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|
import calendar
import datetime
from base64 import b16encode
from functools import partial
from operator import __eq__, __ne__, __lt__, __le__, __gt__, __ge__
from six import (
integer_types as _integer_types,
text_type as _text_type,
PY2 as _PY2,
)
from cryptography import utils, x509
from cryptography.hazmat.primitives.asymmetric import dsa, rsa
from OpenSSL._util import (
ffi as _ffi,
lib as _lib,
exception_from_error_queue as _exception_from_error_queue,
byte_string as _byte_string,
native as _native,
path_string as _path_string,
UNSPECIFIED as _UNSPECIFIED,
text_to_bytes_and_warn as _text_to_bytes_and_warn,
make_assert as _make_assert,
)
__all__ = [
"FILETYPE_PEM",
"FILETYPE_ASN1",
"FILETYPE_TEXT",
"TYPE_RSA",
"TYPE_DSA",
"Error",
"PKey",
"get_elliptic_curves",
"get_elliptic_curve",
"X509Name",
"X509Extension",
"X509Req",
"X509",
"X509StoreFlags",
"X509Store",
"X509StoreContextError",
"X509StoreContext",
"load_certificate",
"dump_certificate",
"dump_publickey",
"dump_privatekey",
"Revoked",
"CRL",
"PKCS7",
"PKCS12",
"NetscapeSPKI",
"load_publickey",
"load_privatekey",
"dump_certificate_request",
"load_certificate_request",
"sign",
"verify",
"dump_crl",
"load_crl",
"load_pkcs7_data",
"load_pkcs12",
]
FILETYPE_PEM = _lib.SSL_FILETYPE_PEM
FILETYPE_ASN1 = _lib.SSL_FILETYPE_ASN1
# TODO This was an API mistake. OpenSSL has no such constant.
FILETYPE_TEXT = 2 ** 16 - 1
TYPE_RSA = _lib.EVP_PKEY_RSA
TYPE_DSA = _lib.EVP_PKEY_DSA
TYPE_DH = _lib.EVP_PKEY_DH
TYPE_EC = _lib.EVP_PKEY_EC
class Error(Exception):
"""
An error occurred in an `OpenSSL.crypto` API.
"""
_raise_current_error = partial(_exception_from_error_queue, Error)
_openssl_assert = _make_assert(Error)
def _get_backend():
"""
Importing the backend from cryptography has the side effect of activating
the osrandom engine. This mutates the global state of OpenSSL in the
process and causes issues for various programs that use subinterpreters or
embed Python. By putting the import in this function we can avoid
triggering this side effect unless _get_backend is called.
"""
from cryptography.hazmat.backends.openssl.backend import backend
return backend
def _untested_error(where):
"""
An OpenSSL API failed somehow. Additionally, the failure which was
encountered isn't one that's exercised by the test suite so future behavior
of pyOpenSSL is now somewhat less predictable.
"""
raise RuntimeError("Unknown %s failure" % (where,))
def _new_mem_buf(buffer=None):
"""
Allocate a new OpenSSL memory BIO.
Arrange for the garbage collector to clean it up automatically.
:param buffer: None or some bytes to use to put into the BIO so that they
can be read out.
"""
if buffer is None:
bio = _lib.BIO_new(_lib.BIO_s_mem())
free = _lib.BIO_free
else:
data = _ffi.new("char[]", buffer)
bio = _lib.BIO_new_mem_buf(data, len(buffer))
# Keep the memory alive as long as the bio is alive!
def free(bio, ref=data):
return _lib.BIO_free(bio)
_openssl_assert(bio != _ffi.NULL)
bio = _ffi.gc(bio, free)
return bio
def _bio_to_string(bio):
"""
Copy the contents of an OpenSSL BIO object into a Python byte string.
"""
result_buffer = _ffi.new("char**")
buffer_length = _lib.BIO_get_mem_data(bio, result_buffer)
return _ffi.buffer(result_buffer[0], buffer_length)[:]
def _set_asn1_time(boundary, when):
"""
The the time value of an ASN1 time object.
@param boundary: An ASN1_TIME pointer (or an object safely
castable to that type) which will have its value set.
@param when: A string representation of the desired time value.
@raise TypeError: If C{when} is not a L{bytes} string.
@raise ValueError: If C{when} does not represent a time in the required
format.
@raise RuntimeError: If the time value cannot be set for some other
(unspecified) reason.
"""
if not isinstance(when, bytes):
raise TypeError("when must be a byte string")
set_result = _lib.ASN1_TIME_set_string(boundary, when)
if set_result == 0:
raise ValueError("Invalid string")
def _get_asn1_time(timestamp):
"""
Retrieve the time value of an ASN1 time object.
@param timestamp: An ASN1_GENERALIZEDTIME* (or an object safely castable to
that type) from which the time value will be retrieved.
@return: The time value from C{timestamp} as a L{bytes} string in a certain
format. Or C{None} if the object contains no time value.
"""
string_timestamp = _ffi.cast("ASN1_STRING*", timestamp)
if _lib.ASN1_STRING_length(string_timestamp) == 0:
return None
elif (
_lib.ASN1_STRING_type(string_timestamp) == _lib.V_ASN1_GENERALIZEDTIME
):
return _ffi.string(_lib.ASN1_STRING_data(string_timestamp))
else:
generalized_timestamp = _ffi.new("ASN1_GENERALIZEDTIME**")
_lib.ASN1_TIME_to_generalizedtime(timestamp, generalized_timestamp)
if generalized_timestamp[0] == _ffi.NULL:
# This may happen:
# - if timestamp was not an ASN1_TIME
# - if allocating memory for the ASN1_GENERALIZEDTIME failed
# - if a copy of the time data from timestamp cannot be made for
# the newly allocated ASN1_GENERALIZEDTIME
#
# These are difficult to test. cffi enforces the ASN1_TIME type.
# Memory allocation failures are a pain to trigger
# deterministically.
_untested_error("ASN1_TIME_to_generalizedtime")
else:
string_timestamp = _ffi.cast(
"ASN1_STRING*", generalized_timestamp[0]
)
string_data = _lib.ASN1_STRING_data(string_timestamp)
string_result = _ffi.string(string_data)
_lib.ASN1_GENERALIZEDTIME_free(generalized_timestamp[0])
return string_result
class _X509NameInvalidator(object):
def __init__(self):
self._names = []
def add(self, name):
self._names.append(name)
def clear(self):
for name in self._names:
# Breaks the object, but also prevents UAF!
del name._name
class PKey(object):
"""
A class representing an DSA or RSA public key or key pair.
"""
_only_public = False
_initialized = True
def __init__(self):
pkey = _lib.EVP_PKEY_new()
self._pkey = _ffi.gc(pkey, _lib.EVP_PKEY_free)
self._initialized = False
def to_cryptography_key(self):
"""
Export as a ``cryptography`` key.
:rtype: One of ``cryptography``'s `key interfaces`_.
.. _key interfaces: https://cryptography.io/en/latest/hazmat/\
primitives/asymmetric/rsa/#key-interfaces
.. versionadded:: 16.1.0
"""
from cryptography.hazmat.primitives.serialization import (
load_der_private_key,
load_der_public_key,
)
backend = _get_backend()
if self._only_public:
der = dump_publickey(FILETYPE_ASN1, self)
return load_der_public_key(der, backend)
else:
der = dump_privatekey(FILETYPE_ASN1, self)
return load_der_private_key(der, None, backend)
@classmethod
def from_cryptography_key(cls, crypto_key):
"""
Construct based on a ``cryptography`` *crypto_key*.
:param crypto_key: A ``cryptography`` key.
:type crypto_key: One of ``cryptography``'s `key interfaces`_.
:rtype: PKey
.. versionadded:: 16.1.0
"""
if not isinstance(
crypto_key,
(
rsa.RSAPublicKey,
rsa.RSAPrivateKey,
dsa.DSAPublicKey,
dsa.DSAPrivateKey,
),
):
raise TypeError("Unsupported key type")
from cryptography.hazmat.primitives.serialization import (
Encoding,
NoEncryption,
PrivateFormat,
PublicFormat,
)
if isinstance(crypto_key, (rsa.RSAPublicKey, dsa.DSAPublicKey)):
return load_publickey(
FILETYPE_ASN1,
crypto_key.public_bytes(
Encoding.DER, PublicFormat.SubjectPublicKeyInfo
),
)
else:
der = crypto_key.private_bytes(
Encoding.DER, PrivateFormat.PKCS8, NoEncryption()
)
return load_privatekey(FILETYPE_ASN1, der)
def generate_key(self, type, bits):
"""
Generate a key pair of the given type, with the given number of bits.
This generates a key "into" the this object.
:param type: The key type.
:type type: :py:data:`TYPE_RSA` or :py:data:`TYPE_DSA`
:param bits: The number of bits.
:type bits: :py:data:`int` ``>= 0``
:raises TypeError: If :py:data:`type` or :py:data:`bits` isn't
of the appropriate type.
:raises ValueError: If the number of bits isn't an integer of
the appropriate size.
:return: ``None``
"""
if not isinstance(type, int):
raise TypeError("type must be an integer")
if not isinstance(bits, int):
raise TypeError("bits must be an integer")
if type == TYPE_RSA:
if bits <= 0:
raise ValueError("Invalid number of bits")
# TODO Check error return
exponent = _lib.BN_new()
exponent = _ffi.gc(exponent, _lib.BN_free)
_lib.BN_set_word(exponent, _lib.RSA_F4)
rsa = _lib.RSA_new()
result = _lib.RSA_generate_key_ex(rsa, bits, exponent, _ffi.NULL)
_openssl_assert(result == 1)
result = _lib.EVP_PKEY_assign_RSA(self._pkey, rsa)
_openssl_assert(result == 1)
elif type == TYPE_DSA:
dsa = _lib.DSA_new()
_openssl_assert(dsa != _ffi.NULL)
dsa = _ffi.gc(dsa, _lib.DSA_free)
res = _lib.DSA_generate_parameters_ex(
dsa, bits, _ffi.NULL, 0, _ffi.NULL, _ffi.NULL, _ffi.NULL
)
_openssl_assert(res == 1)
_openssl_assert(_lib.DSA_generate_key(dsa) == 1)
_openssl_assert(_lib.EVP_PKEY_set1_DSA(self._pkey, dsa) == 1)
else:
raise Error("No such key type")
self._initialized = True
def check(self):
"""
Check the consistency of an RSA private key.
This is the Python equivalent of OpenSSL's ``RSA_check_key``.
:return: ``True`` if key is consistent.
:raise OpenSSL.crypto.Error: if the key is inconsistent.
:raise TypeError: if the key is of a type which cannot be checked.
Only RSA keys can currently be checked.
"""
if self._only_public:
raise TypeError("public key only")
if _lib.EVP_PKEY_type(self.type()) != _lib.EVP_PKEY_RSA:
raise TypeError("key type unsupported")
rsa = _lib.EVP_PKEY_get1_RSA(self._pkey)
rsa = _ffi.gc(rsa, _lib.RSA_free)
result = _lib.RSA_check_key(rsa)
if result == 1:
return True
_raise_current_error()
def type(self):
"""
Returns the type of the key
:return: The type of the key.
"""
return _lib.EVP_PKEY_id(self._pkey)
def bits(self):
"""
Returns the number of bits of the key
:return: The number of bits of the key.
"""
return _lib.EVP_PKEY_bits(self._pkey)
class _EllipticCurve(object):
"""
A representation of a supported elliptic curve.
@cvar _curves: :py:obj:`None` until an attempt is made to load the curves.
Thereafter, a :py:type:`set` containing :py:type:`_EllipticCurve`
instances each of which represents one curve supported by the system.
@type _curves: :py:type:`NoneType` or :py:type:`set`
"""
_curves = None
if not _PY2:
# This only necessary on Python 3. Moreover, it is broken on Python 2.
def __ne__(self, other):
"""
Implement cooperation with the right-hand side argument of ``!=``.
Python 3 seems to have dropped this cooperation in this very narrow
circumstance.
"""
if isinstance(other, _EllipticCurve):
return super(_EllipticCurve, self).__ne__(other)
return NotImplemented
@classmethod
def _load_elliptic_curves(cls, lib):
"""
Get the curves supported by OpenSSL.
