1use std::net::SocketAddr;
2use std::path::PathBuf;
3use std::sync::Arc;
4
5use anyhow::{anyhow, Context, Result};
6use axum::{
7 extract::Json,
8 extract::Query,
9 extract::State,
10 http::{header, Request, StatusCode},
11 middleware::{self, Next},
12 response::sse::{Event as SseEvent, KeepAlive, Sse},
13 response::{IntoResponse, Response},
14 routing::get,
15 Router,
16};
17use futures::Stream;
18use rmcp::transport::{StreamableHttpServerConfig, StreamableHttpService};
19use serde::Deserialize;
20use serde_json::Value;
21use tokio::sync::broadcast;
22use tokio::time::{Duration, Instant};
23
24use crate::core::context_os::ContextOsMetrics;
25use crate::engine::ContextEngine;
26use crate::tools::LeanCtxServer;
27
28pub mod context_views;
29
30#[cfg(feature = "team-server")]
31pub mod team;
32
33use std::pin::Pin;
35
36pub(crate) struct SseDisconnectGuard<I> {
37 pub(crate) inner: Pin<Box<dyn Stream<Item = I> + Send>>,
38 pub(crate) metrics: Arc<ContextOsMetrics>,
39}
40
41impl<I> Stream for SseDisconnectGuard<I> {
42 type Item = I;
43
44 fn poll_next(
45 mut self: Pin<&mut Self>,
46 cx: &mut std::task::Context<'_>,
47 ) -> std::task::Poll<Option<Self::Item>> {
48 self.inner.as_mut().poll_next(cx)
49 }
50}
51
52impl<I> Drop for SseDisconnectGuard<I> {
53 fn drop(&mut self) {
54 self.metrics.record_sse_disconnect();
55 }
56}
57
58const MAX_ID_LEN: usize = 64;
59
60fn sanitize_id(raw: &str) -> String {
61 let trimmed = raw.trim();
62 if trimmed.is_empty() {
63 return "default".to_string();
64 }
65 let cleaned: String = trimmed
66 .chars()
67 .filter(|c| c.is_ascii_alphanumeric() || *c == '-' || *c == '_' || *c == '.')
68 .take(MAX_ID_LEN)
69 .collect();
70 if cleaned.is_empty() {
71 "default".to_string()
72 } else {
73 cleaned
74 }
75}
76
77#[derive(Clone, Debug)]
78pub struct HttpServerConfig {
79 pub host: String,
80 pub port: u16,
81 pub project_root: PathBuf,
82 pub auth_token: Option<String>,
83 pub stateful_mode: bool,
84 pub json_response: bool,
85 pub disable_host_check: bool,
86 pub allowed_hosts: Vec<String>,
87 pub max_body_bytes: usize,
88 pub max_concurrency: usize,
89 pub max_rps: u32,
90 pub rate_burst: u32,
91 pub request_timeout_ms: u64,
92}
93
94impl Default for HttpServerConfig {
95 fn default() -> Self {
96 let project_root = std::env::current_dir().unwrap_or_else(|_| PathBuf::from("."));
97 Self {
98 host: "127.0.0.1".to_string(),
99 port: 8080,
100 project_root,
101 auth_token: None,
102 stateful_mode: false,
103 json_response: true,
104 disable_host_check: false,
105 allowed_hosts: Vec::new(),
106 max_body_bytes: 2 * 1024 * 1024,
107 max_concurrency: 32,
108 max_rps: 50,
109 rate_burst: 100,
110 request_timeout_ms: 30_000,
111 }
112 }
113}
114
115impl HttpServerConfig {
116 pub fn validate(&self) -> Result<()> {
117 let host = self.host.trim().to_lowercase();
118 let is_loopback = host == "127.0.0.1" || host == "localhost" || host == "::1";
119 if !is_loopback && self.auth_token.as_deref().unwrap_or("").is_empty() {
120 return Err(anyhow!(
121 "Refusing to bind to host='{host}' without auth. Provide --auth-token (or bind to 127.0.0.1)."
