import logging from typing import Dict, List, Optional from async_service import Service from multiaddr import Multiaddr import trio from libp2p.io.abc import ReadWriteCloser from libp2p.network.connection.net_connection_interface import INetConn from libp2p.peer.id import ID from libp2p.peer.peerstore import PeerStoreError from libp2p.peer.peerstore_interface import IPeerStore from libp2p.stream_muxer.abc import IMuxedConn from libp2p.transport.exceptions import ( MuxerUpgradeFailure, OpenConnectionError, SecurityUpgradeFailure, ) from libp2p.transport.listener_interface import IListener from libp2p.transport.transport_interface import ITransport from libp2p.transport.upgrader import TransportUpgrader from libp2p.typing import StreamHandlerFn from .connection.raw_connection import RawConnection from .connection.swarm_connection import SwarmConn from .exceptions import SwarmException from .network_interface import INetwork from .notifee_interface import INotifee from .stream.net_stream_interface import INetStream logger = logging.getLogger("libp2p.network.swarm") class Swarm(INetwork, Service): self_id: ID peerstore: IPeerStore upgrader: TransportUpgrader transport: ITransport # TODO: Connection and `peer_id` are 1-1 mapping in our implementation, # whereas in Go one `peer_id` may point to multiple connections. connections: Dict[ID, INetConn] listeners: Dict[str, IListener] common_stream_handler: Optional[StreamHandlerFn] notifees: List[INotifee] def __init__( self, peer_id: ID, peerstore: IPeerStore, upgrader: TransportUpgrader, transport: ITransport, ): self.self_id = peer_id self.peerstore = peerstore self.upgrader = upgrader self.transport = transport self.connections = dict() self.listeners = dict() # Create Notifee array self.notifees = [] self.common_stream_handler = None async def run(self) -> None: await self.manager.wait_finished() def get_peer_id(self) -> ID: return self.self_id def set_stream_handler(self, stream_handler: StreamHandlerFn) -> None: self.common_stream_handler = stream_handler async def dial_peer(self, peer_id: ID) -> INetConn: """ dial_peer try to create a connection to peer_id. :param peer_id: peer if we want to dial :raises SwarmException: raised when an error occurs :return: muxed connection """ if peer_id in self.connections: # If muxed connection already exists for peer_id, # set muxed connection equal to existing muxed connection return self.connections[peer_id] logger.debug("attempting to dial peer %s", peer_id) try: # Get peer info from peer store addrs = self.peerstore.addrs(peer_id) except PeerStoreError: raise SwarmException(f"No known addresses to peer {peer_id}") if not addrs: raise SwarmException(f"No known addresses to peer {peer_id}") multiaddr = addrs[0] # Dial peer (connection to peer does not yet exist) # Transport dials peer (gets back a raw conn) try: raw_conn = await self.transport.dial(multiaddr) except OpenConnectionError as error: logger.debug("fail to dial peer %s over base transport", peer_id) raise SwarmException( "fail to open connection to peer %s", peer_id ) from error logger.debug("dialed peer %s over base transport", peer_id) # Per, https://discuss.libp2p.io/t/multistream-security/130, we first secure # the conn and then mux the conn try: secured_conn = await self.upgrader.upgrade_security(raw_conn, peer_id, True) except SecurityUpgradeFailure as error: error_msg = "fail to upgrade security for peer %s" logger.debug(error_msg, peer_id) await raw_conn.close() raise SwarmException(error_msg % peer_id) from error logger.debug("upgraded security for peer %s", peer_id) try: muxed_conn = await self.upgrader.upgrade_connection(secured_conn, peer_id) self.manager.run_child_service(muxed_conn) except MuxerUpgradeFailure as error: error_msg = "fail to upgrade mux for peer %s" logger.debug(error_msg, peer_id) await secured_conn.close() raise SwarmException(error_msg % peer_id) from error logger.debug("upgraded mux for peer %s", peer_id) swarm_conn = await self.add_conn(muxed_conn) logger.debug("successfully dialed peer %s", peer_id) return swarm_conn async def new_stream(self, peer_id: ID) -> INetStream: """ :param peer_id: peer_id of destination :param protocol_id: protocol id :raises SwarmException: raised when an error occurs :return: net stream instance """ logger.debug("attempting to open a stream to peer %s", peer_id) swarm_conn = await self.dial_peer(peer_id) net_stream = await swarm_conn.new_stream() logger.debug("successfully opened a stream to peer %s", peer_id) return net_stream async def listen(self, *multiaddrs: Multiaddr) -> bool: """ :param multiaddrs: one or many multiaddrs to start listening on :return: true if at least one