:param lib: The OpenSSL library binding object.
:return: A :py:type:`set` of ``cls`` instances giving the names of the
elliptic curves the underlying library supports.
"""
num_curves = lib.EC_get_builtin_curves(_ffi.NULL, 0)
builtin_curves = _ffi.new("EC_builtin_curve[]", num_curves)
# The return value on this call should be num_curves again. We
# could check it to make sure but if it *isn't* then.. what could
# we do? Abort the whole process, I suppose...? -exarkun
lib.EC_get_builtin_curves(builtin_curves, num_curves)
return set(cls.from_nid(lib, c.nid) for c in builtin_curves)
@classmethod
def _get_elliptic_curves(cls, lib):
"""
Get, cache, and return the curves supported by OpenSSL.
:param lib: The OpenSSL library binding object.
:return: A :py:type:`set` of ``cls`` instances giving the names of the
elliptic curves the underlying library supports.
"""
if cls._curves is None:
cls._curves = cls._load_elliptic_curves(lib)
return cls._curves
@classmethod
def from_nid(cls, lib, nid):
"""
Instantiate a new :py:class:`_EllipticCurve` associated with the given
OpenSSL NID.
:param lib: The OpenSSL library binding object.
:param nid: The OpenSSL NID the resulting curve object will represent.
This must be a curve NID (and not, for example, a hash NID) or
subsequent operations will fail in unpredictable ways.
:type nid: :py:class:`int`
:return: The curve object.
"""
return cls(lib, nid, _ffi.string(lib.OBJ_nid2sn(nid)).decode("ascii"))
def __init__(self, lib, nid, name):
"""
:param _lib: The :py:mod:`cryptography` binding instance used to
interface with OpenSSL.
:param _nid: The OpenSSL NID identifying the curve this object
represents.
:type _nid: :py:class:`int`
:param name: The OpenSSL short name identifying the curve this object
represents.
:type name: :py:class:`unicode`
"""
self._lib = lib
self._nid = nid
self.name = name
def __repr__(self):
return "<Curve %r>" % (self.name,)
def _to_EC_KEY(self):
"""
Create a new OpenSSL EC_KEY structure initialized to use this curve.
The structure is automatically garbage collected when the Python object
is garbage collected.
"""
key = self._lib.EC_KEY_new_by_curve_name(self._nid)
return _ffi.gc(key, _lib.EC_KEY_free)
def get_elliptic_curves():
"""
Return a set of objects representing the elliptic curves supported in the
OpenSSL build in use.
The curve objects have a :py:class:`unicode` ``name`` attribute by which
they identify themselves.
The curve objects are useful as values for the argument accepted by
:py:meth:`Context.set_tmp_ecdh` to specify which elliptical curve should be
used for ECDHE key exchange.
"""
return _EllipticCurve._get_elliptic_curves(_lib)
def get_elliptic_curve(name):
"""
Return a single curve object selected by name.
See :py:func:`get_elliptic_curves` for information about curve objects.
:param name: The OpenSSL short name identifying the curve object to
retrieve.
:type name: :py:class:`unicode`
If the named curve is not supported then :py:class:`ValueError` is raised.
"""
for curve in get_elliptic_curves():
if curve.name == name:
return curve
raise ValueError("unknown curve name", name)
class X509Name(object):
"""
An X.509 Distinguished Name.
:ivar countryName: The country of the entity.
:ivar C: Alias for :py:attr:`countryName`.
:ivar stateOrProvinceName: The state or province of the entity.
:ivar ST: Alias for :py:attr:`stateOrProvinceName`.
:ivar localityName: The locality of the entity.
:ivar L: Alias for :py:attr:`localityName`.
:ivar organizationName: The organization name of the entity.
:ivar O: Alias for :py:attr:`organizationName`.
:ivar organizationalUnitName: The organizational unit of the entity.
:ivar OU: Alias for :py:attr:`organizationalUnitName`
:ivar commonName: The common name of the entity.
:ivar CN: Alias for :py:attr:`commonName`.
:ivar emailAddress: The e-mail address of the entity.
"""
def __init__(self, name):
"""
Create a new X509Name, copying the given X509Name instance.
:param name: The name to copy.
:type name: :py:class:`X509Name`
"""
name = _lib.X509_NAME_dup(name._name)
self._name = _ffi.gc(name, _lib.X509_NAME_free)
def __setattr__(self, name, value):
if name.startswith("_"):
return super(X509Name, self).__setattr__(name, value)
# Note: we really do not want str subclasses here, so we do not use
# isinstance.
if type(name) is not str:
raise TypeError(
"attribute name must be string, not '%.200s'"
% (type(value).__name__,)
)
nid = _lib.OBJ_txt2nid(_byte_string(name))
if nid == _lib.NID_undef:
try:
_raise_current_error()
except Error:
pass
raise AttributeError("No such attribute")
# If there's an old entry for this NID, remove it
for i in range(_lib.X509_NAME_entry_count(self._name)):
ent = _lib.X509_NAME_get_entry(self._name, i)
ent_obj = _lib.X509_NAME_ENTRY_get_object(ent)
ent_nid = _lib.OBJ_obj2nid(ent_obj)
if nid == ent_nid:
ent = _lib.X509_NAME_delete_entry(self._name, i)
_lib.X509_NAME_ENTRY_free(ent)
break
if isinstance(value, _text_type):
value = value.encode("utf-8")
add_result = _lib.X509_NAME_add_entry_by_NID(
self._name, nid, _lib.MBSTRING_UTF8, value, -1, -1, 0
)
if not add_result:
_raise_current_error()
def __getattr__(self, name):
"""
Find attribute. An X509Name object has the following attributes:
countryName (alias C), stateOrProvince (alias ST), locality (alias L),
organization (alias O), organizationalUnit (alias OU), commonName
(alias CN) and more...
"""
nid = _lib.OBJ_txt2nid(_byte_string(name))
if nid == _lib.NID_undef:
# This is a bit weird. OBJ_txt2nid indicated failure, but it seems
# a lower level function, a2d_ASN1_OBJECT, also feels the need to
# push something onto the error queue. If we don't clean that up
# now, someone else will bump into it later and be quite confused.
# See lp#314814.
try:
_raise_current_error()
except Error:
pass
return super(X509Name, self).__getattr__(name)
entry_index = _lib.X509_NAME_get_index_by_NID(self._name, nid, -1)
if entry_index == -1:
return None
entry = _lib.X509_NAME_get_entry(self._name, entry_index)
data = _lib.X509_NAME_ENTRY_get_data(entry)
result_buffer = _ffi.new("unsigned char**")
data_length = _lib.ASN1_STRING_to_UTF8(result_buffer, data)
_openssl_assert(data_length >= 0)
try:
result = _ffi.buffer(result_buffer[0], data_length)[:].decode(
"utf-8"
)
finally:
# XXX untested
_lib.OPENSSL_free(result_buffer[0])
return result
def _cmp(op):
def f(self, other):
if not isinstance(other, X509Name):
return NotImplemented
result = _lib.X509_NAME_cmp(self._name, other._name)
return op(result, 0)
return f
__eq__ = _cmp(__eq__)
__ne__ = _cmp(__ne__)
__lt__ = _cmp(__lt__)
__le__ = _cmp(__le__)
__gt__ = _cmp(__gt__)
__ge__ = _cmp(__ge__)
def __repr__(self):
"""
String representation of an X509Name
"""
result_buffer = _ffi.new("char[]", 512)
format_result = _lib.X509_NAME_oneline(
self._name, result_buffer, len(result_buffer)
)
_openssl_assert(format_result != _ffi.NULL)
return "<X509Name object '%s'>" % (
_native(_ffi.string(result_buffer)),
)
def hash(self):
"""
Return an integer representation of the first four bytes of the
MD5 digest of the DER representation of the name.
This is the Python equivalent of OpenSSL's ``X509_NAME_hash``.
:return: The (integer) hash of this name.
:rtype: :py:class:`int`
"""
return _lib.X509_NAME_hash(self._name)
def der(self):
"""
Return the DER encoding of this name.
:return: The DER encoded form of this name.
:rtype: :py:class:`bytes`
"""
result_buffer = _ffi.new("unsigned char**")
encode_result = _lib.i2d_X509_NAME(self._name, result_buffer)
_openssl_assert(encode_result >= 0)
string_result = _ffi.buffer(result_buffer[0], encode_result)[:]
_lib.OPENSSL_free(result_buffer[0])
return string_result
def get_components(self):
"""
Returns the components of this name, as a sequence of 2-tuples.
:return: The components of this name.
:rtype: :py:class:`list` of ``name, value`` tuples.
"""
result = []
for i in range(_lib.X509_NAME_entry_count(self._name)):
ent = _lib.X509_NAME_get_entry(self._name, i)
fname = _lib.X509_NAME_ENTRY_get_object(ent)
fval = _lib.X509_NAME_ENTRY_get_data(ent)
nid = _lib.OBJ_obj2nid(fname)
name = _lib.OBJ_nid2sn(nid)
# ffi.string does not handle strings containing NULL bytes
# (which may have been generated by old, broken software)
value = _ffi.buffer(
_lib.ASN1_STRING_data(fval), _lib.ASN1_STRING_length(fval)
)[:]
result.append((_ffi.string(name), value))
return result
class X509Extension(object):
"""
An X.509 v3 certificate extension.
"""
def __init__(self, type_name, critical, value, subject=None, issuer=None):
"""
Initializes an X509 extension.
:param type_name: The name of the type of extension_ to create.
:type type_name: :py:data:`bytes`
:param bool critical: A flag indicating whether this is a critical
extension.
:param value: The value of the extension.
:type value: :py:data:`bytes`
:param subject: Optional X509 certificate to use as subject.
:type subject: :py:class:`X509`
:param issuer: Optional X509 certificate to use as issuer.
:type issuer: :py:class:`X509`
.. _extension: https://www.openssl.org/docs/manmaster/man5/
x509v3_config.html#STANDARD-EXTENSIONS
"""
ctx = _ffi.new("X509V3_CTX*")
# A context is necessary for any extension which uses the r2i
# conversion method. That is, X509V3_EXT_nconf may segfault if passed
# a NULL ctx. Start off by initializing most of the fields to NULL.
_lib.X509V3_set_ctx(ctx, _ffi.NULL, _ffi.NULL, _ffi.NULL, _ffi.NULL, 0)
# We have no configuration database - but perhaps we should (some
# extensions may require it).
_lib.X509V3_set_ctx_nodb(ctx)
# Initialize the subject and issuer, if appropriate. ctx is a local,
# and as far as I can tell none of the X509V3_* APIs invoked here steal
# any references, so no need to mess with reference counts or
# duplicates.
if issuer is not None:
if not isinstance(issuer, X509):
raise TypeError("issuer must be an X509 instance")
ctx.issuer_cert = issuer._x509
if subject is not None:
if not isinstance(subject, X509):
raise TypeError("subject must be an X509 instance")
ctx.subject_cert = subject._x509
if critical:
# There are other OpenSSL APIs which would let us pass in critical
# separately, but they're harder to use, and since value is already
# a pile of crappy junk smuggling a ton of utterly important
# structured data, what's the point of trying to avoid nasty stuff
# with strings? (However, X509V3_EXT_i2d in particular seems like
# it would be a better API to invoke. I do not know where to get
# the ext_struc it desires for its last parameter, though.)
value = b"critical," + value
extension = _lib.X509V3_EXT_nconf(_ffi.NULL, ctx, type_name, value)
if extension == _ffi.NULL:
_raise_current_error()
self._extension = _ffi.gc(extension, _lib.X509_EXTENSION_free)
@property
def _nid(self):
return _lib.OBJ_obj2nid(
_lib.X509_EXTENSION_get_object(self._extension)
)
_prefixes = {
_lib.GEN_EMAIL: "email",
_lib.GEN_DNS: "DNS",
_lib.GEN_URI: "URI",
}
def _subjectAltNameString(self):
names = _ffi.cast(
"GENERAL_NAMES*", _lib.X509V3_EXT_d2i(self._extension)
)
names = _ffi.gc(names, _lib.GENERAL_NAMES_free)
parts = []
for i in range(_lib.sk_GENERAL_NAME_num(names)):
name = _lib.sk_GENERAL_NAME_value(names, i)
try:
label = self._prefixes[name.type]
except KeyError:
bio = _new_mem_buf()
_lib.GENERAL_NAME_print(bio, name)
parts.append(_native(_bio_to_string(bio)))
else:
value = _native(
_ffi.buffer(name.d.ia5.data, name.d.ia5.length)[:]
)
parts.append(label + ":" + value)
return ", ".join(parts)
def __str__(self):
"""
:return: a nice text representation of the extension
"""
if _lib.NID_subject_alt_name == self._nid:
return self._subjectAltNameString()
bio = _new_mem_buf()
print_result = _lib.X509V3_EXT_print(bio, self._extension, 0, 0)
_openssl_assert(print_result != 0)
return _native(_bio_to_string(bio))
def get_critical(self):
"""
Returns the critical field of this X.509 extension.
