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ca9534a38eacd5f18c15901a2ce96d6c31363558
rust-libp2p/core/src/nodes/collection/tests.rs
Pierre Krieger ca9534a38e Add a user data to CollectionStream (#947) 
* Add a user data to CollectionStream

* Make NodeEvent return a PeerMut

* Add PeerMut::user_data_mut()

* Return the previous user data in accept()
2019-02-18 16:10:00 +01:00

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// Copyright 2018 Parity Technologies (UK) Ltd.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
#![cfg(test)]
use super::*;
use assert_matches::assert_matches;
use futures::future;
use crate::tests::dummy_muxer::{DummyMuxer, DummyConnectionState};
use crate::tests::dummy_handler::{Handler, InEvent, OutEvent, HandlerState};
use tokio::runtime::current_thread::Runtime;
use tokio::runtime::Builder;
use crate::nodes::NodeHandlerEvent;
use std::{io, sync::Arc};
use parking_lot::Mutex;
type TestCollectionStream = CollectionStream<InEvent, OutEvent, Handler, io::Error, io::Error, ()>;
#[test]
fn has_connection_is_false_before_a_connection_has_been_made() {
let cs = TestCollectionStream::new();
let peer_id = PeerId::random();
assert!(!cs.has_connection(&peer_id));
}
#[test]
fn connections_is_empty_before_connecting() {
let cs = TestCollectionStream::new();
assert!(cs.connections().next().is_none());
}
#[test]
fn retrieving_a_peer_is_none_if_peer_is_missing_or_not_connected() {
let mut cs = TestCollectionStream::new();
let peer_id = PeerId::random();
assert!(cs.peer_mut(&peer_id).is_none());
let handler = Handler::default();
let fut = future::ok((peer_id.clone(), DummyMuxer::new()));
cs.add_reach_attempt(fut, handler);
assert!(cs.peer_mut(&peer_id).is_none()); // task is pending
}
#[test]
fn collection_stream_reaches_the_nodes() {
let mut cs = TestCollectionStream::new();
let peer_id = PeerId::random();
let mut muxer = DummyMuxer::new();
muxer.set_inbound_connection_state(DummyConnectionState::Pending);
muxer.set_outbound_connection_state(DummyConnectionState::Opened);
let fut = future::ok((peer_id, muxer));
cs.add_reach_attempt(fut, Handler::default());
let mut rt = Runtime::new().unwrap();
let mut poll_count = 0;
let fut = future::poll_fn(move || -> Poll<(), ()> {
poll_count += 1;
let event = cs.poll();
match poll_count {
1 => assert_matches!(event, Async::NotReady),
2 => {
assert_matches!(event, Async::Ready(CollectionEvent::NodeReached(_)));
return Ok(Async::Ready(())); // stop
}
_ => unreachable!()
}
Ok(Async::NotReady)
});
rt.block_on(fut).unwrap();
}
#[test]
fn accepting_a_node_yields_new_entry() {
let mut cs = TestCollectionStream::new();
let peer_id = PeerId::random();
let fut = future::ok((peer_id.clone(), DummyMuxer::new()));
cs.add_reach_attempt(fut, Handler::default());
let mut rt = Runtime::new().unwrap();
let mut poll_count = 0;
let fut = future::poll_fn(move || -> Poll<(), ()> {
poll_count += 1;
{
let event = cs.poll();
match poll_count {
1 => {
assert_matches!(event, Async::NotReady);
return Ok(Async::NotReady)
}
2 => {
assert_matches!(event, Async::Ready(CollectionEvent::NodeReached(reach_ev)) => {
let (accept_ev, accepted_peer_id) = reach_ev.accept(());
assert_eq!(accepted_peer_id, peer_id);
assert_matches!(accept_ev, CollectionNodeAccept::NewEntry);
});
}
_ => unreachable!()
}
}
assert!(cs.peer_mut(&peer_id).is_some(), "peer is not in the list");
assert!(cs.has_connection(&peer_id), "peer is not connected");
assert_eq!(cs.connections().collect::<Vec<&PeerId>>(), vec![&peer_id]);
Ok(Async::Ready(()))
});
rt.block_on(fut).expect("running the future works");
}
#[test]
fn events_in_a_node_reaches_the_collection_stream() {
let cs = Arc::new(Mutex::new(TestCollectionStream::new()));
let task_peer_id = PeerId::random();
let mut handler = Handler::default();
