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use crate::{
run::spawn_dataflow,
tcp_utils::{tcp_receive, tcp_send},
};
pub use control::ControlEvent;
use dora_core::{
config::{NodeId, OperatorId},
coordinator_messages::RegisterResult,
daemon_messages::{DaemonCoordinatorEvent, DaemonCoordinatorReply, Timestamped},
descriptor::{Descriptor, ResolvedNode},
message::uhlc::{self, HLC},
topics::{ControlRequest, ControlRequestReply, DataflowId},
};
use eyre::{bail, eyre, ContextCompat, WrapErr};
use futures::{stream::FuturesUnordered, Future, Stream, StreamExt};
use futures_concurrency::stream::Merge;
use run::SpawnedDataflow;
use std::{
collections::{BTreeMap, BTreeSet, HashMap},
net::SocketAddr,
path::PathBuf,
sync::Arc,
time::{Duration, Instant},
};
use tokio::{net::TcpStream, sync::mpsc, task::JoinHandle};
use tokio_stream::wrappers::{ReceiverStream, TcpListenerStream};
use uuid::Uuid;
mod control;
mod listener;
mod run;
mod tcp_utils;
pub async fn start(
bind: SocketAddr,
bind_control: SocketAddr,
external_events: impl Stream<Item = Event> + Unpin,
) -> Result<(u16, impl Future<Output = eyre::Result<()>>), eyre::ErrReport> {
let listener = listener::create_listener(bind).await?;
let port = listener
.local_addr()
.wrap_err("failed to get local addr of listener")?
.port();
let new_daemon_connections = TcpListenerStream::new(listener).map(|c| {
c.map(Event::NewDaemonConnection)
.wrap_err("failed to open connection")
.unwrap_or_else(Event::DaemonConnectError)
});
let mut tasks = FuturesUnordered::new();
let control_events = control::control_events(bind_control, &tasks)
.await
.wrap_err("failed to create control events")?;
// Setup ctrl-c handler
let ctrlc_events = set_up_ctrlc_handler()?;
let events = (
external_events,
new_daemon_connections,
control_events,
ctrlc_events,
)
.merge();
let future = async move {
start_inner(events, &tasks).await?;
tracing::debug!("coordinator main loop finished, waiting on spawned tasks");
while let Some(join_result) = tasks.next().await {
if let Err(err) = join_result {
tracing::error!("task panicked: {err}");
}
}
tracing::debug!("all spawned tasks finished, exiting..");
Ok(())
};
Ok((port, future))
}
// Resolve the dataflow name.
fn resolve_name(
name: String,
running_dataflows: &HashMap<Uuid, RunningDataflow>,
archived_dataflows: &HashMap<Uuid, ArchivedDataflow>,
) -> eyre::Result<Uuid> {
let uuids: Vec<_> = running_dataflows
.iter()
.filter(|(_, v)| v.name.as_deref() == Some(name.as_str()))
.map(|(k, _)| k)
.copied()
.collect();
let archived_uuids: Vec<_> = archived_dataflows
.iter()
.filter(|(_, v)| v.name.as_deref() == Some(name.as_str()))
.map(|(k, _)| k)
.copied()
.collect();
if uuids.is_empty() {
if archived_uuids.is_empty() {
bail!("no dataflow with name `{name}`");
} else if let [uuid] = archived_uuids.as_slice() {
Ok(*uuid)
} else {
// TODO: Index the archived dataflows in order to return logs based on the index.
