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bamboo_server/app_state/
builder.rs

1use super::init::{
2    build_provider_handles, build_schedule_manager, build_spawn_scheduler, init_mcp_manager,
3    init_metrics_service, init_schedule_store, init_skill_manager, init_storage,
4    load_permission_checker, spawn_session_map_cleanup_task,
5};
6use super::tools::{build_base_tools, build_root_tools};
7use super::*;
8use crate::tools::OptionalSubagentModelResolver;
9use bamboo_agent_core::storage::Storage;
10
11impl AppState {
12    /// Create unified app state with direct provider access
13    ///
14    /// This eliminates the proxy pattern where we created an AgentAppState
15    /// that called back to web_service via HTTP. Now we have direct provider access.
16    ///
17    /// # Arguments
18    ///
19    /// * `bamboo_home_dir` - Bamboo home directory containing all application data.
20    ///   This is the root directory (e.g., `${HOME}/.bamboo`) that contains:
21    ///   - config.json: Configuration file
22    ///   - sessions/: Conversation history
23    ///   - skills/: Skill definitions
24    ///   - workflows/: Workflow definitions
25    ///   - cache/: Cached data
26    ///   - runtime/: Runtime files
27    ///
28    /// # Returns
29    ///
30    /// A fully initialized AppState with all components ready for use.
31    /// # Example
32    ///
33    /// ```rust,no_run
34    /// use bamboo_server::app_state::AppState;
35    /// use std::path::PathBuf;
36    ///
37    /// #[tokio::main]
38    /// async fn main() {
39    ///     let state = AppState::new(PathBuf::from("/path/to/bamboo-data-dir"))
40    ///         .await
41    ///         .expect("failed to initialize app state");
42    ///     let provider = state.get_provider().await;
43    ///     let _models = provider.list_models().await.ok();
44    /// }
45    /// ```
46    pub async fn new(bamboo_home_dir: PathBuf) -> Result<Self, AppError> {
47        // Ensure all helpers that rely on `core::paths::bamboo_dir()` see the same
48        // directory as the server runtime.
49        bamboo_config::paths::init_bamboo_dir(bamboo_home_dir.clone());
50
51        // Load config from the specified data directory
52        let config = Config::from_data_dir(Some(bamboo_home_dir.clone()));
53
54        let provider_registry =
55            match bamboo_llm::ProviderRegistry::from_config(&config, bamboo_home_dir.clone()).await
56            {
57                Ok(registry) => Arc::new(registry),
58                Err(e) => {
59                    tracing::error!("Failed to create provider registry: {}", e);
60                    Arc::new(
61                        bamboo_llm::ProviderRegistry::from_config(
62                            &Config::default(),
63                            bamboo_home_dir.clone(),
64                        )
65                        .await
66                        .expect("Cannot create even an empty provider registry"),
67                    )
68                }
69            };
70
71        let provider = provider_registry.get_default().unwrap_or_else(|| {
72            let default_provider_name = provider_registry.default_provider_name();
73            let message = if config.has_provider_instances() {
74                format!(
75                    "Default provider instance '{}' is not available or failed to initialize",
76                    default_provider_name
77                )
78            } else {
79                format!(
80                    "Provider '{}' is not available or failed to initialize",
81                    config.provider
82                )
83            };
84            Arc::new(UnconfiguredProvider { message }) as Arc<dyn LLMProvider>
85        });
86
87        Self::new_with_provider(bamboo_home_dir, config, provider).await
88    }
89
90    /// Create unified app state with a specific provider
91    ///
92    /// Allows injecting a custom LLM provider instead of creating
93    /// one from configuration. Useful for testing and custom deployments.
94    ///
95    /// # Arguments
96    ///
97    /// * `bamboo_home_dir` - Bamboo home directory containing all application data
98    /// * `config` - Application configuration
99    /// * `provider` - Pre-configured LLM provider implementation
100    ///
101    /// # Returns
102    ///
103    /// A fully initialized AppState with the provided provider.
