// SPDX-FileCopyrightText: Copyright (c) 2024-2025 NVIDIA CORPORATION & AFFILIATES. All rights reserved. // SPDX-License-Identifier: Apache-2.0 use anyhow::Context; use anyhow::Result; use async_trait::async_trait; use futures::stream::StreamExt; use futures::{Stream, TryStreamExt}; use serde::Deserialize; use serde::Serialize; use crate::component::Namespace; use crate::metrics::{MetricsHierarchy, MetricsRegistry}; use crate::traits::DistributedRuntimeProvider; use crate::traits::events::{EventPublisher, EventSubscriber}; #[async_trait] impl EventPublisher for Namespace { fn subject(&self) -> String { format!("namespace.{}", self.name) } async fn publish( &self, event_name: impl AsRef + Send + Sync, event: &(impl Serialize + Send + Sync), ) -> Result<()> { let bytes = serde_json::to_vec(event)?; self.publish_bytes(event_name, bytes).await } async fn publish_bytes( &self, event_name: impl AsRef + Send + Sync, bytes: Vec, ) -> Result<()> { let subject = format!("{}.{}", self.subject(), event_name.as_ref()); self.drt() .kv_router_nats_publish(subject, bytes.into()) .await?; Ok(()) } } #[async_trait] impl EventSubscriber for Namespace { async fn subscribe( &self, event_name: impl AsRef + Send + Sync, ) -> Result { let subject = format!("{}.{}", self.subject(), event_name.as_ref()); Ok(self.drt().kv_router_nats_subscribe(subject).await?) } async fn subscribe_with_type Deserialize<'de> + Send + 'static>( &self, event_name: impl AsRef + Send + Sync, ) -> Result> + Send> { let subscriber = self.subscribe(event_name).await?; // Transform the subscriber into a stream of deserialized events let stream = subscriber.map(move |msg| { serde_json::from_slice::(&msg.payload) .with_context(|| format!("Failed to deserialize event payload: {:?}", msg.payload)) }); Ok(stream) } } impl MetricsHierarchy for Namespace { fn basename(&self) -> String { self.name.clone() } fn parent_hierarchies(&self) -> Vec<&dyn MetricsHierarchy> { let mut parents = vec![]; // Walk up the namespace parent chain (grandparents to immediate parent) let parent_chain: Vec<&Namespace> = std::iter::successors(self.parent.as_deref(), |ns| ns.parent.as_deref()).collect(); // Add DRT first (root) parents.push(&*self.runtime as &dyn MetricsHierarchy); // Then add parent namespaces in reverse order (root -> leaf) for parent_ns in parent_chain.iter().rev() { parents.push(*parent_ns as &dyn MetricsHierarchy); } parents } fn get_metrics_registry(&self) -> &MetricsRegistry { &self.metrics_registry } } #[cfg(feature = "integration")] #[cfg(test)] mod tests { use crate::{DistributedRuntime, Runtime}; use super::*; // todo - make a distributed runtime fixture // todo - two options - fully mocked or integration test #[tokio::test] async fn test_publish() { let rt = Runtime::from_current().unwrap(); let dtr = DistributedRuntime::from_settings(rt.clone()).await.unwrap(); let ns = dtr.namespace("test_namespace_publish".to_string()).unwrap(); ns.publish("test_event", &"test".to_string()).await.unwrap(); rt.shutdown(); } #[tokio::test] async fn test_subscribe() { let rt = Runtime::from_current().unwrap(); let dtr = DistributedRuntime::from_settings(rt.clone()).await.unwrap(); let ns = dtr .namespace("test_namespace_subscribe".to_string()) .unwrap(); // Create a subscriber let mut subscriber = ns.subscribe("test_event").await.unwrap(); // Publish a message ns.publish("test_event", &"test_message".to_string()) .await .unwrap(); // Receive the message if let Some(msg) = subscriber.next().await { let received = String::from_utf8(msg.payload.to_vec()).unwrap(); assert_eq!(received, "\"test_message\""); } rt.shutdown(); } }