bail!("multiple archived dataflows found with name `{name}`, Please provide the UUID instead.");
}
} else if let [uuid] = uuids.as_slice() {
Ok(*uuid)
} else {
bail!("multiple dataflows found with name `{name}`");
}
}
async fn start_inner(
events: impl Stream<Item = Event> + Unpin,
tasks: &FuturesUnordered<JoinHandle<()>>,
) -> eyre::Result<()> {
let clock = Arc::new(HLC::default());
let (daemon_events_tx, daemon_events) = tokio::sync::mpsc::channel(2);
let mut daemon_events_tx = Some(daemon_events_tx);
let daemon_events = ReceiverStream::new(daemon_events);
let daemon_heartbeat_interval =
tokio_stream::wrappers::IntervalStream::new(tokio::time::interval(Duration::from_secs(3)))
.map(|_| Event::DaemonHeartbeatInterval);
// events that should be aborted on `dora destroy`
let (abortable_events, abort_handle) =
futures::stream::abortable((events, daemon_heartbeat_interval).merge());
let mut events = (abortable_events, daemon_events).merge();
let mut running_dataflows: HashMap<Uuid, RunningDataflow> = HashMap::new();
let mut dataflow_results: HashMap<Uuid, BTreeMap<String, Result<(), String>>> = HashMap::new();
let mut archived_dataflows: HashMap<Uuid, ArchivedDataflow> = HashMap::new();
let mut daemon_connections: HashMap<_, DaemonConnection> = HashMap::new();
while let Some(event) = events.next().await {
if event.log() {
tracing::trace!("Handling event {event:?}");
}
match event {
Event::NewDaemonConnection(connection) => {
connection.set_nodelay(true)?;
let events_tx = daemon_events_tx.clone();
if let Some(events_tx) = events_tx {
let task = tokio::spawn(listener::handle_connection(
connection,
events_tx,
clock.clone(),
));
tasks.push(task);
} else {
tracing::warn!(
"ignoring new daemon connection because events_tx was closed already"
);
}
}
Event::DaemonConnectError(err) => {
tracing::warn!("{:?}", err.wrap_err("failed to connect to dora-daemon"));
}
Event::Daemon(event) => match event {
DaemonEvent::Register {
machine_id,
mut connection,
dora_version: daemon_version,
listen_port,
} => {
let coordinator_version: &&str = &env!("CARGO_PKG_VERSION");
let version_check = if &daemon_version == coordinator_version {
Ok(())
} else {
Err(format!(
"version mismatch: daemon v{daemon_version} is \
not compatible with coordinator v{coordinator_version}"
))
};
let peer_ip = connection
.peer_addr()
.map(|addr| addr.ip())
.map_err(|err| format!("failed to get peer addr of connection: {err}"));
let register_result = version_check.and(peer_ip);
let reply: Timestamped<RegisterResult> = Timestamped {
inner: match ®ister_result {
Ok(_) => RegisterResult::Ok,
Err(err) => RegisterResult::Err(err.clone()),
},
timestamp: clock.new_timestamp(),
};
let send_result = tcp_send(&mut connection, &serde_json::to_vec(&reply)?).await;
match (register_result, send_result) {
(Ok(ip), Ok(())) => {
let previous = daemon_connections.insert(
machine_id.clone(),
DaemonConnection {
stream: connection,
listen_socket: (ip, listen_port).into(),
last_heartbeat: Instant::now(),
},
);
if let Some(_previous) = previous {
tracing::info!(
"closing previous connection `{machine_id}` on new register"
);
}
}
(Err(err), _) => {
tracing::warn!("failed to register daemon connection for machine `{machine_id}`: {err}");
}
(Ok(_), Err(err)) => {
tracing::warn!("failed to confirm daemon connection for machine `{machine_id}`: {err}");
}
}
}
},
Event::Dataflow { uuid, event } => match event {
DataflowEvent::ReadyOnMachine {
machine_id,
success,
} => {
match running_dataflows.entry(uuid) {
std::collections::hash_map::Entry::Occupied(mut entry) => {
let dataflow = entry.get_mut();
dataflow.pending_machines.remove(&machine_id);
dataflow.init_success &= success;
if dataflow.pending_machines.is_empty() {
let message = serde_json::to_vec(&Timestamped {
inner: DaemonCoordinatorEvent::AllNodesReady {
dataflow_id: uuid,
success: dataflow.init_success,
},
timestamp: clock.new_timestamp(),
})
.wrap_err("failed to serialize AllNodesReady message")?;
// notify all machines that run parts of the dataflow
