1use anyhow::Result;
31use oxi_sdk::observability::AuditTrail;
32use oxi_sdk::{
33 Agent, AgentConfig, AgentEvent, CompactionEvent, CompactionStrategy, ProviderResolver,
34};
35use oxi_sdk::{SearchCache, ToolExecutionMode, ToolRegistry};
36use parking_lot::Mutex;
37use std::collections::HashMap;
38use std::sync::Arc;
39use crate::access_manager::{AccessGate, AgentContext, TracingAuditSink, TrailAuditSink};
43use crate::capability::resolve::resolve_cspace;
44use crate::engine::OxiosEngine;
45use crate::memory::{MemoryEntry, MemoryManager, MemoryType};
46use crate::persona::PersonaManager;
47use crate::tools::registration::register_tools_from_cspace_gated;
48
49use crate::KernelHandle;
50use crate::event_bus::KernelEvent;
51use crate::session_context::SessionContext;
52use crate::types::AgentId;
53use oxios_ouroboros::{Directive, ExecEnv, ExecutionResult};
54
55static LLM_CIRCUIT_BREAKER: std::sync::OnceLock<oxi_sdk::ProviderCircuitBreaker> =
57 std::sync::OnceLock::new();
58
59fn get_llm_circuit_breaker() -> &'static oxi_sdk::ProviderCircuitBreaker {
61 LLM_CIRCUIT_BREAKER.get_or_init(|| {
62 oxi_sdk::ProviderCircuitBreaker::new(
63 "global".to_string(),
64 oxi_sdk::CircuitBreakerConfig::default(),
65 )
66 })
67}
68
69#[derive(Debug, Clone)]
75#[non_exhaustive]
76pub enum StreamDelta {
77 Model(String),
81 Text(String),
83
84 Thinking,
87 ThinkingDelta(String),
91}
92
93pub type StreamingSinkTx = std::sync::Arc<tokio::sync::mpsc::UnboundedSender<StreamDelta>>;
100
101#[derive(Debug, Clone)]
103pub struct AgentRuntimeConfig {
104 pub model_id: String,
106 pub tool_execution: ToolExecutionMode,
108 pub auto_retry_enabled: bool,
110 pub workspace_dir: Option<std::path::PathBuf>,
112 pub api_key: Option<String>,
114 pub provider_options: Option<oxi_sdk::ProviderOptions>,
116 pub rate_limit_per_minute: usize,
118 pub token_budget: usize,
120 pub audit_tool_calls: bool,
122 pub provider_rpm: u32,
125 pub max_tool_result_bytes: Option<usize>,
130 }
134
135impl Default for AgentRuntimeConfig {
136 fn default() -> Self {
137 Self {
138 model_id: String::new(),
139 tool_execution: ToolExecutionMode::Parallel,
140 auto_retry_enabled: true,
141 workspace_dir: None,
142 api_key: None,
143 provider_options: None,
144 rate_limit_per_minute: 0,
145 token_budget: 0,
146 audit_tool_calls: false,
147 provider_rpm: 0,
148 max_tool_result_bytes: None,
149 }
150 }
151}
152
153#[derive(Default)]
155struct ExecuteState {
156 final_content: String,
157 steps_completed: usize,
158 success: bool,
159 reasoning_text: String,
164 trajectory_steps: Vec<oxios_memory::memory::sona::TrajectoryStep>,
167 pending_tools: std::collections::HashMap<String, (std::time::Instant, usize)>,
171 tool_call_ids: Vec<String>,
174 tool_args_map: std::collections::HashMap<String, String>,
176 tool_error_map: std::collections::HashMap<String, bool>,
178 tool_timestamps: std::collections::HashMap<String, chrono::DateTime<chrono::Utc>>,
180 total_input_tokens: u64,
182 total_output_tokens: u64,
184}
185
186pub struct AgentRuntime {
195 engine_handle: Arc<crate::engine::EngineHandle>,
196 config: AgentRuntimeConfig,
197 kernel_handle: Arc<KernelHandle>,
199 persona_manager: Option<Arc<PersonaManager>>,
201 tool_retriever: Option<Arc<crate::tools::retrieval::ToolRetriever>>,
203 routing_stats: Option<Arc<crate::kernel_handle::RoutingStats>>,
205 persistence_hook: Option<Arc<crate::persistence_hook::PersistenceHook>>,
207 session_msg_counter: Arc<Mutex<HashMap<String, usize>>>,
209}
210
211impl AgentRuntime {
212 pub fn new(
218 engine_handle: Arc<crate::engine::EngineHandle>,
219 kernel_handle: Arc<KernelHandle>,
220 routing_stats: Option<Arc<crate::kernel_handle::RoutingStats>>,
221 ) -> Self {
222 Self {
223 engine_handle,
224 config: AgentRuntimeConfig::default(),
225 kernel_handle,
226 persona_manager: None,
227 tool_retriever: None,
228 routing_stats,
229 persistence_hook: None,
230 session_msg_counter: Arc::new(Mutex::new(HashMap::new())),
231 }
232 }
233
234 pub fn with_persona_manager(mut self, pm: Arc<PersonaManager>) -> Self {
236 self.persona_manager = Some(pm);
237 self
238 }
239
240 pub fn with_config(mut self, config: AgentRuntimeConfig) -> Self {
242 self.config = config;
243 self
244 }
245
246 pub fn with_tool_retriever(
248 mut self,
249 retriever: Arc<crate::tools::retrieval::ToolRetriever>,
250 ) -> Self {
251 self.tool_retriever = Some(retriever);
252 self
253 }
254
255 pub fn with_persistence_hook(
257 mut self,
258 hook: Arc<crate::persistence_hook::PersistenceHook>,
259 ) -> Self {
260 self.persistence_hook = Some(hook);
261 self
262 }
263
264 pub async fn execute_directive(
270 &self,
271 agent_id: AgentId,
272 directive: &Directive,
273 env: &ExecEnv,
274 session_ctx: &mut SessionContext,
275 ) -> Result<ExecutionResult> {
276 let session_id: Option<String> = env
282 .session_id
283 .clone()
284 .or_else(|| Some(agent_id.to_string()));
285 self.execute_directive_with_session(agent_id, directive, env, session_ctx, session_id)
286 .await
287 }
288 pub async fn execute_directive_with_session(
291 &self,
292 agent_id: AgentId,
293 directive: &Directive,
294 env: &ExecEnv,
295 session_ctx: &mut SessionContext,
296 session_id: Option<String>,
297 ) -> Result<ExecutionResult> {
298 self.execute_inner(
299 agent_id,
300 &directive.goal,
301 &directive.original_request,
302 &directive.constraints,
303 &directive.acceptance_criteria,
304 env.cspace_hint.as_deref(),
305 &env.mount_paths,
306 env.workspace_context.as_deref(),
