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// Copyright 2020 Parity Technologies (UK) Ltd.
// This file is part of Polkadot.
// Polkadot is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Polkadot is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Polkadot. If not, see <http://www.gnu.org/licenses/>.
//! # Overseer
//!
//! `overseer` implements the Overseer architecture described in the
//! [implementors-guide](https://github.com/paritytech/polkadot/blob/master/roadmap/implementors-guide/guide.md).
//! For the motivations behind implementing the overseer itself you should
//! check out that guide, documentation in this crate will be mostly discussing
//! technical stuff.
//!
//! An `Overseer` is something that allows spawning/stopping and overseing
//! asynchronous tasks as well as establishing a well-defined and easy to use
//! protocol that the tasks can use to communicate with each other. It is desired
//! that this protocol is the only way tasks communicate with each other, however
//! at this moment there are no foolproof guards against other ways of communication.
//!
//! The `Overseer` is instantiated with a pre-defined set of `Subsystems` that
//! share the same behavior from `Overseer`'s point of view.
//!
//! ```text
//! +-----------------------------+
//! | Overseer |
//! +-----------------------------+
//!
//! ................| Overseer "holds" these and uses |..............
//! . them to (re)start things .
//! . .
//! . +-------------------+ +---------------------+ .
//! . | Subsystem1 | | Subsystem2 | .
//! . +-------------------+ +---------------------+ .
//! . | | .
//! ..................................................................
//! | |
//! start() start()
//! V V
//! ..................| Overseer "runs" these |.......................
//! . +--------------------+ +---------------------+ .
//! . | SubsystemInstance1 | | SubsystemInstance2 | .
//! . +--------------------+ +---------------------+ .
//! ..................................................................
//! ```
use std::fmt::Debug;
use std::pin::Pin;
use std::task::Poll;
use std::time::Duration;
use std::collections::HashSet;
use futures::channel::{mpsc, oneshot};
use futures::{
pending, poll, select,
future::{BoxFuture, RemoteHandle},
stream::FuturesUnordered,
task::{Spawn, SpawnError, SpawnExt},
Future, FutureExt, SinkExt, StreamExt,
};
use futures_timer::Delay;
use streamunordered::{StreamYield, StreamUnordered};
use polkadot_primitives::{Block, BlockNumber, Hash};
use client::{BlockImportNotification, BlockchainEvents, FinalityNotification};
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pub use messages::{
OverseerSignal, ValidationSubsystemMessage, CandidateBackingSubsystemMessage, AllMessages,
FromOverseer,
};
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/// An error type that describes faults that may happen
///
/// These are:
/// * Channels being closed
/// * Subsystems dying when they are not expected to
/// * Subsystems not dying when they are told to die
/// * etc.
#[derive(Debug)]
pub struct SubsystemError;
impl From<mpsc::SendError> for SubsystemError {
fn from(_: mpsc::SendError) -> Self {
Self
}
}
impl From<oneshot::Canceled> for SubsystemError {
fn from(_: oneshot::Canceled) -> Self {
Self
}
}
impl From<SpawnError> for SubsystemError {
fn from(_: SpawnError) -> Self {
Self
}
}
/// A `Result` type that wraps [`SubsystemError`].
///
/// [`SubsystemError`]: struct.SubsystemError.html
pub type SubsystemResult<T> = Result<T, SubsystemError>;
/// An asynchronous subsystem task that runs inside and being overseen by the [`Overseer`].
///
/// In essence it's just a newtype wrapping a `BoxFuture`.
///
/// [`Overseer`]: struct.Overseer.html
pub struct SpawnedSubsystem(pub BoxFuture<'static, ()>);
// A capacity of bounded channels inside the overseer.
const CHANNEL_CAPACITY: usize = 1024;
// A graceful `Overseer` teardown time delay.
const STOP_DELAY: u64 = 1;
/// A type of messages that are sent from [`Subsystem`] to [`Overseer`].
///
/// It wraps a system-wide [`AllMessages`] type that represents all possible
/// messages in the system.
