1mod approval_rules;
4mod effects;
5mod nested_budget;
6mod types;
7
8use crate::value::VmDictExt;
9use std::cell::RefCell;
10use std::collections::BTreeMap;
11use std::thread_local;
12
13use serde::{Deserialize, Serialize};
14
15use crate::runtime_limits::RuntimeLimits;
16use crate::tool_annotations::{SideEffectLevel, ToolAnnotations};
17use crate::value::{VmError, VmValue};
18use crate::workspace_path::{classify_workspace_path, WorkspacePathInfo};
19
20pub use crate::tool_annotations::{ToolArgSchema, ToolKind};
21pub use approval_rules::{
22 clear_all_approval_policy_repeat_counts, clear_approval_policy_repeat_counts,
23 next_approval_policy_repeat_count, ApprovalShape, PolicyAction, PolicyEvaluation,
24 PolicyMatchedRule, PolicyRule, PolicyRuleMatch,
25};
26pub use effects::{
27 compute_handoff_effects, effect_kind_label, effect_record_summary, effect_subset_violations,
28 effects_from_metadata, EffectKind, EffectRecord, EffectScope,
29};
30pub use nested_budget::{
31 annotate_nested_execution_options, enter_nested_execution_policy, NestedExecutionGuard,
32 NestedExecutionKind, NESTED_KIND_OPTION_KEY, NESTED_LABEL_OPTION_KEY,
33};
34pub use types::{
35 enforce_tool_arg_constraints, AutoCompactPolicy, BranchSemantics, CapabilityPolicy,
36 ContextPolicy, EqIgnored, EscalationPolicy, FeedbackBounds, FeedbackPolicy, JoinPolicy,
37 MapPolicy, ModelPolicy, NativeToolFallbackPolicy, ProcessSandboxPolicy, ProcessSandboxPreset,
38 ReducePolicy, RetryPolicy, SandboxProfile, StageContract, ToolArgConstraint, TurnPolicy,
39};
40
41thread_local! {
42 static EXECUTION_POLICY_STACK: RefCell<Vec<CapabilityPolicy>> = const { RefCell::new(Vec::new()) };
43 static EXECUTION_APPROVAL_POLICY_STACK: RefCell<Vec<ToolApprovalPolicy>> = const { RefCell::new(Vec::new()) };
44 static TRUSTED_BRIDGE_CALL_DEPTH: RefCell<usize> = const { RefCell::new(0) };
45}
46
47pub fn push_execution_policy(policy: CapabilityPolicy) {
48 EXECUTION_POLICY_STACK.with(|stack| stack.borrow_mut().push(policy));
49}
50
51pub fn pop_execution_policy() {
52 EXECUTION_POLICY_STACK.with(|stack| {
53 stack.borrow_mut().pop();
54 });
55}
56
57pub fn clear_execution_policy_stacks() {
58 EXECUTION_POLICY_STACK.with(|stack| stack.borrow_mut().clear());
59 EXECUTION_APPROVAL_POLICY_STACK.with(|stack| stack.borrow_mut().clear());
60 TRUSTED_BRIDGE_CALL_DEPTH.with(|depth| *depth.borrow_mut() = 0);
61}
62
63pub fn current_execution_policy() -> Option<CapabilityPolicy> {
64 EXECUTION_POLICY_STACK.with(|stack| stack.borrow().last().cloned())
65}
66
67pub fn execution_policy_active() -> bool {
72 EXECUTION_POLICY_STACK.with(|stack| !stack.borrow().is_empty())
73}
74
75pub fn push_approval_policy(policy: ToolApprovalPolicy) {
76 EXECUTION_APPROVAL_POLICY_STACK.with(|stack| stack.borrow_mut().push(policy));
77}
78
79pub fn pop_approval_policy() {
80 EXECUTION_APPROVAL_POLICY_STACK.with(|stack| {
81 stack.borrow_mut().pop();
82 });
83}
84
85pub fn current_approval_policy() -> Option<ToolApprovalPolicy> {
86 EXECUTION_APPROVAL_POLICY_STACK.with(|stack| stack.borrow().last().cloned())
87}
88
89pub(crate) fn swap_execution_policy_stack(next: Vec<CapabilityPolicy>) -> Vec<CapabilityPolicy> {
102 EXECUTION_POLICY_STACK.with(|stack| std::mem::replace(&mut *stack.borrow_mut(), next))