122 ));
123 }
124 Ok(())
125 }
126
127 fn mcp_http_config(&self) -> StreamableHttpServerConfig {
128 let mut cfg = StreamableHttpServerConfig::default()
129 .with_stateful_mode(self.stateful_mode)
130 .with_json_response(self.json_response);
131
132 if self.disable_host_check {
133 tracing::warn!(
134 "⚠ --disable-host-check is active: DNS rebinding protection is OFF. \
135 Do NOT use this in production or on non-loopback interfaces."
136 );
137 cfg = cfg.disable_allowed_hosts();
138 return cfg;
139 }
140
141 if !self.allowed_hosts.is_empty() {
142 cfg = cfg.with_allowed_hosts(self.allowed_hosts.clone());
143 return cfg;
144 }
145
146 let host = self.host.trim();
148 if host == "127.0.0.1" || host == "localhost" || host == "::1" {
149 cfg.allowed_hosts.push(host.to_string());
150 }
151
152 cfg
153 }
154}
155
156#[derive(Clone)]
157struct AppState {
158 token: Option<String>,
159 concurrency: Arc<tokio::sync::Semaphore>,
160 rate: Arc<RateLimiter>,
161 project_root: String,
162 timeout: Duration,
163 server: LeanCtxServer,
164}
165
166#[derive(Debug)]
167struct RateLimiter {
168 max_rps: f64,
169 burst: f64,
170 state: tokio::sync::Mutex<RateState>,
171}
172
173#[derive(Debug, Clone, Copy)]
174struct RateState {
175 tokens: f64,
176 last: Instant,
177}
178
179impl RateLimiter {
180 fn new(max_rps: u32, burst: u32) -> Self {
181 let now = Instant::now();
182 Self {
183 max_rps: (max_rps.max(1)) as f64,
184 burst: (burst.max(1)) as f64,
185 state: tokio::sync::Mutex::new(RateState {
186 tokens: (burst.max(1)) as f64,
187 last: now,
188 }),
189 }
190 }
191
192 async fn allow(&self) -> bool {
193 let mut s = self.state.lock().await;
194 let now = Instant::now();
195 let elapsed = now.saturating_duration_since(s.last);
196 let refill = elapsed.as_secs_f64() * self.max_rps;
197 s.tokens = (s.tokens + refill).min(self.burst);
198 s.last = now;
199 if s.tokens >= 1.0 {
200 s.tokens -= 1.0;
201 true
202 } else {
203 false
204 }
205 }
206}
207
208async fn auth_middleware(
209 State(state): State<AppState>,
210 req: Request<axum::body::Body>,
211 next: Next,
212) -> Response {
213 if state.token.is_none() {
214 return next.run(req).await;
215 }
216
217 if req.uri().path() == "/health" {
218 return next.run(req).await;
219 }
220
221 let expected = state.token.as_deref().unwrap_or("");
222 let Some(h) = req.headers().get(header::AUTHORIZATION) else {
223 return StatusCode::UNAUTHORIZED.into_response();
224 };
225 let Ok(s) = h.to_str() else {
226 return StatusCode::UNAUTHORIZED.into_response();
227 };
228 let Some(token) = s
229 .strip_prefix("Bearer ")
230 .or_else(|| s.strip_prefix("bearer "))
231 else {
232 return StatusCode::UNAUTHORIZED.into_response();
233 };
234 if !constant_time_eq(token.as_bytes(), expected.as_bytes()) {
235 return StatusCode::UNAUTHORIZED.into_response();
236 }
237
238 next.run(req).await
239}
240
241fn constant_time_eq(a: &[u8], b: &[u8]) -> bool {
242 use subtle::ConstantTimeEq;
243 if a.len() != b.len() {
244 return false;
245 }
246 bool::from(a.ct_eq(b))
247}
248
249async fn rate_limit_middleware(
250 State(state): State<AppState>,
251 req: Request<axum::body::Body>,
252 next: Next,
253) -> Response {
254 if !state.rate.allow().await {
255 return StatusCode::TOO_MANY_REQUESTS.into_response();
256 }
257 next.run(req).await
258}
259
260async fn concurrency_middleware(
261 State(state): State<AppState>,
262 req: Request<axum::body::Body>,
263 next: Next,
264) -> Response {
265 let Ok(permit) = state.concurrency.clone().try_acquire_owned() else {
266 return StatusCode::TOO_MANY_REQUESTS.into_response();
267 };
268 let resp = next.run(req).await;
269 drop(permit);
