from abc import ABC, abstractmethod from dataclasses import dataclass from enum import Enum, unique from .pb import crypto_pb2 as protobuf @unique class KeyType(Enum): RSA = 0 Ed25519 = 1 Secp256k1 = 2 ECDSA = 3 class Key(ABC): """ A ``Key`` represents a cryptographic key. """ @abstractmethod def to_bytes(self) -> bytes: """ Returns the byte representation of this key. """ ... @abstractmethod def get_type(self) -> KeyType: """ Returns the ``KeyType`` for ``self``. """ ... class PublicKey(Key): """ A ``PublicKey`` represents a cryptographic public key. """ @abstractmethod def verify(self, data: bytes, signature: bytes) -> bool: """ Verify that ``signature`` is the cryptographic signature of the hash of ``data``. """ ... def _serialize_to_protobuf(self) -> protobuf.PublicKey: """ Return the protobuf representation of this ``Key``. """ key_type = self.get_type().value data = self.to_bytes() protobuf_key = protobuf.PublicKey(key_type=key_type, data=data) return protobuf_key def serialize(self) -> bytes: """ Return the canonical serialization of this ``Key``. """ return self._serialize_to_protobuf().SerializeToString() class PrivateKey(Key): """ A ``PrivateKey`` represents a cryptographic private key. """ protobuf_constructor = protobuf.PrivateKey @abstractmethod def sign(self, data: bytes) -> bytes: ... @abstractmethod def get_public_key(self) -> PublicKey: ... def _serialize_to_protobuf(self) -> protobuf.PrivateKey: """ Return the protobuf representation of this ``Key``. """ key_type = self.get_type().value data = self.to_bytes() protobuf_key = protobuf.PrivateKey(key_type=key_type, data=data) return protobuf_key def serialize(self) -> bytes: """ Return the canonical serialization of this ``Key``. """ return self._serialize_to_protobuf().SerializeToString() @dataclass(frozen=True) class KeyPair: private_key: PrivateKey public_key: PublicKey