472 lines
16 KiB
Python
472 lines
16 KiB
Python
from typing import Any, AsyncIterator, Dict, List, Sequence, Tuple, cast
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from async_exit_stack import AsyncExitStack
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from async_generator import asynccontextmanager
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from async_service import background_trio_service
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import factory
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from multiaddr import Multiaddr
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import trio
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from libp2p import generate_new_rsa_identity, generate_peer_id_from
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from libp2p.crypto.ed25519 import create_new_key_pair as create_ed25519_key_pair
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from libp2p.crypto.keys import KeyPair, PrivateKey
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from libp2p.crypto.secp256k1 import create_new_key_pair as create_secp256k1_key_pair
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from libp2p.host.basic_host import BasicHost
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from libp2p.host.host_interface import IHost
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from libp2p.host.routed_host import RoutedHost
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from libp2p.io.abc import ReadWriteCloser
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from libp2p.network.connection.raw_connection import RawConnection
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from libp2p.network.connection.raw_connection_interface import IRawConnection
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from libp2p.network.connection.swarm_connection import SwarmConn
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from libp2p.network.stream.net_stream_interface import INetStream
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from libp2p.network.swarm import Swarm
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from libp2p.peer.id import ID
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from libp2p.peer.peerinfo import PeerInfo
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from libp2p.peer.peerstore import PeerStore
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from libp2p.pubsub.abc import IPubsubRouter
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from libp2p.pubsub.floodsub import FloodSub
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from libp2p.pubsub.gossipsub import GossipSub
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from libp2p.pubsub.pubsub import Pubsub
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from libp2p.routing.interfaces import IPeerRouting
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from libp2p.security.insecure.transport import PLAINTEXT_PROTOCOL_ID, InsecureTransport
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from libp2p.security.noise.transport import Transport as NoiseTransport
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import libp2p.security.secio.transport as secio
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from libp2p.security.secure_conn_interface import ISecureConn
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from libp2p.security.secure_transport_interface import ISecureTransport
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from libp2p.stream_muxer.mplex.mplex import MPLEX_PROTOCOL_ID, Mplex
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from libp2p.stream_muxer.mplex.mplex_stream import MplexStream
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from libp2p.tools.constants import GOSSIPSUB_PARAMS
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from libp2p.transport.tcp.tcp import TCP
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from libp2p.transport.typing import TMuxerOptions
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from libp2p.transport.upgrader import TransportUpgrader
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from libp2p.typing import TProtocol
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from .constants import FLOODSUB_PROTOCOL_ID, GOSSIPSUB_PROTOCOL_ID, LISTEN_MADDR
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from .utils import connect, connect_swarm
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class IDFactory(factory.Factory):
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class Meta:
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model = ID
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peer_id_bytes = factory.LazyFunction(
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lambda: generate_peer_id_from(generate_new_rsa_identity())
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)
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def initialize_peerstore_with_our_keypair(self_id: ID, key_pair: KeyPair) -> PeerStore:
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peer_store = PeerStore()
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peer_store.add_key_pair(self_id, key_pair)
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return peer_store
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def security_transport_factory(
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is_secure: bool, key_pair: KeyPair
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) -> Dict[TProtocol, ISecureTransport]:
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if not is_secure:
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return {PLAINTEXT_PROTOCOL_ID: InsecureTransport(key_pair)}
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else:
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return {secio.ID: secio.Transport(key_pair)}
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def noise_static_key_factory() -> PrivateKey:
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return create_ed25519_key_pair().private_key
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def noise_transport_factory() -> NoiseTransport:
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return NoiseTransport(
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libp2p_keypair=create_secp256k1_key_pair(),
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noise_privkey=noise_static_key_factory(),
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early_data=None,
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with_noise_pipes=False,
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)
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@asynccontextmanager
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async def raw_conn_factory(
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nursery: trio.Nursery
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) -> AsyncIterator[Tuple[IRawConnection, IRawConnection]]:
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conn_0 = None
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conn_1 = None
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event = trio.Event()
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async def tcp_stream_handler(stream: ReadWriteCloser) -> None:
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nonlocal conn_1
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conn_1 = RawConnection(stream, initiator=False)
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event.set()
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await trio.sleep_forever()
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tcp_transport = TCP()
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listener = tcp_transport.create_listener(tcp_stream_handler)
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await listener.listen(LISTEN_MADDR, nursery)
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listening_maddr = listener.get_addrs()[0]
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conn_0 = await tcp_transport.dial(listening_maddr)
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await event.wait()
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yield conn_0, conn_1
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@asynccontextmanager
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async def noise_conn_factory(
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nursery: trio.Nursery
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) -> AsyncIterator[Tuple[ISecureConn, ISecureConn]]:
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local_transport = noise_transport_factory()