:return: The critical field.
"""
return _lib.X509_EXTENSION_get_critical(self._extension)
def get_short_name(self):
"""
Returns the short type name of this X.509 extension.
The result is a byte string such as :py:const:`b"basicConstraints"`.
:return: The short type name.
:rtype: :py:data:`bytes`
.. versionadded:: 0.12
"""
obj = _lib.X509_EXTENSION_get_object(self._extension)
nid = _lib.OBJ_obj2nid(obj)
return _ffi.string(_lib.OBJ_nid2sn(nid))
def get_data(self):
"""
Returns the data of the X509 extension, encoded as ASN.1.
:return: The ASN.1 encoded data of this X509 extension.
:rtype: :py:data:`bytes`
.. versionadded:: 0.12
"""
octet_result = _lib.X509_EXTENSION_get_data(self._extension)
string_result = _ffi.cast("ASN1_STRING*", octet_result)
char_result = _lib.ASN1_STRING_data(string_result)
result_length = _lib.ASN1_STRING_length(string_result)
return _ffi.buffer(char_result, result_length)[:]
class X509Req(object):
"""
An X.509 certificate signing requests.
"""
def __init__(self):
req = _lib.X509_REQ_new()
self._req = _ffi.gc(req, _lib.X509_REQ_free)
# Default to version 0.
self.set_version(0)
def to_cryptography(self):
"""
Export as a ``cryptography`` certificate signing request.
:rtype: ``cryptography.x509.CertificateSigningRequest``
.. versionadded:: 17.1.0
"""
from cryptography.x509 import load_der_x509_csr
der = dump_certificate_request(FILETYPE_ASN1, self)
backend = _get_backend()
return load_der_x509_csr(der, backend)
@classmethod
def from_cryptography(cls, crypto_req):
"""
Construct based on a ``cryptography`` *crypto_req*.
:param crypto_req: A ``cryptography`` X.509 certificate signing request
:type crypto_req: ``cryptography.x509.CertificateSigningRequest``
:rtype: X509Req
.. versionadded:: 17.1.0
"""
if not isinstance(crypto_req, x509.CertificateSigningRequest):
raise TypeError("Must be a certificate signing request")
from cryptography.hazmat.primitives.serialization import Encoding
der = crypto_req.public_bytes(Encoding.DER)
return load_certificate_request(FILETYPE_ASN1, der)
def set_pubkey(self, pkey):
"""
Set the public key of the certificate signing request.
:param pkey: The public key to use.
:type pkey: :py:class:`PKey`
:return: ``None``
"""
set_result = _lib.X509_REQ_set_pubkey(self._req, pkey._pkey)
_openssl_assert(set_result == 1)
def get_pubkey(self):
"""
Get the public key of the certificate signing request.
:return: The public key.
:rtype: :py:class:`PKey`
"""
pkey = PKey.__new__(PKey)
pkey._pkey = _lib.X509_REQ_get_pubkey(self._req)
_openssl_assert(pkey._pkey != _ffi.NULL)
pkey._pkey = _ffi.gc(pkey._pkey, _lib.EVP_PKEY_free)
pkey._only_public = True
return pkey
def set_version(self, version):
"""
Set the version subfield (RFC 2459, section 4.1.2.1) of the certificate
request.
:param int version: The version number.
:return: ``None``
"""
set_result = _lib.X509_REQ_set_version(self._req, version)
_openssl_assert(set_result == 1)
def get_version(self):
"""
Get the version subfield (RFC 2459, section 4.1.2.1) of the certificate
request.
:return: The value of the version subfield.
:rtype: :py:class:`int`
"""
return _lib.X509_REQ_get_version(self._req)
def get_subject(self):
"""
Return the subject of this certificate signing request.
This creates a new :class:`X509Name` that wraps the underlying subject
name field on the certificate signing request. Modifying it will modify
the underlying signing request, and will have the effect of modifying
any other :class:`X509Name` that refers to this subject.
:return: The subject of this certificate signing request.
:rtype: :class:`X509Name`
"""
name = X509Name.__new__(X509Name)
name._name = _lib.X509_REQ_get_subject_name(self._req)
_openssl_assert(name._name != _ffi.NULL)
# The name is owned by the X509Req structure. As long as the X509Name
# Python object is alive, keep the X509Req Python object alive.
name._owner = self
return name
def add_extensions(self, extensions):
"""
Add extensions to the certificate signing request.
:param extensions: The X.509 extensions to add.
:type extensions: iterable of :py:class:`X509Extension`
:return: ``None``
"""
stack = _lib.sk_X509_EXTENSION_new_null()
_openssl_assert(stack != _ffi.NULL)
stack = _ffi.gc(stack, _lib.sk_X509_EXTENSION_free)
for ext in extensions:
if not isinstance(ext, X509Extension):
raise ValueError("One of the elements is not an X509Extension")
# TODO push can fail (here and elsewhere)
_lib.sk_X509_EXTENSION_push(stack, ext._extension)
add_result = _lib.X509_REQ_add_extensions(self._req, stack)
_openssl_assert(add_result == 1)
def get_extensions(self):
"""
Get X.509 extensions in the certificate signing request.
:return: The X.509 extensions in this request.
:rtype: :py:class:`list` of :py:class:`X509Extension` objects.
.. versionadded:: 0.15
"""
exts = []
native_exts_obj = _lib.X509_REQ_get_extensions(self._req)
native_exts_obj = _ffi.gc(
native_exts_obj,
lambda x: _lib.sk_X509_EXTENSION_pop_free(
x,
_ffi.addressof(_lib._original_lib, "X509_EXTENSION_free"),
),
)
for i in range(_lib.sk_X509_EXTENSION_num(native_exts_obj)):
ext = X509Extension.__new__(X509Extension)
extension = _lib.X509_EXTENSION_dup(
_lib.sk_X509_EXTENSION_value(native_exts_obj, i)
)
ext._extension = _ffi.gc(extension, _lib.X509_EXTENSION_free)
exts.append(ext)
return exts
def sign(self, pkey, digest):
"""
Sign the certificate signing request with this key and digest type.
:param pkey: The key pair to sign with.
:type pkey: :py:class:`PKey`
:param digest: The name of the message digest to use for the signature,
e.g. :py:data:`b"sha256"`.
:type digest: :py:class:`bytes`
:return: ``None``
"""
if pkey._only_public:
raise ValueError("Key has only public part")
if not pkey._initialized:
raise ValueError("Key is uninitialized")
digest_obj = _lib.EVP_get_digestbyname(_byte_string(digest))
if digest_obj == _ffi.NULL:
raise ValueError("No such digest method")
sign_result = _lib.X509_REQ_sign(self._req, pkey._pkey, digest_obj)
_openssl_assert(sign_result > 0)
def verify(self, pkey):
"""
Verifies the signature on this certificate signing request.
:param PKey key: A public key.
:return: ``True`` if the signature is correct.
:rtype: bool
:raises OpenSSL.crypto.Error: If the signature is invalid or there is a
problem verifying the signature.
"""
if not isinstance(pkey, PKey):
raise TypeError("pkey must be a PKey instance")
result = _lib.X509_REQ_verify(self._req, pkey._pkey)
if result <= 0:
_raise_current_error()
return result
class X509(object):
"""
An X.509 certificate.
"""
def __init__(self):
x509 = _lib.X509_new()
_openssl_assert(x509 != _ffi.NULL)
self._x509 = _ffi.gc(x509, _lib.X509_free)
self._issuer_invalidator = _X509NameInvalidator()
self._subject_invalidator = _X509NameInvalidator()
@classmethod
def _from_raw_x509_ptr(cls, x509):
cert = cls.__new__(cls)
cert._x509 = _ffi.gc(x509, _lib.X509_free)
cert._issuer_invalidator = _X509NameInvalidator()
cert._subject_invalidator = _X509NameInvalidator()
return cert
def to_cryptography(self):
"""
Export as a ``cryptography`` certificate.
:rtype: ``cryptography.x509.Certificate``
.. versionadded:: 17.1.0
"""
from cryptography.x509 import load_der_x509_certificate
der = dump_certificate(FILETYPE_ASN1, self)
backend = _get_backend()
return load_der_x509_certificate(der, backend)
@classmethod
def from_cryptography(cls, crypto_cert):
"""
Construct based on a ``cryptography`` *crypto_cert*.
:param crypto_key: A ``cryptography`` X.509 certificate.
:type crypto_key: ``cryptography.x509.Certificate``
:rtype: X509
.. versionadded:: 17.1.0
"""
if not isinstance(crypto_cert, x509.Certificate):
raise TypeError("Must be a certificate")
from cryptography.hazmat.primitives.serialization import Encoding
der = crypto_cert.public_bytes(Encoding.DER)
return load_certificate(FILETYPE_ASN1, der)
def set_version(self, version):
"""
Set the version number of the certificate. Note that the
version value is zero-based, eg. a value of 0 is V1.
:param version: The version number of the certificate.
:type version: :py:class:`int`
:return: ``None``
"""
if not isinstance(version, int):
raise TypeError("version must be an integer")
_lib.X509_set_version(self._x509, version)
def get_version(self):
"""
Return the version number of the certificate.
:return: The version number of the certificate.
:rtype: :py:class:`int`
"""
return _lib.X509_get_version(self._x509)
def get_pubkey(self):
"""
Get the public key of the certificate.
:return: The public key.
:rtype: :py:class:`PKey`
"""
pkey = PKey.__new__(PKey)
pkey._pkey = _lib.X509_get_pubkey(self._x509)
if pkey._pkey == _ffi.NULL:
_raise_current_error()
pkey._pkey = _ffi.gc(pkey._pkey, _lib.EVP_PKEY_free)
pkey._only_public = True
return pkey
def set_pubkey(self, pkey):
"""
Set the public key of the certificate.
:param pkey: The public key.
:type pkey: :py:class:`PKey`
:return: :py:data:`None`
"""
if not isinstance(pkey, PKey):
raise TypeError("pkey must be a PKey instance")
set_result = _lib.X509_set_pubkey(self._x509, pkey._pkey)
_openssl_assert(set_result == 1)
def sign(self, pkey, digest):
"""
Sign the certificate with this key and digest type.
:param pkey: The key to sign with.
:type pkey: :py:class:`PKey`
:param digest: The name of the message digest to use.
:type digest: :py:class:`bytes`
:return: :py:data:`None`
"""
if not isinstance(pkey, PKey):
raise TypeError("pkey must be a PKey instance")
if pkey._only_public:
raise ValueError("Key only has public part")
if not pkey._initialized:
raise ValueError("Key is uninitialized")
evp_md = _lib.EVP_get_digestbyname(_byte_string(digest))
if evp_md == _ffi.NULL:
raise ValueError("No such digest method")
sign_result = _lib.X509_sign(self._x509, pkey._pkey, evp_md)
_openssl_assert(sign_result > 0)
def get_signature_algorithm(self):
"""
Return the signature algorithm used in the certificate.
:return: The name of the algorithm.
:rtype: :py:class:`bytes`
:raises ValueError: If the signature algorithm is undefined.
