py-libp2p/libp2p/crypto/rsa.py

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from Crypto.Hash import SHA256
import Crypto.PublicKey.RSA as RSA
from Crypto.PublicKey.RSA import RsaKey
from Crypto.Signature import pkcs1_15
from libp2p.crypto.keys import KeyPair, KeyType, PrivateKey, PublicKey
class RSAPublicKey(PublicKey):
def __init__(self, impl: RsaKey) -> None:
self.impl = impl
def to_bytes(self) -> bytes:
return self.impl.export_key("DER")
@classmethod
def from_bytes(cls, key_bytes: bytes) -> "RSAPublicKey":
rsakey = RSA.import_key(key_bytes)
return cls(rsakey)
def get_type(self) -> KeyType:
return KeyType.RSA
def verify(self, data: bytes, signature: bytes) -> bool:
h = SHA256.new(data)
try:
pkcs1_15.new(self.impl).verify(h, signature)
except (ValueError, TypeError):
return False
return True
class RSAPrivateKey(PrivateKey):
def __init__(self, impl: RsaKey) -> None:
self.impl = impl
@classmethod
def new(cls, bits: int = 2048, e: int = 65537) -> "RSAPrivateKey":
private_key_impl = RSA.generate(bits, e=e)
return cls(private_key_impl)
def to_bytes(self) -> bytes:
return self.impl.export_key("DER")
def get_type(self) -> KeyType:
return KeyType.RSA
def sign(self, data: bytes) -> bytes:
h = SHA256.new(data)
return pkcs1_15.new(self.impl).sign(h)
def get_public_key(self) -> PublicKey:
return RSAPublicKey(self.impl.publickey())
def create_new_key_pair(bits: int = 2048, e: int = 65537) -> KeyPair:
"""
Returns a new RSA keypair with the requested key size (``bits``) and the
given public exponent ``e``.
Sane defaults are provided for both values.
"""
private_key = RSAPrivateKey.new(bits, e)
public_key = private_key.get_public_key()
return KeyPair(private_key, public_key)