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remote_transport = noise_transport_factory()
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local_secure_conn: ISecureConn = None
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remote_secure_conn: ISecureConn = None
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async def upgrade_local_conn() -> None:
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nonlocal local_secure_conn
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local_secure_conn = await local_transport.secure_outbound(
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local_conn, local_transport.local_peer
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)
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async def upgrade_remote_conn() -> None:
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nonlocal remote_secure_conn
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remote_secure_conn = await remote_transport.secure_inbound(remote_conn)
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async with raw_conn_factory(nursery) as conns:
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local_conn, remote_conn = conns
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async with trio.open_nursery() as nursery:
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nursery.start_soon(upgrade_local_conn)
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nursery.start_soon(upgrade_remote_conn)
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if local_secure_conn is None or remote_secure_conn is None:
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raise Exception(
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"local or remote secure conn has not been successfully upgraded"
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f"local_secure_conn={local_secure_conn}, remote_secure_conn={remote_secure_conn}"
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)
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yield local_secure_conn, remote_secure_conn
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class SwarmFactory(factory.Factory):
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class Meta:
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model = Swarm
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class Params:
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is_secure = False
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key_pair = factory.LazyFunction(generate_new_rsa_identity)
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muxer_opt = {MPLEX_PROTOCOL_ID: Mplex}
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peer_id = factory.LazyAttribute(lambda o: generate_peer_id_from(o.key_pair))
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peerstore = factory.LazyAttribute(
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lambda o: initialize_peerstore_with_our_keypair(o.peer_id, o.key_pair)
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)
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upgrader = factory.LazyAttribute(
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lambda o: TransportUpgrader(
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security_transport_factory(o.is_secure, o.key_pair), o.muxer_opt
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)
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)
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transport = factory.LazyFunction(TCP)
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@classmethod
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@asynccontextmanager
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async def create_and_listen(
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cls, is_secure: bool, key_pair: KeyPair = None, muxer_opt: TMuxerOptions = None
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) -> AsyncIterator[Swarm]:
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# `factory.Factory.__init__` does *not* prepare a *default value* if we pass
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# an argument explicitly with `None`. If an argument is `None`, we don't pass it to
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# `factory.Factory.__init__`, in order to let the function initialize it.
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optional_kwargs: Dict[str, Any] = {}
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if key_pair is not None:
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optional_kwargs["key_pair"] = key_pair
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if muxer_opt is not None:
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optional_kwargs["muxer_opt"] = muxer_opt
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swarm = cls(is_secure=is_secure, **optional_kwargs)
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async with background_trio_service(swarm):
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await swarm.listen(LISTEN_MADDR)
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yield swarm
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@classmethod
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@asynccontextmanager
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async def create_batch_and_listen(
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cls, is_secure: bool, number: int, muxer_opt: TMuxerOptions = None
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) -> AsyncIterator[Tuple[Swarm, ...]]:
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async with AsyncExitStack() as stack:
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ctx_mgrs = [
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await stack.enter_async_context(
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cls.create_and_listen(is_secure=is_secure, muxer_opt=muxer_opt)
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)
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for _ in range(number)
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]
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yield tuple(ctx_mgrs)
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class HostFactory(factory.Factory):
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class Meta:
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model = BasicHost
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class Params:
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is_secure = False
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key_pair = factory.LazyFunction(generate_new_rsa_identity)
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network = factory.LazyAttribute(lambda o: SwarmFactory(is_secure=o.is_secure))
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@classmethod
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@asynccontextmanager
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async def create_batch_and_listen(
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cls, is_secure: bool, number: int
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) -> AsyncIterator[Tuple[BasicHost, ...]]:
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async with SwarmFactory.create_batch_and_listen(is_secure, number) as swarms:
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hosts = tuple(BasicHost(swarm) for swarm in swarms)
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yield hosts
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class DummyRouter(IPeerRouting):
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_routing_table: Dict[ID, PeerInfo]
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def __init__(self) -> None:
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self._routing_table = dict()
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def _add_peer(self, peer_id: ID, addrs: List[Multiaddr]) -> None:
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self._routing_table[peer_id] = PeerInfo(peer_id, addrs)
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async def find_peer(self, peer_id: ID) -> PeerInfo:
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await trio.hazmat.checkpoint()
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return self._routing_table.get(peer_id, None)
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class RoutedHostFactory(factory.Factory):
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class Meta:
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model = RoutedHost
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class Params:
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is_secure = False
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network = factory.LazyAttribute(
