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Direktori : /proc/thread-self/root/usr/lib64/python3.6/site-packages/cryptography/x509/ |
Current File : //proc/thread-self/root/usr/lib64/python3.6/site-packages/cryptography/x509/base.py |
# 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 import abc import datetime import os from enum import Enum import six from cryptography import utils from cryptography.hazmat.backends import _get_backend from cryptography.hazmat.primitives.asymmetric import ( dsa, ec, ed25519, ed448, rsa, ) from cryptography.x509.extensions import Extension, ExtensionType from cryptography.x509.name import Name from cryptography.x509.oid import ObjectIdentifier _EARLIEST_UTC_TIME = datetime.datetime(1950, 1, 1) class AttributeNotFound(Exception): def __init__(self, msg, oid): super(AttributeNotFound, self).__init__(msg) self.oid = oid def _reject_duplicate_extension(extension, extensions): # This is quadratic in the number of extensions for e in extensions: if e.oid == extension.oid: raise ValueError("This extension has already been set.") def _reject_duplicate_attribute(oid, attributes): # This is quadratic in the number of attributes for attr_oid, _ in attributes: if attr_oid == oid: raise ValueError("This attribute has already been set.") def _convert_to_naive_utc_time(time): """Normalizes a datetime to a naive datetime in UTC. time -- datetime to normalize. Assumed to be in UTC if not timezone aware. """ if time.tzinfo is not None: offset = time.utcoffset() offset = offset if offset else datetime.timedelta() return time.replace(tzinfo=None) - offset else: return time class Version(Enum): v1 = 0 v3 = 2 def load_pem_x509_certificate(data, backend=None): backend = _get_backend(backend) return backend.load_pem_x509_certificate(data) def load_der_x509_certificate(data, backend=None): backend = _get_backend(backend) return backend.load_der_x509_certificate(data) def load_pem_x509_csr(data, backend=None): backend = _get_backend(backend) return backend.load_pem_x509_csr(data) def load_der_x509_csr(data, backend=None): backend = _get_backend(backend) return backend.load_der_x509_csr(data) def load_pem_x509_crl(data, backend=None): backend = _get_backend(backend) return backend.load_pem_x509_crl(data) def load_der_x509_crl(data, backend=None): backend = _get_backend(backend) return backend.load_der_x509_crl(data) class InvalidVersion(Exception): def __init__(self, msg, parsed_version): super(InvalidVersion, self).__init__(msg) self.parsed_version = parsed_version @six.add_metaclass(abc.ABCMeta) class Certificate(object): @abc.abstractmethod def fingerprint(self, algorithm): """ Returns bytes using digest passed. """ @abc.abstractproperty def serial_number(self): """ Returns certificate serial number """ @abc.abstractproperty def version(self): """ Returns the certificate version """ @abc.abstractmethod def public_key(self): """ Returns the public key """ @abc.abstractproperty def not_valid_before(self): """ Not before time (represented as UTC datetime) """ @abc.abstractproperty def not_valid_after(self): """ Not after time (represented as UTC datetime) """ @abc.abstractproperty def issuer(self): """ Returns the issuer name object. """ @abc.abstractproperty def subject(self): """ Returns the subject name object. """ @abc.abstractproperty def signature_hash_algorithm(self): """ Returns a HashAlgorithm corresponding to the type of the digest signed in the certificate. """ @abc.abstractproperty def signature_algorithm_oid(self): """ Returns the ObjectIdentifier of the signature algorithm. """ @abc.abstractproperty def extensions(self): """ Returns an Extensions object. """ @abc.abstractproperty def signature(self): """ Returns the signature bytes. """ @abc.abstractproperty def tbs_certificate_bytes(self): """ Returns the tbsCertificate payload bytes as defined in RFC 5280. """ @abc.abstractmethod def __eq__(self, other): """ Checks equality. """ @abc.abstractmethod def __ne__(self, other): """ Checks not equal. """ @abc.abstractmethod def __hash__(self): """ Computes a hash. """ @abc.abstractmethod def public_bytes(self, encoding): """ Serializes the certificate to PEM or DER format. """ @six.add_metaclass(abc.ABCMeta) class CertificateRevocationList(object): @abc.abstractmethod def public_bytes(self, encoding): """ Serializes the CRL to PEM or DER format. """ @abc.abstractmethod def fingerprint(self, algorithm): """ Returns bytes using digest passed. """ @abc.abstractmethod def get_revoked_certificate_by_serial_number(self, serial_number): """ Returns an instance of RevokedCertificate or None if the serial_number is not in the CRL. """ @abc.abstractproperty def signature_hash_algorithm(self): """ Returns a HashAlgorithm corresponding to the type of the digest signed in the certificate. """ @abc.abstractproperty def signature_algorithm_oid(self): """ Returns the ObjectIdentifier of the signature algorithm. """ @abc.abstractproperty def issuer(self): """ Returns the X509Name with the issuer of this CRL. """ @abc.abstractproperty def next_update(self): """ Returns the date of next update for