307 session_ctx,
308 session_id,
309 Some(directive),
310 env.model_override.as_deref(),
311 env.role.as_deref(),
312 env.restore_state.as_ref(),
313 )
314 .await
315 }
316
317 #[allow(clippy::too_many_arguments)]
324 async fn execute_inner(
325 &self,
326 agent_id: AgentId,
327 goal: &str,
328 original_request: &str,
329 constraints: &[String],
330 acceptance_criteria: &[String],
331 cspace_hint: Option<&str>,
332 mount_paths: &[std::path::PathBuf],
333 workspace_context: Option<&str>,
334 session_ctx: &mut SessionContext,
335 session_id: Option<String>,
336 persistence_directive: Option<&Directive>,
337 model_override: Option<&str>,
338 role: Option<&str>,
339 restore_state: Option<&serde_json::Value>,
340 ) -> Result<ExecutionResult> {
341 let prompt = build_user_prompt_inner(goal, acceptance_criteria);
342
343 let persona_prompt = self
345 .persona_manager
346 .as_ref()
347 .map(|pm| pm.active_system_prompt())
348 .filter(|s| !s.trim().is_empty());
349
350 let persona_role = self
352 .persona_manager
353 .as_ref()
354 .and_then(|pm| pm.get_active_persona().map(|p| p.role.clone()));
355
356 let cspace = resolve_cspace(
358 cspace_hint,
359 persona_role.as_deref(),
360 Some("worker"),
361 agent_id,
362 );
363
364 let mut system_prompt = build_system_prompt_inner(
367 goal,
368 original_request,
369 constraints,
370 acceptance_criteria,
371 workspace_context,
372 persona_prompt.as_deref(),
373 None,
374 None,
375 );
376
377 let capabilities_xml = if let Some(ref retriever) = self.tool_retriever {
379 match retriever.embedder().embed(goal).await {
380 Ok(query_vec) => {
381 let results = retriever.retrieve(&query_vec, 8);
382 if results.is_empty() {
383 None
384 } else {
385 let xml = crate::tools::retrieval::format_capability_index(&results);
386 tracing::info!(count = results.len(), "Retrieved relevant capabilities");
387 Some(xml)
388 }
389 }
390 Err(e) => {
391 tracing::warn!(error = %e, "Failed to embed goal for retrieval");
392 None
393 }
394 }
395 } else {
396 None
397 };
398
399 let kernel_manifest = {
401 let domains = cspace.active_domains();
402 if domains.is_empty() {
403 None
404 } else {
405 Some(crate::tools::retrieval::build_kernel_manifest(&domains))
406 }
407 };
408
409 if capabilities_xml.is_some() || kernel_manifest.is_some() {
411 system_prompt = build_system_prompt_inner(
412 goal,
413 original_request,
414 constraints,
415 acceptance_criteria,
416 workspace_context,
417 persona_prompt.as_deref(),
418 capabilities_xml.as_deref(),
419 kernel_manifest.as_deref(),
420 );
421 }
422
423 let memory_manager = self.kernel_handle.agents.memory_manager();
425 match memory_manager
426 .recall_with_proactive(goal, &mut session_ctx.recall_timing)
427 .await
428 {
429 Ok(memories) if !memories.is_empty() => {
430 tracing::info!(count = memories.len(), "Recalled memories for task");
431 system_prompt = memory_manager.blend_into_prompt(&memories, &system_prompt);
432 }
433 Ok(_) => tracing::debug!("No memories recalled"),
434 Err(e) => tracing::warn!(error = %e, "Failed to recall memories"),
435 }
436
437 if let Some(sona) = memory_manager.sona_engine() {
439 match sona.adapt(goal).await {
440 Ok(Some(pattern)) if pattern.confidence > 0.5 => {
441 tracing::info!(
442 domain = %pattern.domain,
443 confidence = pattern.confidence,
444 "SONA learned pattern injected"
445 );
446 system_prompt.push_str(&format!(
447 "\n\n## Learned Strategy (confidence: {:.0}%)\n{}\n",
448 pattern.confidence * 100.0,
449 pattern.strategy,
450 ));
451 }
452 Ok(_) => tracing::debug!("No high-confidence SONA pattern found"),
453 Err(e) => tracing::debug!(error = %e, "SONA adapt failed (non-fatal)"),
454 }
455 }
456
457 match self
459 .kernel_handle
460 .knowledge_lens
461 .recall_for_context(goal, 5)
462 .await
463 {
464 Ok(ctx) if !ctx.notes.is_empty() => {
465 tracing::info!(
466 notes = ctx.notes.len(),
467 memories = ctx.memories.len(),
468 "Recalled knowledge context for task"
469 );
470 let knowledge_blend = ctx
471 .notes
472 .iter()
473 .take(3)
474 .map(|n| format!("## {}\n\n{}", n.name, n.content))
475 .collect::<Vec<_>>()
476 .join("\n\n");
477 system_prompt.push_str("\n\n## Relevant Knowledge\n\n");
478 system_prompt.push_str(&knowledge_blend);
479 }
480 Ok(_) => tracing::debug!("No knowledge recalled"),
481 Err(e) => tracing::warn!(error = %e, "Failed to recall knowledge context"),
482 }
483
484 let engine = self.engine_handle.get();
495 let model_id = model_override
496 .map(|s| s.to_string())
497 .or_else(|| role.and_then(|r| self.kernel_handle.engine.model_for_role(r)))
498 .unwrap_or_else(|| engine.default_model_id().to_string());
499 engine.resolve_model(&model_id)?;
501 let exec_id = uuid::Uuid::new_v4();
503
504 let mut config = self.config.clone();
509 config.model_id = model_id;
510 let kernel_handle = Arc::clone(&self.kernel_handle);
511
512 let audit_trail: Option<Arc<AuditTrail>> =
514 Some(Arc::clone(&self.kernel_handle.security.audit_trail));
515
516 let (
517 mut final_content,
518 steps_completed,
519 success,
520 trajectory_steps,
521 agent,
522 tool_call_ids,
523 tool_args_map,
524 tool_error_map,
525 tool_timestamps,
526 total_input_tokens,
527 total_output_tokens,
528 reasoning_text,
529 ) = {
530 run_agent(
531 &config,
532 &engine,
533 kernel_handle,
534 system_prompt,
535 prompt,
536 exec_id,
537 goal.to_string(),
538 agent_id,
539 cspace,
540 audit_trail,
541 self.routing_stats.clone(),
542 session_id.clone(),
543 mount_paths,
544 restore_state,
545 )
546 .await?