///
/// [`AllMessages`]: enum.AllMessages.html
/// [`Subsystem`]: trait.Subsystem.html
/// [`Overseer`]: struct.Overseer.html
enum ToOverseer {
/// This is a message sent by a `Subsystem`.
SubsystemMessage(AllMessages),
/// A message that wraps something the `Subsystem` is desiring to
/// spawn on the overseer and a `oneshot::Sender` to signal the result
/// of the spawn.
SpawnJob {
s: BoxFuture<'static, ()>,
res: oneshot::Sender<SubsystemResult<()>>,
},
}
/// An event telling the `Overseer` on the particular block
/// that has been imported or finalized.
///
/// This structure exists solely for the purposes of decoupling
/// `Overseer` code from the client code and the necessity to call
/// `HeaderBackend::block_number_from_id()`.
pub struct BlockInfo {
/// hash of the block.
pub hash: Hash,
/// hash of the parent block.
pub parent_hash: Hash,
/// block's number.
pub number: BlockNumber,
}
impl From<BlockImportNotification<Block>> for BlockInfo {
fn from(n: BlockImportNotification<Block>) -> Self {
BlockInfo {
hash: n.hash,
parent_hash: n.header.parent_hash,
number: n.header.number,
}
}
}
impl From<FinalityNotification<Block>> for BlockInfo {
fn from(n: FinalityNotification<Block>) -> Self {
BlockInfo {
hash: n.hash,
parent_hash: n.header.parent_hash,
number: n.header.number,
}
}
}
BlockImported(BlockInfo),
BlockFinalized(BlockInfo),
MsgToSubsystem(AllMessages),
Stop,
}
/// A handler used to communicate with the [`Overseer`].
///
/// [`Overseer`]: struct.Overseer.html
pub struct OverseerHandler {
events_tx: mpsc::Sender<Event>,
}
impl OverseerHandler {
/// Inform the `Overseer` that that some block was imported.
pub async fn block_imported(&mut self, block: BlockInfo) -> SubsystemResult<()> {
self.events_tx.send(Event::BlockImported(block)).await?;
Ok(())
}
/// Send some message to one of the `Subsystem`s.
pub async fn send_msg(&mut self, msg: AllMessages) -> SubsystemResult<()> {
self.events_tx.send(Event::MsgToSubsystem(msg)).await?;
Ok(())
}
/// Inform the `Overseer` that that some block was finalized.
pub async fn block_finalized(&mut self, block: BlockInfo) -> SubsystemResult<()> {
self.events_tx.send(Event::BlockFinalized(block)).await?;
Ok(())
}
/// Tell `Overseer` to shutdown.
pub async fn stop(&mut self) -> SubsystemResult<()> {
self.events_tx.send(Event::Stop).await?;
Ok(())
}
}
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/// Glues together the [`Overseer`] and `BlockchainEvents` by forwarding
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/// import and finality notifications into the [`OverseerHandler`].
///
/// [`Overseer`]: struct.Overseer.html
/// [`OverseerHandler`]: struct.OverseerHandler.html
pub async fn forward_events<P: BlockchainEvents<Block>>(
client: P,
mut handler: OverseerHandler,
) -> SubsystemResult<()> {
let mut finality = client.finality_notification_stream();
let mut imports = client.import_notification_stream();
loop {
select! {
f = finality.next() => {
match f {
Some(block) => {
handler.block_finalized(block.into()).await?;
}
None => break,
}
},
i = imports.next() => {
match i {
Some(block) => {
handler.block_imported(block.into()).await?;
}
None => break,
}
},
complete => break,
}
}
Ok(())
}
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impl Debug for ToOverseer {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
ToOverseer::SubsystemMessage(msg) => {
write!(f, "OverseerMessage::SubsystemMessage({:?})", msg)
}
ToOverseer::SpawnJob { .. } => write!(f, "OverseerMessage::Spawn(..)")
}
}
}
/// A running instance of some [`Subsystem`].
///
/// [`Subsystem`]: trait.Subsystem.html
struct SubsystemInstance<M: Debug> {
tx: mpsc::Sender<FromOverseer<M>>,
}
/// A context type that is given to the [`Subsystem`] upon spawning.