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lambda o: HostFactory(is_secure=o.is_secure).get_network()
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)
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router = factory.LazyFunction(DummyRouter)
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@classmethod
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@asynccontextmanager
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async def create_batch_and_listen(
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cls, is_secure: bool, number: int
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) -> AsyncIterator[Tuple[RoutedHost, ...]]:
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routing_table = DummyRouter()
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async with HostFactory.create_batch_and_listen(is_secure, number) as hosts:
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for host in hosts:
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routing_table._add_peer(host.get_id(), host.get_addrs())
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routed_hosts = tuple(
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RoutedHost(host.get_network(), routing_table) for host in hosts
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)
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yield routed_hosts
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class FloodsubFactory(factory.Factory):
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class Meta:
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model = FloodSub
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protocols = (FLOODSUB_PROTOCOL_ID,)
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class GossipsubFactory(factory.Factory):
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class Meta:
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model = GossipSub
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protocols = (GOSSIPSUB_PROTOCOL_ID,)
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degree = GOSSIPSUB_PARAMS.degree
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degree_low = GOSSIPSUB_PARAMS.degree_low
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degree_high = GOSSIPSUB_PARAMS.degree_high
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time_to_live = GOSSIPSUB_PARAMS.time_to_live
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gossip_window = GOSSIPSUB_PARAMS.gossip_window
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gossip_history = GOSSIPSUB_PARAMS.gossip_history
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heartbeat_initial_delay = GOSSIPSUB_PARAMS.heartbeat_initial_delay
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heartbeat_interval = GOSSIPSUB_PARAMS.heartbeat_interval
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class PubsubFactory(factory.Factory):
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class Meta:
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model = Pubsub
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host = factory.SubFactory(HostFactory)
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router = None
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cache_size = None
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strict_signing = False
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@classmethod
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@asynccontextmanager
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async def create_and_start(
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cls, host: IHost, router: IPubsubRouter, cache_size: int, strict_signing: bool
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) -> AsyncIterator[Pubsub]:
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pubsub = cls(
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host=host,
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router=router,
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cache_size=cache_size,
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strict_signing=strict_signing,
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)
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async with background_trio_service(pubsub):
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await pubsub.wait_until_ready()
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yield pubsub
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@classmethod
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@asynccontextmanager
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async def _create_batch_with_router(
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cls,
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number: int,
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routers: Sequence[IPubsubRouter],
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is_secure: bool = False,
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cache_size: int = None,
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strict_signing: bool = False,
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) -> AsyncIterator[Tuple[Pubsub, ...]]:
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async with HostFactory.create_batch_and_listen(is_secure, number) as hosts:
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# Pubsubs should exit before hosts
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async with AsyncExitStack() as stack:
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pubsubs = [
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await stack.enter_async_context(
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cls.create_and_start(host, router, cache_size, strict_signing)
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)
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for host, router in zip(hosts, routers)
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]
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yield tuple(pubsubs)
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@classmethod
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@asynccontextmanager
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async def create_batch_with_floodsub(
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cls,
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number: int,
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is_secure: bool = False,
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cache_size: int = None,
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strict_signing: bool = False,
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protocols: Sequence[TProtocol] = None,
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) -> AsyncIterator[Tuple[Pubsub, ...]]:
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if protocols is not None:
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floodsubs = FloodsubFactory.create_batch(number, protocols=list(protocols))
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else:
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floodsubs = FloodsubFactory.create_batch(number)
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async with cls._create_batch_with_router(
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number, floodsubs, is_secure, cache_size, strict_signing
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) as pubsubs:
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yield pubsubs
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@classmethod
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@asynccontextmanager
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async def create_batch_with_gossipsub(
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cls,
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number: int,
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*,
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is_secure: bool = False,
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cache_size: int = None,
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strict_signing: bool = False,
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protocols: Sequence[TProtocol] = None,
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degree: int = GOSSIPSUB_PARAMS.degree,
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degree_low: int = GOSSIPSUB_PARAMS.degree_low,
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degree_high: int = GOSSIPSUB_PARAMS.degree_high,
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time_to_live: int = GOSSIPSUB_PARAMS.time_to_live,