547 };
548
549 if final_content.is_empty() && !trajectory_steps.is_empty() {
556 let tool_summary: Vec<String> = trajectory_steps
557 .iter()
558 .enumerate()
559 .map(|(i, step)| {
560 let truncated = if step.output.len() > 800 {
561 let mut end = 800;
565 while end > 0 && !step.output.is_char_boundary(end) {
566 end -= 1;
567 }
568 format!("{}...", &step.output[..end])
569 } else {
570 step.output.clone()
571 };
572 format!("{}. [{}] {}", i + 1, step.input, truncated)
573 })
574 .collect();
575 let summary_prompt = format!(
576 "도구 실행 결과:\n\n{}\n\n\
577 위 결과를 바탕으로 사용자의 요청에 대해 자연스럽게 한국어로 답변해주세요. \
578 도구의 원시 출력을 그대로 복사하지 말고, 의미 있는 내용만 정리해서 전달하세요.",
579 tool_summary.join("\n")
580 );
581 match agent.run(summary_prompt).await {
582 Ok((response, _events)) => {
583 if !response.content.is_empty() {
584 tracing::info!(exec_id = %exec_id, "Post-execution summary generated");
585 final_content = response.content;
586 }
587 }
588 Err(e) => {
589 tracing::warn!(error = %e, "Post-execution summary failed");
590 }
591 }
592 }
593
594 let tool_calls: Vec<oxios_ouroboros::ToolCallRecord> = trajectory_steps
597 .iter()
598 .enumerate()
599 .map(|(i, step)| {
600 let tc_id = tool_call_ids.get(i).cloned().unwrap_or_default();
601 let args_str = tool_call_ids
602 .get(i)
603 .and_then(|id| tool_args_map.get(id))
604 .cloned()
605 .unwrap_or_default();
606 let is_error = tool_call_ids
607 .get(i)
608 .and_then(|id| tool_error_map.get(id))
609 .copied()
610 .unwrap_or(false);
611 let timestamp = tool_call_ids
612 .get(i)
613 .and_then(|id| tool_timestamps.get(id))
614 .copied();
615 let input_str = truncate_json_str(&args_str, 500);
616 oxios_ouroboros::ToolCallRecord {
617 tool: step.input.clone(),
618 input: input_str,
619 output: step.output.clone(),
620 duration_ms: step.duration_ms,
621 is_error,
622 tool_call_id: tc_id,
623 timestamp,
624 }
625 })
626 .collect();
627
628 tracing::info!(
629 exec_id = %exec_id,
630 steps = steps_completed,
631 success,
632 tool_calls = tool_calls.len(),
633 "AgentRuntime finished"
634 );
635
636 let result = ExecutionResult {
637 output: final_content.clone(),
638 steps_completed,
639 success,
640 tool_calls,
641 failure_class: None,
642 restore_state: None,
643 tokens_input: total_input_tokens,
644 tokens_output: total_output_tokens,
645 model_id: self.engine_handle.get().default_model_id().to_string(),
646 reasoning_text,
647 };
648
649 if let Some(directive) = persistence_directive
652 && success
653 && let Some(hook) = &self.persistence_hook
654 {
655 let already_saved_knowledge = trajectory_steps
656 .iter()
657 .any(|s| s.input == "knowledge" && s.output.contains("written successfully"));
658 let hook = hook.clone();
659 let directive_clone = directive.clone();
660 let traj_clone = trajectory_steps.clone();
661 let output_clone = final_content.clone();
662 let sid = session_id.clone();
663 let msg_index = {
666 let mut counter = self.session_msg_counter.lock();
667 let idx = counter.entry(sid.clone().unwrap_or_default()).or_insert(0);
668 let current = *idx;
669 *idx += 1;
670 current
671 };
672 tokio::spawn(async move {
673 match hook
674 .evaluate(
675 &directive_clone,
676 &traj_clone,
677 &output_clone,
678 already_saved_knowledge,
679 )
680 .await
681 {
682 Ok(plan) => {
683 if !plan.memory.is_empty() || !plan.knowledge.is_empty() {
684 tracing::info!(
685 memory = plan.memory.len(),
686 knowledge = plan.knowledge.len(),
687 message_index = msg_index,
688 "PersistenceHook executing plan"
689 );
690 let session_id = sid.unwrap_or_default();
691 hook.execute_plan(plan, &session_id, msg_index).await;
692 }
693 }
694 Err(e) => tracing::warn!(error = %e, "PersistenceHook evaluate failed"),
695 }
696 });
697 }
698
699 Ok(result)
700 }
701}
702
703#[allow(clippy::too_many_arguments)]
708async fn run_agent(
709 config: &AgentRuntimeConfig,
710 engine: &OxiosEngine,
711 kernel_handle: Arc<KernelHandle>,
712 system_prompt: String,
713 prompt: String,
714 exec_id: uuid::Uuid,
715 goal: String,
716 agent_id: AgentId,
717 cspace: crate::capability::CSpace,
718 audit_trail: Option<Arc<AuditTrail>>,
719 routing_stats: Option<Arc<crate::kernel_handle::RoutingStats>>,
720 session_id: Option<String>,
721 mount_paths: &[std::path::PathBuf],
722 restore_state: Option<&serde_json::Value>,
723) -> Result<(
724 String,
725 usize,
726 bool,
727 Vec<oxios_memory::memory::sona::TrajectoryStep>,
728 Arc<Agent>,
729 Vec<String>,
730 std::collections::HashMap<String, String>,
731 std::collections::HashMap<String, bool>,
732 std::collections::HashMap<String, chrono::DateTime<chrono::Utc>>,
733 u64,
734 u64,
735 String,
736)> {
737 let workspace = if !mount_paths.is_empty() {
743 mount_paths[0].clone()
744 } else if let Some(ws) = &config.workspace_dir {
745 ws.clone()
746 } else {
747 std::env::temp_dir()
748 .join("oxios-agent-workspace")
749 .join(agent_id.to_string())
750 };
751
752 let _ = std::fs::create_dir_all(&workspace);
754
755 tracing::debug!(workspace = %workspace.display(), "Agent workspace scoped");
756
757 {
774 use crate::access_manager::{Role, Subject};
775 let agent_name = format!("agent-{agent_id}");
776 let mut am = kernel_handle.exec.access_manager().lock();