.. versionadded:: 0.13
"""
algor = _lib.X509_get0_tbs_sigalg(self._x509)
nid = _lib.OBJ_obj2nid(algor.algorithm)
if nid == _lib.NID_undef:
raise ValueError("Undefined signature algorithm")
return _ffi.string(_lib.OBJ_nid2ln(nid))
def digest(self, digest_name):
"""
Return the digest of the X509 object.
:param digest_name: The name of the digest algorithm to use.
:type digest_name: :py:class:`bytes`
:return: The digest of the object, formatted as
:py:const:`b":"`-delimited hex pairs.
:rtype: :py:class:`bytes`
"""
digest = _lib.EVP_get_digestbyname(_byte_string(digest_name))
if digest == _ffi.NULL:
raise ValueError("No such digest method")
result_buffer = _ffi.new("unsigned char[]", _lib.EVP_MAX_MD_SIZE)
result_length = _ffi.new("unsigned int[]", 1)
result_length[0] = len(result_buffer)
digest_result = _lib.X509_digest(
self._x509, digest, result_buffer, result_length
)
_openssl_assert(digest_result == 1)
return b":".join(
[
b16encode(ch).upper()
for ch in _ffi.buffer(result_buffer, result_length[0])
]
)
def subject_name_hash(self):
"""
Return the hash of the X509 subject.
:return: The hash of the subject.
:rtype: :py:class:`bytes`
"""
return _lib.X509_subject_name_hash(self._x509)
def set_serial_number(self, serial):
"""
Set the serial number of the certificate.
:param serial: The new serial number.
:type serial: :py:class:`int`
:return: :py:data`None`
"""
if not isinstance(serial, _integer_types):
raise TypeError("serial must be an integer")
hex_serial = hex(serial)[2:]
if not isinstance(hex_serial, bytes):
hex_serial = hex_serial.encode("ascii")
bignum_serial = _ffi.new("BIGNUM**")
# BN_hex2bn stores the result in &bignum. Unless it doesn't feel like
# it. If bignum is still NULL after this call, then the return value
# is actually the result. I hope. -exarkun
small_serial = _lib.BN_hex2bn(bignum_serial, hex_serial)
if bignum_serial[0] == _ffi.NULL:
set_result = _lib.ASN1_INTEGER_set(
_lib.X509_get_serialNumber(self._x509), small_serial
)
if set_result:
# TODO Not tested
_raise_current_error()
else:
asn1_serial = _lib.BN_to_ASN1_INTEGER(bignum_serial[0], _ffi.NULL)
_lib.BN_free(bignum_serial[0])
if asn1_serial == _ffi.NULL:
# TODO Not tested
_raise_current_error()
asn1_serial = _ffi.gc(asn1_serial, _lib.ASN1_INTEGER_free)
set_result = _lib.X509_set_serialNumber(self._x509, asn1_serial)
_openssl_assert(set_result == 1)
def get_serial_number(self):
"""
Return the serial number of this certificate.
:return: The serial number.
:rtype: int
"""
asn1_serial = _lib.X509_get_serialNumber(self._x509)
bignum_serial = _lib.ASN1_INTEGER_to_BN(asn1_serial, _ffi.NULL)
try:
hex_serial = _lib.BN_bn2hex(bignum_serial)
try:
hexstring_serial = _ffi.string(hex_serial)
serial = int(hexstring_serial, 16)
return serial
finally:
_lib.OPENSSL_free(hex_serial)
finally:
_lib.BN_free(bignum_serial)
def gmtime_adj_notAfter(self, amount):
"""
Adjust the time stamp on which the certificate stops being valid.
:param int amount: The number of seconds by which to adjust the
timestamp.
:return: ``None``
"""
if not isinstance(amount, int):
raise TypeError("amount must be an integer")
notAfter = _lib.X509_getm_notAfter(self._x509)
_lib.X509_gmtime_adj(notAfter, amount)
def gmtime_adj_notBefore(self, amount):
"""
Adjust the timestamp on which the certificate starts being valid.
:param amount: The number of seconds by which to adjust the timestamp.
:return: ``None``
"""
if not isinstance(amount, int):
raise TypeError("amount must be an integer")
notBefore = _lib.X509_getm_notBefore(self._x509)
_lib.X509_gmtime_adj(notBefore, amount)
def has_expired(self):
"""
Check whether the certificate has expired.
:return: ``True`` if the certificate has expired, ``False`` otherwise.
:rtype: bool
"""
time_string = _native(self.get_notAfter())
not_after = datetime.datetime.strptime(time_string, "%Y%m%d%H%M%SZ")
return not_after < datetime.datetime.utcnow()
def _get_boundary_time(self, which):
return _get_asn1_time(which(self._x509))
def get_notBefore(self):
"""
Get the timestamp at which the certificate starts being valid.
The timestamp is formatted as an ASN.1 TIME::
YYYYMMDDhhmmssZ
:return: A timestamp string, or ``None`` if there is none.
:rtype: bytes or NoneType
"""
return self._get_boundary_time(_lib.X509_getm_notBefore)
def _set_boundary_time(self, which, when):
return _set_asn1_time(which(self._x509), when)
def set_notBefore(self, when):
"""
Set the timestamp at which the certificate starts being valid.
The timestamp is formatted as an ASN.1 TIME::
YYYYMMDDhhmmssZ
:param bytes when: A timestamp string.
:return: ``None``
"""
return self._set_boundary_time(_lib.X509_getm_notBefore, when)
def get_notAfter(self):
"""
Get the timestamp at which the certificate stops being valid.
The timestamp is formatted as an ASN.1 TIME::
YYYYMMDDhhmmssZ
:return: A timestamp string, or ``None`` if there is none.
:rtype: bytes or NoneType
"""
return self._get_boundary_time(_lib.X509_getm_notAfter)
def set_notAfter(self, when):
"""
Set the timestamp at which the certificate stops being valid.
The timestamp is formatted as an ASN.1 TIME::
YYYYMMDDhhmmssZ
:param bytes when: A timestamp string.
:return: ``None``
"""
return self._set_boundary_time(_lib.X509_getm_notAfter, when)
def _get_name(self, which):
name = X509Name.__new__(X509Name)
name._name = which(self._x509)
_openssl_assert(name._name != _ffi.NULL)
# The name is owned by the X509 structure. As long as the X509Name
# Python object is alive, keep the X509 Python object alive.
name._owner = self
return name
def _set_name(self, which, name):
if not isinstance(name, X509Name):
raise TypeError("name must be an X509Name")
set_result = which(self._x509, name._name)
_openssl_assert(set_result == 1)
def get_issuer(self):
"""
Return the issuer of this certificate.
This creates a new :class:`X509Name` that wraps the underlying issuer
name field on the certificate. Modifying it will modify the underlying
certificate, and will have the effect of modifying any other
:class:`X509Name` that refers to this issuer.
:return: The issuer of this certificate.
:rtype: :class:`X509Name`
"""
name = self._get_name(_lib.X509_get_issuer_name)
self._issuer_invalidator.add(name)
return name
def set_issuer(self, issuer):
"""
Set the issuer of this certificate.
:param issuer: The issuer.
:type issuer: :py:class:`X509Name`
:return: ``None``
"""
self._set_name(_lib.X509_set_issuer_name, issuer)
self._issuer_invalidator.clear()
def get_subject(self):
"""
Return the subject of this certificate.
This creates a new :class:`X509Name` that wraps the underlying subject
name field on the certificate. Modifying it will modify the underlying
certificate, and will have the effect of modifying any other
:class:`X509Name` that refers to this subject.
:return: The subject of this certificate.
:rtype: :class:`X509Name`
"""
name = self._get_name(_lib.X509_get_subject_name)
self._subject_invalidator.add(name)
return name
def set_subject(self, subject):
"""
Set the subject of this certificate.
:param subject: The subject.
:type subject: :py:class:`X509Name`
:return: ``None``
"""
self._set_name(_lib.X509_set_subject_name, subject)
self._subject_invalidator.clear()
def get_extension_count(self):
"""
Get the number of extensions on this certificate.
:return: The number of extensions.
:rtype: :py:class:`int`
.. versionadded:: 0.12
"""
return _lib.X509_get_ext_count(self._x509)
def add_extensions(self, extensions):
"""
Add extensions to the certificate.
:param extensions: The extensions to add.
:type extensions: An iterable of :py:class:`X509Extension` objects.
:return: ``None``
"""
for ext in extensions:
if not isinstance(ext, X509Extension):
raise ValueError("One of the elements is not an X509Extension")
add_result = _lib.X509_add_ext(self._x509, ext._extension, -1)
if not add_result:
_raise_current_error()
def get_extension(self, index):
"""
Get a specific extension of the certificate by index.
Extensions on a certificate are kept in order. The index
parameter selects which extension will be returned.
:param int index: The index of the extension to retrieve.
:return: The extension at the specified index.
:rtype: :py:class:`X509Extension`
:raises IndexError: If the extension index was out of bounds.
.. versionadded:: 0.12
"""
ext = X509Extension.__new__(X509Extension)
ext._extension = _lib.X509_get_ext(self._x509, index)
if ext._extension == _ffi.NULL:
raise IndexError("extension index out of bounds")
extension = _lib.X509_EXTENSION_dup(ext._extension)
ext._extension = _ffi.gc(extension, _lib.X509_EXTENSION_free)
return ext
class X509StoreFlags(object):
"""
Flags for X509 verification, used to change the behavior of
:class:`X509Store`.
See `OpenSSL Verification Flags`_ for details.
.. _OpenSSL Verification Flags:
https://www.openssl.org/docs/manmaster/man3/X509_VERIFY_PARAM_set_flags.html
"""
CRL_CHECK = _lib.X509_V_FLAG_CRL_CHECK
CRL_CHECK_ALL = _lib.X509_V_FLAG_CRL_CHECK_ALL
IGNORE_CRITICAL = _lib.X509_V_FLAG_IGNORE_CRITICAL
X509_STRICT = _lib.X509_V_FLAG_X509_STRICT
ALLOW_PROXY_CERTS = _lib.X509_V_FLAG_ALLOW_PROXY_CERTS
POLICY_CHECK = _lib.X509_V_FLAG_POLICY_CHECK
EXPLICIT_POLICY = _lib.X509_V_FLAG_EXPLICIT_POLICY
INHIBIT_MAP = _lib.X509_V_FLAG_INHIBIT_MAP
NOTIFY_POLICY = _lib.X509_V_FLAG_NOTIFY_POLICY
CHECK_SS_SIGNATURE = _lib.X509_V_FLAG_CHECK_SS_SIGNATURE
class X509Store(object):
"""
An X.509 store.
An X.509 store is used to describe a context in which to verify a
certificate. A description of a context may include a set of certificates
to trust, a set of certificate revocation lists, verification flags and
more.
An X.509 store, being only a description, cannot be used by itself to
verify a certificate. To carry out the actual verification process, see
:class:`X509StoreContext`.
"""
def __init__(self):
store = _lib.X509_STORE_new()
self._store = _ffi.gc(store, _lib.X509_STORE_free)
def add_cert(self, cert):
"""
Adds a trusted certificate to this store.
Adding a certificate with this method adds this certificate as a
*trusted* certificate.
:param X509 cert: The certificate to add to this store.
:raises TypeError: If the certificate is not an :class:`X509`.
:raises OpenSSL.crypto.Error: If OpenSSL was unhappy with your
certificate.
:return: ``None`` if the certificate was added successfully.
"""
if not isinstance(cert, X509):
raise TypeError()
res = _lib.X509_STORE_add_cert(self._store, cert._x509)
_openssl_assert(res == 1)
def add_crl(self, crl):
"""
Add a certificate revocation list to this store.
The certificate revocation lists added to a store will only be used if
the associated flags are configured to check certificate revocation
lists.
.. versionadded:: 16.1.0
:param CRL crl: The certificate revocation list to add to this store.
:return: ``None`` if the certificate revocation list was added
successfully.
"""
_openssl_assert(_lib.X509_STORE_add_crl(self._store, crl._crl) != 0)
def set_flags(self, flags):
"""
Set verification flags to this store.
Verification flags can be combined by oring them together.
.. note::
Setting a verification flag sometimes requires clients to add
additional information to the store, otherwise a suitable error will
be raised.
For example, in setting flags to enable CRL checking a
suitable CRL must be added to the store otherwise an error will be
raised.
