def test_ed448_unsupported(backend):
with raises_unsupported_algorithm(
_Reasons.UNSUPPORTED_PUBLIC_KEY_ALGORITHM):
Ed448PublicKey.from_public_bytes(b"0" * 57)
with raises_unsupported_algorithm(
_Reasons.UNSUPPORTED_PUBLIC_KEY_ALGORITHM):
Ed448PrivateKey.from_private_bytes(b"0" * 57)
with raises_unsupported_algorithm(
_Reasons.UNSUPPORTED_PUBLIC_KEY_ALGORITHM):
Ed448PrivateKey.generate()
def test_ed448_unsupported(backend):
with raises_unsupported_algorithm(
_Reasons.UNSUPPORTED_PUBLIC_KEY_ALGORITHM
):
Ed448PublicKey.from_public_bytes(b"0" * 57)
with raises_unsupported_algorithm(
_Reasons.UNSUPPORTED_PUBLIC_KEY_ALGORITHM
):
Ed448PrivateKey.from_private_bytes(b"0" * 57)
with raises_unsupported_algorithm(
_Reasons.UNSUPPORTED_PUBLIC_KEY_ALGORITHM
):
Ed448PrivateKey.generate()
def test_pub_priv_bytes_raw(self, vector, backend):
sk = binascii.unhexlify(vector["secret"])
pk = binascii.unhexlify(vector["public"])
private_key = Ed448PrivateKey.from_private_bytes(sk)
assert (
private_key.private_bytes(
serialization.Encoding.Raw,
serialization.PrivateFormat.Raw,
serialization.NoEncryption(),
)
== sk
)
assert (
private_key.public_key().public_bytes(
serialization.Encoding.Raw, serialization.PublicFormat.Raw
)
== pk
)
public_key = Ed448PublicKey.from_public_bytes(pk)
assert (
public_key.public_bytes(
serialization.Encoding.Raw, serialization.PublicFormat.Raw
)
== pk
)
def sign(self,
to_be_signed: bytes,
alg: Optional[CoseAlgorithms] = None,
curve: CoseEllipticCurves = None) -> bytes:
"""
Computes a digital signature over 'to_be_signed'. The parameter 'alg' and 'curve' parameters are optional in
case they are already provided by the key object self.
:param to_be_signed: Data over which the signature is calculated.
:param alg: An optional algorithm parameter.
:param curve: An optional curve parameter.
:return: the signature over the COSE object.
"""
self._check_key_conf(algorithm=alg,
key_operation=KeyOps.SIGN,
curve=curve)
if self.crv == CoseEllipticCurves.ED25519:
sk = Ed25519PrivateKey.from_private_bytes(self.d)
elif self._crv == CoseEllipticCurves.ED448:
sk = Ed448PrivateKey.from_private_bytes(self.d)
else:
raise CoseIllegalCurve(
f"Illegal curve for OKP singing: {self.crv}")
return sk.sign(to_be_signed)
def from_jwk(jwk):
try:
if isinstance(jwk, str):
obj = json.loads(jwk)
elif isinstance(jwk, dict):
obj = jwk
else:
raise ValueError
except ValueError:
raise InvalidKeyError("Key is not valid JSON")
if obj.get("kty") != "OKP":
raise InvalidKeyError("Not an Octet Key Pair")
curve = obj.get("crv")
if curve != "Ed25519" and curve != "Ed448":
raise InvalidKeyError(f"Invalid curve: {curve}")
if "x" not in obj:
raise InvalidKeyError('OKP should have "x" parameter')
x = base64url_decode(obj.get("x"))
try:
if "d" not in obj:
if curve == "Ed25519":
return Ed25519PublicKey.from_public_bytes(x)
return Ed448PublicKey.from_public_bytes(x)
d = base64url_decode(obj.get("d"))
if curve == "Ed25519":
return Ed25519PrivateKey.from_private_bytes(d)
return Ed448PrivateKey.from_private_bytes(d)
except ValueError as err:
raise InvalidKeyError("Invalid key parameter") from err
def test_buffer_protocol(self, backend):
private_bytes = os.urandom(57)
key = Ed448PrivateKey.from_private_bytes(bytearray(private_bytes))
assert (key.private_bytes(
serialization.Encoding.Raw,
serialization.PrivateFormat.Raw,
serialization.NoEncryption(),
) == private_bytes)
def test_buffer_protocol(self, backend):
private_bytes = os.urandom(57)
key = Ed448PrivateKey.from_private_bytes(bytearray(private_bytes))
