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import math | |
import struct | |
from cryptography.hazmat.backends import default_backend | |
from cryptography.hazmat.primitives import hashes | |
from cryptography.hazmat.primitives.asymmetric import padding, rsa | |
from dns.dnssecalgs.cryptography import CryptographyPrivateKey, CryptographyPublicKey | |
from dns.dnssectypes import Algorithm | |
from dns.rdtypes.ANY.DNSKEY import DNSKEY | |
class PublicRSA(CryptographyPublicKey): | |
key: rsa.RSAPublicKey | |
key_cls = rsa.RSAPublicKey | |
algorithm: Algorithm | |
chosen_hash: hashes.HashAlgorithm | |
def verify(self, signature: bytes, data: bytes) -> None: | |
self.key.verify(signature, data, padding.PKCS1v15(), self.chosen_hash) | |
def encode_key_bytes(self) -> bytes: | |
"""Encode a public key per RFC 3110, section 2.""" | |
pn = self.key.public_numbers() | |
_exp_len = math.ceil(int.bit_length(pn.e) / 8) | |
exp = int.to_bytes(pn.e, length=_exp_len, byteorder="big") | |
if _exp_len > 255: | |
exp_header = b"\0" + struct.pack("!H", _exp_len) | |
else: | |
exp_header = struct.pack("!B", _exp_len) | |
if pn.n.bit_length() < 512 or pn.n.bit_length() > 4096: | |
raise ValueError("unsupported RSA key length") | |
return exp_header + exp + pn.n.to_bytes((pn.n.bit_length() + 7) // 8, "big") | |
def from_dnskey(cls, key: DNSKEY) -> "PublicRSA": | |
cls._ensure_algorithm_key_combination(key) | |
keyptr = key.key | |
(bytes_,) = struct.unpack("!B", keyptr[0:1]) | |
keyptr = keyptr[1:] | |
if bytes_ == 0: | |
(bytes_,) = struct.unpack("!H", keyptr[0:2]) | |
keyptr = keyptr[2:] | |
rsa_e = keyptr[0:bytes_] | |
rsa_n = keyptr[bytes_:] | |
return cls( | |
key=rsa.RSAPublicNumbers( | |
int.from_bytes(rsa_e, "big"), int.from_bytes(rsa_n, "big") | |
).public_key(default_backend()) | |
) | |
class PrivateRSA(CryptographyPrivateKey): | |
key: rsa.RSAPrivateKey | |
key_cls = rsa.RSAPrivateKey | |
public_cls = PublicRSA | |
default_public_exponent = 65537 | |
def sign(self, data: bytes, verify: bool = False) -> bytes: | |
"""Sign using a private key per RFC 3110, section 3.""" | |
signature = self.key.sign(data, padding.PKCS1v15(), self.public_cls.chosen_hash) | |
if verify: | |
self.public_key().verify(signature, data) | |
return signature | |
def generate(cls, key_size: int) -> "PrivateRSA": | |
return cls( | |
key=rsa.generate_private_key( | |
public_exponent=cls.default_public_exponent, | |
key_size=key_size, | |
backend=default_backend(), | |
) | |
) | |
class PublicRSAMD5(PublicRSA): | |
algorithm = Algorithm.RSAMD5 | |
chosen_hash = hashes.MD5() | |
class PrivateRSAMD5(PrivateRSA): | |
public_cls = PublicRSAMD5 | |
class PublicRSASHA1(PublicRSA): | |
algorithm = Algorithm.RSASHA1 | |
chosen_hash = hashes.SHA1() | |
class PrivateRSASHA1(PrivateRSA): | |
public_cls = PublicRSASHA1 | |
class PublicRSASHA1NSEC3SHA1(PublicRSA): | |
algorithm = Algorithm.RSASHA1NSEC3SHA1 | |
chosen_hash = hashes.SHA1() | |
class PrivateRSASHA1NSEC3SHA1(PrivateRSA): | |
public_cls = PublicRSASHA1NSEC3SHA1 | |
class PublicRSASHA256(PublicRSA): | |
algorithm = Algorithm.RSASHA256 | |
chosen_hash = hashes.SHA256() | |
class PrivateRSASHA256(PrivateRSA): | |
public_cls = PublicRSASHA256 | |
class PublicRSASHA512(PublicRSA): | |
algorithm = Algorithm.RSASHA512 | |
chosen_hash = hashes.SHA512() | |
class PrivateRSASHA512(PrivateRSA): | |
public_cls = PublicRSASHA512 | |