handler.state = Some(HandlerState::Ready(Some(NodeHandlerEvent::Custom(OutEvent::Custom("init")))));
let handler_states = vec![
HandlerState::Err,
HandlerState::Ready(Some(NodeHandlerEvent::Custom(OutEvent::Custom("from handler 3") ))),
HandlerState::Ready(Some(NodeHandlerEvent::Custom(OutEvent::Custom("from handler 2") ))),
HandlerState::Ready(Some(NodeHandlerEvent::Custom(OutEvent::Custom("from handler 1") ))),
];
handler.next_states = handler_states;
let mut muxer = DummyMuxer::new();
muxer.set_inbound_connection_state(DummyConnectionState::Pending);
muxer.set_outbound_connection_state(DummyConnectionState::Opened);
let fut = future::ok((task_peer_id.clone(), muxer));
cs.lock().add_reach_attempt(fut, handler);
let mut rt = Builder::new().core_threads(1).build().unwrap();
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
assert_matches!(cs.poll(), Async::NotReady);
Ok(Async::Ready(()))
})).expect("tokio works");
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
cs.broadcast_event(&InEvent::NextState);
assert_matches!(cs.poll(), Async::Ready(CollectionEvent::NodeReached(reach_ev)) => {
reach_ev.accept(());
});
Ok(Async::Ready(()))
})).expect("tokio works");
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
cs.broadcast_event(&InEvent::NextState);
assert_matches!(cs.poll(), Async::Ready(CollectionEvent::NodeEvent{peer: _, event}) => {
assert_matches!(event, OutEvent::Custom("init"));
});
Ok(Async::Ready(()))
})).expect("tokio works");
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
cs.broadcast_event(&InEvent::NextState);
assert_matches!(cs.poll(), Async::Ready(CollectionEvent::NodeEvent{peer: _, event}) => {
assert_matches!(event, OutEvent::Custom("from handler 1"));
});
Ok(Async::Ready(()))
})).expect("tokio works");
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
cs.broadcast_event(&InEvent::NextState);
assert_matches!(cs.poll(), Async::Ready(CollectionEvent::NodeEvent{peer: _, event}) => {
assert_matches!(event, OutEvent::Custom("from handler 2"));
});
Ok(Async::Ready(()))
})).expect("tokio works");
}
#[test]
fn task_closed_with_error_while_task_is_pending_yields_reach_error() {
let cs = Arc::new(Mutex::new(TestCollectionStream::new()));
let task_inner_fut = future::err(std::io::Error::new(std::io::ErrorKind::Other, "inner fut error"));
let reach_attempt_id = cs.lock().add_reach_attempt(task_inner_fut, Handler::default());
let mut rt = Builder::new().core_threads(1).build().unwrap();
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
assert_matches!(cs.poll(), Async::NotReady);
Ok(Async::Ready(()))
})).expect("tokio works");
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
assert_matches!(cs.poll(), Async::Ready(collection_ev) => {
assert_matches!(collection_ev, CollectionEvent::ReachError {id, error, ..} => {
assert_eq!(id, reach_attempt_id);
assert_eq!(error.to_string(), "inner fut error");
});
});
Ok(Async::Ready(()))
})).expect("tokio works");
}
#[test]
fn task_closed_with_error_when_task_is_connected_yields_node_error() {
let cs = Arc::new(Mutex::new(TestCollectionStream::new()));
let peer_id = PeerId::random();
let muxer = DummyMuxer::new();
let task_inner_fut = future::ok((peer_id.clone(), muxer));
let mut handler = Handler::default();
handler.next_states = vec![HandlerState::Err]; // triggered when sending a NextState event
cs.lock().add_reach_attempt(task_inner_fut, handler);
let mut rt = Builder::new().core_threads(1).build().unwrap();
// Kick it off
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
assert_matches!(cs.poll(), Async::NotReady);
// send an event so the Handler errors in two polls
cs.broadcast_event(&InEvent::NextState);
Ok(Async::Ready(()))
})).expect("tokio works");
// Accept the new node
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
// NodeReached, accept the connection so the task transitions from Pending to Connected