assert key.private_bytes(
serialization.Encoding.Raw,
serialization.PrivateFormat.Raw,
serialization.NoEncryption()
) == private_bytes
def sign(cls, key: 'OKP', data: bytes) -> bytes:
if key.crv.fullname == 'ED25519':
sk = Ed25519PrivateKey.from_private_bytes(key.d)
elif key.crv.fullname == 'ED448':
sk = Ed448PrivateKey.from_private_bytes(key.d)
else:
raise CoseException(f"Illegal curve for OKP singing: {key.crv}")
return sk.sign(data)
def test_sign_input(self, vector, backend):
if vector.get("context") is not None:
pytest.skip("ed448 contexts are not currently supported")
sk = binascii.unhexlify(vector["secret"])
pk = binascii.unhexlify(vector["public"])
message = binascii.unhexlify(vector["message"])
signature = binascii.unhexlify(vector["signature"])
private_key = Ed448PrivateKey.from_private_bytes(sk)
computed_sig = private_key.sign(message)
assert computed_sig == signature
public_key = private_key.public_key()
assert (public_key.public_bytes(serialization.Encoding.Raw,
serialization.PublicFormat.Raw) == pk)
public_key.verify(signature, message)
def test_pub_priv_bytes_raw(self, vector, backend):
sk = binascii.unhexlify(vector["secret"])
pk = binascii.unhexlify(vector["public"])
private_key = Ed448PrivateKey.from_private_bytes(sk)
assert private_key.private_bytes(
serialization.Encoding.Raw,
serialization.PrivateFormat.Raw,
serialization.NoEncryption()
) == sk
assert private_key.public_key().public_bytes(
serialization.Encoding.Raw, serialization.PublicFormat.Raw
) == pk
public_key = Ed448PublicKey.from_public_bytes(pk)
assert public_key.public_bytes(
serialization.Encoding.Raw, serialization.PublicFormat.Raw
) == pk
def test_sign_input(self, vector, backend):
if vector.get("context") is not None:
pytest.skip("ed448 contexts are not currently supported")
sk = binascii.unhexlify(vector["secret"])
pk = binascii.unhexlify(vector["public"])
message = binascii.unhexlify(vector["message"])
signature = binascii.unhexlify(vector["signature"])
private_key = Ed448PrivateKey.from_private_bytes(sk)
computed_sig = private_key.sign(message)
assert computed_sig == signature
public_key = private_key.public_key()
assert public_key.public_bytes(
serialization.Encoding.Raw, serialization.PublicFormat.Raw
) == pk
public_key.verify(signature, message)
def test_invalid_length_from_private_bytes(self, backend):
with pytest.raises(ValueError):
Ed448PrivateKey.from_private_bytes(b"a" * 56)
with pytest.raises(ValueError):
Ed448PrivateKey.from_private_bytes(b"a" * 58)
def test_invalid_type_private_bytes(self, backend):
with pytest.raises(TypeError):
Ed448PrivateKey.from_private_bytes(object())
def __init__(self, params: Dict[int, Any]):
super().__init__(params)
self._public_key: Any = None
self._private_key: Any = None
self._hash_alg: Any = None
self._x = None
self._d = None
# Validate kty.
if params[1] != 1:
raise ValueError("kty(1) should be OKP(1).")
# Validate crv.
if -1 not in params:
raise ValueError("crv(-1) not found.")
self._crv = params[-1]
if not isinstance(self._crv, int):
raise ValueError("crv(-1) should be int.")
if self._crv not in [4, 5, 6, 7]:
raise ValueError(
f"Unsupported or unknown crv(-1) for OKP: {self._crv}.")
if self._crv in [4, 5]:
if not self._alg:
raise ValueError("X25519/X448 needs alg explicitly.")
if self._alg in [-25, -27]:
self._hash_alg = hashes.SHA256
elif self._alg in [-26, -28]:
self._hash_alg = hashes.SHA512
else:
raise ValueError(
f"Unsupported or unknown alg used with X25519/X448: {self._alg}."
