Newer
Older
});
}
// Tests that starting with a defined set of leaves and receiving
// notifications on imported blocks triggers expected `StartWork` and `StopWork` heartbeats.
#[test]
fn overseer_finalize_works() {
let spawner = sp_core::testing::TaskExecutor::new();
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executor::block_on(async move {
let first_block_hash = [1; 32].into();
let second_block_hash = [2; 32].into();
let third_block_hash = [3; 32].into();
let first_block = BlockInfo {
hash: first_block_hash,
parent_hash: [0; 32].into(),
number: 1,
};
let second_block = BlockInfo {
hash: second_block_hash,
parent_hash: [42; 32].into(),
number: 2,
};
let third_block = BlockInfo {
hash: third_block_hash,
parent_hash: second_block_hash,
number: 3,
};
let (tx_5, mut rx_5) = mpsc::channel(64);
let (tx_6, mut rx_6) = mpsc::channel(64);
let all_subsystems = AllSubsystems::<()>::dummy()
.replace_candidate_validation(TestSubsystem5(tx_5))
.replace_candidate_backing(TestSubsystem6(tx_6));
// start with two forks of different height.
let (overseer, mut handler) = Overseer::new(
vec![first_block, second_block],
spawner,
).unwrap();
let overseer_fut = overseer.run().fuse();
pin_mut!(overseer_fut);
let mut ss5_results = Vec::new();
let mut ss6_results = Vec::new();
// this should stop work on both forks we started with earlier.
handler.block_finalized(third_block).await;
let expected_heartbeats = vec![
OverseerSignal::ActiveLeaves(ActiveLeavesUpdate {
activated: [first_block_hash, second_block_hash].as_ref().into(),
..Default::default()
}),
OverseerSignal::ActiveLeaves(ActiveLeavesUpdate {
deactivated: [first_block_hash, second_block_hash].as_ref().into(),
..Default::default()
}),
OverseerSignal::BlockFinalized(third_block_hash),
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];
loop {
select! {
res = overseer_fut => {
assert!(res.is_ok());
break;
},
res = rx_5.next() => {
if let Some(res) = res {
ss5_results.push(res);
}
}
res = rx_6.next() => {
if let Some(res) = res {
ss6_results.push(res);
}
}
complete => break,
}
if ss5_results.len() == expected_heartbeats.len() &&
ss6_results.len() == expected_heartbeats.len() {
}
}
assert_eq!(ss5_results.len(), expected_heartbeats.len());
assert_eq!(ss6_results.len(), expected_heartbeats.len());
// Notifications on finality for multiple blocks at once
// may be received in different orders.
for expected in expected_heartbeats {
assert!(ss5_results.contains(&expected));
assert!(ss6_results.contains(&expected));
}
});
}
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#[derive(Clone)]
struct CounterSubsystem {
stop_signals_received: Arc<atomic::AtomicUsize>,
signals_received: Arc<atomic::AtomicUsize>,
msgs_received: Arc<atomic::AtomicUsize>,
}
impl CounterSubsystem {
fn new(
stop_signals_received: Arc<atomic::AtomicUsize>,
signals_received: Arc<atomic::AtomicUsize>,
msgs_received: Arc<atomic::AtomicUsize>,
) -> Self {
Self {
stop_signals_received,
signals_received,
msgs_received,
}
}
}
impl<C, M> Subsystem<C> for CounterSubsystem
where
C: SubsystemContext<Message=M>,
M: Send,
{
fn start(self, mut ctx: C) -> SpawnedSubsystem {
SpawnedSubsystem {
name: "counter-subsystem",
future: Box::pin(async move {
loop {
match ctx.try_recv().await {
Ok(Some(FromOverseer::Signal(OverseerSignal::Conclude))) => {
self.stop_signals_received.fetch_add(1, atomic::Ordering::SeqCst);
break;
},
Ok(Some(FromOverseer::Signal(_))) => {
self.signals_received.fetch_add(1, atomic::Ordering::SeqCst);
continue;
},
Ok(Some(FromOverseer::Communication { .. })) => {
self.msgs_received.fetch_add(1, atomic::Ordering::SeqCst);
continue;
},
Err(_) => (),
_ => (),
}
pending!();
}
Ok(())
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}),
}
}
}
fn test_candidate_validation_msg() -> CandidateValidationMessage {
let (sender, _) = oneshot::channel();
let pov = Arc::new(PoV { block_data: BlockData(Vec::new()) });
CandidateValidationMessage::ValidateFromChainState(Default::default(), pov, sender)
}
fn test_candidate_backing_msg() -> CandidateBackingMessage {
let (sender, _) = oneshot::channel();
CandidateBackingMessage::GetBackedCandidates(Default::default(), sender)
}
fn test_candidate_selection_msg() -> CandidateSelectionMessage {
CandidateSelectionMessage::default()
}
fn test_chain_api_msg() -> ChainApiMessage {
let (sender, _) = oneshot::channel();
ChainApiMessage::FinalizedBlockNumber(sender)
}
fn test_collator_generation_msg() -> CollationGenerationMessage {
CollationGenerationMessage::Initialize(CollationGenerationConfig {
key: CollatorPair::generate().0,
collator: Box::new(|_, _| TestCollator.boxed()),
para_id: Default::default(),
})
}
struct TestCollator;
impl Future for TestCollator {
type Output = Option<Collation>;
fn poll(self: Pin<&mut Self>, _cx: &mut futures::task::Context) -> Poll<Self::Output> {
panic!("at the Disco")
}
}
impl Unpin for TestCollator {}