for machine_id in &dataflow.machines {
let Some(connection) = daemon_connections.get_mut(machine_id)
else {
tracing::warn!(
"no daemon connection found for machine `{machine_id}`"
);
continue;
};
tcp_send(&mut connection.stream, &message)
.await
.wrap_err_with(|| {
format!(
"failed to send AllNodesReady({uuid}) message \
to machine {machine_id}"
)
})?;
}
}
}
std::collections::hash_map::Entry::Vacant(_) => {
tracing::warn!("dataflow not running on ReadyOnMachine");
}
}
}
DataflowEvent::DataflowFinishedOnMachine { machine_id, result } => {
match running_dataflows.entry(uuid) {
std::collections::hash_map::Entry::Occupied(mut entry) => {
// Archive finished dataflow
if archived_dataflows.get(&uuid).is_none() {
archived_dataflows
.insert(uuid, ArchivedDataflow::from(entry.get()));
}
entry.get_mut().machines.remove(&machine_id);
match &result {
Ok(()) => {
tracing::info!("dataflow `{uuid}` finished successfully on machine `{machine_id}`");
}
Err(err) => {
tracing::error!("{err:?}");
}
}
dataflow_results
.entry(uuid)
.or_default()
.insert(machine_id, result.map_err(|err| format!("{err:?}")));
if entry.get_mut().machines.is_empty() {
let finished_dataflow = entry.remove();
let reply = ControlRequestReply::DataflowStopped {
uuid,
result: dataflow_results
.get(&uuid)
.map(|r| dataflow_result(r, uuid))
.unwrap_or(Ok(())),
};
for sender in finished_dataflow.reply_senders {
let _ = sender.send(Ok(reply.clone()));
}
}
}
std::collections::hash_map::Entry::Vacant(_) => {
tracing::warn!("dataflow not running on DataflowFinishedOnMachine");
}
}
}
},
Event::Control(event) => match event {
ControlEvent::IncomingRequest {
request,
reply_sender,
} => {
match request {
ControlRequest::Start {
dataflow,
name,
local_working_dir,
} => {
let name = name.or_else(|| names::Generator::default().next());
let inner = async {
if let Some(name) = name.as_deref() {
// check that name is unique
if running_dataflows
.values()
.any(|d: &RunningDataflow| d.name.as_deref() == Some(name))
{
bail!("there is already a running dataflow with name `{name}`");
}
}
let dataflow = start_dataflow(
dataflow,
local_working_dir,
name,
&mut daemon_connections,
&clock,
)
.await?;
Ok(dataflow)
};
let reply = inner.await.map(|dataflow| {
let uuid = dataflow.uuid;
running_dataflows.insert(uuid, dataflow);
ControlRequestReply::DataflowStarted { uuid }
});
let _ = reply_sender.send(reply);
}
ControlRequest::Check { dataflow_uuid } => {
let status = match &running_dataflows.get(&dataflow_uuid) {
Some(_) => ControlRequestReply::DataflowStarted {
uuid: dataflow_uuid,
},
None => ControlRequestReply::DataflowStopped {
uuid: dataflow_uuid,
result: dataflow_results
.get(&dataflow_uuid)
.map(|r| dataflow_result(r, dataflow_uuid))
.unwrap_or(Ok(())),
},
};
let _ = reply_sender.send(Ok(status));
}
ControlRequest::Reload {
dataflow_id,
node_id,
operator_id,
} => {
let reload = async {
reload_dataflow(
&running_dataflows,
dataflow_id,
node_id,
operator_id,
&mut daemon_connections,
clock.new_timestamp(),
)
.await?;
Result::<_, eyre::Report>::Ok(())
};
let reply =
reload
.await
.map(|()| ControlRequestReply::DataflowReloaded {
uuid: dataflow_id,
});
let _ = reply_sender.send(reply);
}
ControlRequest::Stop {
dataflow_uuid,
grace_duration,
} => {
stop_dataflow_by_uuid(
&mut running_dataflows,
&dataflow_results,
dataflow_uuid,
&mut daemon_connections,
reply_sender,
clock.new_timestamp(),
grace_duration,
)
.await?;
}
ControlRequest::StopByName {
name,
grace_duration,
} => match resolve_name(name, &running_dataflows, &archived_dataflows) {
Ok(uuid) => {
stop_dataflow_by_uuid(
&mut running_dataflows,
&dataflow_results,
uuid,
&mut daemon_connections,
reply_sender,
clock.new_timestamp(),
grace_duration,
)
.await?
}
Err(err) => {
let _ = reply_sender.send(Err(err));
}
},
ControlRequest::Logs { uuid, name, node } => {
let dataflow_uuid = if let Some(uuid) = uuid {
uuid
} else if let Some(name) = name {
resolve_name(name, &running_dataflows, &archived_dataflows)?
