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csg-robomaster / binaries /runtime /src /lib.rs

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	#![warn(unsafe_op_in_unsafe_fn)]

	use dora_core::{
	config::{DataId, OperatorId},
	daemon_messages::{NodeConfig, RuntimeConfig},
	descriptor::OperatorConfig,
	};
	use dora_metrics::init_meter_provider;
	use dora_node_api::{DoraNode, Event};
	use eyre::{bail, Context, Result};
	use futures::{Stream, StreamExt};
	use futures_concurrency::stream::Merge;
	use operator::{run_operator, OperatorEvent, StopReason};

	#[cfg(feature = "tracing")]
	use dora_tracing::set_up_tracing;
	use std::{
	collections::{BTreeMap, BTreeSet, HashMap},
	mem,
	};
	use tokio::{
	runtime::Builder,
	sync::{mpsc, oneshot},
	};
	use tokio_stream::wrappers::ReceiverStream;
	mod operator;

	pub fn main() -> eyre::Result<()> {
	let config: RuntimeConfig = {
	let raw = std::env::var("DORA_RUNTIME_CONFIG")
	.wrap_err("env variable DORA_RUNTIME_CONFIG must be set")?;
	serde_yaml::from_str(&raw).context("failed to deserialize operator config")?
	};
	let RuntimeConfig {
	node: config,
	operators,
	} = config;
	let node_id = config.node_id.clone();
	#[cfg(feature = "tracing")]
	set_up_tracing(&node_id.to_string()).context("failed to set up tracing subscriber")?;

	let dataflow_descriptor = config.dataflow_descriptor.clone();

	let operator_definition = if operators.is_empty() {
	bail!("no operators");
	} else if operators.len() > 1 {
	bail!("multiple operators are not supported");
	} else {
	let mut ops = operators;
	ops.remove(0)
	};

	let (operator_events_tx, events) = mpsc::channel(1);
	let operator_id = operator_definition.id.clone();
	let operator_events = ReceiverStream::new(events).map(move \|event\| RuntimeEvent::Operator {
	id: operator_id.clone(),
	event,
	});

	let tokio_runtime = Builder::new_current_thread()
	.enable_all()
	.build()
	.wrap_err("Could not build a tokio runtime.")?;

	let mut operator_channels = HashMap::new();
	let queue_sizes = queue_sizes(&operator_definition.config);
	let (operator_channel, incoming_events) =
	operator::channel::channel(tokio_runtime.handle(), queue_sizes);
	operator_channels.insert(operator_definition.id.clone(), operator_channel);

	tracing::info!("spawning main task");
	let operator_config = [(
	operator_definition.id.clone(),
	operator_definition.config.clone(),
	)]
	.into_iter()
	.collect();
	let (init_done_tx, init_done) = oneshot::channel();
	let main_task = std::thread::spawn(move \|\| -> Result<()> {
	tokio_runtime.block_on(run(
	operator_config,
	config,
	operator_events,
	operator_channels,
	init_done,
	))
	});

	let operator_id = operator_definition.id.clone();
	run_operator(
	&node_id,
	operator_definition,
	incoming_events,
	operator_events_tx,
	init_done_tx,
	&dataflow_descriptor,
	)
	.wrap_err_with(\|\| format!("failed to run operator {operator_id}"))?;

	match main_task.join() {
	Ok(result) => result.wrap_err("main task failed")?,
	Err(panic) => std::panic::resume_unwind(panic),
	}

	Ok(())
	}

	fn queue_sizes(config: &OperatorConfig) -> std::collections::BTreeMap<DataId, usize> {
	let mut sizes = BTreeMap::new();
	for (input_id, input) in &config.inputs {
	let queue_size = input.queue_size.unwrap_or(10);
	sizes.insert(input_id.clone(), queue_size);
	}
	sizes
	}

	#[tracing::instrument(skip(operator_events, operator_channels), level = "trace")]
	async fn run(
	operators: HashMap<OperatorId, OperatorConfig>,
	config: NodeConfig,
	operator_events: impl Stream<Item = RuntimeEvent> + Unpin,
	mut operator_channels: HashMap<OperatorId, flume::Sender<Event>>,
	init_done: oneshot::Receiver<Result<()>>,
	) -> eyre::Result<()> {
	#[cfg(feature = "metrics")]
	let _meter_provider = init_meter_provider(config.node_id.to_string());
	init_done
	.await
	.wrap_err("the `init_done` channel was closed unexpectedly")?
	.wrap_err("failed to init an operator")?;
	tracing::info!("All operators are ready, starting runtime");

	let (mut node, mut daemon_events) = DoraNode::init(config)?;
	let (daemon_events_tx, daemon_event_stream) = flume::bounded(1);
	tokio::task::spawn_blocking(move \|\| {
	while let Some(event) = daemon_events.recv() {
	if daemon_events_tx.send(RuntimeEvent::Event(event)).is_err() {
	break;
	}
	}
	});
	let mut events = (operator_events, daemon_event_stream.into_stream()).merge();

	let mut open_operator_inputs: HashMap<_, BTreeSet<_>> = operators
	.iter()
	.map(\|(id, config)\| (id, config.inputs.keys().collect()))
	.collect();

