""" Test Notify and Notifee by ensuring that the proper events get called, and that the stream passed into opened_stream is correct Note: Listen event does not get hit because MyNotifee is passed into network after network has already started listening TODO: Add tests for closed_stream disconnected, listen_close when those features are implemented in swarm """ import multiaddr import pytest from libp2p import initialize_default_swarm, new_node from libp2p.crypto.rsa import create_new_key_pair from libp2p.host.basic_host import BasicHost from libp2p.network.notifee_interface import INotifee from tests.constants import MAX_READ_LEN from tests.utils import perform_two_host_set_up ACK = "ack:" class MyNotifee(INotifee): def __init__(self, events, val_to_append_to_event): self.events = events self.val_to_append_to_event = val_to_append_to_event async def opened_stream(self, network, stream): self.events.append(["opened_stream" + self.val_to_append_to_event, stream]) async def closed_stream(self, network, stream): pass async def connected(self, network, conn): self.events.append(["connected" + self.val_to_append_to_event, conn.conn]) async def disconnected(self, network, conn): pass async def listen(self, network, _multiaddr): self.events.append(["listened" + self.val_to_append_to_event, _multiaddr]) async def listen_close(self, network, _multiaddr): pass class InvalidNotifee: def __init__(self): pass async def opened_stream(self): assert False async def closed_stream(self): assert False async def connected(self): assert False async def disconnected(self): assert False async def listen(self): assert False @pytest.mark.asyncio async def test_one_notifier(): node_a, node_b = await perform_two_host_set_up() # Add notifee for node_a events = [] assert node_a.get_network().notify(MyNotifee(events, "0")) stream = await node_a.new_stream(node_b.get_id(), ["/echo/1.0.0"]) # Ensure the connected and opened_stream events were hit in MyNotifee obj # and that stream passed into opened_stream matches the stream created on # node_a assert events == [["connected0", stream.muxed_conn], ["opened_stream0", stream]] messages = ["hello", "hello"] for message in messages: expected_resp = ACK + message await stream.write(message.encode()) response = (await stream.read(len(expected_resp))).decode() assert response == expected_resp # Success, terminate pending tasks. @pytest.mark.asyncio async def test_one_notifier_on_two_nodes(): events_b = [] messages = ["hello", "hello"] async def my_stream_handler(stream): # Ensure the connected and opened_stream events were hit in Notifee obj # and that the stream passed into opened_stream matches the stream created on # node_b assert events_b == [ ["connectedb", stream.muxed_conn], ["opened_streamb", stream], ] for message in messages: read_string = (await stream.read(len(message))).decode() resp = ACK + read_string await stream.write(resp.encode()) node_a, node_b = await perform_two_host_set_up(my_stream_handler) # Add notifee for node_a events_a = [] assert node_a.get_network().notify(MyNotifee(events_a, "a")) # Add notifee for node_b assert node_b.get_network().notify(MyNotifee(events_b, "b")) stream = await node_a.new_stream(node_b.get_id(), ["/echo/1.0.0"]) # Ensure the connected and opened_stream events were hit in MyNotifee obj # and that stream passed into opened_stream matches the stream created on # node_a assert events_a == [["connecteda", stream.muxed_conn], ["opened_streama", stream]] for message in messages: expected_resp = ACK + message await stream.write(message.encode()) response = (await stream.read(len(expected_resp))).decode() assert response == expected_resp # Success, terminate pending tasks. @pytest.mark.asyncio async def test_one_notifier_on_two_nodes_with_listen(): events_b = [] messages = ["hello", "hello"] node_a_key_pair = create_new_key_pair() node_a_transport_opt = ["/ip4/127.0.0.1/tcp/0"] node_a = await new_node(node_a_key_pair, transport_opt=node_a_transport_opt) await node_a.get_network().listen(multiaddr.Multiaddr(node_a_transport_opt[0])) # Set up node_b swarm to pass into host node_b_key_pair = create_new_key_pair() node_b_transport_opt = ["/ip4/127.0.0.1/tcp/0"] node_b_multiaddr = multiaddr.Multiaddr(node_b_transport_opt[0]) node_b_swarm = initialize_default_swarm( node_b_key_pair, transport_opt=node_b_transport_opt ) node_b = BasicHost(node_b_swarm) async def my_stream_handler(stream): # Ensure the listened, connected and opened_stream events were hit in Notifee obj # and that the stream passed into opened_stream matches the stream created on # node_b assert events_b == [ ["listenedb", node_b_multiaddr], ["connectedb", stream.muxed_conn], ["opened_streamb", stream], ] for message in messages: read_string = (await stream.read(len(message))).decode() resp = ACK + read_string await stream.write(resp.encode()) # Add notifee for node_a events_a = [] assert node_a.get_network().notify(MyNotifee(events_a, "a")) # Add notifee for node_b assert node_b.get_network().notify(MyNotifee(events_b, "b")) # start