} else {
bail!("No uuid")
};
let reply = retrieve_logs(
&running_dataflows,
&archived_dataflows,
dataflow_uuid,
node.into(),
&mut daemon_connections,
clock.new_timestamp(),
)
.await
.map(ControlRequestReply::Logs);
let _ = reply_sender.send(reply);
}
ControlRequest::Destroy => {
tracing::info!("Received destroy command");
let reply = handle_destroy(
&running_dataflows,
&mut daemon_connections,
&abort_handle,
&mut daemon_events_tx,
&clock,
)
.await
.map(|()| ControlRequestReply::DestroyOk);
let _ = reply_sender.send(reply);
}
ControlRequest::List => {
let mut dataflows: Vec<_> = running_dataflows.values().collect();
dataflows.sort_by_key(|d| (&d.name, d.uuid));
let reply = Ok(ControlRequestReply::DataflowList {
dataflows: dataflows
.into_iter()
.map(|d| DataflowId {
uuid: d.uuid,
name: d.name.clone(),
})
.collect(),
});
let _ = reply_sender.send(reply);
}
ControlRequest::DaemonConnected => {
let running = !daemon_connections.is_empty();
let _ = reply_sender
.send(Ok(ControlRequestReply::DaemonConnected(running)));
}
ControlRequest::ConnectedMachines => {
let reply = Ok(ControlRequestReply::ConnectedMachines(
daemon_connections.keys().cloned().collect(),
));
let _ = reply_sender.send(reply);
}
}
}
ControlEvent::Error(err) => tracing::error!("{err:?}"),
},
Event::DaemonHeartbeatInterval => {
let mut disconnected = BTreeSet::new();
for (machine_id, connection) in &mut daemon_connections {
if connection.last_heartbeat.elapsed() > Duration::from_secs(15) {
tracing::warn!(
"no heartbeat message from machine `{machine_id}` since {:?}",
connection.last_heartbeat.elapsed()
)
}
if connection.last_heartbeat.elapsed() > Duration::from_secs(30) {
disconnected.insert(machine_id.clone());
continue;
}
let result: eyre::Result<()> = tokio::time::timeout(
Duration::from_millis(500),
send_heartbeat_message(&mut connection.stream, clock.new_timestamp()),
)
.await
.wrap_err("timeout")
.and_then(|r| r)
.wrap_err_with(|| {
format!("failed to send heartbeat message to daemon at `{machine_id}`")
});
if let Err(err) = result {
tracing::warn!("{err:?}");
disconnected.insert(machine_id.clone());
}
}
if !disconnected.is_empty() {
tracing::error!("Disconnecting daemons that failed watchdog: {disconnected:?}");
for machine_id in disconnected {
daemon_connections.remove(&machine_id);
}
}
}
Event::CtrlC => {
tracing::info!("Destroying coordinator after receiving Ctrl-C signal");
handle_destroy(
&running_dataflows,
&mut daemon_connections,
&abort_handle,
&mut daemon_events_tx,
&clock,
)
.await?;
}
Event::DaemonHeartbeat { machine_id } => {
if let Some(connection) = daemon_connections.get_mut(&machine_id) {
connection.last_heartbeat = Instant::now();
}
}
}
}
tracing::info!("stopped");
Ok(())
}
async fn stop_dataflow_by_uuid(
running_dataflows: &mut HashMap<Uuid, RunningDataflow>,
dataflow_results: &HashMap<Uuid, BTreeMap<String, Result<(), String>>>,
dataflow_uuid: Uuid,
daemon_connections: &mut HashMap<String, DaemonConnection>,
reply_sender: tokio::sync::oneshot::Sender<Result<ControlRequestReply, eyre::ErrReport>>,
timestamp: uhlc::Timestamp,
grace_duration: Option<Duration>,
) -> Result<(), eyre::ErrReport> {
let Some(dataflow) = running_dataflows.get_mut(&dataflow_uuid) else {
if let Some(result) = dataflow_results.get(&dataflow_uuid) {
let reply = ControlRequestReply::DataflowStopped {
uuid: dataflow_uuid,
result: dataflow_result(result, dataflow_uuid),
};
let _ = reply_sender.send(Ok(reply));
return Ok(());
}
bail!("no known dataflow found with UUID `{dataflow_uuid}`")
};
let stop = async {
stop_dataflow(
dataflow,
dataflow_uuid,
daemon_connections,