270 resp
271}
272
273async fn health() -> impl IntoResponse {
274 (StatusCode::OK, "ok\n")
275}
276
277async fn v1_shutdown() -> impl IntoResponse {
278 tokio::spawn(async {
279 tokio::time::sleep(Duration::from_millis(100)).await;
280 std::process::exit(0);
281 });
282 (StatusCode::OK, "shutting down\n")
283}
284
285#[derive(Debug, Deserialize)]
286#[serde(rename_all = "camelCase")]
287#[allow(dead_code)]
288struct ToolCallBody {
289 name: String,
290 #[serde(default)]
291 arguments: Option<Value>,
292 #[serde(default)]
293 workspace_id: Option<String>,
294 #[serde(default)]
295 channel_id: Option<String>,
296}
297
298#[derive(Debug, Deserialize)]
299#[serde(rename_all = "camelCase")]
300struct EventsQuery {
301 #[serde(default)]
302 workspace_id: Option<String>,
303 #[serde(default)]
304 channel_id: Option<String>,
305 #[serde(default)]
306 since: Option<i64>,
307 #[serde(default)]
308 limit: Option<usize>,
309 #[serde(default)]
312 kind: Option<String>,
313}
314
315async fn v1_manifest(State(state): State<AppState>) -> impl IntoResponse {
316 let _ = state;
317 let v = crate::core::mcp_manifest::manifest_value();
318 (StatusCode::OK, Json(v))
319}
320
321#[derive(Debug, Deserialize)]
322#[serde(rename_all = "camelCase")]
323struct ToolsQuery {
324 #[serde(default)]
325 offset: Option<usize>,
326 #[serde(default)]
327 limit: Option<usize>,
328}
329
330async fn v1_tools(State(state): State<AppState>, Query(q): Query<ToolsQuery>) -> impl IntoResponse {
331 let _ = state;
332 let v = crate::core::mcp_manifest::manifest_value();
333 let tools = v
334 .get("tools")
335 .and_then(|t| t.get("granular"))
336 .cloned()
337 .unwrap_or(Value::Array(vec![]));
338
339 let all = tools.as_array().cloned().unwrap_or_default();
340 let total = all.len();
341 let offset = q.offset.unwrap_or(0).min(total);
342 let limit = q.limit.unwrap_or(200).min(500);
343 let page = all.into_iter().skip(offset).take(limit).collect::<Vec<_>>();
344
345 (
346 StatusCode::OK,
347 Json(serde_json::json!({
348 "tools": page,
349 "total": total,
350 "offset": offset,
351 "limit": limit,
352 })),
353 )
354}
355
356async fn v1_tool_call(
357 State(state): State<AppState>,
358 Json(body): Json<ToolCallBody>,
359) -> impl IntoResponse {
360 let engine = ContextEngine::from_server(state.server.clone());
361 match tokio::time::timeout(
362 state.timeout,
363 engine.call_tool_value(&body.name, body.arguments),
364 )
365 .await
366 {
367 Ok(Ok(v)) => (StatusCode::OK, Json(serde_json::json!({ "result": v }))).into_response(),
368 Ok(Err(e)) => {
369 tracing::warn!("tool call error: {e}");
370 (
371 StatusCode::BAD_REQUEST,
372 Json(serde_json::json!({ "error": "tool_error", "code": "TOOL_ERROR" })),
373 )
374 .into_response()
375 }
376 Err(_) => (
377 StatusCode::GATEWAY_TIMEOUT,
378 Json(serde_json::json!({ "error": "request_timeout" })),
379 )
380 .into_response(),
381 }
382}
383
384async fn v1_events(
385 State(state): State<AppState>,
386 Query(q): Query<EventsQuery>,
387) -> Sse<impl Stream<Item = Result<SseEvent, std::convert::Infallible>>> {
388 use crate::core::context_os::{redact_event_payload, ContextEventV1, RedactionLevel};
389
390 let ws = sanitize_id(&q.workspace_id.unwrap_or_else(|| "default".to_string()));
391 let ch = sanitize_id(&q.channel_id.unwrap_or_else(|| "default".to_string()));
392 let _ = &state.project_root;
393 let since = q.since.unwrap_or(0);
394 let limit = q.limit.unwrap_or(200).min(1000);
395 let redaction = RedactionLevel::RefsOnly;
396
397 let kind_filter: Option<Vec<String>> = q
398 .kind
399 .as_deref()
400 .map(|k| k.split(',').map(|s| s.trim().to_string()).collect());
401