.. versionadded:: 16.1.0
:param int flags: The verification flags to set on this store.
See :class:`X509StoreFlags` for available constants.
:return: ``None`` if the verification flags were successfully set.
"""
_openssl_assert(_lib.X509_STORE_set_flags(self._store, flags) != 0)
def set_time(self, vfy_time):
"""
Set the time against which the certificates are verified.
Normally the current time is used.
.. note::
For example, you can determine if a certificate was valid at a given
time.
.. versionadded:: 17.0.0
:param datetime vfy_time: The verification time to set on this store.
:return: ``None`` if the verification time was successfully set.
"""
param = _lib.X509_VERIFY_PARAM_new()
param = _ffi.gc(param, _lib.X509_VERIFY_PARAM_free)
_lib.X509_VERIFY_PARAM_set_time(
param, calendar.timegm(vfy_time.timetuple())
)
_openssl_assert(_lib.X509_STORE_set1_param(self._store, param) != 0)
def load_locations(self, cafile, capath=None):
"""
Let X509Store know where we can find trusted certificates for the
certificate chain. Note that the certificates have to be in PEM
format.
If *capath* is passed, it must be a directory prepared using the
``c_rehash`` tool included with OpenSSL. Either, but not both, of
*cafile* or *capath* may be ``None``.
.. note::
Both *cafile* and *capath* may be set simultaneously.
Call this method multiple times to add more than one location.
For example, CA certificates, and certificate revocation list bundles
may be passed in *cafile* in subsequent calls to this method.
.. versionadded:: 20.0
:param cafile: In which file we can find the certificates (``bytes`` or
``unicode``).
:param capath: In which directory we can find the certificates
(``bytes`` or ``unicode``).
:return: ``None`` if the locations were set successfully.
:raises OpenSSL.crypto.Error: If both *cafile* and *capath* is ``None``
or the locations could not be set for any reason.
"""
if cafile is None:
cafile = _ffi.NULL
else:
cafile = _path_string(cafile)
if capath is None:
capath = _ffi.NULL
else:
capath = _path_string(capath)
load_result = _lib.X509_STORE_load_locations(
self._store, cafile, capath
)
if not load_result:
_raise_current_error()
class X509StoreContextError(Exception):
"""
An exception raised when an error occurred while verifying a certificate
using `OpenSSL.X509StoreContext.verify_certificate`.
:ivar certificate: The certificate which caused verificate failure.
:type certificate: :class:`X509`
"""
def __init__(self, message, certificate):
super(X509StoreContextError, self).__init__(message)
self.certificate = certificate
class X509StoreContext(object):
"""
An X.509 store context.
An X.509 store context is used to carry out the actual verification process
of a certificate in a described context. For describing such a context, see
:class:`X509Store`.
:ivar _store_ctx: The underlying X509_STORE_CTX structure used by this
instance. It is dynamically allocated and automatically garbage
collected.
:ivar _store: See the ``store`` ``__init__`` parameter.
:ivar _cert: See the ``certificate`` ``__init__`` parameter.
:ivar _chain: See the ``chain`` ``__init__`` parameter.
:param X509Store store: The certificates which will be trusted for the
purposes of any verifications.
:param X509 certificate: The certificate to be verified.
:param chain: List of untrusted certificates that may be used for building
the certificate chain. May be ``None``.
:type chain: :class:`list` of :class:`X509`
"""
def __init__(self, store, certificate, chain=None):
store_ctx = _lib.X509_STORE_CTX_new()
self._store_ctx = _ffi.gc(store_ctx, _lib.X509_STORE_CTX_free)
self._store = store
self._cert = certificate
self._chain = self._build_certificate_stack(chain)
# Make the store context available for use after instantiating this
# class by initializing it now. Per testing, subsequent calls to
# :meth:`_init` have no adverse affect.
self._init()
@staticmethod
def _build_certificate_stack(certificates):
def cleanup(s):
# Equivalent to sk_X509_pop_free, but we don't
# currently have a CFFI binding for that available
for i in range(_lib.sk_X509_num(s)):
x = _lib.sk_X509_value(s, i)
_lib.X509_free(x)
_lib.sk_X509_free(s)
if certificates is None or len(certificates) == 0:
return _ffi.NULL
stack = _lib.sk_X509_new_null()
_openssl_assert(stack != _ffi.NULL)
stack = _ffi.gc(stack, cleanup)
for cert in certificates:
if not isinstance(cert, X509):
raise TypeError("One of the elements is not an X509 instance")
_openssl_assert(_lib.X509_up_ref(cert._x509) > 0)
if _lib.sk_X509_push(stack, cert._x509) <= 0:
_lib.X509_free(cert._x509)
_raise_current_error()
return stack
def _init(self):
"""
Set up the store context for a subsequent verification operation.
Calling this method more than once without first calling
:meth:`_cleanup` will leak memory.
"""
ret = _lib.X509_STORE_CTX_init(
self._store_ctx, self._store._store, self._cert._x509, self._chain
)
if ret <= 0:
_raise_current_error()
def _cleanup(self):
"""
Internally cleans up the store context.
The store context can then be reused with a new call to :meth:`_init`.
"""
_lib.X509_STORE_CTX_cleanup(self._store_ctx)
def _exception_from_context(self):
"""
Convert an OpenSSL native context error failure into a Python
exception.
When a call to native OpenSSL X509_verify_cert fails, additional
information about the failure can be obtained from the store context.
"""
errors = [
_lib.X509_STORE_CTX_get_error(self._store_ctx),
_lib.X509_STORE_CTX_get_error_depth(self._store_ctx),
_native(
_ffi.string(
_lib.X509_verify_cert_error_string(
_lib.X509_STORE_CTX_get_error(self._store_ctx)
)
)
),
]
# A context error should always be associated with a certificate, so we
# expect this call to never return :class:`None`.
_x509 = _lib.X509_STORE_CTX_get_current_cert(self._store_ctx)
_cert = _lib.X509_dup(_x509)
pycert = X509._from_raw_x509_ptr(_cert)
return X509StoreContextError(errors, pycert)
def set_store(self, store):
"""
Set the context's X.509 store.
.. versionadded:: 0.15
:param X509Store store: The store description which will be used for
the purposes of any *future* verifications.
"""
self._store = store
def verify_certificate(self):
"""
Verify a certificate in a context.
.. versionadded:: 0.15
:raises X509StoreContextError: If an error occurred when validating a
certificate in the context. Sets ``certificate`` attribute to
indicate which certificate caused the error.
"""
# Always re-initialize the store context in case
# :meth:`verify_certificate` is called multiple times.
#
# :meth:`_init` is called in :meth:`__init__` so _cleanup is called
# before _init to ensure memory is not leaked.
self._cleanup()
self._init()
ret = _lib.X509_verify_cert(self._store_ctx)
self._cleanup()
if ret <= 0:
raise self._exception_from_context()
def get_verified_chain(self):
"""
Verify a certificate in a context and return the complete validated
chain.
:raises X509StoreContextError: If an error occurred when validating a
certificate in the context. Sets ``certificate`` attribute to
indicate which certificate caused the error.
.. versionadded:: 20.0
"""
# Always re-initialize the store context in case
# :meth:`verify_certificate` is called multiple times.
#
# :meth:`_init` is called in :meth:`__init__` so _cleanup is called
# before _init to ensure memory is not leaked.
self._cleanup()
self._init()
ret = _lib.X509_verify_cert(self._store_ctx)
if ret <= 0:
self._cleanup()
raise self._exception_from_context()
# Note: X509_STORE_CTX_get1_chain returns a deep copy of the chain.
cert_stack = _lib.X509_STORE_CTX_get1_chain(self._store_ctx)
_openssl_assert(cert_stack != _ffi.NULL)
result = []
for i in range(_lib.sk_X509_num(cert_stack)):
cert = _lib.sk_X509_value(cert_stack, i)
_openssl_assert(cert != _ffi.NULL)
pycert = X509._from_raw_x509_ptr(cert)
result.append(pycert)
# Free the stack but not the members which are freed by the X509 class.
_lib.sk_X509_free(cert_stack)
self._cleanup()
return result
def load_certificate(type, buffer):
"""
Load a certificate (X509) from the string *buffer* encoded with the
type *type*.
:param type: The file type (one of FILETYPE_PEM, FILETYPE_ASN1)
:param bytes buffer: The buffer the certificate is stored in
:return: The X509 object
"""
if isinstance(buffer, _text_type):
buffer = buffer.encode("ascii")
bio = _new_mem_buf(buffer)
if type == FILETYPE_PEM:
x509 = _lib.PEM_read_bio_X509(bio, _ffi.NULL, _ffi.NULL, _ffi.NULL)
elif type == FILETYPE_ASN1:
x509 = _lib.d2i_X509_bio(bio, _ffi.NULL)
else:
raise ValueError("type argument must be FILETYPE_PEM or FILETYPE_ASN1")
if x509 == _ffi.NULL:
_raise_current_error()
return X509._from_raw_x509_ptr(x509)
def dump_certificate(type, cert):
"""
Dump the certificate *cert* into a buffer string encoded with the type
*type*.
:param type: The file type (one of FILETYPE_PEM, FILETYPE_ASN1, or
FILETYPE_TEXT)
:param cert: The certificate to dump
:return: The buffer with the dumped certificate in
"""
bio = _new_mem_buf()
if type == FILETYPE_PEM:
result_code = _lib.PEM_write_bio_X509(bio, cert._x509)
elif type == FILETYPE_ASN1:
result_code = _lib.i2d_X509_bio(bio, cert._x509)
elif type == FILETYPE_TEXT:
result_code = _lib.X509_print_ex(bio, cert._x509, 0, 0)
else:
raise ValueError(
"type argument must be FILETYPE_PEM, FILETYPE_ASN1, or "
"FILETYPE_TEXT"
)
_openssl_assert(result_code == 1)
return _bio_to_string(bio)
def dump_publickey(type, pkey):
"""
Dump a public key to a buffer.
:param type: The file type (one of :data:`FILETYPE_PEM` or
:data:`FILETYPE_ASN1`).
:param PKey pkey: The public key to dump
:return: The buffer with the dumped key in it.
:rtype: bytes
"""
bio = _new_mem_buf()
if type == FILETYPE_PEM:
write_bio = _lib.PEM_write_bio_PUBKEY
elif type == FILETYPE_ASN1:
write_bio = _lib.i2d_PUBKEY_bio
else:
raise ValueError("type argument must be FILETYPE_PEM or FILETYPE_ASN1")
result_code = write_bio(bio, pkey._pkey)
if result_code != 1: # pragma: no cover
_raise_current_error()
return _bio_to_string(bio)
def dump_privatekey(type, pkey, cipher=None, passphrase=None):
"""
Dump the private key *pkey* into a buffer string encoded with the type
*type*. Optionally (if *type* is :const:`FILETYPE_PEM`) encrypting it
using *cipher* and *passphrase*.
:param type: The file type (one of :const:`FILETYPE_PEM`,
:const:`FILETYPE_ASN1`, or :const:`FILETYPE_TEXT`)
:param PKey pkey: The PKey to dump
:param cipher: (optional) if encrypted PEM format, the cipher to use
:param passphrase: (optional) if encrypted PEM format, this can be either
the passphrase to use, or a callback for providing the passphrase.
:return: The buffer with the dumped key in
:rtype: bytes
"""
bio = _new_mem_buf()
if not isinstance(pkey, PKey):
raise TypeError("pkey must be a PKey")
if cipher is not None:
if passphrase is None:
raise TypeError(
"if a value is given for cipher "
"one must also be given for passphrase"
)
cipher_obj = _lib.EVP_get_cipherbyname(_byte_string(cipher))
if cipher_obj == _ffi.NULL:
raise ValueError("Invalid cipher name")
else:
cipher_obj = _ffi.NULL
helper = _PassphraseHelper(type, passphrase)
if type == FILETYPE_PEM:
result_code = _lib.PEM_write_bio_PrivateKey(
bio,
pkey._pkey,
cipher_obj,
_ffi.NULL,
0,
helper.callback,
helper.callback_args,
)
helper.raise_if_problem()
elif type == FILETYPE_ASN1:
result_code = _lib.i2d_PrivateKey_bio(bio, pkey._pkey)
elif type == FILETYPE_TEXT:
if _lib.EVP_PKEY_id(pkey._pkey) != _lib.EVP_PKEY_RSA:
raise TypeError("Only RSA keys are supported for FILETYPE_TEXT")
rsa = _ffi.gc(_lib.EVP_PKEY_get1_RSA(pkey._pkey), _lib.RSA_free)
result_code = _lib.RSA_print(bio, rsa, 0)
else:
raise ValueError(
"type argument must be FILETYPE_PEM, FILETYPE_ASN1, or "
"FILETYPE_TEXT"
)
_openssl_assert(result_code != 0)
return _bio_to_string(bio)
class Revoked(object):
"""
A certificate revocation.