104    pub async fn new_with_provider(
105        bamboo_home_dir: PathBuf,
106        config: Config,
107        provider: Arc<dyn LLMProvider>,
108    ) -> Result<Self, AppError> {
109        // Wire the configured-default-workspace resolver into agent-core. This keeps
110        let data_dir = bamboo_home_dir.clone();
111        let (session_store, storage) = init_storage(&data_dir).await?;
112        let persistence = Arc::new(LockedSessionStore::new(storage.clone()));
113
114        // In-memory session cache (shared across handlers and background jobs).
115        let sessions: bamboo_engine::SessionCache = Arc::new(dashmap::DashMap::new());
116
117        // Embed the mailbox bus (broker) in-process unless an external one is
118        // configured. Mutates `config.subagents.broker` to point at the loopback
119        // bus BEFORE it is wrapped/read downstream, so ask_agent / deploy_agent /
120        // cluster all wire to it — and a standalone `bamboo broker serve` is no
121        // longer required for sub-agent dispatch. (Foundation for routing local
122        // actors onto the bus.)
123        let mut config = config;
124        let embedded_broker = maybe_embed_broker(&mut config, &data_dir).await;
125
126        let config = Arc::new(RwLock::new(config));
127
128        // Wire the configured-default-workspace resolver into agent-core. This keeps
129        // the dependency arrow pointing down (agent-core owns only the slot; the
130        // server fills it). The closure reads the server's LIVE in-memory config —
131        // not a fresh disk-reading Config::new(), which would diverge from the live
132        // config and clobber the global env-var cache (#38). `try_read` never blocks
133        // (the resolver is called from sync code, so a blocking read could deadlock);
134        // on the rare write-lock contention it returns the last successfully-resolved
135        // path so a session never transiently falls back to the process cwd.
136        {
137            let config_for_workspace = config.clone();
138            let last_known: Arc<std::sync::Mutex<Option<PathBuf>>> =
139                Arc::new(std::sync::Mutex::new(None));
140            bamboo_agent_core::workspace_state::set_default_workspace_provider(Box::new(
141                move || match config_for_workspace.try_read() {
142                    Ok(cfg) => {
143                        let path = cfg.get_default_work_area_path();
144                        if let Ok(mut cache) = last_known.lock() {
145                            *cache = path.clone();
146                        }
147                        path
148                    }
149                    Err(_) => last_known.lock().ok().and_then(|c| c.clone()),
150                },
151            ));
152        }
153
154        let permission_checker = load_permission_checker(&bamboo_home_dir).await;
155        let notification_service = Arc::new(bamboo_notification::NotificationService::new(
156            bamboo_home_dir.join("notification_preferences.json"),
157        ));
158        let mcp_manager = init_mcp_manager(config.clone());
159        let skill_manager = init_skill_manager(&data_dir).await;
160        let metrics_service = init_metrics_service(&data_dir).await?;
161
162        let startup_sessions = {
163            let entries = session_store.list_index_entries().await;
164            let mut sessions = Vec::new();
165            for entry in entries {
166                if let Some(session) = session_store
167                    .load_session(&entry.id)
168                    .await
169                    .map_err(AppError::StorageError)?
170                {
171                    sessions.push(session);
172                }
173            }
174            sessions
175        };
176        metrics_service
177            .reconcile_startup_sessions(startup_sessions, &[])
178            .await
179            .map_err(|error| {
180                AppError::InternalError(anyhow::anyhow!(
181                    "Failed to reconcile stale metrics state on startup: {error}"
182                ))
183            })?;
184
185        let agent_runners: Arc<RwLock<HashMap<String, AgentRunner>>> =
186            Arc::new(RwLock::new(HashMap::new()));
187        // NOTE: the idle-eviction sweep for `agent_runners` is spawned below,
188        // once `session_event_senders` also exists, so it can drop both maps'
189        // entries for a completed session together (issue #346).
190
191        let process_registry = Arc::new(ProcessRegistry::new());
192        let (provider_lock, provider_handle) = build_provider_handles(provider);
193
194        // Initialize multi-provider registry (for features.provider_model_ref).