listen on node_b_swarm await node_b.get_network().listen(node_b_multiaddr) node_b.set_stream_handler("/echo/1.0.0", my_stream_handler) # Associate the peer with local ip address (see default parameters of Libp2p()) node_a.get_peerstore().add_addrs(node_b.get_id(), node_b.get_addrs(), 10) stream = await node_a.new_stream(node_b.get_id(), ["/echo/1.0.0"]) # Ensure the connected and opened_stream events were hit in MyNotifee obj # and that stream passed into opened_stream matches the stream created on # node_a assert events_a == [["connecteda", stream.muxed_conn], ["opened_streama", stream]] for message in messages: expected_resp = ACK + message await stream.write(message.encode()) response = (await stream.read(len(expected_resp))).decode() assert response == expected_resp # Success, terminate pending tasks. @pytest.mark.asyncio async def test_two_notifiers(): node_a, node_b = await perform_two_host_set_up() # Add notifee for node_a events0 = [] assert node_a.get_network().notify(MyNotifee(events0, "0")) events1 = [] assert node_a.get_network().notify(MyNotifee(events1, "1")) stream = await node_a.new_stream(node_b.get_id(), ["/echo/1.0.0"]) # Ensure the connected and opened_stream events were hit in both Notifee objs # and that the stream passed into opened_stream matches the stream created on # node_a assert events0 == [["connected0", stream.muxed_conn], ["opened_stream0", stream]] assert events1 == [["connected1", stream.muxed_conn], ["opened_stream1", stream]] messages = ["hello", "hello"] for message in messages: expected_resp = ACK + message await stream.write(message.encode()) response = (await stream.read(len(expected_resp))).decode() assert response == expected_resp # Success, terminate pending tasks. @pytest.mark.asyncio async def test_ten_notifiers(): num_notifiers = 10 node_a, node_b = await perform_two_host_set_up() # Add notifee for node_a events_lst = [] for i in range(num_notifiers): events_lst.append([]) assert node_a.get_network().notify(MyNotifee(events_lst[i], str(i))) stream = await node_a.new_stream(node_b.get_id(), ["/echo/1.0.0"]) # Ensure the connected and opened_stream events were hit in both Notifee objs # and that the stream passed into opened_stream matches the stream created on # node_a for i in range(num_notifiers): assert events_lst[i] == [ ["connected" + str(i), stream.muxed_conn], ["opened_stream" + str(i), stream], ] messages = ["hello", "hello"] for message in messages: expected_resp = ACK + message await stream.write(message.encode()) response = (await stream.read(len(expected_resp))).decode() assert response == expected_resp # Success, terminate pending tasks. @pytest.mark.asyncio async def test_ten_notifiers_on_two_nodes(): num_notifiers = 10 events_lst_b = [] async def my_stream_handler(stream): # Ensure the connected and opened_stream events were hit in all Notifee objs # and that the stream passed into opened_stream matches the stream created on # node_b for i in range(num_notifiers): assert events_lst_b[i] == [ ["connectedb" + str(i), stream.muxed_conn], ["opened_streamb" + str(i), stream], ] while True: read_string = (await stream.read(MAX_READ_LEN)).decode() resp = ACK + read_string await stream.write(resp.encode()) node_a, node_b = await perform_two_host_set_up(my_stream_handler) # Add notifee for node_a and node_b events_lst_a = [] for i in range(num_notifiers): events_lst_a.append([]) events_lst_b.append([]) assert node_a.get_network().notify(MyNotifee(events_lst_a[i], "a" + str(i))) assert node_b.get_network().notify(MyNotifee(events_lst_b[i], "b" + str(i))) stream = await node_a.new_stream(node_b.get_id(), ["/echo/1.0.0"]) # Ensure the connected and opened_stream events were hit in all Notifee objs # and that the stream passed into opened_stream matches the stream created on # node_a for i in range(num_notifiers): assert events_lst_a[i] == [ ["connecteda" + str(i), stream.muxed_conn], ["opened_streama" + str(i), stream], ] messages = ["hello", "hello"] for message in messages: expected_resp = ACK + message await stream.write(message.encode()) response = (await stream.read(len(expected_resp))).decode() assert response == expected_resp # Success, terminate pending tasks. @pytest.mark.asyncio async def test_invalid_notifee(): num_notifiers = 10 node_a, node_b = await perform_two_host_set_up() # Add notifee for node_a events_lst = [] for _ in range(num_notifiers): events_lst.append([]) assert not node_a.get_network().notify(InvalidNotifee()) stream = await node_a.new_stream(node_b.get_id(), ["/echo/1.0.0"]) # If this point is reached, this implies that the InvalidNotifee instance # did not assert false, i.e. no functions of InvalidNotifee were called (which is correct # given that InvalidNotifee should not have been added as a notifee) messages = ["hello", "hello"] for message in messages: expected_resp = ACK + message await stream.write(message.encode()) response = (await stream.read(len(expected_resp))).decode() assert response == expected_resp # Success, terminate pending tasks.