timestamp,
grace_duration,
)
.await?;
Result::<_, eyre::Report>::Ok(())
};
match stop.await {
Ok(()) => {
dataflow.reply_senders.push(reply_sender);
}
Err(err) => {
let _ = reply_sender.send(Err(err));
}
};
Ok(())
}
fn format_error(machine: &str, err: &str) -> String {
let mut error = err
.lines()
.fold(format!("- machine `{machine}`:\n"), |mut output, line| {
output.push_str(" ");
output.push_str(line);
output.push('\n');
output
});
error.push('\n');
error
}
fn dataflow_result(
results: &BTreeMap<String, Result<(), String>>,
dataflow_uuid: Uuid,
) -> Result<(), String> {
let mut errors = Vec::new();
for (machine, result) in results {
if let Err(err) = result {
errors.push(format_error(machine, err));
}
}
if errors.is_empty() {
Ok(())
} else {
let mut formatted = format!("errors occurred in dataflow {dataflow_uuid}:\n");
formatted.push_str(&errors.join("\n"));
Err(formatted)
}
}
struct DaemonConnection {
stream: TcpStream,
listen_socket: SocketAddr,
last_heartbeat: Instant,
}
async fn handle_destroy(
running_dataflows: &HashMap<Uuid, RunningDataflow>,
daemon_connections: &mut HashMap<String, DaemonConnection>,
abortable_events: &futures::stream::AbortHandle,
daemon_events_tx: &mut Option<mpsc::Sender<Event>>,
clock: &HLC,
) -> Result<(), eyre::ErrReport> {
abortable_events.abort();
for (&uuid, dataflow) in running_dataflows {
stop_dataflow(
dataflow,
uuid,
daemon_connections,
clock.new_timestamp(),
None,
)
.await?;
}
destroy_daemons(daemon_connections, clock.new_timestamp()).await?;
*daemon_events_tx = None;
Ok(())
}
async fn send_heartbeat_message(
connection: &mut TcpStream,
timestamp: uhlc::Timestamp,
) -> eyre::Result<()> {
let message = serde_json::to_vec(&Timestamped {
inner: DaemonCoordinatorEvent::Heartbeat,
timestamp,
})
.unwrap();
tcp_send(connection, &message)
.await
.wrap_err("failed to send heartbeat message to daemon")
}
struct RunningDataflow {
name: Option<String>,
uuid: Uuid,
/// The IDs of the machines that the dataflow is running on.
machines: BTreeSet<String>,
/// IDs of machines that are waiting until all nodes are started.
pending_machines: BTreeSet<String>,
init_success: bool,
nodes: Vec<ResolvedNode>,
reply_senders: Vec<tokio::sync::oneshot::Sender<eyre::Result<ControlRequestReply>>>,
}
struct ArchivedDataflow {
name: Option<String>,
nodes: Vec<ResolvedNode>,
}
impl From<&RunningDataflow> for ArchivedDataflow {
fn from(dataflow: &RunningDataflow) -> ArchivedDataflow {
ArchivedDataflow {
name: dataflow.name.clone(),
nodes: dataflow.nodes.clone(),
}
}
}
impl PartialEq for RunningDataflow {
fn eq(&self, other: &Self) -> bool {
self.name == other.name && self.uuid == other.uuid && self.machines == other.machines
}
}
impl Eq for RunningDataflow {}
async fn stop_dataflow(
dataflow: &RunningDataflow,
uuid: Uuid,
daemon_connections: &mut HashMap<String, DaemonConnection>,
timestamp: uhlc::Timestamp,
grace_duration: Option<Duration>,
) -> eyre::Result<()> {
let message = serde_json::to_vec(&Timestamped {
inner: DaemonCoordinatorEvent::StopDataflow {
dataflow_id: uuid,
grace_duration,
},
timestamp,
})?;
for machine_id in &dataflow.machines {
let daemon_connection = daemon_connections
.get_mut(machine_id)
.wrap_err("no daemon connection")?; // TODO: take from dataflow spec
tcp_send(&mut daemon_connection.stream, &message)
.await
.wrap_err("failed to send stop message to daemon")?;
// wait for reply
let reply_raw = tcp_receive(&mut daemon_connection.stream)
.await
.wrap_err("failed to receive stop reply from daemon")?;
match serde_json::from_slice(&reply_raw)
.wrap_err("failed to deserialize stop reply from daemon")?