this CRL. """ @abc.abstractproperty def last_update(self): """ Returns the date of last update for this CRL. """ @abc.abstractproperty def extensions(self): """ Returns an Extensions object containing a list of CRL extensions. """ @abc.abstractproperty def signature(self): """ Returns the signature bytes. """ @abc.abstractproperty def tbs_certlist_bytes(self): """ Returns the tbsCertList payload bytes as defined in RFC 5280. """ @abc.abstractmethod def __eq__(self, other): """ Checks equality. """ @abc.abstractmethod def __ne__(self, other): """ Checks not equal. """ @abc.abstractmethod def __len__(self): """ Number of revoked certificates in the CRL. """ @abc.abstractmethod def __getitem__(self, idx): """ Returns a revoked certificate (or slice of revoked certificates). """ @abc.abstractmethod def __iter__(self): """ Iterator over the revoked certificates """ @abc.abstractmethod def is_signature_valid(self, public_key): """ Verifies signature of revocation list against given public key. """ @six.add_metaclass(abc.ABCMeta) class CertificateSigningRequest(object): @abc.abstractmethod def __eq__(self, other): """ Checks equality. """ @abc.abstractmethod def __ne__(self, other): """ Checks not equal. """ @abc.abstractmethod def __hash__(self): """ Computes a hash. """ @abc.abstractmethod def public_key(self): """ Returns the public key """ @abc.abstractproperty def subject(self): """ Returns the subject name object. """ @abc.abstractproperty def signature_hash_algorithm(self): """ Returns a HashAlgorithm corresponding to the type of the digest signed in the certificate. """ @abc.abstractproperty def signature_algorithm_oid(self): """ Returns the ObjectIdentifier of the signature algorithm. """ @abc.abstractproperty def extensions(self): """ Returns the extensions in the signing request. """ @abc.abstractmethod def public_bytes(self, encoding): """ Encodes the request to PEM or DER format. """ @abc.abstractproperty def signature(self): """ Returns the signature bytes. """ @abc.abstractproperty def tbs_certrequest_bytes(self): """ Returns the PKCS#10 CertificationRequestInfo bytes as defined in RFC 2986. """ @abc.abstractproperty def is_signature_valid(self): """ Verifies signature of signing request. """ @abc.abstractproperty def get_attribute_for_oid(self): """ Get the attribute value for a given OID. """ @six.add_metaclass(abc.ABCMeta) class RevokedCertificate(object): @abc.abstractproperty def serial_number(self): """ Returns the serial number of the revoked certificate. """ @abc.abstractproperty def revocation_date(self): """ Returns the date of when this certificate was revoked. """ @abc.abstractproperty def extensions(self): """ Returns an Extensions object containing a list of Revoked extensions. """ class CertificateSigningRequestBuilder(object): def __init__(self, subject_name=None, extensions=[], attributes=[]): """ Creates an empty X.509 certificate request (v1). """ self._subject_name = subject_name self._extensions = extensions self._attributes = attributes def subject_name(self, name): """ Sets the certificate requestor's distinguished name. """ if not isinstance(name, Name): raise TypeError("Expecting x509.Name object.") if self._subject_name is not None: raise ValueError("The subject name may only be set once.") return CertificateSigningRequestBuilder( name, self._extensions, self._attributes ) def add_extension(self, extension, critical): """ Adds an X.509 extension to the certificate request. """ if not isinstance(extension, ExtensionType): raise TypeError("extension must be an ExtensionType") extension = Extension(extension.oid, critical, extension) _reject_duplicate_extension(extension, self._extensions) return CertificateSigningRequestBuilder( self._subject_name, self._extensions + [extension], self._attributes, ) def add_attribute(self, oid, value): """ Adds an X.509 attribute with an OID and associated value. """ if not isinstance(oid, ObjectIdentifier): raise TypeError("oid must be an ObjectIdentifier") if not isinstance(value, bytes): raise TypeError("value must be bytes") _reject_duplicate_attribute(oid, self._attributes) return CertificateSigningRequestBuilder( self._subject_name, self._extensions, self._attributes + [(oid, value)], ) def sign(self, private_key, algorithm, backend=None): """ Signs the request using the requestor's private key. """ backend = _get_backend(backend) if self._subject_name is None: raise ValueError("A CertificateSigningRequest must have a subject") return backend.create_x509_csr(self, private_key, algorithm) class CertificateBuilder(object): def __init__( self, issuer_name=None, subject_name=None, public_key=None, serial_number=None, not_valid_before=None, not_valid_after=None, extensions=[], ): self._version = Version.v3 self._issuer_name = issuer_name self._subject_name = subject_name self._public_key = public_key self._serial_number = serial_number self._not_valid_before = not_valid_before self._not_valid_after = not_valid_after self._extensions = extensions def issuer_name(self, name): """ Sets the CA's distinguished name. """ if not isinstance(name, Name): raise