777 let perms = am.get_or_create_permissions(&agent_name);
778
779 if let Ok(cwd) = std::env::current_dir() {
781 let cwd_pattern = format!("{}/**", cwd.to_string_lossy().trim_end_matches('/'));
782 if !perms.allowed_paths.iter().any(|p| p == &cwd_pattern) {
783 perms.allow_path(&cwd_pattern);
784 tracing::debug!(
785 agent = %agent_name,
786 path = %cwd_pattern,
787 "Added CWD to agent allowed paths"
788 );
789 }
790 }
791
792 let ws_pattern = format!("{}/**", workspace.to_string_lossy().trim_end_matches('/'));
794 if !perms.allowed_paths.iter().any(|p| p == &ws_pattern) {
795 perms.allow_path(&ws_pattern);
796 }
797
798 for mount_path in mount_paths {
803 let pattern = format!("{}/**", mount_path.to_string_lossy().trim_end_matches('/'));
804 if !perms.allowed_paths.iter().any(|p| p == &pattern) {
805 perms.allow_path(&pattern);
806 tracing::debug!(
807 agent = %agent_name,
808 path = %pattern,
809 "Added Mount path to agent allowed paths (RFC-025)"
810 );
811 }
812 }
813
814 let kernel_ws = kernel_handle
816 .state
817 .workspace_path()
818 .to_string_lossy()
819 .to_string();
820 let kernel_ws_pattern = format!("{}/**", kernel_ws.trim_end_matches('/'));
821 if kernel_ws_pattern != ws_pattern
822 && !perms.allowed_paths.iter().any(|p| p == &kernel_ws_pattern)
823 {
824 perms.allow_path(&kernel_ws_pattern);
825 }
826
827 if !perms.allowed_paths.iter().any(|p| p == "/tmp/**") {
829 perms.allow_path("/tmp/**");
830 }
831
832 let rbac_subject = Subject::Agent(agent_id);
834 am.rbac_manager_mut()
835 .assign_role(rbac_subject, Role::Superuser);
836 }
837
838 let _trace_guard = crate::observability::tracer().start(
840 format!("exec-{}", &exec_id.to_string()[..8]).as_str(),
841 oxi_sdk::SpanKind::Agent,
842 );
843
844 let registry = ToolRegistry::new();
846 let search_cache = Arc::new(SearchCache::new());
847
848 let agent_context = AgentContext {
850 agent_id,
851 agent_name: format!("agent-{agent_id}"),
852 cspace: Arc::new(cspace.clone()),
853 };
854
855 let audit_sink: Arc<dyn crate::access_manager::AuditSink> = if let Some(trail) = audit_trail {
858 let audit_path = kernel_handle
859 .state
860 .workspace_path()
861 .join("audit")
862 .join("access.jsonl");
863 Arc::new(TrailAuditSink::new(trail, audit_path))
864 } else {
865 Arc::new(TracingAuditSink)
866 };
867
868 let access_gate = Arc::new(AccessGate::new(
870 kernel_handle.exec.access_manager().clone(),
871 Arc::new(kernel_handle.exec.config_snapshot()),
872 audit_sink,
873 ));
874
875 register_tools_from_cspace_gated(
876 ®istry,
877 &kernel_handle,
878 &cspace,
879 search_cache,
880 agent_id,
881 access_gate,
882 agent_context,
883 );
884
885 tracing::info!(
886 exec_id = %exec_id,
887 capabilities = cspace.len(),
888 "Tools registered from CSpace"
889 );
890
891 let agent_config = AgentConfig {
899 name: format!("agent-{agent_id}"),
900 description: None,
901 model_id: config.model_id.clone(),
902 system_prompt: Some(system_prompt.clone()),
903 timeout_seconds: 300,
904 temperature: Some(0.7),
905 max_tokens: Some(8192),
906 compaction_strategy: CompactionStrategy::Threshold(0.8),
907 compaction_instruction: None,
908 context_window: 128_000,
909 api_key: config.api_key.clone(),
910 workspace_dir: Some(workspace.clone()),
911 output_mode: None,
912 provider_options: config.provider_options.clone(),
913 session_id: None,
919 max_tool_result_bytes: config.max_tool_result_bytes,
921 subagent_depth: 0,
926 subagent_runner: Some(
929 crate::subagent_runner::OxiosSubagentRunner::new(engine.oxi().clone())
930 .into_trait_object(),
931 ),
932 ..Default::default()
933 };
934
935 let agent = if config.provider_rpm > 0 {
950 let resolver: Arc<dyn ProviderResolver> = Arc::new(engine.oxi().clone());
952 let provider_name = engine.resolve_model(&config.model_id)?.provider;
953 let provider = engine.pooled_provider(&provider_name, config.provider_rpm)?;
954
955 let mut pipeline = oxi_sdk::MiddlewarePipeline::new();
957 if config.rate_limit_per_minute > 0 {
958 pipeline = pipeline.push(oxi_sdk::middleware::builtins::RateLimitMiddleware::new(
959 config.rate_limit_per_minute,
960 ));
961 }
962 if config.token_budget > 0 {
963 pipeline = pipeline.push(oxi_sdk::middleware::builtins::TokenBudgetMiddleware::new(
964 config.token_budget,
965 ));
966 }
967 if config.audit_tool_calls {
968 pipeline = pipeline.push(oxi_sdk::middleware::builtins::LoggingMiddleware::new(
969 tracing::Level::INFO,
970 ));
971 }
972
973 let agent = Arc::new(Agent::new_with_resolver(
975 provider,
976 agent_config,
977 Arc::new(registry),
978 resolver,
979 ));
980
981 if !pipeline.is_empty() {
983 let terminate_flag = Arc::new(std::sync::atomic::AtomicBool::new(false));
984 let agent_id_for_hooks = agent_id.to_string();
985 let hooks = oxi_sdk::middleware::build_hooks(
986 Arc::new(pipeline),
987 agent_id_for_hooks,
988 terminate_flag,
989 );
990 agent.set_hooks(hooks);
991 }
992
993 agent
994 } else {
995 let mut builder = engine
997 .oxi()
998 .agent(agent_config)
999 .workspace(&workspace)
1000 .system_prompt(system_prompt);
1001
1002 let cspace_tool_arcs: Vec<Arc<dyn oxi_sdk::AgentTool>> = registry
1012 .names()
1013 .into_iter()