{
DaemonCoordinatorReply::StopResult(result) => result
.map_err(|e| eyre!(e))
.wrap_err("failed to stop dataflow")?,
other => bail!("unexpected reply after sending stop: {other:?}"),
}
}
tracing::info!("successfully send stop dataflow `{uuid}` to all daemons");
Ok(())
}
async fn reload_dataflow(
running_dataflows: &HashMap<Uuid, RunningDataflow>,
dataflow_id: Uuid,
node_id: NodeId,
operator_id: Option<OperatorId>,
daemon_connections: &mut HashMap<String, DaemonConnection>,
timestamp: uhlc::Timestamp,
) -> eyre::Result<()> {
let Some(dataflow) = running_dataflows.get(&dataflow_id) else {
bail!("No running dataflow found with UUID `{dataflow_id}`")
};
let message = serde_json::to_vec(&Timestamped {
inner: DaemonCoordinatorEvent::ReloadDataflow {
dataflow_id,
node_id,
operator_id,
},
timestamp,
})?;
for machine_id in &dataflow.machines {
let daemon_connection = daemon_connections
.get_mut(machine_id)
.wrap_err("no daemon connection")?; // TODO: take from dataflow spec
tcp_send(&mut daemon_connection.stream, &message)
.await
.wrap_err("failed to send reload message to daemon")?;
// wait for reply
let reply_raw = tcp_receive(&mut daemon_connection.stream)
.await
.wrap_err("failed to receive reload reply from daemon")?;
match serde_json::from_slice(&reply_raw)
.wrap_err("failed to deserialize reload reply from daemon")?
{
DaemonCoordinatorReply::ReloadResult(result) => result
.map_err(|e| eyre!(e))
.wrap_err("failed to reload dataflow")?,
other => bail!("unexpected reply after sending reload: {other:?}"),
}
}
tracing::info!("successfully reloaded dataflow `{dataflow_id}`");
Ok(())
}
async fn retrieve_logs(
running_dataflows: &HashMap<Uuid, RunningDataflow>,
archived_dataflows: &HashMap<Uuid, ArchivedDataflow>,
dataflow_id: Uuid,
node_id: NodeId,
daemon_connections: &mut HashMap<String, DaemonConnection>,
timestamp: uhlc::Timestamp,
) -> eyre::Result<Vec<u8>> {
let nodes = if let Some(dataflow) = archived_dataflows.get(&dataflow_id) {
dataflow.nodes.clone()
} else if let Some(dataflow) = running_dataflows.get(&dataflow_id) {
dataflow.nodes.clone()
} else {
bail!("No dataflow found with UUID `{dataflow_id}`")
};
let message = serde_json::to_vec(&Timestamped {
inner: DaemonCoordinatorEvent::Logs {
dataflow_id,
node_id: node_id.clone(),
},
timestamp,
})?;
let machine_ids: Vec<String> = nodes
.iter()
.filter(|node| node.id == node_id)
.map(|node| node.deploy.machine.clone())
.collect();
let machine_id = if let [machine_id] = &machine_ids[..] {
machine_id
} else if machine_ids.is_empty() {
bail!("No machine contains {}/{}", dataflow_id, node_id)
} else {
bail!(
"More than one machine contains {}/{}. However, it should only be present on one.",
dataflow_id,
node_id
)
};
let daemon_connection = daemon_connections
.get_mut(machine_id.as_str())
.wrap_err("no daemon connection")?;
tcp_send(&mut daemon_connection.stream, &message)
.await
.wrap_err("failed to send logs message to daemon")?;
// wait for reply
let reply_raw = tcp_receive(&mut daemon_connection.stream)
.await
.wrap_err("failed to retrieve logs reply from daemon")?;
let reply_logs = match serde_json::from_slice(&reply_raw)
.wrap_err("failed to deserialize logs reply from daemon")?
