// SPDX-FileCopyrightText: Copyright (c) 2024-2025 NVIDIA CORPORATION & AFFILIATES. All rights reserved. // SPDX-License-Identifier: Apache-2.0 use std::sync::Arc; use crate::{ discovery::{ModelManager, ModelWatcher}, engines::StreamingEngineAdapter, entrypoint::{self, EngineConfig, input::common}, grpc::service::kserve, kv_router::KvRouterConfig, model_card, namespace::is_global_namespace, types::openai::{ chat_completions::{NvCreateChatCompletionRequest, NvCreateChatCompletionStreamResponse}, completions::{NvCreateCompletionRequest, NvCreateCompletionResponse}, }, }; use dynamo_runtime::transports::etcd; use dynamo_runtime::{DistributedRuntime, Runtime}; use dynamo_runtime::{distributed::DistributedConfig, pipeline::RouterMode}; /// Build and run an KServe gRPC service pub async fn run(runtime: Runtime, engine_config: EngineConfig) -> anyhow::Result<()> { let mut grpc_service_builder = kserve::KserveService::builder() .port(engine_config.local_model().http_port()) // [WIP] generalize port.. .with_request_template(engine_config.local_model().request_template()); let grpc_service = match engine_config { EngineConfig::Dynamic(_) => { let distributed_runtime = DistributedRuntime::from_settings(runtime.clone()).await?; let etcd_client = distributed_runtime.etcd_client(); // This allows the /health endpoint to query etcd for active instances grpc_service_builder = grpc_service_builder.with_etcd_client(etcd_client.clone()); let grpc_service = grpc_service_builder.build()?; match etcd_client { Some(ref etcd_client) => { let router_config = engine_config.local_model().router_config(); // Listen for models registering themselves in etcd, add them to gRPC service let namespace = engine_config.local_model().namespace().unwrap_or(""); let target_namespace = if is_global_namespace(namespace) { None } else { Some(namespace.to_string()) }; run_watcher( distributed_runtime, grpc_service.state().manager_clone(), etcd_client.clone(), model_card::ROOT_PATH, router_config.router_mode, Some(router_config.kv_router_config), router_config.busy_threshold, target_namespace, ) .await?; } None => { // Static endpoints don't need discovery } } grpc_service } EngineConfig::StaticRemote(local_model) => { let card = local_model.card(); let checksum = card.mdcsum(); let router_mode = local_model.router_config().router_mode; let dst_config = DistributedConfig::from_settings(true); // true means static let distributed_runtime = DistributedRuntime::new(runtime.clone(), dst_config).await?; let grpc_service = grpc_service_builder.build()?; let manager = grpc_service.model_manager(); let endpoint_id = local_model.endpoint_id(); let component = distributed_runtime .namespace(&endpoint_id.namespace)? .component(&endpoint_id.component)?; let client = component.endpoint(&endpoint_id.name).client().await?; let kv_chooser = if router_mode == RouterMode::KV { Some( manager .kv_chooser_for( &component, card.kv_cache_block_size, Some(local_model.router_config().kv_router_config), ) .await?, ) } else { None }; let tokenizer_hf = card.tokenizer_hf()?; let chat_engine = entrypoint::build_routed_pipeline::< NvCreateChatCompletionRequest, NvCreateChatCompletionStreamResponse, >( card, &client, router_mode, None, kv_chooser.clone(), tokenizer_hf.clone(), None, // No prefill chooser in grpc static mode ) .await?; manager.add_chat_completions_model( local_model.display_name(), checksum, chat_engine, )?; let completions_engine = entrypoint::build_routed_pipeline::< NvCreateCompletionRequest, NvCreateCompletionResponse, >( card, &client, router_mode, None, kv_chooser, tokenizer_hf, None, // No prefill chooser in grpc static mode ) .await?; manager.add_completions_model( local_model.display_name(), checksum, completions_engine, )?; grpc_service } EngineConfig::StaticFull { engine, model, .. } => { let grpc_service = grpc_service_builder.build()?; let engine = Arc::new(StreamingEngineAdapter::new(engine)); let manager = grpc_service.model_manager(); let checksum = model.card().mdcsum(); manager.add_completions_model(model.service_name(), checksum, engine.clone())?; manager.add_chat_completions_model(model.service_name(), checksum, engine)?; grpc_service } EngineConfig::StaticCore { engine: inner_engine, model, .. } => { let grpc_service = grpc_service_builder.build()?; let manager = grpc_service.model_manager(); let checksum = model.card().mdcsum(); let tokenizer_hf = model.card().tokenizer_hf()?; let chat_pipeline = common::build_pipeline::< NvCreateChatCompletionRequest, NvCreateChatCompletionStreamResponse, >(model.card(), inner_engine.clone(), tokenizer_hf.clone()) .await?; manager.add_chat_completions_model(model.service_name(), checksum, chat_pipeline)?; let cmpl_pipeline = common::build_pipeline::< NvCreateCompletionRequest, NvCreateCompletionResponse, >(model.card(), inner_engine, tokenizer_hf) .await?; manager.add_completions_model(model.service_name(), checksum, cmpl_pipeline)?; grpc_service } }; grpc_service.run(runtime.primary_token()).await?; runtime.shutdown(); // Cancel primary token Ok(()) } /// Spawns a task that watches for new models in etcd at network_prefix, /// and registers them with the ModelManager so that the HTTP service can use them. #[allow(clippy::too_many_arguments)] async fn run_watcher( runtime: DistributedRuntime, model_manager: Arc, etcd_client: etcd::Client, network_prefix: &str, router_mode: RouterMode, kv_router_config: Option, busy_threshold: Option, target_namespace: Option, ) -> anyhow::Result<()> { let watch_obj = ModelWatcher::new( runtime, model_manager, router_mode, kv_router_config, busy_threshold, ); tracing::info!("Watching for remote model at {network_prefix}"); let models_watcher = etcd_client.kv_get_and_watch_prefix(network_prefix).await?; let (_prefix, _watcher, receiver) = models_watcher.dissolve(); // [gluo NOTE] This is different from http::run_watcher where it alters the HTTP service // endpoint being exposed, gRPC doesn't have the same concept as the KServe service // only has one kind of inference endpoint. // Pass the sender to the watcher let _watcher_task = tokio::spawn(async move { watch_obj.watch(receiver, target_namespace.as_deref()).await; }); Ok(()) }