import asyncio from typing import Dict, Tuple import factory from libp2p import generate_new_rsa_identity, initialize_default_swarm from libp2p.crypto.keys import KeyPair from libp2p.host.basic_host import BasicHost from libp2p.host.host_interface import IHost from libp2p.network.stream.net_stream_interface import INetStream from libp2p.pubsub.floodsub import FloodSub from libp2p.pubsub.gossipsub import GossipSub from libp2p.pubsub.pubsub import Pubsub from libp2p.security.base_transport import BaseSecureTransport from libp2p.security.insecure.transport import PLAINTEXT_PROTOCOL_ID, InsecureTransport import libp2p.security.secio.transport as secio from libp2p.stream_muxer.mplex.mplex import Mplex from libp2p.stream_muxer.mplex.mplex_stream import MplexStream from libp2p.typing import TProtocol from tests.configs import LISTEN_MADDR from tests.pubsub.configs import ( FLOODSUB_PROTOCOL_ID, GOSSIPSUB_PARAMS, GOSSIPSUB_PROTOCOL_ID, ) from tests.utils import connect def security_transport_factory( is_secure: bool, key_pair: KeyPair ) -> Dict[TProtocol, BaseSecureTransport]: if not is_secure: return {PLAINTEXT_PROTOCOL_ID: InsecureTransport(key_pair)} else: return {secio.ID: secio.Transport(key_pair)} def swarm_factory(is_secure: bool): key_pair = generate_new_rsa_identity() sec_opt = security_transport_factory(is_secure, key_pair) return initialize_default_swarm(key_pair, sec_opt=sec_opt) class HostFactory(factory.Factory): class Meta: model = BasicHost class Params: is_secure = False network = factory.LazyAttribute(lambda o: swarm_factory(o.is_secure)) @classmethod async def create_and_listen(cls) -> IHost: host = cls() await host.get_network().listen(LISTEN_MADDR) return host class FloodsubFactory(factory.Factory): class Meta: model = FloodSub protocols = (FLOODSUB_PROTOCOL_ID,) class GossipsubFactory(factory.Factory): class Meta: model = GossipSub protocols = (GOSSIPSUB_PROTOCOL_ID,) degree = GOSSIPSUB_PARAMS.degree degree_low = GOSSIPSUB_PARAMS.degree_low degree_high = GOSSIPSUB_PARAMS.degree_high time_to_live = GOSSIPSUB_PARAMS.time_to_live gossip_window = GOSSIPSUB_PARAMS.gossip_window gossip_history = GOSSIPSUB_PARAMS.gossip_history heartbeat_interval = GOSSIPSUB_PARAMS.heartbeat_interval class PubsubFactory(factory.Factory): class Meta: model = Pubsub host = factory.SubFactory(HostFactory) router = None my_id = factory.LazyAttribute(lambda obj: obj.host.get_id()) cache_size = None async def host_pair_factory() -> Tuple[BasicHost, BasicHost]: hosts = await asyncio.gather( *[HostFactory.create_and_listen(), HostFactory.create_and_listen()] ) await connect(hosts[0], hosts[1]) return hosts[0], hosts[1] async def connection_pair_factory() -> Tuple[Mplex, BasicHost, Mplex, BasicHost]: host_0, host_1 = await host_pair_factory() mplex_conn_0 = host_0.get_network().connections[host_1.get_id()] mplex_conn_1 = host_1.get_network().connections[host_0.get_id()] return mplex_conn_0, host_0, mplex_conn_1, host_1 async def net_stream_pair_factory() -> Tuple[ INetStream, BasicHost, INetStream, BasicHost ]: protocol_id = "/example/id/1" stream_1: INetStream # Just a proxy, we only care about the stream def handler(stream: INetStream) -> None: nonlocal stream_1 stream_1 = stream host_0, host_1 = await host_pair_factory() host_1.set_stream_handler(protocol_id, handler) stream_0 = await host_0.new_stream(host_1.get_id(), [protocol_id]) return stream_0, host_0, stream_1, host_1