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fn test_collator_protocol_msg() -> CollatorProtocolMessage {
CollatorProtocolMessage::CollateOn(Default::default())
}
fn test_network_bridge_event<M>() -> NetworkBridgeEvent<M> {
NetworkBridgeEvent::PeerDisconnected(PeerId::random())
}
fn test_statement_distribution_msg() -> StatementDistributionMessage {
StatementDistributionMessage::NetworkBridgeUpdateV1(test_network_bridge_event())
}
fn test_availability_distribution_msg() -> AvailabilityDistributionMessage {
AvailabilityDistributionMessage::NetworkBridgeUpdateV1(test_network_bridge_event())
}
fn test_bitfield_distribution_msg() -> BitfieldDistributionMessage {
BitfieldDistributionMessage::NetworkBridgeUpdateV1(test_network_bridge_event())
}
fn test_provisioner_msg() -> ProvisionerMessage {
let (sender, _) = oneshot::channel();
ProvisionerMessage::RequestInherentData(Default::default(), sender)
}
fn test_pov_distribution_msg() -> PoVDistributionMessage {
PoVDistributionMessage::NetworkBridgeUpdateV1(test_network_bridge_event())
}
fn test_runtime_api_msg() -> RuntimeApiMessage {
let (sender, _) = oneshot::channel();
RuntimeApiMessage::Request(Default::default(), RuntimeApiRequest::Validators(sender))
}
fn test_availability_store_msg() -> AvailabilityStoreMessage {
let (sender, _) = oneshot::channel();
AvailabilityStoreMessage::QueryAvailableData(CandidateHash(Default::default()), sender)
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}
fn test_network_bridge_msg() -> NetworkBridgeMessage {
NetworkBridgeMessage::ReportPeer(PeerId::random(), ReputationChange::new(42, ""))
}
// Checks that `stop`, `broadcast_signal` and `broadcast_message` are implemented correctly.
#[test]
fn overseer_all_subsystems_receive_signals_and_messages() {
let spawner = sp_core::testing::TaskExecutor::new();
executor::block_on(async move {
let stop_signals_received = Arc::new(atomic::AtomicUsize::new(0));
let signals_received = Arc::new(atomic::AtomicUsize::new(0));
let msgs_received = Arc::new(atomic::AtomicUsize::new(0));
let subsystem = CounterSubsystem::new(
stop_signals_received.clone(),
signals_received.clone(),
msgs_received.clone(),
);
let all_subsystems = AllSubsystems {
candidate_validation: subsystem.clone(),
candidate_backing: subsystem.clone(),
candidate_selection: subsystem.clone(),
collator_protocol: subsystem.clone(),
statement_distribution: subsystem.clone(),
availability_distribution: subsystem.clone(),
bitfield_signing: subsystem.clone(),
bitfield_distribution: subsystem.clone(),
provisioner: subsystem.clone(),
pov_distribution: subsystem.clone(),
runtime_api: subsystem.clone(),
availability_store: subsystem.clone(),
network_bridge: subsystem.clone(),
chain_api: subsystem.clone(),
};
let (overseer, mut handler) = Overseer::new(
vec![],
all_subsystems,
spawner,
).unwrap();
let overseer_fut = overseer.run().fuse();
pin_mut!(overseer_fut);
// send a signal to each subsystem
handler.block_imported(BlockInfo {
hash: Default::default(),
parent_hash: Default::default(),
number: Default::default(),
// send a msg to each subsystem
// except for BitfieldSigning as the message is not instantiable
handler.send_msg(AllMessages::CandidateValidation(test_candidate_validation_msg())).await;
handler.send_msg(AllMessages::CandidateBacking(test_candidate_backing_msg())).await;
handler.send_msg(AllMessages::CandidateSelection(test_candidate_selection_msg())).await;
handler.send_msg(AllMessages::CollationGeneration(test_collator_generation_msg())).await;
handler.send_msg(AllMessages::CollatorProtocol(test_collator_protocol_msg())).await;
handler.send_msg(AllMessages::StatementDistribution(test_statement_distribution_msg())).await;
handler.send_msg(AllMessages::AvailabilityDistribution(test_availability_distribution_msg())).await;
// handler.send_msg(AllMessages::BitfieldSigning(test_bitfield_signing_msg())).await;
handler.send_msg(AllMessages::BitfieldDistribution(test_bitfield_distribution_msg())).await;
handler.send_msg(AllMessages::Provisioner(test_provisioner_msg())).await;
handler.send_msg(AllMessages::PoVDistribution(test_pov_distribution_msg())).await;
handler.send_msg(AllMessages::RuntimeApi(test_runtime_api_msg())).await;
handler.send_msg(AllMessages::AvailabilityStore(test_availability_store_msg())).await;
handler.send_msg(AllMessages::NetworkBridge(test_network_bridge_msg())).await;
handler.send_msg(AllMessages::ChainApi(test_chain_api_msg())).await;
// send a stop signal to each subsystems
select! {
res = overseer_fut => {
assert_eq!(stop_signals_received.load(atomic::Ordering::SeqCst), NUM_SUBSYSTEMS);
// x2 because of broadcast_signal on startup
assert_eq!(signals_received.load(atomic::Ordering::SeqCst), 2 * NUM_SUBSYSTEMS);
// -1 for BitfieldSigning
assert_eq!(msgs_received.load(atomic::Ordering::SeqCst), NUM_SUBSYSTEMS - 1);
assert!(res.is_ok());
},
complete => (),
}
});
}