import re from multiaddr import Multiaddr from p2pclient.utils import get_unused_tcp_port import pytest import trio from libp2p.peer.peerinfo import PeerInfo, info_from_p2p_addr from libp2p.tools.factories import HostFactory from libp2p.tools.interop.envs import GO_BIN_PATH from libp2p.tools.interop.process import BaseInteractiveProcess from libp2p.typing import TProtocol ECHO_PATH = GO_BIN_PATH / "echo" ECHO_PROTOCOL_ID = TProtocol("/echo/1.0.0") class EchoProcess(BaseInteractiveProcess): port: int _peer_info: PeerInfo def __init__( self, port: int, security_protocol: TProtocol, destination: Multiaddr = None ) -> None: args = [f"-l={port}", f"-security={security_protocol}"] if destination is not None: args.append(f"-d={str(destination)}") patterns = [b"I am"] if destination is None: patterns.append(b"listening for connections") self.args = args self.cmd = str(ECHO_PATH) self.patterns = patterns self.bytes_read = bytearray() self.event_ready = trio.Event() self.port = port self._peer_info = None self.regex_pat = re.compile(br"I am ([\w\./]+)") @property def peer_info(self) -> None: if self._peer_info is not None: return self._peer_info if not self.event_ready.is_set(): raise Exception("process is not ready yet. failed to parse the peer info") # Example: # b"I am /ip4/127.0.0.1/tcp/56171/ipfs/QmU41TRPs34WWqa1brJEojBLYZKrrBcJq9nyNfVvSrbZUJ\n" m = re.search(br"I am ([\w\./]+)", self.bytes_read) if m is None: raise Exception("failed to find the pattern for the listening multiaddr") maddr_bytes_str_ipfs = m.group(1) maddr_str = maddr_bytes_str_ipfs.decode().replace("ipfs", "p2p") maddr = Multiaddr(maddr_str) self._peer_info = info_from_p2p_addr(maddr) return self._peer_info @pytest.mark.trio async def test_insecure_conn_py_to_go(security_protocol): async with HostFactory.create_batch_and_listen( 1, security_protocol=security_protocol ) as hosts: go_proc = EchoProcess(get_unused_tcp_port(), security_protocol) await go_proc.start() host = hosts[0] peer_info = go_proc.peer_info await host.connect(peer_info) s = await host.new_stream(peer_info.peer_id, [ECHO_PROTOCOL_ID]) data = "data321123\n" await s.write(data.encode()) echoed_resp = await s.read(len(data)) assert echoed_resp.decode() == data await s.close() @pytest.mark.trio async def test_insecure_conn_go_to_py(security_protocol): async with HostFactory.create_batch_and_listen( 1, security_protocol=security_protocol ) as hosts: host = hosts[0] expected_data = "Hello, world!\n" reply_data = "Replyooo!\n" event_handler_finished = trio.Event() async def _handle_echo(stream): read_data = await stream.read(len(expected_data)) assert read_data == expected_data.encode() event_handler_finished.set() await stream.write(reply_data.encode()) await stream.close() host.set_stream_handler(ECHO_PROTOCOL_ID, _handle_echo) py_maddr = host.get_addrs()[0] go_proc = EchoProcess(get_unused_tcp_port(), security_protocol, py_maddr) await go_proc.start() await event_handler_finished.wait()