/// It can be used by [`Subsystem`] to communicate with other [`Subsystem`]s
/// or to spawn it's [`SubsystemJob`]s.
///
/// [`Overseer`]: struct.Overseer.html
/// [`Subsystem`]: trait.Subsystem.html
/// [`SubsystemJob`]: trait.SubsystemJob.html
pub struct SubsystemContext<M: Debug>{
rx: mpsc::Receiver<FromOverseer<M>>,
tx: mpsc::Sender<ToOverseer>,
}
impl<M: Debug> SubsystemContext<M> {
/// Try to asyncronously receive a message.
///
/// This has to be used with caution, if you loop over this without
/// using `pending!()` macro you will end up with a busy loop!
pub async fn try_recv(&mut self) -> Result<Option<FromOverseer<M>>, ()> {
match poll!(self.rx.next()) {
Poll::Ready(Some(msg)) => Ok(Some(msg)),
Poll::Ready(None) => Err(()),
Poll::Pending => Ok(None),
}
}
/// Receive a message.
pub async fn recv(&mut self) -> SubsystemResult<FromOverseer<M>> {
self.rx.next().await.ok_or(SubsystemError)
}
/// Spawn a child task on the executor.
pub async fn spawn(&mut self, s: Pin<Box<dyn Future<Output = ()> + Send>>) -> SubsystemResult<()> {
let (tx, rx) = oneshot::channel();
self.tx.send(ToOverseer::SpawnJob {
s,
res: tx,
}).await?;
rx.await?
}
/// Send a direct message to some other `Subsystem`, routed based on message type.
pub async fn send_msg(&mut self, msg: AllMessages) -> SubsystemResult<()> {
self.tx.send(ToOverseer::SubsystemMessage(msg)).await?;
Ok(())
}
fn new(rx: mpsc::Receiver<FromOverseer<M>>, tx: mpsc::Sender<ToOverseer>) -> Self {
Self {
rx,
tx,
}
}
}
/// A trait that describes the [`Subsystem`]s that can run on the [`Overseer`].
///
/// It is generic over the message type circulating in the system.
/// The idea that we want some type contaning persistent state that
/// can spawn actually running subsystems when asked to.
///
/// [`Overseer`]: struct.Overseer.html
/// [`Subsystem`]: trait.Subsystem.html
pub trait Subsystem<M: Debug> {
/// Start this `Subsystem` and return `SpawnedSubsystem`.
fn start(&mut self, ctx: SubsystemContext<M>) -> SpawnedSubsystem;
}
/// A subsystem that we oversee.
///
/// Ties together the [`Subsystem`] itself and it's running instance
/// (which may be missing if the [`Subsystem`] is not running at the moment
/// for whatever reason).
///
/// [`Subsystem`]: trait.Subsystem.html
#[allow(dead_code)]
struct OverseenSubsystem<M: Debug> {
subsystem: Box<dyn Subsystem<M> + Send>,
instance: Option<SubsystemInstance<M>>,
}
/// The `Overseer` itself.
pub struct Overseer<S: Spawn> {
/// A validation subsystem
validation_subsystem: OverseenSubsystem<ValidationSubsystemMessage>,
/// A candidate backing subsystem
candidate_backing_subsystem: OverseenSubsystem<CandidateBackingSubsystemMessage>,
/// Spawner to spawn tasks to.
s: S,
/// Here we keep handles to spawned subsystems to be notified when they terminate.
running_subsystems: FuturesUnordered<RemoteHandle<()>>,
/// Gather running subsystms' outbound streams into one.
running_subsystems_rx: StreamUnordered<mpsc::Receiver<ToOverseer>>,
/// Events that are sent to the overseer from the outside world
events_rx: mpsc::Receiver<Event>,
/// A set of leaves that `Overseer` starts working with.
///
/// Drained at the beginning of `run` and never used again.
leaves: Vec<(Hash, BlockNumber)>,
/// The set of the "active leaves".
active_leaves: HashSet<(Hash, BlockNumber)>,
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}
impl<S> Overseer<S>
where
S: Spawn,
{
/// Create a new intance of the `Overseer` with a fixed set of [`Subsystem`]s.
