import hashlib from typing import Union import base58 import multihash from libp2p.crypto.keys import PublicKey def _serialize_public_key(key: PublicKey) -> bytes: """ Serializes ``key`` in the way expected to form valid peer ids. """ return key.serialize_to_protobuf().SerializeToString() class ID: _bytes: bytes _xor_id: int = None _b58_str: str = None def __init__(self, peer_id_bytes: bytes) -> None: self._bytes = peer_id_bytes @property def xor_id(self) -> int: if not self._xor_id: self._xor_id = int(digest(self._bytes).hex(), 16) return self._xor_id def to_bytes(self) -> bytes: return self._bytes def to_base58(self) -> str: if not self._b58_str: self._b58_str = base58.b58encode(self._bytes).decode() return self._b58_str def __repr__(self) -> str: return "" __str__ = pretty = to_string = to_base58 def __eq__(self, other: object) -> bool: if isinstance(other, str): return self.to_base58() == other elif isinstance(other, bytes): return self._bytes == other elif isinstance(other, ID): return self._bytes == other._bytes else: return NotImplemented def __hash__(self) -> int: return hash(self._bytes) @classmethod def from_base58(cls, b58_encoded_peer_id_str: str) -> "ID": peer_id_bytes = base58.b58decode(b58_encoded_peer_id_str) pid = ID(peer_id_bytes) return pid @classmethod def from_pubkey(cls, key: PublicKey) -> "ID": serialized_key = _serialize_public_key(key) algo = multihash.Func.sha2_256 mh_digest = multihash.digest(serialized_key, algo) return cls(mh_digest.encode()) def digest(data: Union[str, bytes]) -> bytes: if isinstance(data, str): data = data.encode("utf8") return hashlib.sha1(data).digest()