195        let config_snapshot = config.read().await;
196        let provider_registry = match bamboo_llm::ProviderRegistry::from_config(
197            &config_snapshot,
198            bamboo_home_dir.clone(),
199        )
200        .await
201        {
202            Ok(registry) => Arc::new(registry),
203            Err(e) => {
204                tracing::error!("Failed to create provider registry: {}", e);
205                Arc::new(
206                    bamboo_llm::ProviderRegistry::from_config(
207                        &Config::default(),
208                        bamboo_home_dir.clone(),
209                    )
210                    .await
211                    .expect("Cannot create even an empty provider registry"),
212                )
213            }
214        };
215        drop(config_snapshot);
216
217        let provider_router = Arc::new(bamboo_llm::ProviderModelRouter::new(
218            provider_registry.clone(),
219        ));
220        let model_catalog = Arc::new(bamboo_llm::ModelCatalogService::new(
221            provider_registry.clone(),
222        ));
223
224        let base_tools = build_base_tools(
225            config.clone(),
226            permission_checker.clone(),
227            mcp_manager.clone(),
228            skill_manager.clone(),
229            storage.clone(),
230            persistence.clone(),
231            sessions.clone(),
232            bamboo_home_dir.clone(),
233        );
234
235        // Long-lived session event senders map (UI subscriptions + background tasks).
236        let session_event_senders: Arc<RwLock<HashMap<String, broadcast::Sender<AgentEvent>>>> =
237            Arc::new(RwLock::new(HashMap::new()));
238
239        // Idle-evict completed runners together with their paired session event
240        // senders (issue #346). Spawned here (not next to `agent_runners`) so it
241        // owns handles to both maps.
242        spawn_session_map_cleanup_task(agent_runners.clone(), session_event_senders.clone(), None);
243
244        // Account-scoped durable change feed. Opening the journal recovers the
245        // max seq so the sequence counter stays monotonic across restarts.
246        let account_sink = bamboo_engine::events::AccountEventSink::new(data_dir.join("events"))
247            .map_err(|e| {
248                AppError::InternalError(anyhow::anyhow!(
249                    "failed to initialize account change-feed journal: {e}"
250                ))
251            })?;
252
253        // Sub-agents are full agents with the full toolset (no per-role tool
254        // trimming): the child tool surface is the plain base tools.
255        let child_tools: Arc<dyn bamboo_agent_core::tools::ToolExecutor> = base_tools.clone();
256
257        // Unified agent runtime (shared resources for all execution paths).
258        // default_tools = base_tools (builtin + MCP + memory + skills) as a safe fallback.
259        // Interactive execution paths pass an explicit tool surface override:
260        // root sessions use ToolSurface::Root; child sessions use ToolSurface::Child.
261        let agent = Arc::new(
262            bamboo_engine::Agent::builder()
263                .storage(storage.clone())
264                .persistence(persistence.clone())
265                .attachment_reader(session_store.clone())
266                .skill_manager(skill_manager.clone())
267                .metrics_collector(metrics_service.collector())
268                .config(config.clone())
269                .provider(provider_handle.clone())
270                .default_tools(base_tools.clone())
271                .build()
272                .expect("agent runtime should be fully configured"),
273        );
274
275        let child_completion_coordinator =
276            Arc::new(bamboo_engine::ChildCompletionCoordinator::new(
277                storage.clone(),
278                persistence.clone(),
279                sessions.clone(),
280                agent_runners.clone(),
281                session_event_senders.clone(),
282                agent.clone(),
283                config.clone(),
284                provider_registry.clone(),
285                provider_router.clone(),
286                data_dir.clone(),
287                Some(account_sink.inbox()),
288            ));
289
290        // Initialize sub-session spawn scheduler (async background jobs).
291        let config_snapshot = config.read().await.clone();
292
293        // When a broker is configured, run the MCP proxy service under a
294        // supervisor (issue #47): deployed workers forward their (host-bound)
295        // MCP tool calls here, and we execute them against this orchestrator's
296        // real MCP servers (single MCP host). The supervisor restarts the proxy
297        // with bounded backoff after a transient WebSocket drop instead of
298        // permanently disabling proxied tools for the worker's lifetime.