1014 .filter_map(|name| registry.get(&name))
1015 .collect();
1016
1017 if let Some(auth) = engine.authorizer() {
1019 builder = builder.authorizer(auth.clone());
1020 }
1021 if let Some(tracer) = engine.tracer() {
1022 builder = builder.tracer(tracer.clone());
1023 }
1024 if let Some(ct) = engine.cost_tracker() {
1025 builder = builder.cost_tracker(ct.clone());
1026 }
1027
1028 if config.rate_limit_per_minute > 0 {
1031 builder = builder.with_rate_limit(config.rate_limit_per_minute);
1032 }
1033 if config.token_budget > 0 {
1034 builder = builder.with_token_budget(config.token_budget);
1035 }
1036 if config.audit_tool_calls {
1037 builder = builder.with_logging();
1038 }
1039
1040 let built = builder.build()?;
1041 let agent = Arc::new(built);
1042
1043 let agent_tools = agent.tools();
1048 for tool in cspace_tool_arcs {
1049 agent_tools.register_arc(tool);
1050 }
1051
1052 agent
1053 };
1054
1055 if let Some(state) = restore_state {
1059 agent.import_state(state.clone()).unwrap_or_else(|e| {
1060 tracing::warn!(agent_id = %agent_id, error = %e, "Failed to restore agent state");
1061 });
1062 }
1063
1064 let exec_state = Arc::new(Mutex::new(ExecuteState::default()));
1066 let exec_state_cb = Arc::clone(&exec_state);
1067 let memory_for_callback: Arc<MemoryManager> = (*kernel_handle.agents.memory_manager()).clone();
1068 let session_id_for_callback = exec_id.to_string();
1069 let model_id_for_callback = config.model_id.clone();
1070 let agent_id_for_callback = agent_id.to_string();
1071 let routing_stats_for_cb = routing_stats.clone();
1072 let transparency_session: Option<String> = session_id.clone();
1075 let kernel_handle_for_cb: Arc<KernelHandle> = Arc::clone(&kernel_handle);
1076 let streaming_sinks_for_cb: Arc<crate::streaming_sink::StreamingSinkRegistry> =
1080 Arc::clone(&kernel_handle.streaming_sinks);
1081 let mut sent_model_for_cb: bool = false;
1083 let result =
1084 agent
1085 .run_streaming(prompt, move |event| {
1086 if !sent_model_for_cb
1087 && let Some(ref sid) = transparency_session
1088 && !model_id_for_callback.is_empty()
1089 && let Some(tx) = streaming_sinks_for_cb.lookup(sid)
1090 {
1091 let _ = tx.send(StreamDelta::Model(model_id_for_callback.clone()));
1092 sent_model_for_cb = true;
1093 }
1094 let mut s = exec_state_cb.lock();
1095 match event {
1096 AgentEvent::ToolExecutionStart {
1097 tool_name,
1098 tool_call_id,
1099 args,
1100 context,
1101 ..
1102 } => {
1103 let idx = s.trajectory_steps.len();
1105 s.pending_tools
1106 .insert(tool_call_id.clone(), (std::time::Instant::now(), idx));
1107 s.tool_args_map.insert(
1108 tool_call_id.clone(),
1109 serde_json::to_string(&args).unwrap_or_default(),
1110 );
1111 s.tool_timestamps
1112 .insert(tool_call_id.clone(), chrono::Utc::now());
1113 s.tool_call_ids.push(tool_call_id.clone());
1114 s.trajectory_steps
1115 .push(oxios_memory::memory::sona::TrajectoryStep {
1116 input: tool_name.clone(),
1117 output: String::new(),
1118 duration_ms: 0,
1119 confidence: 0.0,
1120 });
1121 if let Some(ref sid) = transparency_session {
1123 let context_json = context
1124 .as_ref()
1125 .map(serde_json::to_value)
1126 .transpose()
1127 .unwrap_or(None);
1128 let _ = kernel_handle_for_cb.infra.publish(
1129 KernelEvent::ToolExecutionStarted {
1130 session_id: sid.clone(),
1131 tool_name: tool_name.clone(),
1132 tool_call_id: tool_call_id.clone(),
1133 tool_args: args.clone(),
1134 context: context_json,
1135 },
1136 );
1137 }
1138 }
1139 AgentEvent::ToolExecutionUpdate {
1140 tool_call_id,
1141 tool_name,
1142 partial_result,
1143 tab_id,
1144 context,
1145 } => {
1146 if let Some(ref sid) = transparency_session {
1156 let context_json = context
1157 .as_ref()
1158 .map(serde_json::to_value)
1159 .transpose()
1160 .unwrap_or(None);
1161 let _ = kernel_handle_for_cb.infra.publish(
1162 KernelEvent::ToolExecutionProgress {
1163 session_id: sid.clone(),
1164 tool_call_id: tool_call_id.clone(),
1165 tool_name: tool_name.clone(),
1166 progress: partial_result,
1167 tab_id,
1168 context: context_json,
1169 },
1170 );
1171 }
1172 }
1173 AgentEvent::ToolExecutionEnd {
1174 tool_name,
1175 tool_call_id,
1176 is_error,
1177 result,
1178 ..
1179 } => {
1180 if !is_error {
1181 s.steps_completed += 1;
1182 }
1183 let mut duration_ms: u64 = 0;
1185 let mut summary = String::new();
1186 if let Some((start, idx)) = s.pending_tools.remove(tool_call_id.as_str()) {
1187 duration_ms = start.elapsed().as_millis() as u64;
1188 if let Some(step) = s.trajectory_steps.get_mut(idx) {
1189 summary = summarize_tool_result(&result.content, 200);
1190 step.output = summary.clone();
1191 step.duration_ms = duration_ms;
1192 step.confidence = if is_error { 0.3 } else { 0.8 };
1193 }
1194 }
1195 s.tool_error_map.insert(tool_call_id.clone(), is_error);
1196 if let Some(ref sid) = transparency_session {
1198 let _ = kernel_handle_for_cb.infra.publish(
1199 KernelEvent::ToolExecutionFinished {
1200 session_id: sid.clone(),
1201 tool_call_id: tool_call_id.clone(),
1202 tool_name: tool_name.clone(),
1203 duration_ms,
1204 is_error,
1205 output_summary: summary,
1206 },
1207 );
1208 }
1209 }
1210 AgentEvent::AgentEnd {
1211 messages,
1212 stop_reason,
1213 ..