103}
104
105pub(crate) fn swap_approval_policy_stack(next: Vec<ToolApprovalPolicy>) -> Vec<ToolApprovalPolicy> {
106 EXECUTION_APPROVAL_POLICY_STACK.with(|stack| std::mem::replace(&mut *stack.borrow_mut(), next))
107}
108
109pub(crate) fn swap_trusted_bridge_depth(next: usize) -> usize {
110 TRUSTED_BRIDGE_CALL_DEPTH.with(|depth| std::mem::replace(&mut *depth.borrow_mut(), next))
111}
112
113pub fn current_tool_annotations(tool: &str) -> Option<ToolAnnotations> {
114 current_execution_policy().and_then(|policy| policy.tool_annotations.get(tool).cloned())
115}
116
117pub fn current_allowed_tool_names() -> Vec<String> {
125 let Some(policy) = current_execution_policy() else {
126 return Vec::new();
127 };
128 if !policy.tools.is_empty() {
129 return policy.tools;
130 }
131 policy.tool_annotations.keys().cloned().collect()
132}
133
134pub(super) fn tool_kind_participates_in_write_allowlist(tool_name: &str) -> bool {
135 current_tool_annotations(tool_name)
136 .map(|annotations| !annotations.kind.is_read_only())
137 .unwrap_or(true)
138}
139
140pub struct TrustedBridgeCallGuard;
141
142pub fn allow_trusted_bridge_calls() -> TrustedBridgeCallGuard {
143 TRUSTED_BRIDGE_CALL_DEPTH.with(|depth| {
144 *depth.borrow_mut() += 1;
145 });
146 TrustedBridgeCallGuard
147}
148
149impl Drop for TrustedBridgeCallGuard {
150 fn drop(&mut self) {
151 TRUSTED_BRIDGE_CALL_DEPTH.with(|depth| {
152 let mut depth = depth.borrow_mut();
153 *depth = depth.saturating_sub(1);
154 });
155 }
156}
157
158fn policy_allows_tool(policy: &CapabilityPolicy, tool: &str) -> bool {
159 policy.tools.is_empty() || policy.tools.iter().any(|allowed| allowed == tool)
160}
161
162fn policy_grants_capability(policy: &CapabilityPolicy, capability: &str, op: &str) -> bool {
163 policy
164 .capabilities
165 .get(capability)
166 .is_some_and(|ops| ops.is_empty() || ops.iter().any(|allowed| allowed == op))
167}
168
169fn policy_allows_capability(policy: &CapabilityPolicy, capability: &str, op: &str) -> bool {
170 if policy.capabilities.is_empty() {
171 return true;
173 }
174 if policy_grants_capability(policy, capability, op) {
175 return true;
176 }
177 if capability == "workspace" && op == "exists" {
189 return policy_grants_capability(policy, "workspace", "read_text")
190 || policy_grants_capability(policy, "workspace", "list");
191 }
192 false
193}
194
195fn policy_allows_side_effect(policy: &CapabilityPolicy, requested: &str) -> bool {
196 let requested_rank = SideEffectLevel::rank_str(requested);
202 policy
203 .side_effect_level
204 .as_ref()
205 .map(|allowed| SideEffectLevel::rank_str(allowed) >= requested_rank)
206 .unwrap_or(true)
207}
208
209pub(super) fn reject_policy(reason: String) -> Result<(), VmError> {
210 Err(VmError::CategorizedError {
211 message: reason,
212 category: crate::value::ErrorCategory::ToolRejected,
213 })
214}
215
216#[derive(Clone, Debug, PartialEq, Eq)]
223pub struct PolicyDenial {
224 pub gate: crate::agent_events::DenialGate,
225 pub capability: Option<String>,
226 pub reason: String,
227}
228
229impl From<PolicyDenial> for VmError {
230 fn from(denial: PolicyDenial) -> Self {
231 VmError::CategorizedError {
232 message: denial.reason,