299        let mcp_proxy_shutdown = tokio_util::sync::CancellationToken::new();
300        if let Some(broker) = config_snapshot.subagents.broker.clone() {
301            if !broker.endpoint.trim().is_empty() {
302                let backend: std::sync::Arc<dyn bamboo_agent_core::tools::ToolExecutor> =
303                    std::sync::Arc::new(bamboo_mcp::executor::McpToolExecutor::new(
304                        mcp_manager.clone(),
305                        mcp_manager.tool_index(),
306                    ));
307                let shutdown = mcp_proxy_shutdown.clone();
308                tokio::spawn(async move {
309                    let me = bamboo_broker::AgentRef {
310                        session_id: bamboo_broker::ORCHESTRATOR_ID.to_string(),
311                        role: Some("orchestrator".into()),
312                    };
313                    // No per-role tool allowlist is configured here yet, so the
314                    // proxy is unrestricted (every role sees/can call all
315                    // host-bound tools) — identical to the pre-#54 behavior.
316                    // Wiring a config-driven allowlist in is a follow-up; the
317                    // filtering mechanism (RoleToolAllowlist) is now in place.
318                    let allowlist =
319                        std::sync::Arc::new(bamboo_broker::RoleToolAllowlist::unrestricted());
320                    bamboo_broker::serve_mcp_proxy_supervised(
321                        &broker.endpoint,
322                        me,
323                        &broker.token,
324                        backend,
325                        allowlist,
326                        shutdown,
327                    )
328                    .await;
329                });
330            }
331        }
332        let external_runner =
333            bamboo_engine::external_agents::runtime::build_external_child_runner(&config_snapshot);
334        let spawn_scheduler = build_spawn_scheduler(
335            agent.clone(),
336            child_tools,
337            sessions.clone(),
338            agent_runners.clone(),
339            session_event_senders.clone(),
340            external_runner,
341            Some(provider_router.clone()),
342            Some(child_completion_coordinator.clone()),
343            Some(data_dir.clone()),
344            Some(account_sink.inbox()),
345        );
346
347        let tools_with_task = base_tools.clone();
348
349        let schedule_store = init_schedule_store(&data_dir).await?;
350        let schedule_manager = build_schedule_manager(
351            schedule_store.clone(),
352            agent.clone(),
353            tools_with_task.clone(),
354            sessions.clone(),
355            agent_runners.clone(),
356            session_event_senders.clone(),
357            persistence.clone(),
358            config.clone(),
359            provider_registry.clone(),
360            Some(data_dir.clone()),
361            Some(account_sink.inbox()),
362        );
363
364        bamboo_engine::auto_dream::spawn_auto_dream_task(
365            bamboo_engine::auto_dream::AutoDreamContext {
366                session_store: session_store.clone(),
367                storage: storage.clone(),
368                provider: provider_handle.clone(),
369                config: config.clone(),
370                provider_registry: provider_registry.clone(),
371            },
372        );
373
374        // Background memory "gardener": opt-in blob remediation + near-duplicate
375        // consolidation. No-op cost unless `memory.gardener_enabled` /
376        // `memory.dedup_gardener_enabled` is set; an empty prefilter makes zero LLM calls.
377        bamboo_engine::gardener::spawn_gardener_task(bamboo_engine::auto_dream::AutoDreamContext {
378            session_store: session_store.clone(),
379            storage: storage.clone(),
380            provider: provider_handle.clone(),
381            config: config.clone(),
382            provider_registry: provider_registry.clone(),
383        });
384
385        let config_for_resolver = config.clone();
386        let subagent_model_resolver: OptionalSubagentModelResolver = {
387            let registry = provider_registry.clone();
388            Some(Arc::new(
389                move |subagent_type: String| -> futures::future::BoxFuture<
390                    'static,
391                    Option<bamboo_domain::ProviderModelRef>,
392                > {
393                    let config_for_resolver = config_for_resolver.clone();
394                    let registry = registry.clone();
395                    Box::pin(async move {
396                        let config_snap = config_for_resolver.read().await.clone();
397                        bamboo_engine::model_config_helper::resolve_subagent_model_ref(
398                            &config_snap,
399                            &config_snap.provider,
400                            &registry,
401                            &subagent_type,
402                        )
403                    })
404                },
405            ))
406        };
407
408        // Config-write io-lock + the shared Remote Cluster Fabric deploy engine.