TypeError("Expecting x509.Name object.") if self._issuer_name is not None: raise ValueError("The issuer name may only be set once.") return CertificateBuilder( name, self._subject_name, self._public_key, self._serial_number, self._not_valid_before, self._not_valid_after, self._extensions, ) def subject_name(self, name): """ Sets the requestor's distinguished name. """ if not isinstance(name, Name): raise TypeError("Expecting x509.Name object.") if self._subject_name is not None: raise ValueError("The subject name may only be set once.") return CertificateBuilder( self._issuer_name, name, self._public_key, self._serial_number, self._not_valid_before, self._not_valid_after, self._extensions, ) def public_key(self, key): """ Sets the requestor's public key (as found in the signing request). """ if not isinstance( key, ( dsa.DSAPublicKey, rsa.RSAPublicKey, ec.EllipticCurvePublicKey, ed25519.Ed25519PublicKey, ed448.Ed448PublicKey, ), ): raise TypeError( "Expecting one of DSAPublicKey, RSAPublicKey," " EllipticCurvePublicKey, Ed25519PublicKey or" " Ed448PublicKey." ) if self._public_key is not None: raise ValueError("The public key may only be set once.") return CertificateBuilder( self._issuer_name, self._subject_name, key, self._serial_number, self._not_valid_before, self._not_valid_after, self._extensions, ) def serial_number(self, number): """ Sets the certificate serial number. """ if not isinstance(number, six.integer_types): raise TypeError("Serial number must be of integral type.") if self._serial_number is not None: raise ValueError("The serial number may only be set once.") if number <= 0: raise ValueError("The serial number should be positive.") # ASN.1 integers are always signed, so most significant bit must be # zero. if number.bit_length() >= 160: # As defined in RFC 5280 raise ValueError( "The serial number should not be more than 159 " "bits." ) return CertificateBuilder( self._issuer_name, self._subject_name, self._public_key, number, self._not_valid_before, self._not_valid_after, self._extensions, ) def not_valid_before(self, time): """ Sets the certificate activation time. """ if not isinstance(time, datetime.datetime): raise TypeError("Expecting datetime object.") if self._not_valid_before is not None: raise ValueError("The not valid before may only be set once.") time = _convert_to_naive_utc_time(time) if time < _EARLIEST_UTC_TIME: raise ValueError( "The not valid before date must be on or after" " 1950 January 1)." ) if self._not_valid_after is not None and time > self._not_valid_after: raise ValueError( "The not valid before date must be before the not valid after " "date." ) return CertificateBuilder( self._issuer_name, self._subject_name, self._public_key, self._serial_number, time, self._not_valid_after, self._extensions, ) def not_valid_after(self, time): """ Sets the certificate expiration time. """ if not isinstance(time, datetime.datetime): raise TypeError("Expecting datetime object.") if self._not_valid_after is not None: raise ValueError("The not valid after may only be set once.") time = _convert_to_naive_utc_time(time) if time < _EARLIEST_UTC_TIME: raise ValueError( "The not valid after date must be on or after" " 1950 January 1." ) if ( self._not_valid_before is not None and time < self._not_valid_before ): raise ValueError( "The not valid after date must be after the not valid before " "date." ) return CertificateBuilder( self._issuer_name, self._subject_name, self._public_key, self._serial_number, self._not_valid_before, time, self._extensions, ) def add_extension(self, extension, critical): """ Adds an X.509 extension to the certificate. """ if not isinstance(extension, ExtensionType): raise TypeError("extension must be an ExtensionType") extension = Extension(extension.oid, critical, extension) _reject_duplicate_extension(extension, self._extensions) return CertificateBuilder( self._issuer_name, self._subject_name, self._public_key, self._serial_number, self._not_valid_before, self._not_valid_after, self._extensions + [extension], ) def sign(self, private_key, algorithm, backend=None): """ Signs the certificate using the CA's private key. """ backend = _get_backend(backend) if self._subject_name is None: raise ValueError("A certificate must have a subject name") if self._issuer_name is None: raise ValueError("A certificate must have an issuer name") if self._serial_number is None: raise ValueError("A certificate must have a serial number") if self._not_valid_before is None: raise ValueError("A certificate must have a not valid before time") if self._not_valid_after is None: raise ValueError("A certificate must have a not valid after time") if self._public_key is None: raise ValueError("A certificate must have a public key") return backend.create_x509_certificate(self, private_key, algorithm) class CertificateRevocationListBuilder(object): def __init__( self, issuer_name=None, last_update=None, next_update=None, extensions=[], revoked_certificates=[], ): self._issuer_name = issuer_name self._last_update = last_update self._next_update = next_update self._extensions = extensions