async def test_when_connecting_to_a_server(event_loop): """ When we connect to a server, the protocol should begin sending the pending messages held by the dispatcher. When it receives an InboundMessage from the MessageReader, it should call the "dispatch" method of the Dispatcher. """ addr = NodeService("localhost", 8338, None) async with EchoServer(addr, event_loop): dispatcher = SpyDispatcher() connector = Connector( SingleNodeDiscovery(addr, DiscoveryRetryPolicy()), dispatcher, loop=event_loop, ) ping = Ping() await dispatcher.start_conversation(ping) await connector.start() await connector_event(connector.connected) roundtripped_message = await dispatcher.received.get() assert roundtripped_message.conversation_id == ping.conversation_id await connector.stop()
async def test_when_restarting_a_running_connector(event_loop): queue = TeeQueue() addr = NodeService("localhost", 8338, None) dispatcher = SpyDispatcher() connector = Connector( SingleNodeDiscovery(addr, DiscoveryRetryPolicy()), dispatcher, loop=event_loop, ctrl_queue=queue, ) async with EchoServer(addr, event_loop): await connector.start() [connect, connected] = await queue.next_event(count=2) assert connected.command == ConnectorCommand.HandleConnectionOpened await connector_event(connector.connected) await connector.reconnect(connector.target_node) [connect, closed, b, c, d, connected] = await queue.next_event(count=6) assert closed.command == ConnectorCommand.HandleConnectionClosed assert connect.command == ConnectorCommand.Connect assert connected.command == ConnectorCommand.HandleConnectionOpened await connector.stop()
async def test_when_the_connection_fails_with_an_error(event_loop): queue = TeeQueue() addr = NodeService("localhost", 8338, None) dispatcher = SpyDispatcher() connector = Connector( SingleNodeDiscovery(addr, DiscoveryRetryPolicy()), dispatcher, loop=event_loop, ctrl_queue=queue, ) async with EchoServer(addr, event_loop): await connector.start() [connect, connected] = await queue.next_event(count=2) exn = ValueError() connector.connection_lost(exn) [connection_failed] = await queue.next_event(count=1) assert connection_failed.command == ConnectorCommand.HandleConnectionFailed assert connection_failed.data is exn await connector.stop()
async def test_when_three_heartbeats_fail_in_a_row(event_loop): """ We're going to set up a separate heartbeat loop to send heartbeat requests to the server. If three of those heartbeats timeout in a row, we'll put a reconnection request on the queue. """ queue = TeeQueue() addr = NodeService("localhost", 8338, None) dispatcher = SpyDispatcher() connector = Connector( SingleNodeDiscovery(addr, DiscoveryRetryPolicy()), dispatcher, loop=event_loop, ctrl_queue=queue, ) async with EchoServer(addr, event_loop): await connector.start() [connect, connected] = await queue.next_event(count=2) assert connect.command == ConnectorCommand.Connect assert connected.command == ConnectorCommand.HandleConnectionOpened connector.heartbeat_failed() connector.heartbeat_failed() connector.heartbeat_failed() [hb1, hb2, hb3, connection_closed, reconnect] = await queue.next_event(count=5) assert connection_closed.command == ConnectorCommand.HandleConnectionClosed assert reconnect.command == ConnectorCommand.Connect await connector.stop()
async def test_when_a_server_disconnects(event_loop): """ Usually, when eventstore goes away, we'll get an EOF on the transport. If that happens, we should raise a disconnected event. We should also place a reconnection message on the control queue. """ addr = NodeService("localhost", 8338, None) queue = TeeQueue() dispatcher = SpyDispatcher() connector = Connector( SingleNodeDiscovery(addr, DiscoveryRetryPolicy()), dispatcher, loop=event_loop, ctrl_queue=queue, ) raised_disconnected_event = asyncio.Future(loop=event_loop) def on_disconnected(): raised_disconnected_event.set_result(True) connector.disconnected.append(on_disconnected) async with EchoServer(addr, event_loop) as server: await connector.start() connect = await queue.next_event() assert connect.command == ConnectorCommand.Connect connected = await queue.next_event() assert connected.command == ConnectorCommand.HandleConnectionOpened server.stop() disconnect = await queue.next_event() assert disconnect.command == ConnectorCommand.HandleConnectionFailed reconnect = await queue.next_event() assert reconnect.command == ConnectorCommand.Connect assert raised_disconnected_event.result() is True await connector.stop()
async def test_when_a_heartbeat_succeeds(event_loop): """ If one of our heartbeats succeeds, we should reset our counter. Ergo, if we have two failures, followed by a success, followed by two failures, we should not reset the connection. """ queue = TeeQueue() addr = NodeService("localhost", 8338, None) dispatcher = SpyDispatcher() connector = Connector( SingleNodeDiscovery(addr, DiscoveryRetryPolicy()), dispatcher, loop=event_loop, ctrl_queue=queue, ) async with EchoServer(addr, event_loop): await connector.start() [connect, connected] = await queue.next_event(count=2) assert connect.command == ConnectorCommand.Connect assert connected.command == ConnectorCommand.HandleConnectionOpened connector.heartbeat_failed() connector.heartbeat_failed() [hb1, hb2] = await queue.next_event(count=2) assert connector.heartbeat_failures == 2 connector.heartbeat_received("Foo") connector.heartbeat_failed() connector.heartbeat_failed() [success, hb3, hb4] = await queue.next_event(count=3) assert connector.heartbeat_failures == 2 assert success.command == ConnectorCommand.HandleHeartbeatSuccess assert hb3.command == ConnectorCommand.HandleHeartbeatFailed assert hb4.command == ConnectorCommand.HandleHeartbeatFailed await connector.stop()