"""
# https://www.openssl.org/docs/manmaster/man5/x509v3_config.html#CRL-distribution-points
# which differs from crl_reasons of crypto/x509v3/v3_enum.c that matches
# OCSP_crl_reason_str. We use the latter, just like the command line
# program.
_crl_reasons = [
b"unspecified",
b"keyCompromise",
b"CACompromise",
b"affiliationChanged",
b"superseded",
b"cessationOfOperation",
b"certificateHold",
# b"removeFromCRL",
]
def __init__(self):
revoked = _lib.X509_REVOKED_new()
self._revoked = _ffi.gc(revoked, _lib.X509_REVOKED_free)
def set_serial(self, hex_str):
"""
Set the serial number.
The serial number is formatted as a hexadecimal number encoded in
ASCII.
:param bytes hex_str: The new serial number.
:return: ``None``
"""
bignum_serial = _ffi.gc(_lib.BN_new(), _lib.BN_free)
bignum_ptr = _ffi.new("BIGNUM**")
bignum_ptr[0] = bignum_serial
bn_result = _lib.BN_hex2bn(bignum_ptr, hex_str)
if not bn_result:
raise ValueError("bad hex string")
asn1_serial = _ffi.gc(
_lib.BN_to_ASN1_INTEGER(bignum_serial, _ffi.NULL),
_lib.ASN1_INTEGER_free,
)
_lib.X509_REVOKED_set_serialNumber(self._revoked, asn1_serial)
def get_serial(self):
"""
Get the serial number.
The serial number is formatted as a hexadecimal number encoded in
ASCII.
:return: The serial number.
:rtype: bytes
"""
bio = _new_mem_buf()
asn1_int = _lib.X509_REVOKED_get0_serialNumber(self._revoked)
_openssl_assert(asn1_int != _ffi.NULL)
result = _lib.i2a_ASN1_INTEGER(bio, asn1_int)
_openssl_assert(result >= 0)
return _bio_to_string(bio)
def _delete_reason(self):
for i in range(_lib.X509_REVOKED_get_ext_count(self._revoked)):
ext = _lib.X509_REVOKED_get_ext(self._revoked, i)
obj = _lib.X509_EXTENSION_get_object(ext)
if _lib.OBJ_obj2nid(obj) == _lib.NID_crl_reason:
_lib.X509_EXTENSION_free(ext)
_lib.X509_REVOKED_delete_ext(self._revoked, i)
break
def set_reason(self, reason):
"""
Set the reason of this revocation.
If :data:`reason` is ``None``, delete the reason instead.
:param reason: The reason string.
:type reason: :class:`bytes` or :class:`NoneType`
:return: ``None``
.. seealso::
:meth:`all_reasons`, which gives you a list of all supported
reasons which you might pass to this method.
"""
if reason is None:
self._delete_reason()
elif not isinstance(reason, bytes):
raise TypeError("reason must be None or a byte string")
else:
reason = reason.lower().replace(b" ", b"")
reason_code = [r.lower() for r in self._crl_reasons].index(reason)
new_reason_ext = _lib.ASN1_ENUMERATED_new()
_openssl_assert(new_reason_ext != _ffi.NULL)
new_reason_ext = _ffi.gc(new_reason_ext, _lib.ASN1_ENUMERATED_free)
set_result = _lib.ASN1_ENUMERATED_set(new_reason_ext, reason_code)
_openssl_assert(set_result != _ffi.NULL)
self._delete_reason()
add_result = _lib.X509_REVOKED_add1_ext_i2d(
self._revoked, _lib.NID_crl_reason, new_reason_ext, 0, 0
)
_openssl_assert(add_result == 1)
def get_reason(self):
"""
Get the reason of this revocation.
:return: The reason, or ``None`` if there is none.
:rtype: bytes or NoneType
.. seealso::
:meth:`all_reasons`, which gives you a list of all supported
reasons this method might return.
"""
for i in range(_lib.X509_REVOKED_get_ext_count(self._revoked)):
ext = _lib.X509_REVOKED_get_ext(self._revoked, i)
obj = _lib.X509_EXTENSION_get_object(ext)
if _lib.OBJ_obj2nid(obj) == _lib.NID_crl_reason:
bio = _new_mem_buf()
print_result = _lib.X509V3_EXT_print(bio, ext, 0, 0)
if not print_result:
print_result = _lib.M_ASN1_OCTET_STRING_print(
bio, _lib.X509_EXTENSION_get_data(ext)
)
_openssl_assert(print_result != 0)
return _bio_to_string(bio)
def all_reasons(self):
"""
Return a list of all the supported reason strings.
This list is a copy; modifying it does not change the supported reason
strings.
:return: A list of reason strings.
:rtype: :class:`list` of :class:`bytes`
"""
return self._crl_reasons[:]
def set_rev_date(self, when):
"""
Set the revocation timestamp.
:param bytes when: The timestamp of the revocation,
as ASN.1 TIME.
:return: ``None``
"""
dt = _lib.X509_REVOKED_get0_revocationDate(self._revoked)
return _set_asn1_time(dt, when)
def get_rev_date(self):
"""
Get the revocation timestamp.
:return: The timestamp of the revocation, as ASN.1 TIME.
:rtype: bytes
"""
dt = _lib.X509_REVOKED_get0_revocationDate(self._revoked)
return _get_asn1_time(dt)
class CRL(object):
"""
A certificate revocation list.
"""
def __init__(self):
crl = _lib.X509_CRL_new()
self._crl = _ffi.gc(crl, _lib.X509_CRL_free)
def to_cryptography(self):
"""
Export as a ``cryptography`` CRL.
:rtype: ``cryptography.x509.CertificateRevocationList``
.. versionadded:: 17.1.0
"""
from cryptography.x509 import load_der_x509_crl
der = dump_crl(FILETYPE_ASN1, self)
backend = _get_backend()
return load_der_x509_crl(der, backend)
@classmethod
def from_cryptography(cls, crypto_crl):
"""
Construct based on a ``cryptography`` *crypto_crl*.
:param crypto_crl: A ``cryptography`` certificate revocation list
:type crypto_crl: ``cryptography.x509.CertificateRevocationList``
:rtype: CRL
.. versionadded:: 17.1.0
"""
if not isinstance(crypto_crl, x509.CertificateRevocationList):
raise TypeError("Must be a certificate revocation list")
from cryptography.hazmat.primitives.serialization import Encoding
der = crypto_crl.public_bytes(Encoding.DER)
return load_crl(FILETYPE_ASN1, der)
def get_revoked(self):
"""
Return the revocations in this certificate revocation list.
These revocations will be provided by value, not by reference.
That means it's okay to mutate them: it won't affect this CRL.
:return: The revocations in this CRL.
:rtype: :class:`tuple` of :class:`Revocation`
"""
results = []
revoked_stack = _lib.X509_CRL_get_REVOKED(self._crl)
for i in range(_lib.sk_X509_REVOKED_num(revoked_stack)):
revoked = _lib.sk_X509_REVOKED_value(revoked_stack, i)
revoked_copy = _lib.Cryptography_X509_REVOKED_dup(revoked)
pyrev = Revoked.__new__(Revoked)
pyrev._revoked = _ffi.gc(revoked_copy, _lib.X509_REVOKED_free)
results.append(pyrev)
if results:
return tuple(results)
def add_revoked(self, revoked):
"""
Add a revoked (by value not reference) to the CRL structure
This revocation will be added by value, not by reference. That
means it's okay to mutate it after adding: it won't affect
this CRL.
:param Revoked revoked: The new revocation.
:return: ``None``
"""
copy = _lib.Cryptography_X509_REVOKED_dup(revoked._revoked)
_openssl_assert(copy != _ffi.NULL)
add_result = _lib.X509_CRL_add0_revoked(self._crl, copy)
_openssl_assert(add_result != 0)
def get_issuer(self):
"""
Get the CRL's issuer.
.. versionadded:: 16.1.0
:rtype: X509Name
"""
_issuer = _lib.X509_NAME_dup(_lib.X509_CRL_get_issuer(self._crl))
_openssl_assert(_issuer != _ffi.NULL)
_issuer = _ffi.gc(_issuer, _lib.X509_NAME_free)
issuer = X509Name.__new__(X509Name)
issuer._name = _issuer
return issuer
def set_version(self, version):
"""
Set the CRL version.
.. versionadded:: 16.1.0
:param int version: The version of the CRL.
:return: ``None``
"""
_openssl_assert(_lib.X509_CRL_set_version(self._crl, version) != 0)
def _set_boundary_time(self, which, when):
return _set_asn1_time(which(self._crl), when)
def set_lastUpdate(self, when):
"""
Set when the CRL was last updated.
The timestamp is formatted as an ASN.1 TIME::
YYYYMMDDhhmmssZ
.. versionadded:: 16.1.0
:param bytes when: A timestamp string.
:return: ``None``
"""
return self._set_boundary_time(_lib.X509_CRL_get_lastUpdate, when)
def set_nextUpdate(self, when):
"""
Set when the CRL will next be updated.
The timestamp is formatted as an ASN.1 TIME::
YYYYMMDDhhmmssZ
.. versionadded:: 16.1.0
:param bytes when: A timestamp string.
:return: ``None``
"""
return self._set_boundary_time(_lib.X509_CRL_get_nextUpdate, when)
def sign(self, issuer_cert, issuer_key, digest):
"""
Sign the CRL.
Signing a CRL enables clients to associate the CRL itself with an
issuer. Before a CRL is meaningful to other OpenSSL functions, it must
be signed by an issuer.
This method implicitly sets the issuer's name based on the issuer
certificate and private key used to sign the CRL.
.. versionadded:: 16.1.0
:param X509 issuer_cert: The issuer's certificate.
:param PKey issuer_key: The issuer's private key.
:param bytes digest: The digest method to sign the CRL with.
"""
digest_obj = _lib.EVP_get_digestbyname(digest)
_openssl_assert(digest_obj != _ffi.NULL)
_lib.X509_CRL_set_issuer_name(
self._crl, _lib.X509_get_subject_name(issuer_cert._x509)
)
_lib.X509_CRL_sort(self._crl)
result = _lib.X509_CRL_sign(self._crl, issuer_key._pkey, digest_obj)
_openssl_assert(result != 0)
def export(
self, cert, key, type=FILETYPE_PEM, days=100, digest=_UNSPECIFIED
):
"""
Export the CRL as a string.
:param X509 cert: The certificate used to sign the CRL.
:param PKey key: The key used to sign the CRL.
:param int type: The export format, either :data:`FILETYPE_PEM`,
:data:`FILETYPE_ASN1`, or :data:`FILETYPE_TEXT`.
:param int days: The number of days until the next update of this CRL.
:param bytes digest: The name of the message digest to use (eg
``b"sha256"``).