///
/// Each [`Subsystem`] is passed to this function as an explicit parameter
/// and is supposed to implement some interface that is generic over message type
/// that is specific to this [`Subsystem`]. At the moment there are only two
/// subsystems:
/// * Validation
/// * CandidateBacking
///
/// As any entity that satisfies the interface may act as a [`Subsystem`] this allows
/// mocking in the test code:
///
/// ```text
/// +------------------------------------+
/// | Overseer |
/// +------------------------------------+
/// / | | \
/// ................. subsystems...................................
/// . +-----------+ +-----------+ +----------+ +---------+ .
/// . | | | | | | | | .
/// . +-----------+ +-----------+ +----------+ +---------+ .
/// ...............................................................
/// |
/// probably `spawn`
/// a `job`
/// |
/// V
/// +-----------+
/// | |
/// +-----------+
///
/// ```
///
/// [`Subsystem`]: trait.Subsystem.html
///
/// # Example
///
/// The [`Subsystems`] may be any type as long as they implement an expected interface.
/// Here, we create two mock subsystems and start the `Overseer` with them. For the sake
/// of simplicity the termination of the example is done with a timeout.
/// ```
/// # use std::time::Duration;
/// # use futures::{executor, pin_mut, select, FutureExt};
/// # use futures_timer::Delay;
asynchronous rob
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/// # use polkadot_overseer::{
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/// # Overseer, Subsystem, SpawnedSubsystem, SubsystemContext,
/// # ValidationSubsystemMessage, CandidateBackingSubsystemMessage,
/// # };
///
/// struct ValidationSubsystem;
/// impl Subsystem<ValidationSubsystemMessage> for ValidationSubsystem {
/// fn start(
/// &mut self,
/// mut ctx: SubsystemContext<ValidationSubsystemMessage>,
/// ) -> SpawnedSubsystem {
/// SpawnedSubsystem(Box::pin(async move {
/// loop {
/// Delay::new(Duration::from_secs(1)).await;
/// }
/// }))
/// }
/// }
///
/// struct CandidateBackingSubsystem;
/// impl Subsystem<CandidateBackingSubsystemMessage> for CandidateBackingSubsystem {
/// fn start(
/// &mut self,
/// mut ctx: SubsystemContext<CandidateBackingSubsystemMessage>,
/// ) -> SpawnedSubsystem {
/// SpawnedSubsystem(Box::pin(async move {
/// loop {
/// Delay::new(Duration::from_secs(1)).await;
/// }
/// }))
/// }
/// }
///
/// # fn main() { executor::block_on(async move {
/// let spawner = executor::ThreadPool::new().unwrap();
/// let (overseer, _handler) = Overseer::new(
/// Box::new(ValidationSubsystem),
/// Box::new(CandidateBackingSubsystem),
/// spawner,
/// ).unwrap();
///
/// let timer = Delay::new(Duration::from_millis(50)).fuse();
///
/// let overseer_fut = overseer.run().fuse();
/// pin_mut!(timer);
/// pin_mut!(overseer_fut);
///
/// select! {
/// _ = overseer_fut => (),
/// _ = timer => (),
/// }
/// #
/// # }); }
/// ```
pub fn new(
leaves: impl IntoIterator<Item = BlockInfo>,
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validation: Box<dyn Subsystem<ValidationSubsystemMessage> + Send>,
candidate_backing: Box<dyn Subsystem<CandidateBackingSubsystemMessage> + Send>,
mut s: S,
) -> SubsystemResult<(Self, OverseerHandler)> {
let (events_tx, events_rx) = mpsc::channel(CHANNEL_CAPACITY);
let handler = OverseerHandler {
events_tx: events_tx.clone(),
};
let mut running_subsystems_rx = StreamUnordered::new();
let mut running_subsystems = FuturesUnordered::new();
let validation_subsystem = spawn(
&mut s,
&mut running_subsystems,
&mut running_subsystems_rx,
validation,
)?;
let candidate_backing_subsystem = spawn(
&mut s,
&mut running_subsystems,
&mut running_subsystems_rx,
candidate_backing,
)?;
let active_leaves = HashSet::new();
let leaves = leaves
.into_iter()
.map(|BlockInfo { hash, parent_hash: _, number }| (hash, number))
.collect();
let this = Self {
validation_subsystem,
candidate_backing_subsystem,
s,
running_subsystems,
running_subsystems_rx,
events_rx,
leaves,
active_leaves,
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};
Ok((this, handler))
}
// Stop the overseer.
