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#[test]
fn peer_messages_sent_via_overseer() {
test_harness(|test_harness| async move {
let TestHarness {
mut network_handle,
mut virtual_overseer,
} = test_harness;
let peer = PeerId::random();
network_handle.connect_peer(
peer.clone(),
PeerSet::Validation,
ObservedRole::Full,
).await;
// bridge will inform about all connected peers.
{
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerConnected(peer.clone(), ObservedRole::Full),
&mut virtual_overseer,
).await;
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer.clone(), View(Default::default())),
&mut virtual_overseer,
).await;
let pov_distribution_message = protocol_v1::PoVDistributionMessage::Awaiting(
[0; 32].into(),
vec![[1; 32].into()],
);
let message = protocol_v1::ValidationProtocol::PoVDistribution(
pov_distribution_message.clone(),
);
network_handle.peer_message(
peer.clone(),
PeerSet::Validation,
WireMessage::ProtocolMessage(message.clone()).encode(),
network_handle.disconnect_peer(peer.clone(), PeerSet::Validation).await;
// PoV distribution message comes first, and the message is only sent to that subsystem.
// then a disconnection event arises that is sent to all validation networking subsystems.
assert_matches!(
virtual_overseer.recv().await,
AllMessages::PoVDistribution(
PoVDistributionMessage::NetworkBridgeUpdateV1(
NetworkBridgeEvent::PeerMessage(p, m)
)
) => {
assert_eq!(p, peer);
assert_eq!(m, pov_distribution_message);
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerDisconnected(peer),
&mut virtual_overseer,
).await;
fn peer_disconnect_from_just_one_peerset() {
test_harness(|test_harness| async move {
let TestHarness {
mut network_handle,
mut virtual_overseer,
} = test_harness;
let peer = PeerId::random();
network_handle.connect_peer(peer.clone(), PeerSet::Validation, ObservedRole::Full).await;
network_handle.connect_peer(peer.clone(), PeerSet::Collation, ObservedRole::Full).await;
// bridge will inform about all connected peers.
{
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerConnected(peer.clone(), ObservedRole::Full),
&mut virtual_overseer,
).await;
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer.clone(), View(Default::default())),
&mut virtual_overseer,
).await;
}
{
assert_sends_collation_event_to_all(
NetworkBridgeEvent::PeerConnected(peer.clone(), ObservedRole::Full),
&mut virtual_overseer,
).await;
assert_sends_collation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer.clone(), View(Default::default())),
&mut virtual_overseer,
).await;
}
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network_handle.disconnect_peer(peer.clone(), PeerSet::Validation).await;
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerDisconnected(peer.clone()),
&mut virtual_overseer,
).await;
// to show that we're still connected on the collation protocol, send a view update.
let hash_a = Hash::from([1; 32]);
virtual_overseer.send(
FromOverseer::Signal(OverseerSignal::ActiveLeaves(ActiveLeavesUpdate::start_work(hash_a)))
).await;
let actions = network_handle.next_network_actions(1).await;
let wire_message = WireMessage::<protocol_v1::ValidationProtocol>::ViewUpdate(
View(vec![hash_a])
).encode();
assert!(network_actions_contains(
&actions,
&NetworkAction::WriteNotification(
peer.clone(),
PeerSet::Collation,
wire_message.clone(),
#[test]
fn relays_collation_protocol_messages() {
test_harness(|test_harness| async move {
let TestHarness {
mut network_handle,
mut virtual_overseer,
} = test_harness;
let peer_a = PeerId::random();
let peer_b = PeerId::random();
network_handle.connect_peer(peer_a.clone(), PeerSet::Validation, ObservedRole::Full).await;
network_handle.connect_peer(peer_b.clone(), PeerSet::Collation, ObservedRole::Full).await;
// bridge will inform about all connected peers.
{
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerConnected(peer_a.clone(), ObservedRole::Full),
&mut virtual_overseer,
).await;
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer_a.clone(), View(Default::default())),
&mut virtual_overseer,
).await;
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{
assert_sends_collation_event_to_all(
NetworkBridgeEvent::PeerConnected(peer_b.clone(), ObservedRole::Full),
&mut virtual_overseer,
).await;
assert_sends_collation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer_b.clone(), View(Default::default())),
&mut virtual_overseer,
).await;
}
// peer A gets reported for sending a collation message.
let collator_protocol_message = protocol_v1::CollatorProtocolMessage::Declare(
Sr25519Keyring::Alice.public().into()
);
let message = protocol_v1::CollationProtocol::CollatorProtocol(
collator_protocol_message.clone()
);
peer_a.clone(),
PeerSet::Collation,
WireMessage::ProtocolMessage(message.clone()).encode(),
let actions = network_handle.next_network_actions(1).await;
assert!(network_actions_contains(
&actions,
&NetworkAction::ReputationChange(
peer_a.clone(),
UNCONNECTED_PEERSET_COST,
),
));
// peer B has the message relayed.