409        // The engine is built once and shared by the HTTP handlers (via AppState)
410        // and the `cluster` agent tool, so both use ONE worker registry.
411        let config_io_lock = Arc::new(tokio::sync::Mutex::new(()));
412        let fabric_registry: crate::tools::DeployedRegistry =
413            Arc::new(tokio::sync::Mutex::new(HashMap::new()));
414        let fabric_bamboo_bin =
415            std::env::current_exe().unwrap_or_else(|_| std::path::PathBuf::from("bamboo"));
416        let fabric_deployer = Arc::new(bamboo_server_tools::FabricDeployer::new(
417            config.clone(),
418            config_io_lock.clone(),
419            bamboo_home_dir.clone(),
420            fabric_registry,
421            fabric_bamboo_bin,
422        ));
423        // Cluster health monitor: periodically probe deployed workers on the bus and
424        // flip node status live (Running↔Unreachable) + auto-recover. Server-scoped
425        // — it runs under BOTH the embedded and an external broker (it reads the
426        // broker endpoint lazily each tick), and is aborted when the server drops.
427        let health_monitor = fabric_deployer
428            .clone()
429            .spawn_health_monitor()
430            .await
431            .map(HealthMonitor);
432
433        let tools = build_root_tools(
434            tools_with_task.clone(),
435            schedule_store.clone(),
436            schedule_manager.clone(),
437            session_store.clone(),
438            storage.clone(),
439            persistence.clone(),
440            spawn_scheduler.clone(),
441            sessions.clone(),
442            agent_runners.clone(),
443            session_event_senders.clone(),
444            subagent_model_resolver,
445            config.clone(),
446            provider_registry.clone(),
447            config_snapshot.subagents.broker.clone(),
448            fabric_deployer.clone(),
449        );
450
451        child_completion_coordinator
452            .set_root_tools(tools.clone())
453            .await;
454
455        let tool_factory =
456            crate::tools::ToolSurfaceFactory::new(base_tools, tools_with_task, tools);
457
458        let session_repo = bamboo_engine::SessionRepository::new(
459            sessions.clone(),
460            storage.clone(),
461            persistence.clone(),
462        );
463
464        // Dedicated child-session adapter backing the guardian review spawner.
465        // The guardian path passes an explicit model (no subagent_type routing)
466        // and registers its parent wait at the terminal gate (not via the
467        // adapter's coalescing slots), so a lightweight adapter with no resolver
468        // and a fresh wait-slot map suffices. `Arc<ChildSessionAdapter>` doubles
469        // as `Arc<dyn GuardianSpawner>`.
470        let child_adapter = Arc::new(crate::tools::ChildSessionAdapter {
471            session_store: session_store.clone(),
472            storage: storage.clone(),
473            persistence: persistence.clone(),
474            scheduler: spawn_scheduler.clone(),
475            sessions_cache: sessions.clone(),
476            agent_runners: agent_runners.clone(),
477            session_event_senders: session_event_senders.clone(),
478            subagent_model_resolver: None,
479            config: config.clone(),
480            parent_wait_slots: Arc::new(dashmap::DashMap::new()),
481        });
482        let guardian_spawner: Arc<dyn bamboo_engine::GuardianSpawner> = child_adapter.clone();
483        // Wire the spawner into the completion coordinator too, so a resumed run
484        // can re-spawn a guardian to re-review a fix after a reject verdict.
485        child_completion_coordinator
486            .set_guardian_spawner(guardian_spawner.clone())
487            .await;
488
489        // The completion coordinator doubles as the bash self-resume hook
490        // (issue #84 Phase 2b): it polls the live shell registry and resumes a
491        // session once all its background bash shells finish.
