from libp2p.crypto.keys import PublicKey from libp2p.crypto.pb import crypto_pb2 from libp2p.crypto.utils import pubkey_from_protobuf from libp2p.network.connection.raw_connection_interface import IRawConnection from libp2p.peer.id import ID from libp2p.security.base_session import BaseSession from libp2p.security.base_transport import BaseSecureTransport from libp2p.security.secure_conn_interface import ISecureConn from libp2p.transport.exceptions import HandshakeFailure from libp2p.typing import TProtocol from libp2p.utils import encode_fixedint_prefixed, read_fixedint_prefixed from .pb import plaintext_pb2 # Reference: https://github.com/libp2p/go-libp2p-core/blob/master/sec/insecure/insecure.go PLAINTEXT_PROTOCOL_ID = TProtocol("/plaintext/2.0.0") class InsecureSession(BaseSession): async def run_handshake(self) -> None: msg = make_exchange_message(self.local_private_key.get_public_key()) msg_bytes = msg.SerializeToString() encoded_msg_bytes = encode_fixedint_prefixed(msg_bytes) await self.write(encoded_msg_bytes) remote_msg_bytes = await read_fixedint_prefixed(self.conn) remote_msg = plaintext_pb2.Exchange() remote_msg.ParseFromString(remote_msg_bytes) received_peer_id = ID(remote_msg.id) # Verify if the receive `ID` matches the one we originally initialize the session. # We only need to check it when we are the initiator, because only in that condition # we possibly knows the `ID` of the remote. if self.initiator and self.remote_peer_id != received_peer_id: raise HandshakeFailure( "remote peer sent unexpected peer ID. " f"expected={self.remote_peer_id} received={received_peer_id}" ) # Verify if the given `pubkey` matches the given `peer_id` try: received_pubkey = pubkey_from_protobuf(remote_msg.pubkey) except ValueError: raise HandshakeFailure( f"unknown `key_type` of remote_msg.pubkey={remote_msg.pubkey}" ) peer_id_from_received_pubkey = ID.from_pubkey(received_pubkey) if peer_id_from_received_pubkey != received_peer_id: raise HandshakeFailure( "peer id and pubkey from the remote mismatch: " f"received_peer_id={received_peer_id}, remote_pubkey={received_pubkey}, " f"peer_id_from_received_pubkey={peer_id_from_received_pubkey}" ) # Nothing is wrong. Store the `pubkey` and `peer_id` in the session. self.remote_permanent_pubkey = received_pubkey # Only need to set peer's id when we don't know it before, # i.e. we are not the connection initiator. if not self.initiator: self.remote_peer_id = received_peer_id # TODO: Store `pubkey` and `peer_id` to `PeerStore` class InsecureTransport(BaseSecureTransport): """ ``InsecureTransport`` provides the "identity" upgrader for a ``IRawConnection``, i.e. the upgraded transport does not add any additional security. """ async def secure_inbound(self, conn: IRawConnection) -> ISecureConn: """ Secure the connection, either locally or by communicating with opposing node via conn, for an inbound connection (i.e. we are not the initiator) :return: secure connection object (that implements secure_conn_interface) """ session = InsecureSession(self.local_peer, self.local_private_key, conn) await session.run_handshake() return session async def secure_outbound(self, conn: IRawConnection, peer_id: ID) -> ISecureConn: """ Secure the connection, either locally or by communicating with opposing node via conn, for an inbound connection (i.e. we are the initiator) :return: secure connection object (that implements secure_conn_interface) """ session = InsecureSession( self.local_peer, self.local_private_key, conn, peer_id ) await session.run_handshake() return session def make_exchange_message(pubkey: PublicKey) -> plaintext_pb2.Exchange: pubkey_pb = crypto_pb2.PublicKey( key_type=pubkey.get_type().value, data=pubkey.to_bytes() ) id_bytes = ID.from_pubkey(pubkey).to_bytes() return plaintext_pb2.Exchange(id=id_bytes, pubkey=pubkey_pb)