success For each multiaddr Check if a listener for multiaddr exists already If listener already exists, continue Otherwise: Capture multiaddr in conn handler Have conn handler delegate to stream handler Call listener listen with the multiaddr Map multiaddr to listener """ for maddr in multiaddrs: if str(maddr) in self.listeners: return True async def conn_handler(read_write_closer: ReadWriteCloser) -> None: raw_conn = RawConnection(read_write_closer, False) # Per, https://discuss.libp2p.io/t/multistream-security/130, we first secure # the conn and then mux the conn try: # FIXME: This dummy `ID(b"")` for the remote peer is useless. secured_conn = await self.upgrader.upgrade_security( raw_conn, ID(b""), False ) except SecurityUpgradeFailure as error: await raw_conn.close() raise SwarmException() from error peer_id = secured_conn.get_remote_peer() try: muxed_conn = await self.upgrader.upgrade_connection( secured_conn, peer_id ) self.manager.run_child_service(muxed_conn) except MuxerUpgradeFailure as error: error_msg = "fail to upgrade mux for peer %s" logger.debug(error_msg, peer_id) await secured_conn.close() raise SwarmException(error_msg % peer_id) from error logger.debug("upgraded mux for peer %s", peer_id) await self.add_conn(muxed_conn) logger.debug("successfully opened connection to peer %s", peer_id) # FIXME: This is a intentional barrier to prevent from the handler exiting and # closing the connection. Probably change to `Service.manager.wait_finished`? await trio.sleep_forever() try: # Success listener = self.transport.create_listener(conn_handler) self.listeners[str(maddr)] = listener # FIXME: Hack await listener.listen(maddr, self.manager._task_nursery) # Call notifiers since event occurred await self.notify_listen(maddr) return True except IOError: # Failed. Continue looping. logger.debug("fail to listen on: " + str(maddr)) # No maddr succeeded return False async def close(self) -> None: # TODO: Prevent from new listeners and conns being added. # Reference: https://github.com/libp2p/go-libp2p-swarm/blob/8be680aef8dea0a4497283f2f98470c2aeae6b65/swarm.go#L124-L134 # noqa: E501 await self.manager.stop() await self.manager.wait_finished() logger.debug("swarm successfully closed") async def close_peer(self, peer_id: ID) -> None: if peer_id not in self.connections: return # TODO: Should be changed to close multisple connections, # if we have several connections per peer in the future. connection = self.connections[peer_id] # NOTE: `connection.close` will perform `del self.connections[peer_id]` # and `notify_disconnected` for us. await connection.close() logger.debug("successfully close the connection to peer %s", peer_id) async def add_conn(self, muxed_conn: IMuxedConn) -> SwarmConn: """Add a `IMuxedConn` to `Swarm` as a `SwarmConn`, notify "connected", and start to monitor the connection for its new streams and disconnection.""" swarm_conn = SwarmConn(muxed_conn, self) manager = self.manager.run_child_service(swarm_conn) # Store muxed_conn with peer id self.connections[muxed_conn.peer_id] = swarm_conn # Call notifiers since event occurred self.manager.run_task(self.notify_connected, swarm_conn) await manager.wait_started() return swarm_conn def remove_conn(self, swarm_conn: SwarmConn) -> None: """Simply remove the connection from Swarm's records, without closing the connection.""" peer_id = swarm_conn.muxed_conn.peer_id if peer_id not in self.connections: return # TODO: Should be changed to remove the exact connection, # if we have several connections per peer in the future. del self.connections[peer_id] # Notifee # TODO: Remeber the spawn notifying tasks and clean them up when closing. def register_notifee(self, notifee: INotifee) -> None: """ :param notifee: object implementing Notifee interface :return: true if notifee registered successfully, false otherwise """ self.notifees.append(notifee) async def notify_opened_stream(self, stream: INetStream) -> None: async with trio.open_nursery() as nursery: for notifee in self.notifees: nursery.start_soon(notifee.opened_stream, self, stream) # TODO: `notify_closed_stream` async def notify_connected(self, conn: INetConn) -> None: async with trio.open_nursery() as nursery: for notifee in self.notifees: nursery.start_soon(notifee.connected, self, conn) async def notify_disconnected(self, conn: INetConn) -> None: async with trio.open_nursery() as nursery: for notifee in self.notifees: nursery.start_soon(notifee.disconnected, self, conn) async def notify_listen(self, multiaddr: Multiaddr) -> None: async with trio.open_nursery() as nursery: for notifee in self.notifees: nursery.start_soon(notifee.listen, self, multiaddr) # TODO: `notify_listen_close`