1214 } => {
1215 if let Some(oxi_sdk::Message::Assistant(a)) = messages.last() {
1216 s.final_content = a.text_content();
1217 }
1218 s.success =
1224 matches!(stop_reason.as_deref(), Some("Stop") | Some("ToolUse"));
1225 }
1226 AgentEvent::Error { message, .. } => {
1227 s.final_content = message.clone();
1228 s.success = false;
1229 }
1230 AgentEvent::Usage {
1231 input_tokens,
1232 output_tokens,
1233 } => {
1234 s.total_input_tokens += input_tokens as u64;
1236 s.total_output_tokens += output_tokens as u64;
1237
1238 let agent_label = format!("agent-{agent_id_for_callback}");
1240 crate::observability::cost_tracker().record(
1241 &agent_label,
1242 &oxi_sdk::Model::new(
1243 &model_id_for_callback,
1244 &model_id_for_callback,
1245 oxi_sdk::Api::OpenAiCompletions,
1246 "unknown",
1247 "https://unknown.com",
1248 ),
1249 oxi_sdk::TokenUsage {
1250 input: input_tokens as u64,
1251 output: output_tokens as u64,
1252 cache_read: 0,
1253 cache_write: 0,
1254 },
1255 );
1256
1257 if let Some(stats) = &routing_stats_for_cb {
1259 let cost = crate::kernel_handle::engine_api::estimate_cost(
1260 &model_id_for_callback,
1261 input_tokens as u64,
1262 output_tokens as u64,
1263 );
1264 stats.record_model_usage(&model_id_for_callback, cost);
1265 }
1266 if let Some(ref sid) = transparency_session {
1268 let _ =
1269 kernel_handle_for_cb
1270 .infra
1271 .publish(KernelEvent::TokenUsageUpdate {
1272 session_id: sid.clone(),
1273 input_tokens: input_tokens as u64,
1274 output_tokens: output_tokens as u64,
1275 });
1276 }
1277 }
1278 AgentEvent::Compaction {
1279 event: CompactionEvent::Completed { result, .. },
1280 } => {
1281 handle_compaction(
1282 result.summary.clone(),
1283 session_id_for_callback.clone(),
1284 memory_for_callback.clone(),
1285 );
1286 if let Some(ref sid) = transparency_session {
1288 let _ = kernel_handle_for_cb.infra.publish(
1289 KernelEvent::ReasoningFragment {
1290 session_id: sid.clone(),
1291 content: result.summary.clone(),
1292 source: "compaction".to_string(),
1293 },
1294 );
1295 }
1296 }
1297 AgentEvent::Compaction {
1298 event: CompactionEvent::Triggered { source, .. },
1299 } => {
1300 if let Some(ref sid) = transparency_session {
1306 let _ = kernel_handle_for_cb.infra.publish(
1307 KernelEvent::CompactionTriggered {
1308 session_id: Some(sid.clone()),
1309 source,
1310 },
1311 );
1312 } else {
1313 let _ = kernel_handle_for_cb.infra.publish(
1314 KernelEvent::CompactionTriggered {
1315 session_id: None,
1316 source,
1317 },
1318 );
1319 }
1320 }
1321 AgentEvent::TextChunk { text } => {
1322 if let Some(ref sid) = transparency_session
1336 && let Some(tx) = streaming_sinks_for_cb.lookup(sid)
1337 {
1338 let _ = tx.send(StreamDelta::Text(text.clone()));
1339 }
1340 }
1341 AgentEvent::Thinking => {
1342 if let Some(ref sid) = transparency_session
1347 && let Some(tx) = streaming_sinks_for_cb.lookup(sid)
1348 {
1349 let _ = tx.send(StreamDelta::Thinking);
1350 }
1351 }
1352 AgentEvent::ThinkingDelta { text } => {
1353 const REASONING_CAP: usize = 4096;
1367 if s.reasoning_text.len() < REASONING_CAP {
1368 s.reasoning_text.push_str(&text);
1369 if s.reasoning_text.len() > REASONING_CAP {
1370 s.reasoning_text.truncate(REASONING_CAP);
1371 }
1372 }
1373 if let Some(ref sid) = transparency_session
1374 && let Some(tx) = streaming_sinks_for_cb.lookup(sid)
1375 {
1376 let _ = tx.send(StreamDelta::ThinkingDelta(text.clone()));
1377 }
1378 }
1379 _ => {}
1380 }
1381 })
1382 .await;
1383
1384 let circuit = get_llm_circuit_breaker();
1386 if result.is_err() {
1387 circuit.record_failure();
1388 crate::metrics::get_metrics()
1389 .llm_circuit_breaker_state
1390 .set(1.0);
1391 } else {
1392 circuit.record_success();
1393 crate::metrics::get_metrics()
1394 .llm_circuit_breaker_state
1395 .set(0.0);
1396 }
1397
1398 if let Err(e) = result {
1399 tracing::error!(exec_id = %exec_id, error = %e, "Agent failed");
1400 let restore_state = agent.export_state().ok();
1405 return Err(crate::resilience::AgentRunError::wrap(e, restore_state).into());
1406 }
1407
1408 let s = exec_state.lock();
1409 tracing::info!(
1410 exec_id = %exec_id,
1411 steps = s.steps_completed,
1412 success = s.success,
1413 "Agent completed"
1414 );
1415
1416 if !s.trajectory_steps.is_empty()
1419 && let Some(sona) = kernel_handle.agents.memory_manager().sona_engine()
1420 {
1421 let steps = s.trajectory_steps.clone();
1422 let success = s.success;
1423 let sona = Arc::clone(sona);
1424 let domain = infer_domain(&goal);
1425 tokio::spawn(async move {
1426 let verdict = if success {
1427 oxios_memory::memory::sona::Verdict::Success
1428 } else {
1429 oxios_memory::memory::sona::Verdict::Failure
1430 };
1431 let trajectory = oxios_memory::memory::sona::Trajectory::new(steps, verdict, &domain);
1432 if let Err(e) = sona.record(trajectory).await {
1433 tracing::debug!(error = %e, "SONA trajectory recording failed (non-fatal)");
1434 }
1435 });
1436 }
1437
1438 Ok((
1439 s.final_content.clone(),
1440 s.steps_completed,
1441 s.success,
1442 s.trajectory_steps.clone(),
1443 agent,
1444 s.tool_call_ids.clone(),
1445 s.tool_args_map.clone(),
1446 s.tool_error_map.clone(),
1447 s.tool_timestamps.clone(),
1448 s.total_input_tokens,
1449 s.total_output_tokens,
1450 s.reasoning_text.clone(),
1451 ))
1452}
1453
1454fn summarize_tool_result(result: &str, max_len: usize) -> String {
1459 let trimmed = result.trim();
1460 if trimmed.chars().count() <= max_len {
1461 return trimmed.to_string();
1462 }
1463 let first_line = trimmed.lines().next().unwrap_or("");
1465 if first_line.chars().count() <= max_len {
1466 first_line.to_string()
1467 } else {
1468 let take = max_len.saturating_sub(3);
1469 let truncated: String = if take == 0 {
1470 first_line.chars().take(max_len).collect()
1471 } else {
1472 first_line.chars().take(take).collect()
1473 };
1474 format!("{truncated}...")
1475 }
1476}
1477fn truncate_json_str(json_str: &str, max_len: usize) -> String {
1478 if json_str.len() <= max_len {
1479 return json_str.to_string();
1480 }
1481 let take = max_len.saturating_sub(3);
1484 if take == 0 {
1485 return json_str.chars().take(max_len).collect();
1486 }
1487 let truncated: String = json_str.chars().take(take).collect();
1488 format!("{truncated}...")