233 category: crate::value::ErrorCategory::ToolRejected,
234 }
235 }
236}
237
238pub(super) fn reject_tool(
239 gate: crate::agent_events::DenialGate,
240 capability: Option<String>,
241 reason: String,
242) -> Result<(), PolicyDenial> {
243 Err(PolicyDenial {
244 gate,
245 capability,
246 reason,
247 })
248}
249
250pub fn current_tool_mutation_classification(tool_name: &str) -> String {
255 current_tool_annotations(tool_name)
256 .map(|annotations| annotations.kind.mutation_class().to_string())
257 .unwrap_or_else(|| "other".to_string())
258}
259
260pub fn current_tool_declared_paths(tool_name: &str, args: &serde_json::Value) -> Vec<String> {
264 current_tool_declared_path_entries(tool_name, args)
265 .into_iter()
266 .map(|entry| entry.display_path().to_string())
267 .collect()
268}
269
270pub fn current_tool_declared_path_entries(
275 tool_name: &str,
276 args: &serde_json::Value,
277) -> Vec<WorkspacePathInfo> {
278 let Some(map) = args.as_object() else {
279 return Vec::new();
280 };
281 let Some(annotations) = current_tool_annotations(tool_name) else {
282 return Vec::new();
283 };
284 let workspace_root = crate::stdlib::process::execution_root_path();
285 let mut entries = Vec::new();
286 for key in &annotations.arg_schema.path_params {
287 if let Some(value) = map.get(key) {
288 match value {
289 serde_json::Value::String(path) if !path.is_empty() => {
290 entries.push(classify_workspace_path(path, Some(&workspace_root)));
291 }
292 serde_json::Value::Array(items) => {
293 for item in items.iter().filter_map(|item| item.as_str()) {
294 if !item.is_empty() {
295 entries.push(classify_workspace_path(item, Some(&workspace_root)));
296 }
297 }
298 }
299 _ => {}
300 }
301 }
302 }
303 entries.sort_by(|a, b| a.display_path().cmp(b.display_path()));
304 entries.dedup_by(|left, right| left.policy_candidates() == right.policy_candidates());
305 entries
306}
307
308pub fn enforce_current_policy_for_builtin(name: &str, args: &[VmValue]) -> Result<(), VmError> {
309 let Some(policy) = current_execution_policy() else {
310 return Ok(());
311 };
312 match name {
313 "find_text"
314 if !policy_allows_capability(&policy, "workspace", "read_text")
315 || !policy_allows_capability(&policy, "workspace", "list") =>
316 {
317 return reject_policy(
318 "builtin 'find_text' exceeds workspace.read_text/workspace.list ceiling"
319 .to_string(),
320 );
321 }
322 "read_file"
323 | "read_file_result"
324 | "read_file_bytes"
325 | "render"
326 | "render_prompt"
327 | "render_with_provenance"
328 | "read_lines"
329 if !policy_allows_capability(&policy, "workspace", "read_text") =>
330 {
331 return reject_policy(format!(
332 "builtin '{name}' exceeds workspace.read_text ceiling"
333 ));
334 }
335 "list_dir" | "walk_dir" | "glob"
336 if !policy_allows_capability(&policy, "workspace", "list") =>
337 {
338 return reject_policy(format!("builtin '{name}' exceeds workspace.list ceiling"));
339 }
340 "file_exists" | "path_status" | "stat"
341 if !policy_allows_capability(&policy, "workspace", "exists") =>
342 {
343 return reject_policy(format!("builtin '{name}' exceeds workspace.exists ceiling"));
344 }
345 "write_file" | "write_file_bytes" | "append_file" | "mkdir" | "copy_file" | "move_file"
