self.valid_domains:
return False
domain_labels = encoded_domain_ip.split('.')
for valid_domain in self.valid_domains:
encoded_valid_domain = valid_domain.encode('idna').decode('ascii').lower()
valid_domain_labels = encoded_valid_domain.split('.')
# The domain must be equal in label length to match
if len(valid_domain_labels) != len(domain_labels):
continue
if valid_domain_labels == domain_labels:
return True
is_wildcard = self._is_wildcard_domain(encoded_valid_domain)
if is_wildcard and self._is_wildcard_match(domain_labels, valid_domain_labels):
return True
return False
# Handle IP address checks
if not self.valid_ips:
return False
family = socket.AF_INET if is_ipv4 else socket.AF_INET6
normalized_ip = inet_pton(family, encoded_domain_ip)
for valid_ip in self.valid_ips:
valid_family = socket.AF_INET if valid_ip.find('.') != -1 else socket.AF_INET6
normalized_valid_ip = inet_pton(valid_family, valid_ip)
if normalized_valid_ip == normalized_ip:
return True
return False
def _is_wildcard_domain(self, domain):
"""
Checks if a domain is a valid wildcard according to
https://tools.ietf.org/html/rfc6125#section-6.4.3
:param domain:
A unicode string of the domain name, where any U-labels from an IDN
have been converted to A-labels
:return:
A boolean - if the domain is a valid wildcard domain
"""
# The * character must be present for a wildcard match, and if there is
# most than one, it is an invalid wildcard specification
if domain.count('*') != 1:
return False
labels = domain.lower().split('.')
if not labels:
return False
# Wildcards may only appear in the left-most label
if labels[0].find('*') == -1:
return False
# Wildcards may not be embedded in an A-label from an IDN
if labels[0][0:4] == 'xn--':
return False
return True
def _is_wildcard_match(self, domain_labels, valid_domain_labels):
"""
Determines if the labels in a domain are a match for labels from a
wildcard valid domain name
:param domain_labels:
A list of unicode strings, with A-label form for IDNs, of the labels
in the domain name to check
:param valid_domain_labels:
A list of unicode strings, with A-label form for IDNs, of the labels
in a wildcard domain pattern
:return:
A boolean - if the domain matches the valid domain
"""
first_domain_label = domain_labels[0]
other_domain_labels = domain_labels[1:]
wildcard_label = valid_domain_labels[0]
other_valid_domain_labels = valid_domain_labels[1:]
# The wildcard is only allowed in the first label, so if
# The subsequent labels are not equal, there is no match
if other_domain_labels != other_valid_domain_labels:
return False
if wildcard_label == '*':
return True
wildcard_regex = re.compile('^' + wildcard_label.replace('*', '.*') + '$')
if wildcard_regex.match(first_domain_label):
return True
return False
# The structures are taken from the OpenSSL source file x_x509a.c, and specify
# extra information that is added to X.509 certificates to store trust
# information about the certificate.
class KeyPurposeIdentifiers(SequenceOf):
_child_spec = KeyPurposeId
class SequenceOfAlgorithmIdentifiers(SequenceOf):
_child_spec = AlgorithmIdentifier
class CertificateAux(Sequence):
_fields = [
('trust', KeyPurposeIdentifiers, {'optional': True}),
('reject', KeyPurposeIdentifiers, {'implicit': 0, 'optional': True}),
('alias', UTF8String, {'optional': True}),
('keyid', OctetString, {'optional': True}),
('other', SequenceOfAlgorithmIdentifiers, {'implicit': 1, 'optional': True}),
]
class TrustedCertificate(Concat):
_child_specs = [Certificate, CertificateAux]