import asyncio from libp2p.security.secure_transport_interface import ISecureTransport from libp2p.security.secure_conn_interface import ISecureConn class SimpleSecurityTransport(ISecureTransport): def __init__(self, key_phrase): self.key_phrase = key_phrase async def secure_inbound(self, conn): """ 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) """ await conn.write(self.key_phrase.encode()) incoming = (await conn.read()).decode() if incoming != self.key_phrase: raise Exception("Key phrase differed between nodes. Expected " + self.key_phrase) secure_conn = SimpleSecureConn(conn, self.key_phrase) return secure_conn async def secure_outbound(self, conn, peer_id): """ 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) """ await conn.write(self.key_phrase.encode()) incoming = (await conn.read()).decode() # Force context switch, as this security transport is built for testing locally # in a single event loop await asyncio.sleep(0) if incoming != self.key_phrase: raise Exception("Key phrase differed between nodes. Expected " + self.key_phrase) secure_conn = SimpleSecureConn(conn, self.key_phrase) return secure_conn class SimpleSecureConn(ISecureConn): def __init__(self, conn, key_phrase): self.conn = conn self.details = {} self.details["key_phrase"] = key_phrase def get_conn(self): """ :return: connection object that has been made secure """ return self.conn def get_security_details(self): """ :return: map containing details about the connections security """ return self.details