async fn stop(mut self) {
if let Some(ref mut s) = self.validation_subsystem.instance {
let _ = s.tx.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
}
if let Some(ref mut s) = self.candidate_backing_subsystem.instance {
let _ = s.tx.send(FromOverseer::Signal(OverseerSignal::Conclude)).await;
}
let mut stop_delay = Delay::new(Duration::from_secs(STOP_DELAY)).fuse();
loop {
select! {
_ = self.running_subsystems.next() => {
if self.running_subsystems.is_empty() {
break;
}
},
_ = stop_delay => break,
complete => break,
}
}
}
/// Run the `Overseer`.
pub async fn run(mut self) -> SubsystemResult<()> {
let leaves = std::mem::take(&mut self.leaves);
for leaf in leaves.into_iter() {
self.broadcast_signal(OverseerSignal::StartWork(leaf.0)).await?;
self.active_leaves.insert(leaf);
}
loop {
while let Poll::Ready(Some(msg)) = poll!(&mut self.events_rx.next()) {
match msg {
Event::MsgToSubsystem(msg) => {
self.route_message(msg).await;
}
Event::Stop => {
self.stop().await;
return Ok(());
}
Event::BlockImported(block) => {
self.block_imported(block).await?;
}
Event::BlockFinalized(block) => {
self.block_finalized(block).await?;
}
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}
}
while let Poll::Ready(Some((StreamYield::Item(msg), _))) = poll!(
&mut self.running_subsystems_rx.next()
) {
match msg {
ToOverseer::SubsystemMessage(msg) => self.route_message(msg).await,
ToOverseer::SpawnJob { s, res } => {
let s = self.spawn_job(s);
let _ = res.send(s);
}
}
}
// Some subsystem exited? It's time to panic.
if let Poll::Ready(Some(finished)) = poll!(self.running_subsystems.next()) {
log::error!("Subsystem finished unexpectedly {:?}", finished);
self.stop().await;
return Err(SubsystemError);
}
// Looks like nothing is left to be polled, let's take a break.
pending!();
}
}
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async fn block_imported(&mut self, block: BlockInfo) -> SubsystemResult<()> {
if let Some(parent) = self.active_leaves.take(&(block.parent_hash, block.number - 1)) {
self.broadcast_signal(OverseerSignal::StopWork(parent.0)).await?;
}
if !self.active_leaves.contains(&(block.hash, block.number)) {
self.broadcast_signal(OverseerSignal::StartWork(block.hash)).await?;
self.active_leaves.insert((block.hash, block.number));
}
Ok(())
}
async fn block_finalized(&mut self, block: BlockInfo) -> SubsystemResult<()> {
let mut stop_these = Vec::new();
self.active_leaves.retain(|(h, n)| {
if *n <= block.number {
stop_these.push(*h);
false
} else {
true
}
});
for hash in stop_these.into_iter() {
self.broadcast_signal(OverseerSignal::StopWork(hash)).await?