402 let rt = crate::core::context_os::runtime();
403 let replay = rt.bus.read(&ws, &ch, since, limit);
404
405 let replay = if let Some(ref kinds) = kind_filter {
406 replay
407 .into_iter()
408 .filter(|ev| kinds.contains(&ev.kind))
409 .collect()
410 } else {
411 replay
412 };
413
414 let rx = if let Some(ref kinds) = kind_filter {
415 let kind_refs: Vec<&str> = kinds.iter().map(String::as_str).collect();
416 let filter = crate::core::context_os::TopicFilter::kinds(&kind_refs);
417 if let Some(sub) = rt.bus.subscribe_filtered(&ws, &ch, filter) {
418 crate::core::context_os::SubscriptionKind::Filtered(sub)
419 } else {
420 tracing::warn!("SSE subscriber limit reached for {ws}/{ch}");
421 let (_, rx) = broadcast::channel::<ContextEventV1>(1);
422 crate::core::context_os::SubscriptionKind::Unfiltered(rx)
423 }
424 } else if let Some(sub) = rt.bus.subscribe(&ws, &ch) {
425 crate::core::context_os::SubscriptionKind::Unfiltered(sub)
426 } else {
427 tracing::warn!("SSE subscriber limit reached for {ws}/{ch}");
428 let (_, rx) = broadcast::channel::<ContextEventV1>(1);
429 crate::core::context_os::SubscriptionKind::Unfiltered(rx)
430 };
431
432 rt.metrics.record_sse_connect();
433 rt.metrics.record_events_replayed(replay.len() as u64);
434 rt.metrics.record_workspace_active(&ws);
435
436 let bus = rt.bus.clone();
437 let metrics = rt.metrics.clone();
438 let pending: std::collections::VecDeque<ContextEventV1> = replay.into();
439
440 let stream = futures::stream::unfold(
441 (
442 pending,
443 rx,
444 ws.clone(),
445 ch.clone(),
446 since,
447 redaction,
448 bus,
449 metrics,
450 ),
451 |(mut pending, mut rx, ws, ch, mut last_id, redaction, bus, metrics)| async move {
452 if let Some(mut ev) = pending.pop_front() {
453 last_id = ev.id;
454 redact_event_payload(&mut ev, redaction);
455 let data = serde_json::to_string(&ev).unwrap_or_else(|_| "{}".to_string());
456 let evt = SseEvent::default()
457 .id(ev.id.to_string())
458 .event(ev.kind)
459 .data(data);
460 return Some((
461 Ok(evt),
462 (pending, rx, ws, ch, last_id, redaction, bus, metrics),
463 ));
464 }
465
466 loop {
467 match rx.recv().await {
468 Ok(mut ev) if ev.id > last_id => {
469 last_id = ev.id;
470 redact_event_payload(&mut ev, redaction);
471 let data = serde_json::to_string(&ev).unwrap_or_else(|_| "{}".to_string());
472 let evt = SseEvent::default()
473 .id(ev.id.to_string())
474 .event(ev.kind)
475 .data(data);
476 return Some((
477 Ok(evt),
478 (pending, rx, ws, ch, last_id, redaction, bus, metrics),
479 ));
480 }
481 Ok(_) => {}
482 Err(broadcast::error::RecvError::Closed) => return None,
483 Err(broadcast::error::RecvError::Lagged(skipped)) => {
484 let missed = bus.read(&ws, &ch, last_id, skipped as usize);
485 metrics.record_events_replayed(missed.len() as u64);
486 for ev in missed {
487 last_id = last_id.max(ev.id);
488 pending.push_back(ev);
489 }
490 }
491 }
492 }
493 },
494 );
495
496 let metrics_ref = rt.metrics.clone();
497 let guarded = SseDisconnectGuard {
498 inner: Box::pin(stream),
499 metrics: metrics_ref,
500 };
501
502 Sse::new(guarded).keep_alive(KeepAlive::new().interval(Duration::from_secs(15)))
503}
504
505async fn v1_metrics(State(_state): State<AppState>) -> impl IntoResponse {
506 let rt = crate::core::context_os::runtime();
507 let snap = rt.metrics.snapshot();
508 (
509 StatusCode::OK,
510 Json(serde_json::to_value(snap).unwrap_or_default()),
511 )
512}
513
514const MAX_HANDOFF_PAYLOAD_BYTES: usize = 1_000_000;
515const MAX_HANDOFF_FILES: usize = 50;
516
517async fn v1_a2a_handoff(
518 State(state): State<AppState>,
519 Json(body): Json<Value>,
520) -> impl IntoResponse {