self._revoked_certificates = revoked_certificates def issuer_name(self, issuer_name): if not isinstance(issuer_name, Name): raise TypeError("Expecting x509.Name object.") if self._issuer_name is not None: raise ValueError("The issuer name may only be set once.") return CertificateRevocationListBuilder( issuer_name, self._last_update, self._next_update, self._extensions, self._revoked_certificates, ) def last_update(self, last_update): if not isinstance(last_update, datetime.datetime): raise TypeError("Expecting datetime object.") if self._last_update is not None: raise ValueError("Last update may only be set once.") last_update = _convert_to_naive_utc_time(last_update) if last_update < _EARLIEST_UTC_TIME: raise ValueError( "The last update date must be on or after" " 1950 January 1." ) if self._next_update is not None and last_update > self._next_update: raise ValueError( "The last update date must be before the next update date." ) return CertificateRevocationListBuilder( self._issuer_name, last_update, self._next_update, self._extensions, self._revoked_certificates, ) def next_update(self, next_update): if not isinstance(next_update, datetime.datetime): raise TypeError("Expecting datetime object.") if self._next_update is not None: raise ValueError("Last update may only be set once.") next_update = _convert_to_naive_utc_time(next_update) if next_update < _EARLIEST_UTC_TIME: raise ValueError( "The last update date must be on or after" " 1950 January 1." ) if self._last_update is not None and next_update < self._last_update: raise ValueError( "The next update date must be after the last update date." ) return CertificateRevocationListBuilder( self._issuer_name, self._last_update, next_update, self._extensions, self._revoked_certificates, ) def add_extension(self, extension, critical): """ Adds an X.509 extension to the certificate revocation list. """ if not isinstance(extension, ExtensionType): raise TypeError("extension must be an ExtensionType") extension = Extension(extension.oid, critical, extension) _reject_duplicate_extension(extension, self._extensions) return CertificateRevocationListBuilder( self._issuer_name, self._last_update, self._next_update, self._extensions + [extension], self._revoked_certificates, ) def add_revoked_certificate(self, revoked_certificate): """ Adds a revoked certificate to the CRL. """ if not isinstance(revoked_certificate, RevokedCertificate): raise TypeError("Must be an instance of RevokedCertificate") return CertificateRevocationListBuilder( self._issuer_name, self._last_update, self._next_update, self._extensions, self._revoked_certificates + [revoked_certificate], ) def sign(self, private_key, algorithm, backend=None): backend = _get_backend(backend) if self._issuer_name is None: raise ValueError("A CRL must have an issuer name") if self._last_update is None: raise ValueError("A CRL must have a last update time") if self._next_update is None: raise ValueError("A CRL must have a next update time") return backend.create_x509_crl(self, private_key, algorithm) class RevokedCertificateBuilder(object): def __init__( self, serial_number=None, revocation_date=None, extensions=[] ): self._serial_number = serial_number self._revocation_date = revocation_date self._extensions = extensions def serial_number(self, number): if not isinstance(number, six.integer_types): raise TypeError("Serial number must be of integral type.") if self._serial_number is not None: raise ValueError("The serial number may only be set once.") if number <= 0: raise ValueError("The serial number should be positive") # ASN.1 integers are always signed, so most significant bit must be # zero. if number.bit_length() >= 160: # As defined in RFC 5280 raise ValueError( "The serial number should not be more than 159 " "bits." ) return RevokedCertificateBuilder( number, self._revocation_date, self._extensions ) def revocation_date(self, time): if not isinstance(time, datetime.datetime): raise TypeError("Expecting datetime object.") if self._revocation_date is not None: raise ValueError("The revocation date may only be set once.") time = _convert_to_naive_utc_time(time) if time < _EARLIEST_UTC_TIME: raise ValueError( "The revocation date must be on or after" " 1950 January 1." ) return RevokedCertificateBuilder( self._serial_number, time, self._extensions ) def add_extension(self, extension, critical): if not isinstance(extension, ExtensionType): raise TypeError("extension must be an ExtensionType") extension = Extension(extension.oid, critical, extension) _reject_duplicate_extension(extension, self._extensions) return RevokedCertificateBuilder( self._serial_number, self._revocation_date, self._extensions + [extension], ) def build(self, backend=None): backend = _get_backend(backend) if self._serial_number is None: raise ValueError("A revoked certificate must have a serial number") if self._revocation_date is None: raise ValueError( "A revoked certificate must have a revocation date" ) return backend.create_x509_revoked_certificate(self) def random_serial_number(): return utils.int_from_bytes(os.urandom(20), "big") >> 1