:rtype: bytes
"""
if not isinstance(cert, X509):
raise TypeError("cert must be an X509 instance")
if not isinstance(key, PKey):
raise TypeError("key must be a PKey instance")
if not isinstance(type, int):
raise TypeError("type must be an integer")
if digest is _UNSPECIFIED:
raise TypeError("digest must be provided")
digest_obj = _lib.EVP_get_digestbyname(digest)
if digest_obj == _ffi.NULL:
raise ValueError("No such digest method")
bio = _lib.BIO_new(_lib.BIO_s_mem())
_openssl_assert(bio != _ffi.NULL)
# A scratch time object to give different values to different CRL
# fields
sometime = _lib.ASN1_TIME_new()
_openssl_assert(sometime != _ffi.NULL)
_lib.X509_gmtime_adj(sometime, 0)
_lib.X509_CRL_set_lastUpdate(self._crl, sometime)
_lib.X509_gmtime_adj(sometime, days * 24 * 60 * 60)
_lib.X509_CRL_set_nextUpdate(self._crl, sometime)
_lib.X509_CRL_set_issuer_name(
self._crl, _lib.X509_get_subject_name(cert._x509)
)
sign_result = _lib.X509_CRL_sign(self._crl, key._pkey, digest_obj)
if not sign_result:
_raise_current_error()
return dump_crl(type, self)
class PKCS7(object):
def type_is_signed(self):
"""
Check if this NID_pkcs7_signed object
:return: True if the PKCS7 is of type signed
"""
return bool(_lib.PKCS7_type_is_signed(self._pkcs7))
def type_is_enveloped(self):
"""
Check if this NID_pkcs7_enveloped object
:returns: True if the PKCS7 is of type enveloped
"""
return bool(_lib.PKCS7_type_is_enveloped(self._pkcs7))
def type_is_signedAndEnveloped(self):
"""
Check if this NID_pkcs7_signedAndEnveloped object
:returns: True if the PKCS7 is of type signedAndEnveloped
"""
return bool(_lib.PKCS7_type_is_signedAndEnveloped(self._pkcs7))
def type_is_data(self):
"""
Check if this NID_pkcs7_data object
:return: True if the PKCS7 is of type data
"""
return bool(_lib.PKCS7_type_is_data(self._pkcs7))
def get_type_name(self):
"""
Returns the type name of the PKCS7 structure
:return: A string with the typename
"""
nid = _lib.OBJ_obj2nid(self._pkcs7.type)
string_type = _lib.OBJ_nid2sn(nid)
return _ffi.string(string_type)
class PKCS12(object):
"""
A PKCS #12 archive.
"""
def __init__(self):
self._pkey = None
self._cert = None
self._cacerts = None
self._friendlyname = None
def get_certificate(self):
"""
Get the certificate in the PKCS #12 structure.
:return: The certificate, or :py:const:`None` if there is none.
:rtype: :py:class:`X509` or :py:const:`None`
"""
return self._cert
def set_certificate(self, cert):
"""
Set the certificate in the PKCS #12 structure.
:param cert: The new certificate, or :py:const:`None` to unset it.
:type cert: :py:class:`X509` or :py:const:`None`
:return: ``None``
"""
if not isinstance(cert, X509):
raise TypeError("cert must be an X509 instance")
self._cert = cert
def get_privatekey(self):
"""
Get the private key in the PKCS #12 structure.
:return: The private key, or :py:const:`None` if there is none.
:rtype: :py:class:`PKey`
"""
return self._pkey
def set_privatekey(self, pkey):
"""
Set the certificate portion of the PKCS #12 structure.
:param pkey: The new private key, or :py:const:`None` to unset it.
:type pkey: :py:class:`PKey` or :py:const:`None`
:return: ``None``
"""
if not isinstance(pkey, PKey):
raise TypeError("pkey must be a PKey instance")
self._pkey = pkey
def get_ca_certificates(self):
"""
Get the CA certificates in the PKCS #12 structure.
:return: A tuple with the CA certificates in the chain, or
:py:const:`None` if there are none.
:rtype: :py:class:`tuple` of :py:class:`X509` or :py:const:`None`
"""
if self._cacerts is not None:
return tuple(self._cacerts)
def set_ca_certificates(self, cacerts):
"""
Replace or set the CA certificates within the PKCS12 object.
:param cacerts: The new CA certificates, or :py:const:`None` to unset
them.
:type cacerts: An iterable of :py:class:`X509` or :py:const:`None`
:return: ``None``
"""
if cacerts is None:
self._cacerts = None
else:
cacerts = list(cacerts)
for cert in cacerts:
if not isinstance(cert, X509):
raise TypeError(
"iterable must only contain X509 instances"
)
self._cacerts = cacerts
def set_friendlyname(self, name):
"""
Set the friendly name in the PKCS #12 structure.
:param name: The new friendly name, or :py:const:`None` to unset.
:type name: :py:class:`bytes` or :py:const:`None`
:return: ``None``
"""
if name is None:
self._friendlyname = None
elif not isinstance(name, bytes):
raise TypeError(
"name must be a byte string or None (not %r)" % (name,)
)
self._friendlyname = name
def get_friendlyname(self):
"""
Get the friendly name in the PKCS# 12 structure.
:returns: The friendly name, or :py:const:`None` if there is none.
:rtype: :py:class:`bytes` or :py:const:`None`
"""
return self._friendlyname
def export(self, passphrase=None, iter=2048, maciter=1):
"""
Dump a PKCS12 object as a string.
For more information, see the :c:func:`PKCS12_create` man page.
:param passphrase: The passphrase used to encrypt the structure. Unlike
some other passphrase arguments, this *must* be a string, not a
callback.
:type passphrase: :py:data:`bytes`
:param iter: Number of times to repeat the encryption step.
:type iter: :py:data:`int`
:param maciter: Number of times to repeat the MAC step.
:type maciter: :py:data:`int`
:return: The string representation of the PKCS #12 structure.
:rtype:
"""
passphrase = _text_to_bytes_and_warn("passphrase", passphrase)
if self._cacerts is None:
cacerts = _ffi.NULL
else:
cacerts = _lib.sk_X509_new_null()
cacerts = _ffi.gc(cacerts, _lib.sk_X509_free)
for cert in self._cacerts:
_lib.sk_X509_push(cacerts, cert._x509)
if passphrase is None:
passphrase = _ffi.NULL
friendlyname = self._friendlyname
if friendlyname is None:
friendlyname = _ffi.NULL
if self._pkey is None:
pkey = _ffi.NULL
else:
pkey = self._pkey._pkey
if self._cert is None:
cert = _ffi.NULL
else:
cert = self._cert._x509
pkcs12 = _lib.PKCS12_create(
passphrase,
friendlyname,
pkey,
cert,
cacerts,
_lib.NID_pbe_WithSHA1And3_Key_TripleDES_CBC,
_lib.NID_pbe_WithSHA1And3_Key_TripleDES_CBC,
iter,
maciter,
0,
)
if pkcs12 == _ffi.NULL:
_raise_current_error()
pkcs12 = _ffi.gc(pkcs12, _lib.PKCS12_free)
bio = _new_mem_buf()
_lib.i2d_PKCS12_bio(bio, pkcs12)
return _bio_to_string(bio)
class NetscapeSPKI(object):
"""
A Netscape SPKI object.
"""
def __init__(self):
spki = _lib.NETSCAPE_SPKI_new()
self._spki = _ffi.gc(spki, _lib.NETSCAPE_SPKI_free)
def sign(self, pkey, digest):
"""
Sign the certificate request with this key and digest type.
:param pkey: The private key to sign with.
:type pkey: :py:class:`PKey`
:param digest: The message digest to use.
:type digest: :py:class:`bytes`
:return: ``None``
"""
if pkey._only_public:
raise ValueError("Key has only public part")
if not pkey._initialized:
raise ValueError("Key is uninitialized")
digest_obj = _lib.EVP_get_digestbyname(_byte_string(digest))
if digest_obj == _ffi.NULL:
raise ValueError("No such digest method")
sign_result = _lib.NETSCAPE_SPKI_sign(
self._spki, pkey._pkey, digest_obj
)
_openssl_assert(sign_result > 0)
def verify(self, key):
"""
Verifies a signature on a certificate request.
:param PKey key: The public key that signature is supposedly from.
:return: ``True`` if the signature is correct.
:rtype: bool
:raises OpenSSL.crypto.Error: If the signature is invalid, or there was
a problem verifying the signature.
"""
answer = _lib.NETSCAPE_SPKI_verify(self._spki, key._pkey)
if answer <= 0:
_raise_current_error()
return True
def b64_encode(self):
"""
Generate a base64 encoded representation of this SPKI object.
:return: The base64 encoded string.
:rtype: :py:class:`bytes`
"""
encoded = _lib.NETSCAPE_SPKI_b64_encode(self._spki)
result = _ffi.string(encoded)
_lib.OPENSSL_free(encoded)
return result
def get_pubkey(self):
"""
Get the public key of this certificate.
:return: The public key.
:rtype: :py:class:`PKey`
"""
pkey = PKey.__new__(PKey)
pkey._pkey = _lib.NETSCAPE_SPKI_get_pubkey(self._spki)
_openssl_assert(pkey._pkey != _ffi.NULL)
pkey._pkey = _ffi.gc(pkey._pkey, _lib.EVP_PKEY_free)
pkey._only_public = True
return pkey
def set_pubkey(self, pkey):
"""
Set the public key of the certificate
:param pkey: The public key
:return: ``None``
"""
set_result = _lib.NETSCAPE_SPKI_set_pubkey(self._spki, pkey._pkey)
_openssl_assert(set_result == 1)
class _PassphraseHelper(object):
def __init__(self, type, passphrase, more_args=False, truncate=False):
if type != FILETYPE_PEM and passphrase is not None:
raise ValueError(
"only FILETYPE_PEM key format supports encryption"
)
self._passphrase = passphrase
self._more_args = more_args
self._truncate = truncate
self._problems = []
@property
def callback(self):
if self._passphrase is None:
return _ffi.NULL
elif isinstance(self._passphrase, bytes) or callable(self._passphrase):
return _ffi.callback("pem_password_cb", self._read_passphrase)
else:
raise TypeError(
"Last argument must be a byte string or a callable."
)
@property
def callback_args(self):
if self._passphrase is None:
return _ffi.NULL
elif isinstance(self._passphrase, bytes) or callable(self._passphrase):
return _ffi.NULL
else:
raise TypeError(
"Last argument must be a byte string or a callable."
)
def raise_if_problem(self, exceptionType=Error):
if self._problems:
# Flush the OpenSSL error queue
try:
_exception_from_error_queue(exceptionType)
except exceptionType:
pass
raise self._problems.pop(0)
def _read_passphrase(self, buf, size, rwflag, userdata):
try:
if callable(self._passphrase):
if self._more_args:
result = self._passphrase(size, rwflag, userdata)
else:
result = self._passphrase(rwflag)
else:
result = self._passphrase
if not isinstance(result, bytes):
raise ValueError("Bytes expected")
if len(result) > size:
if self._truncate:
result = result[:size]
else:
raise ValueError(
"passphrase returned by callback is too long"
)
for i in range(len(result)):
buf[i] = result[i : i + 1]
return len(result)
except Exception as e:
self._problems.append(e)
return 0
def load_publickey(type, buffer):
"""
Load a public key from a buffer.
:param type: The file type (one of :data:`FILETYPE_PEM`,
:data:`FILETYPE_ASN1`).
:param buffer: The buffer the key is stored in.
:type buffer: A Python string object, either unicode or bytestring.
:return: The PKey object.
:rtype: :class:`PKey`
"""
if isinstance(buffer, _text_type):
buffer = buffer.encode("ascii")
bio = _new_mem_buf(buffer)
if type == FILETYPE_PEM:
evp_pkey = _lib.PEM_read_bio_PUBKEY(
bio, _ffi.NULL, _ffi.NULL, _ffi.NULL
)
elif type == FILETYPE_ASN1:
evp_pkey = _lib.d2i_PUBKEY_bio(bio, _ffi.NULL)
else:
raise ValueError("type argument must be FILETYPE_PEM or FILETYPE_ASN1")
if evp_pkey == _ffi.NULL:
_raise_current_error()
pkey = PKey.__new__(PKey)
pkey._pkey = _ffi.gc(evp_pkey, _lib.EVP_PKEY_free)
pkey._only_public = True
return pkey
def load_privatekey(type, buffer, passphrase=None):
"""
Load a private key (PKey) from the string *buffer* encoded with the type
*type*.
:param type: The file type (one of FILETYPE_PEM, FILETYPE_ASN1)
:param buffer: The buffer the key is stored in
:param passphrase: (optional) if encrypted PEM format, this can be
either the passphrase to use, or a callback for
providing the passphrase.