521 let envelope = match crate::core::a2a_transport::parse_envelope(
522 &serde_json::to_string(&body).unwrap_or_default(),
523 ) {
524 Ok(env) => env,
525 Err(e) => {
526 tracing::warn!("a2a handoff parse error: {e}");
527 return (
528 StatusCode::BAD_REQUEST,
529 Json(serde_json::json!({"error": "invalid_envelope"})),
530 );
531 }
532 };
533
534 if envelope.payload_json.len() > MAX_HANDOFF_PAYLOAD_BYTES {
535 tracing::warn!(
536 "a2a handoff payload too large: {} bytes (limit {MAX_HANDOFF_PAYLOAD_BYTES})",
537 envelope.payload_json.len()
538 );
539 return (
540 StatusCode::PAYLOAD_TOO_LARGE,
541 Json(serde_json::json!({"error": "payload_too_large"})),
542 );
543 }
544
545 let rt = crate::core::context_os::runtime();
546 rt.bus.append(
547 &state.project_root,
548 "a2a",
549 &crate::core::context_os::ContextEventKindV1::SessionMutated,
550 Some(&envelope.sender.agent_id),
551 serde_json::json!({
552 "type": "handoff_received",
553 "content_type": format!("{:?}", envelope.content_type),
554 "sender": envelope.sender.agent_id,
555 "payload_size": envelope.payload_json.len(),
556 }),
557 );
558
559 match envelope.content_type {
560 crate::core::a2a_transport::TransportContentType::ContextPackage => {
561 let dir = std::path::Path::new(&state.project_root)
562 .join(".lean-ctx")
563 .join("handoffs")
564 .join("packages");
565 let _ = std::fs::create_dir_all(&dir);
566 evict_oldest_files(&dir, MAX_HANDOFF_FILES);
567 let out = dir.join(format!(
568 "ctx-{}.lctxpkg",
569 chrono::Utc::now().format("%Y%m%d_%H%M%S")
570 ));
571 if let Err(e) = std::fs::write(&out, &envelope.payload_json) {
572 tracing::error!("a2a handoff write failed: {e}");
573 return (
574 StatusCode::INTERNAL_SERVER_ERROR,
575 Json(serde_json::json!({"error": "write_failed"})),
576 );
577 }
578 (
579 StatusCode::OK,
580 Json(serde_json::json!({
581 "status": "received",
582 "content_type": "context_package",
583 })),
584 )
585 }
586 crate::core::a2a_transport::TransportContentType::HandoffBundle => {
587 let dir = std::path::Path::new(&state.project_root)
588 .join(".lean-ctx")
589 .join("handoffs");
590 let _ = std::fs::create_dir_all(&dir);
591 evict_oldest_files(&dir, MAX_HANDOFF_FILES);
592 let out = dir.join(format!(
593 "received-{}.json",
594 chrono::Utc::now().format("%Y%m%d_%H%M%S")
595 ));
596 if let Err(e) = std::fs::write(&out, &envelope.payload_json) {
597 tracing::error!("a2a handoff write failed: {e}");
598 return (
599 StatusCode::INTERNAL_SERVER_ERROR,
600 Json(serde_json::json!({"error": "write_failed"})),
601 );
602 }
603 (
604 StatusCode::OK,
605 Json(serde_json::json!({
606 "status": "received",
607 "content_type": "handoff_bundle",
608 })),
609 )
610 }
611 _ => (
612 StatusCode::OK,
613 Json(serde_json::json!({
614 "status": "received",
615 "content_type": format!("{:?}", envelope.content_type),
616 })),
617 ),
618 }
619}
620
621fn evict_oldest_files(dir: &std::path::Path, max_files: usize) {
622 let Ok(entries) = std::fs::read_dir(dir) else {
623 return;
624 };
625 let mut files: Vec<(std::time::SystemTime, std::path::PathBuf)> = entries
626 .filter_map(|e| {
627 let e = e.ok()?;
628 let meta = e.metadata().ok()?;
629 if meta.is_file() {
630 Some((meta.modified().unwrap_or(std::time::UNIX_EPOCH), e.path()))
631 } else {
632 None
633 }
634 })
635 .collect();
636
637 if files.len() < max_files {
638 return;
639 }
640 files.sort_by_key(|(mtime, _)| *mtime);
641 let to_remove = files.len().saturating_sub(max_files.saturating_sub(1));
642 for (_, path) in files.into_iter().take(to_remove) {
643 let _ = std::fs::remove_file(path);
644 }
645}
646
647async fn a2a_jsonrpc(Json(body): Json<Value>) -> impl IntoResponse {