492        let bash_resume_hook: Arc<dyn bamboo_engine::BashResumeHook> =
493            child_completion_coordinator.clone();
494
495        // Cluster-fabric reconcile: session-bound workers died with the previous
496        // bamboo process (kill-on-drop child / in-memory russh session), so any
497        // persisted `Running`/`Deploying` node state is stale on boot. Flip it to
498        // `Unreachable` so the UI/agent see reality (a redeploy brings it back).
499        reconcile_fabric_on_boot(&config, &bamboo_home_dir).await;
500
501        Ok(Self {
502            app_data_dir: bamboo_home_dir,
503            config,
504            config_io_lock,
505            fabric_deployer,
506            embedded_broker,
507            health_monitor,
508            provider: provider_lock,
509            provider_handle,
510            sessions,
511            storage,
512            session_store,
513            session_repo,
514            persistence,
515            spawn_scheduler,
516            child_completion_coordinator,
517            guardian_spawner,
518            bash_resume_hook,
519            schedule_store,
520            schedule_manager,
521            tool_factory,
522            permission_checker,
523            notification_service,
524            cancel_tokens: Arc::new(RwLock::new(HashMap::new())),
525            mcp_proxy_shutdown,
526            skill_manager,
527            mcp_manager,
528            metrics_service,
529            agent_runners,
530            session_event_senders,
531            account_sink,
532            process_registry,
533            metrics_bus: None, // Will be set by server if needed
534            agent,
535            provider_registry,
536            provider_router,
537            model_catalog,
538            title_gen_in_flight: Arc::new(dashmap::DashSet::new()),
539            pairing_codes: Arc::new(dashmap::DashMap::new()),
540            pairing_code_guard: Arc::new(crate::handlers::settings::PairingCodeGuard::default()),
541            root_password_guard: Arc::new(crate::handlers::settings::RootPasswordGuard::default()),
542            // remote-actor P2a (#181): empty in-memory agent registry.
543        })
544    }
545}
546
547/// A handle to the in-process mailbox bus (broker) so it can be shut down with
548/// the server. Dropping it aborts the serve task.
549pub struct EmbeddedBroker {
550    task: tokio::task::JoinHandle<()>,
551    gc_task: tokio::task::JoinHandle<()>,
552}
553
554impl Drop for EmbeddedBroker {
555    fn drop(&mut self) {
556        self.task.abort();
557        self.gc_task.abort();
558    }
559}
560
561/// Server-scoped handle to the cluster health monitor. Kept separate from
562/// [`EmbeddedBroker`] so the monitor runs under BOTH the embedded broker and an
563/// external (`broker.json`) one; aborts the sweep on drop.
564pub struct HealthMonitor(tokio::task::JoinHandle<()>);
565
566impl Drop for HealthMonitor {
567    fn drop(&mut self) {
568        self.0.abort();
569    }
570}
571
572/// Start an in-process broker on `127.0.0.1:<auto>` and point
573/// `config.subagents.broker` (RUNTIME-ONLY, `#[serde(skip)]`) at it — UNLESS a
574/// user-managed external broker is configured in `<data_dir>/broker.json` and
575/// reachable (then use that). Returns `None` when an external broker is used or
576/// the bind fails (sub-agent dispatch then degrades exactly as before).
577///
578/// The broker's endpoint deliberately lives in EITHER the in-memory config (for
579/// the embedded case, regenerated each boot) or its own `broker.json` (for the
580/// external case) — NEVER in `config.json`. That is what stops a prior run's
581/// ephemeral auto-port from leaking into the user's config and being dialed dead
582/// on the next boot (every sub-agent + the MCP proxy would hit "connect refused").
583async fn maybe_embed_broker(
584    config: &mut bamboo_llm::Config,
585    data_dir: &std::path::Path,
586) -> Option<EmbeddedBroker> {
587    // A user-managed EXTERNAL broker (multi-host / shared standalone bus) lives in
588    // its OWN file, `<data_dir>/broker.json` — separate from config.json. Honour
589    // it ONLY if actually REACHABLE; a dead endpoint (standalone broker not up)
590    // falls through to a fresh in-process broker so dispatch still works.