:return: The PKey object
"""
if isinstance(buffer, _text_type):
buffer = buffer.encode("ascii")
bio = _new_mem_buf(buffer)
helper = _PassphraseHelper(type, passphrase)
if type == FILETYPE_PEM:
evp_pkey = _lib.PEM_read_bio_PrivateKey(
bio, _ffi.NULL, helper.callback, helper.callback_args
)
helper.raise_if_problem()
elif type == FILETYPE_ASN1:
evp_pkey = _lib.d2i_PrivateKey_bio(bio, _ffi.NULL)
else:
raise ValueError("type argument must be FILETYPE_PEM or FILETYPE_ASN1")
if evp_pkey == _ffi.NULL:
_raise_current_error()
pkey = PKey.__new__(PKey)
pkey._pkey = _ffi.gc(evp_pkey, _lib.EVP_PKEY_free)
return pkey
def dump_certificate_request(type, req):
"""
Dump the certificate request *req* into a buffer string encoded with the
type *type*.
:param type: The file type (one of FILETYPE_PEM, FILETYPE_ASN1)
:param req: The certificate request to dump
:return: The buffer with the dumped certificate request in
"""
bio = _new_mem_buf()
if type == FILETYPE_PEM:
result_code = _lib.PEM_write_bio_X509_REQ(bio, req._req)
elif type == FILETYPE_ASN1:
result_code = _lib.i2d_X509_REQ_bio(bio, req._req)
elif type == FILETYPE_TEXT:
result_code = _lib.X509_REQ_print_ex(bio, req._req, 0, 0)
else:
raise ValueError(
"type argument must be FILETYPE_PEM, FILETYPE_ASN1, or "
"FILETYPE_TEXT"
)
_openssl_assert(result_code != 0)
return _bio_to_string(bio)
def load_certificate_request(type, buffer):
"""
Load a certificate request (X509Req) from the string *buffer* encoded with
the type *type*.
:param type: The file type (one of FILETYPE_PEM, FILETYPE_ASN1)
:param buffer: The buffer the certificate request is stored in
:return: The X509Req object
"""
if isinstance(buffer, _text_type):
buffer = buffer.encode("ascii")
bio = _new_mem_buf(buffer)
if type == FILETYPE_PEM:
req = _lib.PEM_read_bio_X509_REQ(bio, _ffi.NULL, _ffi.NULL, _ffi.NULL)
elif type == FILETYPE_ASN1:
req = _lib.d2i_X509_REQ_bio(bio, _ffi.NULL)
else:
raise ValueError("type argument must be FILETYPE_PEM or FILETYPE_ASN1")
_openssl_assert(req != _ffi.NULL)
x509req = X509Req.__new__(X509Req)
x509req._req = _ffi.gc(req, _lib.X509_REQ_free)
return x509req
def sign(pkey, data, digest):
"""
Sign a data string using the given key and message digest.
:param pkey: PKey to sign with
:param data: data to be signed
:param digest: message digest to use
:return: signature
.. versionadded:: 0.11
"""
data = _text_to_bytes_and_warn("data", data)
digest_obj = _lib.EVP_get_digestbyname(_byte_string(digest))
if digest_obj == _ffi.NULL:
raise ValueError("No such digest method")
md_ctx = _lib.Cryptography_EVP_MD_CTX_new()
md_ctx = _ffi.gc(md_ctx, _lib.Cryptography_EVP_MD_CTX_free)
_lib.EVP_SignInit(md_ctx, digest_obj)
_lib.EVP_SignUpdate(md_ctx, data, len(data))
length = _lib.EVP_PKEY_size(pkey._pkey)
_openssl_assert(length > 0)
signature_buffer = _ffi.new("unsigned char[]", length)
signature_length = _ffi.new("unsigned int *")
final_result = _lib.EVP_SignFinal(
md_ctx, signature_buffer, signature_length, pkey._pkey
)
_openssl_assert(final_result == 1)
return _ffi.buffer(signature_buffer, signature_length[0])[:]
def verify(cert, signature, data, digest):
"""
Verify the signature for a data string.
:param cert: signing certificate (X509 object) corresponding to the
private key which generated the signature.
:param signature: signature returned by sign function
:param data: data to be verified
:param digest: message digest to use
:return: ``None`` if the signature is correct, raise exception otherwise.
.. versionadded:: 0.11
"""
data = _text_to_bytes_and_warn("data", data)
digest_obj = _lib.EVP_get_digestbyname(_byte_string(digest))
if digest_obj == _ffi.NULL:
raise ValueError("No such digest method")
pkey = _lib.X509_get_pubkey(cert._x509)
_openssl_assert(pkey != _ffi.NULL)
pkey = _ffi.gc(pkey, _lib.EVP_PKEY_free)
md_ctx = _lib.Cryptography_EVP_MD_CTX_new()
md_ctx = _ffi.gc(md_ctx, _lib.Cryptography_EVP_MD_CTX_free)
_lib.EVP_VerifyInit(md_ctx, digest_obj)
_lib.EVP_VerifyUpdate(md_ctx, data, len(data))
verify_result = _lib.EVP_VerifyFinal(
md_ctx, signature, len(signature), pkey
)
if verify_result != 1:
_raise_current_error()
def dump_crl(type, crl):
"""
Dump a certificate revocation list to a buffer.
:param type: The file type (one of ``FILETYPE_PEM``, ``FILETYPE_ASN1``, or
``FILETYPE_TEXT``).
:param CRL crl: The CRL to dump.
:return: The buffer with the CRL.
:rtype: bytes
"""
bio = _new_mem_buf()
if type == FILETYPE_PEM:
ret = _lib.PEM_write_bio_X509_CRL(bio, crl._crl)
elif type == FILETYPE_ASN1:
ret = _lib.i2d_X509_CRL_bio(bio, crl._crl)
elif type == FILETYPE_TEXT:
ret = _lib.X509_CRL_print(bio, crl._crl)
else:
raise ValueError(
"type argument must be FILETYPE_PEM, FILETYPE_ASN1, or "
"FILETYPE_TEXT"
)
_openssl_assert(ret == 1)
return _bio_to_string(bio)
def load_crl(type, buffer):
"""
Load Certificate Revocation List (CRL) data from a string *buffer*.
*buffer* encoded with the type *type*.
:param type: The file type (one of FILETYPE_PEM, FILETYPE_ASN1)
:param buffer: The buffer the CRL is stored in
:return: The PKey object
"""
if isinstance(buffer, _text_type):
buffer = buffer.encode("ascii")
bio = _new_mem_buf(buffer)
if type == FILETYPE_PEM:
crl = _lib.PEM_read_bio_X509_CRL(bio, _ffi.NULL, _ffi.NULL, _ffi.NULL)
elif type == FILETYPE_ASN1:
crl = _lib.d2i_X509_CRL_bio(bio, _ffi.NULL)
else:
raise ValueError("type argument must be FILETYPE_PEM or FILETYPE_ASN1")
if crl == _ffi.NULL:
_raise_current_error()
result = CRL.__new__(CRL)
result._crl = _ffi.gc(crl, _lib.X509_CRL_free)
return result
def load_pkcs7_data(type, buffer):
"""
Load pkcs7 data from the string *buffer* encoded with the type
*type*.
:param type: The file type (one of FILETYPE_PEM or FILETYPE_ASN1)
:param buffer: The buffer with the pkcs7 data.
:return: The PKCS7 object
"""
if isinstance(buffer, _text_type):
buffer = buffer.encode("ascii")
bio = _new_mem_buf(buffer)
if type == FILETYPE_PEM:
pkcs7 = _lib.PEM_read_bio_PKCS7(bio, _ffi.NULL, _ffi.NULL, _ffi.NULL)
elif type == FILETYPE_ASN1:
pkcs7 = _lib.d2i_PKCS7_bio(bio, _ffi.NULL)
else:
raise ValueError("type argument must be FILETYPE_PEM or FILETYPE_ASN1")
if pkcs7 == _ffi.NULL:
_raise_current_error()
pypkcs7 = PKCS7.__new__(PKCS7)
pypkcs7._pkcs7 = _ffi.gc(pkcs7, _lib.PKCS7_free)
return pypkcs7
load_pkcs7_data = utils.deprecated(
load_pkcs7_data,
__name__,
(
"PKCS#7 support in pyOpenSSL is deprecated. You should use the APIs "
"in cryptography."
),
DeprecationWarning,
)
def load_pkcs12(buffer, passphrase=None):
"""
Load pkcs12 data from the string *buffer*. If the pkcs12 structure is
encrypted, a *passphrase* must be included. The MAC is always
checked and thus required.
See also the man page for the C function :py:func:`PKCS12_parse`.
:param buffer: The buffer the certificate is stored in
:param passphrase: (Optional) The password to decrypt the PKCS12 lump
:returns: The PKCS12 object
"""
passphrase = _text_to_bytes_and_warn("passphrase", passphrase)
if isinstance(buffer, _text_type):
buffer = buffer.encode("ascii")
bio = _new_mem_buf(buffer)
# Use null passphrase if passphrase is None or empty string. With PKCS#12
# password based encryption no password and a zero length password are two
# different things, but OpenSSL implementation will try both to figure out
# which one works.
if not passphrase:
passphrase = _ffi.NULL
p12 = _lib.d2i_PKCS12_bio(bio, _ffi.NULL)
if p12 == _ffi.NULL:
_raise_current_error()
p12 = _ffi.gc(p12, _lib.PKCS12_free)
pkey = _ffi.new("EVP_PKEY**")
cert = _ffi.new("X509**")
cacerts = _ffi.new("Cryptography_STACK_OF_X509**")
parse_result = _lib.PKCS12_parse(p12, passphrase, pkey, cert, cacerts)
if not parse_result:
_raise_current_error()
cacerts = _ffi.gc(cacerts[0], _lib.sk_X509_free)
# openssl 1.0.0 sometimes leaves an X509_check_private_key error in the
# queue for no particular reason. This error isn't interesting to anyone
# outside this function. It's not even interesting to us. Get rid of it.
try:
_raise_current_error()
except Error:
pass
if pkey[0] == _ffi.NULL:
pykey = None
else:
pykey = PKey.__new__(PKey)
pykey._pkey = _ffi.gc(pkey[0], _lib.EVP_PKEY_free)
if cert[0] == _ffi.NULL:
pycert = None
friendlyname = None
else:
pycert = X509._from_raw_x509_ptr(cert[0])
friendlyname_length = _ffi.new("int*")
friendlyname_buffer = _lib.X509_alias_get0(
cert[0], friendlyname_length
)
friendlyname = _ffi.buffer(
friendlyname_buffer, friendlyname_length[0]
)[:]
if friendlyname_buffer == _ffi.NULL:
friendlyname = None
pycacerts = []
for i in range(_lib.sk_X509_num(cacerts)):
x509 = _lib.sk_X509_value(cacerts, i)
pycacert = X509._from_raw_x509_ptr(x509)
pycacerts.append(pycacert)
if not pycacerts:
pycacerts = None
pkcs12 = PKCS12.__new__(PKCS12)
pkcs12._pkey = pykey
pkcs12._cert = pycert
pkcs12._cacerts = pycacerts
pkcs12._friendlyname = friendlyname
return pkcs12
load_pkcs12 = utils.deprecated(
load_pkcs12,
__name__,
(
"PKCS#12 support in pyOpenSSL is deprecated. You should use the APIs "
"in cryptography."
),
DeprecationWarning,
)
# There are no direct unit tests for this initialization. It is tested
# indirectly since it is necessary for functions like dump_privatekey when
# using encryption.
#
# Thus OpenSSL.test.test_crypto.FunctionTests.test_dump_privatekey_passphrase
# and some other similar tests may fail without this (though they may not if
# the Python runtime has already done some initialization of the underlying
# OpenSSL library (and is linked against the same one that cryptography is
# using)).
_lib.OpenSSL_add_all_algorithms()
# This is similar but exercised mainly by exception_from_error_queue. It calls
# both ERR_load_crypto_strings() and ERR_load_SSL_strings().
_lib.SSL_load_error_strings()
# Set the default string mask to match OpenSSL upstream (since 2005) and
# RFC5280 recommendations.
_lib.ASN1_STRING_set_default_mask_asc(b"utf8only")
|