648 let req: crate::core::a2a::a2a_compat::JsonRpcRequest = match serde_json::from_value(body) {
649 Ok(r) => r,
650 Err(e) => {
651 tracing::debug!("a2a JSON-RPC parse error: {e}");
652 return (
653 StatusCode::BAD_REQUEST,
654 Json(serde_json::json!({
655 "jsonrpc": "2.0",
656 "id": null,
657 "error": {"code": -32700, "message": "invalid request"}
658 })),
659 );
660 }
661 };
662 let resp = crate::core::a2a::a2a_compat::handle_a2a_jsonrpc(&req);
663 let json = serde_json::to_value(resp).unwrap_or_default();
664 (StatusCode::OK, Json(json))
665}
666
667async fn v1_a2a_agent_card(State(state): State<AppState>) -> impl IntoResponse {
668 let card = crate::core::a2a::agent_card::build_agent_card(&state.project_root);
669 (
670 StatusCode::OK,
671 [(header::CONTENT_TYPE, "application/json")],
672 Json(card),
673 )
674}
675
676fn build_app_router(cfg: &HttpServerConfig) -> Router {
677 let project_root = cfg.project_root.to_string_lossy().to_string();
678 let service_project_root = project_root.clone();
679 let service_factory = move || -> Result<LeanCtxServer, std::io::Error> {
680 Ok(LeanCtxServer::new_shared_with_context(
681 &service_project_root,
682 "default",
683 "default",
684 ))
685 };
686 let mcp_http = StreamableHttpService::new(
687 service_factory,
688 Arc::new(
689 rmcp::transport::streamable_http_server::session::local::LocalSessionManager::default(),
690 ),
691 cfg.mcp_http_config(),
692 );
693
694 let rest_server = LeanCtxServer::new_shared_with_context(&project_root, "default", "default");
695
696 let state = AppState {
697 token: cfg.auth_token.clone().filter(|t| !t.is_empty()),
698 concurrency: Arc::new(tokio::sync::Semaphore::new(cfg.max_concurrency.max(1))),
699 rate: Arc::new(RateLimiter::new(cfg.max_rps, cfg.rate_burst)),
700 project_root,
701 timeout: Duration::from_millis(cfg.request_timeout_ms.max(1)),
702 server: rest_server,
703 };
704
705 Router::new()
706 .route("/health", get(health))
707 .route("/v1/shutdown", axum::routing::post(v1_shutdown))
708 .route("/v1/manifest", get(v1_manifest))
709 .route("/v1/tools", get(v1_tools))
710 .route("/v1/tools/call", axum::routing::post(v1_tool_call))
711 .route("/v1/events", get(v1_events))
712 .route(
713 "/v1/context/summary",
714 get(context_views::v1_context_summary),
715 )
716 .route("/v1/events/search", get(context_views::v1_events_search))
717 .route("/v1/events/lineage", get(context_views::v1_event_lineage))
718 .route("/v1/metrics", get(v1_metrics))
719 .route("/v1/a2a/handoff", axum::routing::post(v1_a2a_handoff))
720 .route("/v1/a2a/agent-card", get(v1_a2a_agent_card))
721 .route("/.well-known/agent.json", get(v1_a2a_agent_card))
722 .route("/a2a", axum::routing::post(a2a_jsonrpc))
723 .fallback_service(mcp_http)
724 .layer(axum::extract::DefaultBodyLimit::max(cfg.max_body_bytes))
725 .layer(middleware::from_fn_with_state(
726 state.clone(),
727 rate_limit_middleware,
728 ))
729 .layer(middleware::from_fn_with_state(
730 state.clone(),
731 concurrency_middleware,
732 ))
733 .layer(middleware::from_fn_with_state(
734 state.clone(),
735 auth_middleware,
736 ))
737 .with_state(state)
738}
739
740pub async fn serve(cfg: HttpServerConfig) -> Result<()> {
741 crate::core::protocol::set_mcp_context(true);
742 cfg.validate()?;
743
744 let addr: SocketAddr = format!("{}:{}", cfg.host, cfg.port)
745 .parse()
746 .context("invalid host/port")?;
747
748 let app = build_app_router(&cfg);
749
750 let listener = tokio::net::TcpListener::bind(addr)
751 .await
752 .with_context(|| format!("bind {addr}"))?;
753
754 tracing::info!(
755 "lean-ctx Streamable HTTP server listening on http://{addr} (project_root={})",