}
Ok(())
}
async fn broadcast_signal(&mut self, signal: OverseerSignal) -> SubsystemResult<()> {
if let Some(ref mut s) = self.validation_subsystem.instance {
s.tx.send(FromOverseer::Signal(signal.clone())).await?;
}
if let Some(ref mut s) = self.candidate_backing_subsystem.instance {
s.tx.send(FromOverseer::Signal(signal)).await?;
}
Ok(())
}
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async fn route_message(&mut self, msg: AllMessages) {
match msg {
AllMessages::Validation(msg) => {
if let Some(ref mut s) = self.validation_subsystem.instance {
let _= s.tx.send(FromOverseer::Communication { msg }).await;
}
}
AllMessages::CandidateBacking(msg) => {
if let Some(ref mut s) = self.candidate_backing_subsystem.instance {
let _ = s.tx.send(FromOverseer::Communication { msg }).await;
}
}
}
}
fn spawn_job(&mut self, j: BoxFuture<'static, ()>) -> SubsystemResult<()> {
self.s.spawn(j).map_err(|_| SubsystemError)
}
}
fn spawn<S: Spawn, M: Debug>(
spawner: &mut S,
futures: &mut FuturesUnordered<RemoteHandle<()>>,
streams: &mut StreamUnordered<mpsc::Receiver<ToOverseer>>,
mut s: Box<dyn Subsystem<M> + Send>,
) -> SubsystemResult<OverseenSubsystem<M>> {
let (to_tx, to_rx) = mpsc::channel(CHANNEL_CAPACITY);
let (from_tx, from_rx) = mpsc::channel(CHANNEL_CAPACITY);
let ctx = SubsystemContext::new(to_rx, from_tx);
let f = s.start(ctx);
let handle = spawner.spawn_with_handle(f.0)?;
streams.push(from_rx);
futures.push(handle);
let instance = Some(SubsystemInstance {
tx: to_tx,
});
Ok(OverseenSubsystem {
subsystem: s,
instance,
})
}
#[cfg(test)]
mod tests {
use futures::{executor, pin_mut, select, channel::mpsc, FutureExt};
use super::*;
struct TestSubsystem1(mpsc::Sender<usize>);
impl Subsystem<ValidationSubsystemMessage> for TestSubsystem1 {
fn start(&mut self, mut ctx: SubsystemContext<ValidationSubsystemMessage>) -> SpawnedSubsystem {
let mut sender = self.0.clone();
SpawnedSubsystem(Box::pin(async move {
let mut i = 0;
loop {
match ctx.recv().await {
Ok(FromOverseer::Communication { .. }) => {
let _ = sender.send(i).await;
i += 1;
continue;
}
Ok(FromOverseer::Signal(OverseerSignal::Conclude)) => return,
Err(_) => return,
_ => (),
}
}
}))
}
}
struct TestSubsystem2(mpsc::Sender<usize>);
impl Subsystem<CandidateBackingSubsystemMessage> for TestSubsystem2 {
fn start(&mut self, mut ctx: SubsystemContext<CandidateBackingSubsystemMessage>) -> SpawnedSubsystem {
SpawnedSubsystem(Box::pin(async move {
let mut c: usize = 0;
loop {
if c < 10 {
ctx.send_msg(
AllMessages::Validation(
ValidationSubsystemMessage::ValidityAttestation
)
).await.unwrap();
c += 1;
continue;
}
match ctx.try_recv().await {
Ok(Some(FromOverseer::Signal(OverseerSignal::Conclude))) => {
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break;
}
Ok(Some(_)) => {
continue;
}
Err(_) => return,
_ => (),
}
pending!();
}
}))
}
}
struct TestSubsystem4;
impl Subsystem<CandidateBackingSubsystemMessage> for TestSubsystem4 {
fn start(&mut self, mut _ctx: SubsystemContext<CandidateBackingSubsystemMessage>) -> SpawnedSubsystem {
SpawnedSubsystem(Box::pin(async move {
// Do nothing and exit.
}))
}
}
// Checks that a minimal configuration of two jobs can run and exchange messages.
#[test]
fn overseer_works() {
let spawner = executor::ThreadPool::new().unwrap();
executor::block_on(async move {
let (s1_tx, mut s1_rx) = mpsc::channel(64);
let (s2_tx, mut s2_rx) = mpsc::channel(64);
let (overseer, mut handler) = Overseer::new(
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Box::new(TestSubsystem1(s1_tx)),
Box::new(TestSubsystem2(s2_tx)),
spawner,
).unwrap();
let overseer_fut = overseer.run().fuse();
pin_mut!(overseer_fut);
let mut s1_results = Vec::new();
let mut s2_results = Vec::new();
loop {
select! {
a = overseer_fut => break,
s1_next = s1_rx.next() => {
match s1_next {
Some(msg) => {
s1_results.push(msg);
if s1_results.len() == 10 {
handler.stop().await.unwrap();
}
}
None => break,
}
},
s2_next = s2_rx.next() => {
match s2_next {
Some(msg) => s2_results.push(s2_next),
None => break,
}
},
complete => break,
}
}
assert_eq!(s1_results, (0..10).collect::<Vec<_>>());
});
}
// Spawn a subsystem that immediately exits.