1489}
1490
1491fn infer_domain(goal: &str) -> String {
1496 let lower = goal.to_lowercase();
1497 let keywords: Vec<&str> = lower.split_whitespace().take(8).collect();
1498
1499 if keywords.iter().any(|k| {
1501 [
1502 "test",
1503 "tests",
1504 "spec",
1505 "testing",
1506 "assert",
1507 "unit test",
1508 "integration",
1509 ]
1510 .contains(k)
1511 }) {
1512 return "testing".to_string();
1513 }
1514 if keywords
1515 .iter()
1516 .any(|k| ["deploy", "release", "publish", "ship"].contains(k))
1517 {
1518 return "deployment".to_string();
1519 }
1520 if keywords
1521 .iter()
1522 .any(|k| ["fix", "bug", "patch", "repair", "debug"].contains(k))
1523 {
1524 return "bugfix".to_string();
1525 }
1526 if keywords
1527 .iter()
1528 .any(|k| ["refactor", "restructure", "reorganize", "rewrite"].contains(k))
1529 {
1530 return "refactoring".to_string();
1531 }
1532 if keywords
1533 .iter()
1534 .any(|k| ["doc", "document", "readme", "guide", "explain"].contains(k))
1535 {
1536 return "documentation".to_string();
1537 }
1538 if keywords
1539 .iter()
1540 .any(|k| ["build", "create", "implement", "add", "make", "new"].contains(k))
1541 {
1542 return "development".to_string();
1543 }
1544 if keywords
1545 .iter()
1546 .any(|k| ["analyze", "review", "audit", "inspect", "check"].contains(k))
1547 {
1548 return "analysis".to_string();
1549 }
1550 if keywords
1551 .iter()
1552 .any(|k| ["config", "setup", "install", "configure", "init"].contains(k))
1553 {
1554 return "configuration".to_string();
1555 }
1556
1557 let meaningful: Vec<&str> = lower
1559 .split_whitespace()
1560 .filter(|w| w.len() > 2)
1561 .take(2)
1562 .collect();
1563 if meaningful.len() >= 2 {
1564 meaningful.join("_")
1565 } else {
1566 "general".to_string()
1567 }
1568}
1569
1570fn handle_compaction(summary: String, session_id: String, memory_manager: Arc<MemoryManager>) {
1576 let entry = MemoryEntry {
1577 id: uuid::Uuid::new_v4().to_string(),
1578 memory_type: MemoryType::Conversation,
1579 tier: crate::memory::MemoryTier::Warm,
1580 content: summary,
1581 content_hash: 0,
1582 source: "compaction".to_string(),
1583 session_id: Some(session_id),
1584 tags: vec![],
1585 importance: 0.5,
1586 pinned: false,
1587 protection: crate::memory::ProtectionLevel::None,
1588 auto_classified: false,
1589 session_appearances: 0,
1590 user_corrected: false,
1591 seen_in_sessions: vec![],
1592 created_at: chrono::Utc::now(),
1593 accessed_at: chrono::Utc::now(),
1594 modified_at: chrono::Utc::now(),
1595 access_count: 0,
1596 decay_score: 1.0,
1597 compaction_level: 0,
1598 compacted_from: vec![],
1599 related_ids: vec![],
1600 contradicts: None,
1601 };
1602 tokio::spawn(async move {
1603 if let Err(e) = memory_manager.remember(entry).await {
1604 tracing::warn!(error = %e, "Failed to save compaction summary");
1605 }
1606 });
1607}
1608
1609#[allow(dead_code)]
1614fn build_directive_system_prompt(
1615 directive: &Directive,
1616 env: &ExecEnv,
1617 persona_prompt: Option<&str>,
1618 capabilities_xml: Option<&str>,
1619 kernel_manifest: Option<&str>,
1620) -> String {
1621 build_system_prompt_inner(
1622 &directive.goal,
1623 &directive.original_request,
1624 &directive.constraints,
1625 &directive.acceptance_criteria,
1626 env.workspace_context.as_deref(),
1627 persona_prompt,
1628 capabilities_xml,
1629 kernel_manifest,
1630 )
1631}
1632
1633#[allow(clippy::too_many_arguments)]
1639fn build_system_prompt_inner(
1640 goal: &str,
1641 original_request: &str,
1642 constraints: &[String],
1643 acceptance_criteria: &[String],
1644 workspace_context: Option<&str>,
1645 persona_prompt: Option<&str>,
1646 capabilities_xml: Option<&str>,
1647 kernel_manifest: Option<&str>,
1648) -> String {
1649 let mut prompt = String::from(
1650 "You are an autonomous agent in the Oxios operating system.\n\
1651 You execute Seeds — immutable specifications with goals, constraints, and\n\
1652 acceptance criteria.\n\n\
1653 ## Available Tools\n\
1654 You have the following tools:\n\
1655 - **File tools**: read, write, edit files; grep, find, ls for searching\n\
1656 - **Web tools**: web_search for searching the web, get_search_results for retrieving cached results\n\
1657 - **Exec**: run shell commands\n\
1658 - **Memory tools**: memory_read, memory_write, memory_search — agent's internal recall\n\
1659 - **Knowledge**: knowledge — personal markdown vault for documents and notes\n\
1660 - **Kernel tools**: agent, project, persona, cron, security, budget, resource\n\n\
1661 **Important**: When the task involves fetching information from the internet,\n\
1662 websites, or online services, use `web_search` first — do NOT search local files.\n\
1663 When the task asks to \"get\", \"fetch\", \"find online\", or \"look up\" something\n\
1664 from the web, use `web_search`.\n",
1665 );
1666 prompt.push_str(&format!("\n## Goal\n{}\n", goal));
1667
1668 if !original_request.is_empty() && original_request != goal {
1671 prompt.push_str(&format!(
1672 "\n## User's Original Request\n{}\n",
1673 original_request
1674 ));
1675 }
1676
1677 if !constraints.is_empty() {
1678 prompt.push_str("\n## Constraints\n");
1679 for (i, c) in constraints.iter().enumerate() {
1680 prompt.push_str(&format!("{}. {}\n", i + 1, c));
1681 }
1682 }
1683
1684 if !acceptance_criteria.is_empty() {
1685 prompt.push_str("\n## Acceptance Criteria\n");
1686 for (i, c) in acceptance_criteria.iter().enumerate() {
1687 prompt.push_str(&format!("{}. {}\n", i + 1, c));
1688 }
1689 }
1690
1691 if let Some(ctx) = workspace_context.filter(|s| !s.trim().is_empty()) {
1695 prompt.push_str("\n## Workspace Context\n");
1696 prompt.push_str(ctx);
1697 prompt.push('\n');
1698 }
1699
1700 if let Some(pp) = persona_prompt {
1702 prompt.push_str("\n## Persona\n");
1703 prompt.push_str(pp);
1704 prompt.push('\n');
1705 }
1706
1707 if let Some(xml) = capabilities_xml {