756 cfg.project_root.display()
757 );
758
759 axum::serve(listener, app)
760 .with_graceful_shutdown(async move {
761 let _ = tokio::signal::ctrl_c().await;
762 })
763 .await
764 .context("http server")?;
765 Ok(())
766}
767
768pub async fn serve_ipc(cfg: HttpServerConfig, addr: crate::ipc::DaemonAddr) -> Result<()> {
771 cfg.validate()?;
772
773 match addr {
774 #[cfg(unix)]
775 crate::ipc::DaemonAddr::Unix(ref path) => {
776 let app = build_app_router(&cfg);
777 let listener = crate::ipc::bind_listener(&addr)?;
778
779 tracing::info!(
780 "lean-ctx daemon listening on {} (project_root={})",
781 path.display(),
782 cfg.project_root.display()
783 );
784
785 axum::serve(listener, app.into_make_service())
786 .with_graceful_shutdown(async move {
787 let _ = tokio::signal::ctrl_c().await;
788 })
789 .await
790 .context("ipc server")?;
791 Ok(())
792 }
793 #[cfg(windows)]
794 crate::ipc::DaemonAddr::NamedPipe(ref _name) => {
795 anyhow::bail!("Named pipe server not yet supported — use TCP mode on Windows for now");
796 }
797 }
798}
799
800#[cfg(test)]
801mod tests {
802 use super::*;
803 use axum::body::Body;
804 use axum::http::Request;
805 use futures::StreamExt;
806 use rmcp::transport::{StreamableHttpServerConfig, StreamableHttpService};
807 use serde_json::json;
808 use tower::ServiceExt;
809
810 async fn read_first_sse_message(body: Body) -> String {
811 let mut stream = body.into_data_stream();
812 let mut buf: Vec<u8> = Vec::new();
813 for _ in 0..32 {
814 let next = tokio::time::timeout(Duration::from_secs(2), stream.next()).await;
815 let Ok(Some(Ok(bytes))) = next else {
816 break;
817 };
818 buf.extend_from_slice(&bytes);
819 if buf.windows(2).any(|w| w == b"\n\n") {
820 break;
821 }
822 }
823 String::from_utf8_lossy(&buf).to_string()
824 }
825
826 #[tokio::test]
827 async fn auth_token_blocks_requests_without_bearer_header() {
828 let dir = tempfile::tempdir().expect("tempdir");
829 let root_str = dir.path().to_string_lossy().to_string();
830 let service_project_root = root_str.clone();
831 let service_factory = move || -> Result<LeanCtxServer, std::io::Error> {
832 Ok(LeanCtxServer::new_shared_with_context(
833 &service_project_root,
834 "default",
835 "default",
836 ))
837 };
838 let cfg = StreamableHttpServerConfig::default()
839 .with_stateful_mode(false)
840 .with_json_response(true);
841
842 let mcp_http = StreamableHttpService::new(
843 service_factory,
844 Arc::new(
845 rmcp::transport::streamable_http_server::session::local::LocalSessionManager::default(),
846 ),
847 cfg,
848 );
849
850 let state = AppState {
851 token: Some("secret".to_string()),
852 concurrency: Arc::new(tokio::sync::Semaphore::new(4)),
853 rate: Arc::new(RateLimiter::new(50, 100)),
854 project_root: root_str.clone(),
855 timeout: Duration::from_secs(30),
856 server: LeanCtxServer::new_shared_with_context(&root_str, "default", "default"),
857 };
858
859 let app = Router::new()
860 .fallback_service(mcp_http)
861 .layer(middleware::from_fn_with_state(
862 state.clone(),
863 auth_middleware,
864 ))
865 .with_state(state);
866
867 let body = json!({
868 "jsonrpc": "2.0",
869 "id": 1,
870 "method": "tools/list",
871 "params": {}
872 })
873 .to_string();
874
875 let req = Request::builder()
876 .method("POST")
877 .uri("/")
878 .header("Host", "localhost")
879 .header("Accept", "application/json, text/event-stream")
880 .header("Content-Type", "application/json")
881 .body(Body::from(body))
882 .expect("request");
883
884 let resp = app.clone().oneshot(req).await.expect("resp");
885 assert_eq!(resp.status(), StatusCode::UNAUTHORIZED);
886 }
887
888 #[tokio::test]
