from typing import ( Union, ) from Crypto.PublicKey.RSA import ( RsaKey, ) import hashlib import base58 import multihash # MaxInlineKeyLength is the maximum length a key can be for it to be inlined in # the peer ID. # * When `len(pubKey.Bytes()) <= MaxInlineKeyLength`, the peer ID is the # identity multihash hash of the public key. # * When `len(pubKey.Bytes()) > MaxInlineKeyLength`, the peer ID is the # sha2-256 multihash of the public key. MAX_INLINE_KEY_LENGTH = 42 class ID: _id_str: str def __init__(self, id_str: str) -> None: self._id_str = id_str def to_bytes(self) -> bytes: return self._id_str def get_raw_id(self) -> str: return self._id_str def pretty(self) -> str: return base58.b58encode(self._id_str).decode() def get_xor_id(self) -> int: return int(digest(self.get_raw_id()).hex(), 16) def __str__(self) -> str: pid = self.pretty() return pid __repr__ = __str__ def __eq__(self, other: object) -> bool: #pylint: disable=protected-access if not isinstance(other, ID): return NotImplemented return self._id_str == other._id_str def __hash__(self) -> int: return hash(self._id_str) def id_b58_encode(peer_id: ID) -> str: """ return a b58-encoded string """ #pylint: disable=protected-access return base58.b58encode(peer_id.get_raw_id()).decode() def id_b58_decode(peer_id_str: str) -> ID: """ return a base58-decoded peer ID """ return ID(base58.b58decode(peer_id_str)) def id_from_public_key(key: RsaKey) -> ID: # export into binary format key_bin = key.exportKey("DER") algo: int = multihash.Func.sha2_256 # TODO: seems identity is not yet supported in pymultihash # if len(b) <= MAX_INLINE_KEY_LENGTH: # algo multihash.func.identity mh_digest: multihash.Multihash = multihash.digest(key_bin, algo) return ID(mh_digest.encode()) def id_from_private_key(key: RsaKey) -> ID: return id_from_public_key(key.publickey()) def digest(data: Union[str, bytes]) -> bytes: if not isinstance(data, bytes): data_bytes = str(data).encode('utf8') return hashlib.sha1(data_bytes).digest()