)
# Validate alg and key_ops.
if self._key_ops:
if set(self._key_ops) & set([3, 4, 5, 6, 9, 10]):
raise ValueError(
"Unknown or not permissible key_ops(4) for OKP.")
else:
if self._crv in [4, 5]:
self._key_ops = [7, 8] if -4 in params else []
else: # self._crv in [6, 7]
self._key_ops = [1, 2] if -4 in params else [2]
if self._alg:
if self._alg in COSE_ALGORITHMS_SIG_OKP.values():
if -4 in params:
# private key for signing.
if not (set(self._key_ops) & set([1, 2])):
raise ValueError("Invalid key_ops for signing key.")
if set(self._key_ops) & set([7, 8]):
raise ValueError(
"Signing key should not be used for key derivation."
)
else:
# public key for signing.
if 2 not in self._key_ops or len(self._key_ops) != 1:
raise ValueError("Invalid key_ops for public key.")
elif self._alg in COSE_ALGORITHMS_CKDM_KEY_AGREEMENT.values():
if -4 in params:
# private key for key derivation.
if not (set(self._key_ops) & set([7, 8])):
raise ValueError("Invalid key_ops for key derivation.")
if set(self._key_ops) & set([1, 2]):
raise ValueError(
"Private key for ECDHE should not be used for signing."
)
else:
# public key for key derivation.
if self._key_ops:
raise ValueError(
"Public key for ECDHE should not have key_ops.")
else:
raise ValueError(
f"Unsupported or unknown alg(3) for OKP: {self._alg}.")
else:
if -4 in params:
# private key.
if set(self._key_ops) & set([1, 2]):
# private key for signing.
if set(self._key_ops) & set([7, 8]):
raise ValueError(
"OKP private key should not be used for both signing and key derivation."
)
self._alg = -8 # EdDSA
else:
# public key.
if 2 in self._key_ops:
if len(self._key_ops) > 1:
raise ValueError("Invalid key_ops for public key.")
else:
raise ValueError("Invalid key_ops for public key.")
if self._alg in COSE_ALGORITHMS_CKDM_KEY_AGREEMENT_ES.values():
if -2 not in params:
return
# Validate x.
if -2 not in params:
raise ValueError("x(-2) not found.")
if not isinstance(params[-2], bytes):
raise ValueError("x(-2) should be bytes(bstr).")
self._x = params[-2]
try:
if -4 not in params:
if self._crv == 4: # X25519
self._public_key = X25519PublicKey.from_public_bytes(
self._x)
elif self._crv == 5: # X448
self._public_key = X448PublicKey.from_public_bytes(self._x)
elif self._crv == 6: # Ed25519
self._public_key = Ed25519PublicKey.from_public_bytes(
self._x)
else: # self._crv == 7 (Ed448)
self._public_key = Ed448PublicKey.from_public_bytes(
self._x)
self._key = self._public_key
return
except ValueError as err:
raise ValueError("Invalid key parameter.") from err
if not isinstance(params[-4], bytes):
raise ValueError("d(-4) should be bytes(bstr).")
try:
self._d = params[-4]
if self._crv == 4: # X25519
self._private_key = X25519PrivateKey.from_private_bytes(
self._d)
elif self._crv == 5: # X448
self._private_key = X448PrivateKey.from_private_bytes(self._d)
elif self._crv == 6: # Ed25519
self._private_key = Ed25519PrivateKey.from_private_bytes(
self._d)
else: # self._crv == 7 (Ed448)
self._private_key = Ed448PrivateKey.from_private_bytes(self._d)
self._key = self._private_key
except ValueError as err:
raise ValueError("Invalid key parameter.") from err
return
def test_invalid_length_from_private_bytes(self, backend):
with pytest.raises(ValueError):
Ed448PrivateKey.from_private_bytes(b"a" * 56)
with pytest.raises(ValueError):
Ed448PrivateKey.from_private_bytes(b"a" * 58)
def test_invalid_type_private_bytes(self, backend):
with pytest.raises(TypeError):
Ed448PrivateKey.from_private_bytes(object())