591    if let Some(external) = load_external_broker(data_dir) {
592        let endpoint = external.endpoint.trim().to_string();
593        if broker_endpoint_reachable(&endpoint).await {
594            tracing::info!(%endpoint, "using external broker from broker.json");
595            config.subagents.broker = Some(external);
596            return None;
597        }
598        tracing::warn!(
599            %endpoint,
600            "broker.json endpoint is unreachable — embedding a fresh in-process broker instead"
601        );
602    }
603
604    let listener = match tokio::net::TcpListener::bind("127.0.0.1:0").await {
605        Ok(l) => l,
606        Err(e) => {
607            tracing::warn!("embedded broker: bind failed, sub-agent dispatch disabled: {e}");
608            return None;
609        }
610    };
611    let port = match listener.local_addr() {
612        Ok(a) => a.port(),
613        Err(e) => {
614            tracing::warn!("embedded broker: local_addr failed: {e}");
615            return None;
616        }
617    };
618    let token = uuid::Uuid::new_v4().simple().to_string();
619    let root = data_dir.join("broker");
620    let core = Arc::new(bamboo_broker::BrokerCore::new(root));
621    // Reclaim orphan mailbox dirs (one-shot parent links, killed pool workers)
622    // every 5 min so `<data>/broker/mailboxes/` doesn't grow unbounded.
623    let gc_task = core
624        .clone()
625        .spawn_mailbox_gc(std::time::Duration::from_secs(300));
626    let server = Arc::new(bamboo_broker::BrokerServer::new(core, token.clone()));
627
628    let task = tokio::spawn(async move {
629        if let Err(e) = server.serve(listener).await {
630            tracing::error!("embedded broker serve loop ended: {e}");
631        }
632    });
633
634    // Set the endpoint IN MEMORY ONLY — `subagents.broker` is `#[serde(skip)]`, so
635    // this ephemeral loopback port is regenerated every boot and never touches disk.
636    config.subagents.broker = Some(bamboo_config::BrokerClientConfig {
637        endpoint: format!("ws://127.0.0.1:{port}"),
638        token,
639        token_encrypted: None,
640    });
641    tracing::info!(port, "embedded mailbox bus (broker) started in-process");
642    Some(EmbeddedBroker { task, gc_task })
643}
644
645/// Load a user-managed EXTERNAL broker from `<data_dir>/broker.json`, if present.
646/// This file is the SEPARATE, persisted home for a standalone/remote broker —
647/// deliberately NOT `config.json`, so the embedded broker's ephemeral runtime
648/// port can never leak into the user's config (the stale-dead-port bug). An
649/// absent file or a parse error yields `None` (embed a fresh in-process broker).
650///
651/// Format is a plain [`BrokerClientConfig`] JSON object, e.g.:
652/// `{ "endpoint": "wss://broker.example:9600", "token": "…" }`.
653fn load_external_broker(data_dir: &std::path::Path) -> Option<bamboo_config::BrokerClientConfig> {
654    let path = data_dir.join("broker.json");
655    let bytes = std::fs::read(&path).ok()?;
656    match serde_json::from_slice::<bamboo_config::BrokerClientConfig>(&bytes) {
657        Ok(cfg) if !cfg.endpoint.trim().is_empty() => Some(cfg),
658        Ok(_) => {
659            tracing::warn!(?path, "broker.json has an empty endpoint — ignoring");
660            None
661        }
662        Err(e) => {
663            tracing::warn!(?path, "broker.json present but unparseable: {e}");
664            None
665        }
666    }
667}
668
669/// Best-effort TCP reachability probe of a `ws[s]://host:port[/path]` broker
670/// endpoint. Used to tell a LIVE external/standalone broker (keep) apart from a
671/// DEAD persisted endpoint (a prior run's embedded auto-port that leaked into
672/// config.json — re-embed). A short timeout keeps boot fast when it's dead.