{
DaemonCoordinatorReply::Logs(logs) => logs,
other => bail!("unexpected reply after sending logs: {other:?}"),
};
tracing::info!("successfully retrieved logs for `{dataflow_id}/{node_id}`");
reply_logs.map_err(|err| eyre!(err))
}
async fn start_dataflow(
dataflow: Descriptor,
working_dir: PathBuf,
name: Option<String>,
daemon_connections: &mut HashMap<String, DaemonConnection>,
clock: &HLC,
) -> eyre::Result<RunningDataflow> {
let SpawnedDataflow {
uuid,
machines,
nodes,
} = spawn_dataflow(dataflow, working_dir, daemon_connections, clock).await?;
Ok(RunningDataflow {
uuid,
name,
pending_machines: if machines.len() > 1 {
machines.clone()
} else {
BTreeSet::new()
},
init_success: true,
machines,
nodes,
reply_senders: Vec::new(),
})
}
async fn destroy_daemons(
daemon_connections: &mut HashMap<String, DaemonConnection>,
timestamp: uhlc::Timestamp,
) -> eyre::Result<()> {
let message = serde_json::to_vec(&Timestamped {
inner: DaemonCoordinatorEvent::Destroy,
timestamp,
})?;
for (machine_id, mut daemon_connection) in daemon_connections.drain() {
tcp_send(&mut daemon_connection.stream, &message)
.await
.wrap_err("failed to send destroy message to daemon")?;
// wait for reply
let reply_raw = tcp_receive(&mut daemon_connection.stream)
.await
.wrap_err("failed to receive destroy reply from daemon")?;
match serde_json::from_slice(&reply_raw)
.wrap_err("failed to deserialize destroy reply from daemon")?
{
DaemonCoordinatorReply::DestroyResult { result, .. } => result
.map_err(|e| eyre!(e))
.wrap_err("failed to destroy dataflow")?,
other => bail!("unexpected reply after sending `destroy`: {other:?}"),
}
tracing::info!("successfully destroyed daemon `{machine_id}`");
}
Ok(())
}
#[derive(Debug)]
pub enum Event {
NewDaemonConnection(TcpStream),
DaemonConnectError(eyre::Report),
DaemonHeartbeat { machine_id: String },
Dataflow { uuid: Uuid, event: DataflowEvent },
Control(ControlEvent),
Daemon(DaemonEvent),
DaemonHeartbeatInterval,
CtrlC,
}
impl Event {
/// Whether this event should be logged.
#[allow(clippy::match_like_matches_macro)]
pub fn log(&self) -> bool {
match self {
Event::DaemonHeartbeatInterval => false,
_ => true,
}
}
}
#[derive(Debug)]
pub enum DataflowEvent {
DataflowFinishedOnMachine {
machine_id: String,
result: eyre::Result<()>,
},
ReadyOnMachine {
machine_id: String,
success: bool,
},
}
#[derive(Debug)]
pub enum DaemonEvent {
Register {
dora_version: String,
machine_id: String,
connection: TcpStream,
listen_port: u16,
},
}
fn set_up_ctrlc_handler() -> Result<impl Stream<Item = Event>, eyre::ErrReport> {
let (ctrlc_tx, ctrlc_rx) = mpsc::channel(1);
let mut ctrlc_sent = false;
ctrlc::set_handler(move || {
if ctrlc_sent {
tracing::warn!("received second ctrlc signal -> aborting immediately");
std::process::abort();
} else {
tracing::info!("received ctrlc signal");
if ctrlc_tx.blocking_send(Event::CtrlC).is_err() {
tracing::error!("failed to report ctrl-c event to dora-coordinator");
}
ctrlc_sent = true;
}
})
.wrap_err("failed to set ctrl-c handler")?;
Ok(ReceiverStream::new(ctrlc_rx))
}
#[cfg(test)]
mod test {
#[test]
fn test_format_error() {
let machine = "machine A";
let err = "foo\nbar\nbuzz";
// old method
let old_error = {
#[allow(clippy::format_collect)]
let err: String = err.lines().map(|line| format!(" {line}\n")).collect();
format!("- machine `{machine}`:\n{err}\n")
};
let new_error = super::format_error(machine, err);
assert_eq!(old_error, new_error)
}
}
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