//
// Should immediately conclude the overseer itself with an error.
#[test]
asynchronous rob
committed
fn overseer_panics_on_subsystem_exit() {
let spawner = executor::ThreadPool::new().unwrap();
executor::block_on(async move {
let (s1_tx, _) = mpsc::channel(64);
let (overseer, _handle) = Overseer::new(
Box::new(TestSubsystem1(s1_tx)),
Box::new(TestSubsystem4),
spawner,
).unwrap();
let overseer_fut = overseer.run().fuse();
pin_mut!(overseer_fut);
select! {
res = overseer_fut => assert!(res.is_err()),
complete => (),
}
})
}
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struct TestSubsystem5(mpsc::Sender<OverseerSignal>);
impl Subsystem<ValidationSubsystemMessage> for TestSubsystem5 {
fn start(&mut self, mut ctx: SubsystemContext<ValidationSubsystemMessage>) -> SpawnedSubsystem {
let mut sender = self.0.clone();
SpawnedSubsystem(Box::pin(async move {
loop {
match ctx.try_recv().await {
Ok(Some(FromOverseer::Signal(OverseerSignal::Conclude))) => break,
Ok(Some(FromOverseer::Signal(s))) => {
sender.send(s).await.unwrap();
continue;
},
Ok(Some(_)) => continue,
Err(_) => return,
_ => (),
}
pending!();
}
}))
}
}
struct TestSubsystem6(mpsc::Sender<OverseerSignal>);
impl Subsystem<CandidateBackingSubsystemMessage> for TestSubsystem6 {
fn start(&mut self, mut ctx: SubsystemContext<CandidateBackingSubsystemMessage>) -> SpawnedSubsystem {
let mut sender = self.0.clone();
SpawnedSubsystem(Box::pin(async move {
loop {
match ctx.try_recv().await {
Ok(Some(FromOverseer::Signal(OverseerSignal::Conclude))) => break,
Ok(Some(FromOverseer::Signal(s))) => {
sender.send(s).await.unwrap();
continue;
},
Ok(Some(_)) => continue,
Err(_) => return,
_ => (),
}
pending!();
}
}))
}
}
// Tests that starting with a defined set of leaves and receiving
// notifications on imported blocks triggers expected `StartWork` and `StopWork` heartbeats.
#[test]
fn overseer_start_stop_works() {
let spawner = executor::ThreadPool::new().unwrap();
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: first_block_hash,
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 (overseer, mut handler) = Overseer::new(
vec![first_block],
Box::new(TestSubsystem5(tx_5)),
Box::new(TestSubsystem6(tx_6)),
spawner,
).unwrap();
let overseer_fut = overseer.run().fuse();
pin_mut!(overseer_fut);
let mut ss5_results = Vec::new();
let mut ss6_results = Vec::new();
handler.block_imported(second_block).await.unwrap();
handler.block_imported(third_block).await.unwrap();
let expected_heartbeats = vec![
OverseerSignal::StartWork(first_block_hash),
OverseerSignal::StopWork(first_block_hash),
OverseerSignal::StartWork(second_block_hash),
OverseerSignal::StopWork(second_block_hash),
OverseerSignal::StartWork(third_block_hash),
];
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() {
handler.stop().await.unwrap();
}
}
assert_eq!(ss5_results, expected_heartbeats);
assert_eq!(ss6_results, expected_heartbeats);
});
}
// 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 = executor::ThreadPool::new().unwrap();
executor::block_on(async move {
let first_block_hash = [1; 32].into();