673async fn broker_endpoint_reachable(endpoint: &str) -> bool {
674    let host_port = endpoint
675        .trim()
676        .trim_start_matches("wss://")
677        .trim_start_matches("ws://")
678        .split('/')
679        .next()
680        .unwrap_or("");
681    if host_port.is_empty() {
682        return false;
683    }
684    matches!(
685        tokio::time::timeout(
686            std::time::Duration::from_millis(500),
687            tokio::net::TcpStream::connect(host_port),
688        )
689        .await,
690        Ok(Ok(_))
691    )
692}
693
694/// On boot, mark stale cluster-fabric node state as `Unreachable`: workers
695/// deployed by the previous process were session-bound (they died with it), so a
696/// persisted `Running`/`Deploying` status no longer reflects reality. Best-effort
697/// + persisted so the UI and `cluster status` don't show phantom-running nodes.
698async fn reconcile_fabric_on_boot(
699    config: &Arc<RwLock<bamboo_llm::Config>>,
700    data_dir: &std::path::Path,
701) {
702    use bamboo_config::cluster_fabric::NodeStatus;
703
704    let snapshot = {
705        let mut cfg = config.write().await;
706        let mut changed = 0usize;
707        for node in &mut cfg.cluster_fabric.nodes {
708            if let Some(state) = node.state.as_mut() {
709                if matches!(state.status, NodeStatus::Running | NodeStatus::Deploying) {
710                    state.status = NodeStatus::Unreachable;
711                    state.last_error =
712                        Some("orchestrator restarted; worker no longer tracked".to_string());
713                    changed += 1;
714                }
715            }
716        }
717        if changed == 0 {
718            return;
719        }
720        tracing::info!(
721            reconciled = changed,
722            "cluster-fabric: marked stale Running nodes Unreachable on boot"
723        );
724        cfg.clone()
725    };
726
727    if let Err(e) = snapshot.save_to_dir(data_dir.to_path_buf()) {
728        tracing::warn!("cluster-fabric boot reconcile: failed to persist: {e}");
729    }
730}
731
732#[cfg(test)]
733mod broker_embed_tests {
734    use super::{broker_endpoint_reachable, load_external_broker};
735
736    #[test]
737    fn load_external_broker_reads_broker_json_not_config() {
738        let dir = tempfile::tempdir().unwrap();
739        // Absent file ⇒ None (embed a fresh in-process broker).
740        assert!(load_external_broker(dir.path()).is_none());
741
742        // A well-formed broker.json ⇒ parsed external broker.
743        std::fs::write(
744            dir.path().join("broker.json"),
745            r#"{ "endpoint": "wss://broker.example:9600", "token": "t" }"#,
746        )
747        .unwrap();
748        let got = load_external_broker(dir.path()).expect("parsed");
749        assert_eq!(got.endpoint, "wss://broker.example:9600");
750        assert_eq!(got.token, "t");
751
752        // Empty endpoint ⇒ ignored (treated as absent).
753        std::fs::write(dir.path().join("broker.json"), r#"{ "endpoint": "  " }"#).unwrap();
754        assert!(load_external_broker(dir.path()).is_none());
755
756        // Garbage ⇒ ignored, never panics.
757        std::fs::write(dir.path().join("broker.json"), "not json").unwrap();
758        assert!(load_external_broker(dir.path()).is_none());
759    }
760
761    #[tokio::test]
762    async fn reachability_probe_distinguishes_live_from_dead() {
763        // Bound-then-dropped port: nothing listening ⇒ unreachable (a stale
764        // persisted embedded endpoint must NOT be trusted).
765        let l = tokio::net::TcpListener::bind("127.0.0.1:0").await.unwrap();
766        let dead = l.local_addr().unwrap();
767        drop(l);
768        assert!(!broker_endpoint_reachable(&format!("ws://{dead}")).await);
769
770        // Empty / malformed ⇒ never trusted.
771        assert!(!broker_endpoint_reachable("").await);
772        assert!(!broker_endpoint_reachable("ws://").await);
773
774        // A LIVE listener (with a path) ⇒ reachable (a real external broker is kept).
775        let live = tokio::net::TcpListener::bind("127.0.0.1:0").await.unwrap();
776        let addr = live.local_addr().unwrap();
777        assert!(broker_endpoint_reachable(&format!("ws://{addr}/stream")).await);
778    }
779}