network_handle.peer_message(
peer_b.clone(),
PeerSet::Collation,
WireMessage::ProtocolMessage(message.clone()).encode(),
).await;
assert_matches!(
virtual_overseer.recv().await,
AllMessages::CollatorProtocol(
CollatorProtocolMessage::NetworkBridgeUpdateV1(
NetworkBridgeEvent::PeerMessage(p, m)
)
) => {
assert_eq!(p, peer_b);
assert_eq!(m, collator_protocol_message);
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#[test]
fn different_views_on_different_peer_sets() {
test_harness(|test_harness| async move {
let TestHarness {
mut network_handle,
mut virtual_overseer,
} = test_harness;
let peer = PeerId::random();
network_handle.connect_peer(peer.clone(), PeerSet::Validation, ObservedRole::Full).await;
network_handle.connect_peer(peer.clone(), PeerSet::Collation, ObservedRole::Full).await;
// bridge will inform about all connected peers.
{
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerConnected(peer.clone(), ObservedRole::Full),
&mut virtual_overseer,
).await;
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer.clone(), View(Default::default())),
&mut virtual_overseer,
).await;
}
{
assert_sends_collation_event_to_all(
NetworkBridgeEvent::PeerConnected(peer.clone(), ObservedRole::Full),
&mut virtual_overseer,
).await;
assert_sends_collation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer.clone(), View(Default::default())),
&mut virtual_overseer,
).await;
}
let view_a = View(vec![[1; 32].into()]);
let view_b = View(vec![[2; 32].into()]);
network_handle.peer_message(
peer.clone(),
PeerSet::Validation,
WireMessage::<protocol_v1::ValidationProtocol>::ViewUpdate(view_a.clone()).encode(),
).await;
network_handle.peer_message(
peer.clone(),
PeerSet::Collation,
WireMessage::<protocol_v1::CollationProtocol>::ViewUpdate(view_b.clone()).encode(),
).await;
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer.clone(), view_a.clone()),
&mut virtual_overseer,
).await;
assert_sends_collation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer.clone(), view_b.clone()),
&mut virtual_overseer,
).await;
});
}
#[test]
fn send_messages_to_peers() {
test_harness(|test_harness| async move {
let TestHarness {
mut network_handle,
mut virtual_overseer,
} = test_harness;
let peer = PeerId::random();
network_handle.connect_peer(peer.clone(), PeerSet::Validation, ObservedRole::Full).await;
network_handle.connect_peer(peer.clone(), PeerSet::Collation, ObservedRole::Full).await;
// bridge will inform about all connected peers.
{
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerConnected(peer.clone(), ObservedRole::Full),
&mut virtual_overseer,
).await;
assert_sends_validation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer.clone(), View(Default::default())),
&mut virtual_overseer,
).await;
}
{
assert_sends_collation_event_to_all(
NetworkBridgeEvent::PeerConnected(peer.clone(), ObservedRole::Full),
&mut virtual_overseer,
).await;
assert_sends_collation_event_to_all(
NetworkBridgeEvent::PeerViewChange(peer.clone(), View(Default::default())),
&mut virtual_overseer,
).await;
}
// send a validation protocol message.
{
let pov_distribution_message = protocol_v1::PoVDistributionMessage::Awaiting(
[0; 32].into(),
vec![[1; 32].into()],
);
let message = protocol_v1::ValidationProtocol::PoVDistribution(
pov_distribution_message.clone(),
);
virtual_overseer.send(FromOverseer::Communication {
msg: NetworkBridgeMessage::SendValidationMessage(
vec![peer.clone()],
message.clone(),
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}).await;
assert_eq!(
network_handle.next_network_action().await,
NetworkAction::WriteNotification(
peer.clone(),
PeerSet::Validation,
WireMessage::ProtocolMessage(message).encode(),
)
);
}
// send a collation protocol message.
{
let collator_protocol_message = protocol_v1::CollatorProtocolMessage::Declare(
Sr25519Keyring::Alice.public().into()
);
let message = protocol_v1::CollationProtocol::CollatorProtocol(
collator_protocol_message.clone()
);
virtual_overseer.send(FromOverseer::Communication {
msg: NetworkBridgeMessage::SendCollationMessage(
vec![peer.clone()],
message.clone(),
)
}).await;
assert_eq!(
network_handle.next_network_action().await,
NetworkAction::WriteNotification(
peer.clone(),
PeerSet::Collation,
WireMessage::ProtocolMessage(message).encode(),
)
);
}