889 async fn mcp_service_factory_isolates_per_client_state() {
890 let dir = tempfile::tempdir().expect("tempdir");
891 let root_str = dir.path().to_string_lossy().to_string();
892
893 let service_project_root = root_str.clone();
895 let service_factory = move || -> Result<LeanCtxServer, std::convert::Infallible> {
896 Ok(LeanCtxServer::new_shared_with_context(
897 &service_project_root,
898 "default",
899 "default",
900 ))
901 };
902
903 let s1 = service_factory().expect("server 1");
904 let s2 = service_factory().expect("server 2");
905
906 *s1.client_name.write().await = "client-a".to_string();
909 *s2.client_name.write().await = "client-b".to_string();
910
911 let a = s1.client_name.read().await.clone();
912 let b = s2.client_name.read().await.clone();
913 assert_eq!(a, "client-a");
914 assert_eq!(b, "client-b");
915 }
916
917 #[tokio::test]
918 async fn rate_limit_returns_429_when_exhausted() {
919 let state = AppState {
920 token: None,
921 concurrency: Arc::new(tokio::sync::Semaphore::new(16)),
922 rate: Arc::new(RateLimiter::new(1, 1)),
923 project_root: ".".to_string(),
924 timeout: Duration::from_secs(30),
925 server: LeanCtxServer::new_shared_with_context(".", "default", "default"),
926 };
927
928 let app = Router::new()
929 .route("/limited", get(|| async { (StatusCode::OK, "ok\n") }))
930 .layer(middleware::from_fn_with_state(
931 state.clone(),
932 rate_limit_middleware,
933 ))
934 .with_state(state);
935
936 let req1 = Request::builder()
937 .method("GET")
938 .uri("/limited")
939 .header("Host", "localhost")
940 .body(Body::empty())
941 .expect("req1");
942 let resp1 = app.clone().oneshot(req1).await.expect("resp1");
943 assert_eq!(resp1.status(), StatusCode::OK);
944
945 let req2 = Request::builder()
946 .method("GET")
947 .uri("/limited")
948 .header("Host", "localhost")
949 .body(Body::empty())
950 .expect("req2");
951 let resp2 = app.clone().oneshot(req2).await.expect("resp2");
952 assert_eq!(resp2.status(), StatusCode::TOO_MANY_REQUESTS);
953 }
954
955 #[tokio::test]
956 async fn events_endpoint_replays_tool_call_event() {
957 use crate::core::context_os::{self, ContextEventKindV1};
958
959 let dir = tempfile::tempdir().expect("tempdir");
960 std::fs::create_dir_all(dir.path().join(".git")).expect("git marker");
961 std::fs::write(dir.path().join("a.txt"), "ok").expect("file");
962 let root_str = dir.path().to_string_lossy().to_string();
963
964 let state = AppState {
965 token: None,
966 concurrency: Arc::new(tokio::sync::Semaphore::new(16)),
967 rate: Arc::new(RateLimiter::new(50, 100)),
968 project_root: root_str.clone(),
969 timeout: Duration::from_secs(30),
970 server: LeanCtxServer::new_shared_with_context(&root_str, "default", "default"),
971 };
972
973 let app = Router::new()
974 .route("/v1/events", get(v1_events))
975 .with_state(state);
976
977 let rt = context_os::runtime();
979 rt.bus.append(
980 "ws1",
981 "ch1",
982 &ContextEventKindV1::ToolCallRecorded,
983 Some("test-agent"),
984 json!({"tool": "ctx_session", "action": "status"}),
985 );
986
987 let req = Request::builder()
988 .method("GET")
989 .uri("/v1/events?workspaceId=ws1&channelId=ch1&since=0&limit=1")
990 .header("Host", "localhost")
991 .header("Accept", "text/event-stream")
992 .body(Body::empty())
993 .expect("req");
994 let resp = app.clone().oneshot(req).await.expect("events");
995 assert_eq!(resp.status(), StatusCode::OK);
996
997 let msg = read_first_sse_message(resp.into_body()).await;
998 assert!(msg.contains("event: tool_call_recorded"), "msg={msg:?}");
999 assert!(msg.contains("\"ws1\""), "msg={msg:?}");
1000 assert!(msg.contains("\"ch1\""), "msg={msg:?}");
1001 }
1002}