	while let Some(event) = events.next().await {
	match event {
	RuntimeEvent::Operator {
	id: operator_id,
	event,
	} => {
	match event {
	OperatorEvent::Error(err) => {
	bail!(err.wrap_err(format!(
	"operator {}/{operator_id} raised an error",
	node.id()
	)))
	}
	OperatorEvent::Panic(payload) => {
	bail!("operator {operator_id} panicked: {payload:?}");
	}
	OperatorEvent::Finished { reason } => {
	if let StopReason::ExplicitStopAll = reason {
	// let hlc = dora_core::message::uhlc::HLC::default();
	// let metadata = dora_core::message::Metadata::new(hlc.new_timestamp());
	// let data = metadata
	// .serialize()
	// .wrap_err("failed to serialize stop message")?;
	todo!("instruct dora-daemon/dora-coordinator to stop other nodes");
	// manual_stop_publisher
	// .publish(&data)
	// .map_err(\|err\| eyre::eyre!(err))
	// .wrap_err("failed to send stop message")?;
	// break;
	}

	let Some(config) = operators.get(&operator_id) else {
	tracing::warn!(
	"received Finished event for unknown operator `{operator_id}`"
	);
	continue;
	};
	let outputs = config
	.outputs
	.iter()
	.map(\|output_id\| operator_output_id(&operator_id, output_id))
	.collect();
	let result;
	(node, result) = tokio::task::spawn_blocking(move \|\| {
	let result = node.close_outputs(outputs);
	(node, result)
	})
	.await
	.wrap_err("failed to wait for close_outputs task")?;
	result.wrap_err("failed to close outputs of finished operator")?;

	operator_channels.remove(&operator_id);

	if operator_channels.is_empty() {
	break;
	}
	}
	OperatorEvent::AllocateOutputSample { len, sample: tx } => {
	let sample = node.allocate_data_sample(len);
	if tx.send(sample).is_err() {
	tracing::warn!("output sample requested, but operator {operator_id} exited already");
	}
	}
	OperatorEvent::Output {
	output_id,
	type_info,
	parameters,
	data,
	} => {
	let output_id = operator_output_id(&operator_id, &output_id);
	let result;
	(node, result) = tokio::task::spawn_blocking(move \|\| {
	let result =
	node.send_output_sample(output_id, type_info, parameters, data);
	(node, result)
	})
	.await
	.wrap_err("failed to wait for send_output task")?;
	result.wrap_err("failed to send node output")?;
	}
	}
	}
	RuntimeEvent::Event(Event::Stop) => {
	// forward stop event to all operators and close the event channels
	for (_, channel) in operator_channels.drain() {
	let _ = channel.send_async(Event::Stop).await;
	}
	}
	RuntimeEvent::Event(Event::Reload {
	operator_id: Some(operator_id),
	}) => {
	let _ = operator_channels
	.get(&operator_id)
	.unwrap()
	.send_async(Event::Reload {
	operator_id: Some(operator_id),
	})
	.await;
	}
	RuntimeEvent::Event(Event::Reload { operator_id: None }) => {
	tracing::warn!("Reloading runtime nodes is not supported");
	}
	RuntimeEvent::Event(Event::Input { id, metadata, data }) => {
	let Some((operator_id, input_id)) = id.as_str().split_once('/') else {
	tracing::warn!("received non-operator input {id}");
	continue;
	};
	let operator_id = OperatorId::from(operator_id.to_owned());
	let input_id = DataId::from(input_id.to_owned());
	let Some(operator_channel) = operator_channels.get(&operator_id) else {
	tracing::warn!("received input {id} for unknown operator");
	continue;
	};

	if let Err(err) = operator_channel
	.send_async(Event::Input {
	id: input_id.clone(),
	metadata,
	data,
	})
	.await
	.wrap_err_with(\|\| {
	format!("failed to send input `{input_id}` to operator `{operator_id}`")
	})
	{
	tracing::warn!("{err}");
	}
	}
	RuntimeEvent::Event(Event::InputClosed { id }) => {
	let Some((operator_id, input_id)) = id.as_str().split_once('/') else {
	tracing::warn!("received InputClosed event for non-operator input {id}");
	continue;
	};
	let operator_id = OperatorId::from(operator_id.to_owned());
	let input_id = DataId::from(input_id.to_owned());

	let Some(operator_channel) = operator_channels.get(&operator_id) else {
	tracing::warn!("received input {id} for unknown operator");
	continue;
	};
	if let Err(err) = operator_channel
	.send_async(Event::InputClosed {
	id: input_id.clone(),
	})
	.await
	.wrap_err_with(\|\| {
	format!(
	"failed to send InputClosed({input_id}) to operator `{operator_id}`"
	)
	})
	{
	tracing::warn!("{err}");
	}

	if let Some(open_inputs) = open_operator_inputs.get_mut(&operator_id) {
	open_inputs.remove(&input_id);
	if open_inputs.is_empty() {
	// all inputs of the node were closed -> close its event channel
	tracing::trace!("all inputs of operator {}/{operator_id} were closed -> closing event channel", node.id());
	open_operator_inputs.remove(&operator_id);
	operator_channels.remove(&operator_id);
	}
	}
	}
	RuntimeEvent::Event(Event::Error(err)) => eyre::bail!("received error event: {err}"),
	RuntimeEvent::Event(other) => {
	tracing::warn!("received unknown event `{other:?}`");
	}
	}
	}

	mem::drop(events);

	Ok(())
	}

	fn operator_output_id(operator_id: &OperatorId, output_id: &DataId) -> DataId {
	DataId::from(format!("{operator_id}/{output_id}"))
	}

	#[derive(Debug)]
	enum RuntimeEvent {
	Operator {
	id: OperatorId,
	event: OperatorEvent,
	},
	Event(Event),
	}