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gossip_window: int = GOSSIPSUB_PARAMS.gossip_window,
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gossip_history: int = GOSSIPSUB_PARAMS.gossip_history,
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heartbeat_interval: float = GOSSIPSUB_PARAMS.heartbeat_interval,
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heartbeat_initial_delay: float = GOSSIPSUB_PARAMS.heartbeat_initial_delay,
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) -> AsyncIterator[Tuple[Pubsub, ...]]:
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if protocols is not None:
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gossipsubs = GossipsubFactory.create_batch(
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number,
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protocols=protocols,
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degree=degree,
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degree_low=degree_low,
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degree_high=degree_high,
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time_to_live=time_to_live,
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gossip_window=gossip_window,
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heartbeat_interval=heartbeat_interval,
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)
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else:
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gossipsubs = GossipsubFactory.create_batch(
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number,
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degree=degree,
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degree_low=degree_low,
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degree_high=degree_high,
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time_to_live=time_to_live,
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gossip_window=gossip_window,
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heartbeat_interval=heartbeat_interval,
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)
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async with cls._create_batch_with_router(
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number, gossipsubs, is_secure, cache_size, strict_signing
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) as pubsubs:
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async with AsyncExitStack() as stack:
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for router in gossipsubs:
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await stack.enter_async_context(background_trio_service(router))
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yield pubsubs
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@asynccontextmanager
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async def swarm_pair_factory(
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is_secure: bool, muxer_opt: TMuxerOptions = None
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) -> AsyncIterator[Tuple[Swarm, Swarm]]:
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async with SwarmFactory.create_batch_and_listen(
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is_secure, 2, muxer_opt=muxer_opt
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) as swarms:
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await connect_swarm(swarms[0], swarms[1])
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yield swarms[0], swarms[1]
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@asynccontextmanager
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async def host_pair_factory(
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is_secure: bool
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) -> AsyncIterator[Tuple[BasicHost, BasicHost]]:
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async with HostFactory.create_batch_and_listen(is_secure, 2) as hosts:
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await connect(hosts[0], hosts[1])
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yield hosts[0], hosts[1]
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@asynccontextmanager
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async def swarm_conn_pair_factory(
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is_secure: bool, muxer_opt: TMuxerOptions = None
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) -> AsyncIterator[Tuple[SwarmConn, SwarmConn]]:
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async with swarm_pair_factory(is_secure) as swarms:
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conn_0 = swarms[0].connections[swarms[1].get_peer_id()]
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conn_1 = swarms[1].connections[swarms[0].get_peer_id()]
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yield cast(SwarmConn, conn_0), cast(SwarmConn, conn_1)
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@asynccontextmanager
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async def mplex_conn_pair_factory(
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is_secure: bool
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) -> AsyncIterator[Tuple[Mplex, Mplex]]:
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muxer_opt = {MPLEX_PROTOCOL_ID: Mplex}
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async with swarm_conn_pair_factory(is_secure, muxer_opt=muxer_opt) as swarm_pair:
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yield (
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cast(Mplex, swarm_pair[0].muxed_conn),
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cast(Mplex, swarm_pair[1].muxed_conn),
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)
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@asynccontextmanager
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async def mplex_stream_pair_factory(
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is_secure: bool
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) -> AsyncIterator[Tuple[MplexStream, MplexStream]]:
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async with mplex_conn_pair_factory(is_secure) as mplex_conn_pair_info:
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mplex_conn_0, mplex_conn_1 = mplex_conn_pair_info
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stream_0 = cast(MplexStream, await mplex_conn_0.open_stream())
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await trio.sleep(0.01)
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stream_1: MplexStream
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async with mplex_conn_1.streams_lock:
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if len(mplex_conn_1.streams) != 1:
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raise Exception("Mplex should not have any other stream")
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stream_1 = tuple(mplex_conn_1.streams.values())[0]
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yield stream_0, stream_1
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@asynccontextmanager
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async def net_stream_pair_factory(
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is_secure: bool
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) -> AsyncIterator[Tuple[INetStream, INetStream]]:
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protocol_id = TProtocol("/example/id/1")
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stream_1: INetStream
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# Just a proxy, we only care about the stream.
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# Add a barrier to avoid stream being removed.
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event_handler_finished = trio.Event()
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async def handler(stream: INetStream) -> None:
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nonlocal stream_1
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stream_1 = stream
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await event_handler_finished.wait()
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async with host_pair_factory(is_secure) as hosts:
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hosts[1].set_stream_handler(protocol_id, handler)
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stream_0 = await hosts[0].new_stream(hosts[1].get_id(), [protocol_id])
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yield stream_0, stream_1
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event_handler_finished.set()
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