assert_matches!(cs.poll(), Async::Ready(CollectionEvent::NodeReached(reach_ev)) => {
reach_ev.accept(());
});
Ok(Async::Ready(()))
})).expect("tokio works");
assert!(cs.lock().has_connection(&peer_id));
// Assert the node errored
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
assert_matches!(cs.poll(), Async::Ready(collection_ev) => {
assert_matches!(collection_ev, CollectionEvent::NodeError{..});
});
Ok(Async::Ready(()))
})).expect("tokio works");
}
#[test]
fn task_closed_ok_when_task_is_connected_yields_node_closed() {
let cs = Arc::new(Mutex::new(TestCollectionStream::new()));
let peer_id = PeerId::random();
let muxer = DummyMuxer::new();
let task_inner_fut = future::ok((peer_id.clone(), muxer));
let mut handler = Handler::default();
handler.next_states = vec![HandlerState::Ready(None)]; // triggered when sending a NextState event
cs.lock().add_reach_attempt(task_inner_fut, handler);
let mut rt = Builder::new().core_threads(1).build().unwrap();
// Kick it off
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
assert_matches!(cs.poll(), Async::NotReady);
// send an event so the Handler errors in two polls
cs.broadcast_event(&InEvent::NextState);
Ok(Async::Ready(()))
})).expect("tokio works");
// Accept the new node
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
// NodeReached, accept the connection so the task transitions from Pending to Connected
assert_matches!(cs.poll(), Async::Ready(CollectionEvent::NodeReached(reach_ev)) => {
reach_ev.accept(());
});
Ok(Async::Ready(()))
})).expect("tokio works");
assert!(cs.lock().has_connection(&peer_id));
// Next poll, the Handler returns Async::Ready(None) because of the
// NextState message sent before.
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
// Node is closed normally: TaskClosed, Ok(())
assert_matches!(cs.poll(), Async::Ready(CollectionEvent::NodeClosed{ peer_id: peer_id_in_event, .. }) => {
assert_eq!(peer_id_in_event, peer_id);
});
Ok(Async::Ready(()))
})).expect("tokio works");
}
#[test]
fn interrupting_a_pending_connection_attempt_is_ok() {
let mut cs = TestCollectionStream::new();
let fut = future::empty();
let reach_id = cs.add_reach_attempt(fut, Handler::default());
let interrupt = cs.interrupt(reach_id);
assert!(interrupt.is_ok());
}
#[test]
fn interrupting_a_connection_attempt_twice_is_err() {
let mut cs = TestCollectionStream::new();
let fut = future::empty();
let reach_id = cs.add_reach_attempt(fut, Handler::default());
assert!(cs.interrupt(reach_id).is_ok());
assert_matches!(cs.interrupt(reach_id), Err(InterruptError::ReachAttemptNotFound))
}
#[test]
fn interrupting_an_established_connection_is_err() {
let cs = Arc::new(Mutex::new(TestCollectionStream::new()));
let peer_id = PeerId::random();
let muxer = DummyMuxer::new();
let task_inner_fut = future::ok((peer_id.clone(), muxer));
let handler = Handler::default();
let reach_id = cs.lock().add_reach_attempt(task_inner_fut, handler);
let mut rt = Builder::new().core_threads(1).build().unwrap();
// Kick it off
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
assert_matches!(cs.poll(), Async::NotReady);
// send an event so the Handler errors in two polls
Ok(Async::Ready(()))
})).expect("tokio works");
// Accept the new node
let cs_fut = cs.clone();
rt.block_on(future::poll_fn(move || -> Poll<_, ()> {
let mut cs = cs_fut.lock();
// NodeReached, accept the connection so the task transitions from Pending to Connected
assert_matches!(cs.poll(), Async::Ready(CollectionEvent::NodeReached(reach_ev)) => {
reach_ev.accept(());
});
Ok(Async::Ready(()))
})).expect("tokio works");
assert!(cs.lock().has_connection(&peer_id), "Connection was not established");
assert_matches!(cs.lock().interrupt(reach_id), Err(InterruptError::AlreadyReached));
}
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