1709 prompt.push_str("\n## Available Capabilities\n");
1710 prompt.push_str("The following capabilities are relevant to your goal. ");
1711 prompt.push_str("Use the `read` tool to load SKILL.md for any program.\n\n");
1712 prompt.push_str(xml);
1713 prompt.push('\n');
1714 }
1715
1716 if let Some(manifest) = kernel_manifest {
1718 prompt.push('\n');
1719 prompt.push_str(manifest);
1720 prompt.push('\n');
1721 }
1722
1723 prompt.push_str(
1725 "\n## Execution Protocol\n\
1726 1. UNDERSTAND — Read the user's request carefully. If it is a simple\n\
1727 greeting, small talk, or a question you can answer from knowledge,\n\
1728 respond naturally and conversationally — no tools needed.\n\
1729 2. PLAN — For complex tasks, outline your approach before acting.\n\
1730 3. EXECUTE — Use tools only when the task actually requires them.\n\
1731 Prefer the simplest approach. Simple requests need no tools.\n\
1732 4. VERIFY — After each action, check the result: created a file? read it back.\n\
1733 5. REPORT — Summarize how each acceptance criterion was met, with evidence.\n\n\
1734 If the request is ambiguous, use the `ask_user` tool (free-text question)\n\
1735 or the `pi-questionnaire` tool (structured choices) to clarify before\n\
1736 executing — do not guess when a single question would resolve the intent.\n\n\
1737 ## Hard Boundaries\n\
1738 - NEVER modify files outside the workspace scope\n\
1739 - NEVER execute destructive commands without confirming scope\n\
1740 - NEVER claim completion without evidence — show the output, not your opinion\n\
1741 - NEVER add features or improvements beyond the goal's scope\n\
1742 - If you cannot complete the task, say so and explain WHY\n\n\
1743 ## Scope Guard\n\
1744 The goal defines your universe. Do not:\n\
1745 - Refactor code the goal didn't mention\n\
1746 - Add tests the goal didn't require\n\
1747 - Change configuration the goal didn't specify\n\
1748 - \"Improve\" anything beyond what the acceptance criteria demand\n\n\
1749 ## Error Handling\n\
1750 - If a tool fails, read the error message carefully before retrying\n\
1751 - If a command fails, do NOT immediately retry with --force or sudo\n\
1752 - If stuck after 3 attempts, report the blocker rather than continuing to fail\n\n\
1753 ## Shape Matching\n\
1754 Match your output to the task: simple task → concise response.\n\
1755 Do not write 50 lines when 5 would do.\n\
1756 Use `exec` for all command execution (git, gh, osascript, etc.).",
1757 );
1758
1759 prompt
1760}
1761#[allow(dead_code)]
1762fn build_directive_user_prompt(directive: &Directive) -> String {
1763 build_user_prompt_inner(&directive.goal, &directive.acceptance_criteria)
1764}
1765
1766fn build_user_prompt_inner(goal: &str, acceptance_criteria: &[String]) -> String {
1768 format!(
1769 "Execute the following goal:\n\n{}\n\nAcceptance criteria:\n{}",
1770 goal,
1771 acceptance_criteria
1772 .iter()
1773 .enumerate()
1774 .map(|(i, c)| format!("{}. {}", i + 1, c))
1775 .collect::<Vec<_>>()
1776 .join("\n")
1777 )
1778}
1779
1780impl std::fmt::Debug for AgentRuntime {
1781 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
1782 f.debug_struct("AgentRuntime")
1783 .field("model_id", &self.engine_handle.get().default_model_id())
1784 .finish()
1785 }
1786}
1787
1788#[cfg(test)]
1789mod tests {
1790 use super::*;
1791 use async_trait::async_trait;
1792 use oxi_sdk::{AgentTool, ToolContext, ToolError};
1793 use serde_json::Value;
1794
1795 struct DummyTool {
1797 name: String,
1798 }
1799
1800 #[async_trait]
1801 impl AgentTool for DummyTool {
1802 fn name(&self) -> &str {
1803 &self.name
1804 }
1805 fn label(&self) -> &str {
1806 &self.name
1807 }
1808 fn description(&self) -> &str {
1809 "Test tool"
1810 }
1811 fn parameters_schema(&self) -> Value {
1812 serde_json::json!({"type": "object"})
1813 }
1814
1815 async fn execute(
1816 &self,
1817 _tool_call_id: &str,
1818 _params: Value,
1819 _shutdown: Option<tokio::sync::oneshot::Receiver<()>>,
1820 _ctx: &ToolContext,
1821 ) -> Result<oxi_sdk::AgentToolResult, ToolError> {
1822 Ok(oxi_sdk::AgentToolResult::success("ok"))
1823 }
1824 }
1825
1826 #[test]
1828 fn test_requires_tools_validation_passes() {
1829 let registry = ToolRegistry::new();
1830
1831 registry.register(DummyTool {
1832 name: "read".into(),
1833 });
1834 registry.register(DummyTool {
1835 name: "exec".into(),
1836 });
1837
1838 let missing = registry.missing(&["read", "exec"]);
1839
1840 assert!(
1841 missing.is_empty(),
1842 "Expected no missing tools, got: {:?}",
1843 missing
1844 );
1845 }
1846
1847 #[test]
1849 fn test_requires_tools_validation_fails() {
1850 let registry = ToolRegistry::new();
1851
1852 registry.register(DummyTool {
1853 name: "read".into(),
1854 });
1855
1856 let missing = registry.missing(&["read", "exec", "nonexistent"]);
1857
1858 assert_eq!(missing, vec!["exec", "nonexistent"]);
1859 }
1860
1861 #[test]
1862 fn test_infer_domain_testing() {
1863 assert_eq!(infer_domain("run all unit tests for the kernel"), "testing");
1864 }
1865
1866 #[test]
1867 fn test_infer_domain_deployment() {
1868 assert_eq!(
1869 infer_domain("deploy the web service to production"),
1870 "deployment"
1871 );
1872 }
1873
1874 #[test]
1875 fn test_infer_domain_bugfix() {
1876 assert_eq!(infer_domain("fix the null pointer error in main"), "bugfix");
1877 }
1878
1879 #[test]
1880 fn test_infer_domain_development() {
1881 assert_eq!(
1882 infer_domain("create a new REST API endpoint"),
1883 "development"
1884 );
1885 }
1886
1887 #[test]
1888 fn test_infer_domain_analysis() {
1889 assert_eq!(
1890 infer_domain("review the code for security issues"),
1891 "analysis"
1892 );
1893 }
1894
1895 #[test]
1896 fn test_infer_domain_fallback() {
1897 let domain = infer_domain("optimize performance metrics");
1898 assert!(!domain.is_empty());
1900 }
1901}