346 if !policy_allows_capability(&policy, "workspace", "write_text")
347 || !policy_allows_side_effect(&policy, "workspace_write") =>
348 {
349 return reject_policy(format!("builtin '{name}' exceeds workspace write ceiling"));
350 }
351 "delete_file"
352 if !policy_allows_capability(&policy, "workspace", "delete")
353 || !policy_allows_side_effect(&policy, "workspace_write") =>
354 {
355 return reject_policy(
356 "builtin 'delete_file' exceeds workspace.delete ceiling".to_string(),
357 );
358 }
359 "apply_edit"
360 if !policy_allows_capability(&policy, "workspace", "apply_edit")
361 || !policy_allows_side_effect(&policy, "workspace_write") =>
362 {
363 return reject_policy(
364 "builtin 'apply_edit' exceeds workspace.apply_edit ceiling".to_string(),
365 );
366 }
367 "exec"
368 | "exec_at"
369 | "shell"
370 | "shell_at"
371 | "git.repo.discover"
372 | "git.worktree.create"
373 | "git.worktree.remove"
374 | "git.fetch"
375 | "git.rebase"
376 | "git.status"
377 | "git.conflicts"
378 | "git.push"
379 | "git.diff"
380 | "git.merge_base"
381 if !policy_allows_capability(&policy, "process", "exec")
382 || !policy_allows_side_effect(&policy, "process_exec") =>
383 {
384 return reject_policy(format!("builtin '{name}' exceeds process.exec ceiling"));
385 }
386 "__files_upload"
391 if !policy_allows_capability(&policy, "workspace", "read_text")
392 || !policy_allows_side_effect(&policy, "network") =>
393 {
394 return reject_policy(
395 "builtin '__files_upload' exceeds workspace.read_text/network ceiling".to_string(),
396 );
397 }
398 "http_get"
399 | "http_post"
400 | "http_put"
401 | "http_patch"
402 | "http_delete"
403 | "http_download"
404 | "http_request"
405 | "unix_socket_json_request"
406 | "__net_unix_socket_json_request"
407 | "http_session_request"
408 | "http_stream_open"
409 | "http_stream_read"
410 | "http_stream_close"
411 | "http_stream_info"
412 | "sse_connect"
413 | "sse_receive"
414 | "websocket_accept"
415 | "websocket_connect"
416 | "websocket_route"
417 | "websocket_send"
418 | "websocket_receive"
419 | "websocket_server"
420 if !policy_allows_side_effect(&policy, "network") =>
421 {
422 return reject_policy(format!("builtin '{name}' exceeds network ceiling"));
423 }
424 "llm_call" | "llm_call_safe" | "llm_completion" | "llm_stream" | "llm_stream_call"
425 | "llm_healthcheck" | "agent_loop"
426 if !policy_allows_capability(&policy, "llm", "call") =>
427 {
428 return reject_policy(format!("builtin '{name}' exceeds llm.call ceiling"));
429 }
430 "connector_call"
431 if !policy_allows_capability(&policy, "connector", "call")
432 || !policy_allows_side_effect(&policy, "network") =>
433 {
434 return reject_policy(
435 "builtin 'connector_call' exceeds connector.call/network ceiling".to_string(),
436 );
437 }
438 "secret_get" if !policy_allows_capability(&policy, "connector", "secret_get") => {
439 return reject_policy(
440 "builtin 'secret_get' exceeds connector.secret_get ceiling".to_string(),
441 );
442 }
443 "event_log_emit" if !policy_allows_capability(&policy, "connector", "event_log_emit") => {
444 return reject_policy(
445 "builtin 'event_log_emit' exceeds connector.event_log_emit ceiling".to_string(),
446 );
447 }
448 "metrics_inc" if !policy_allows_capability(&policy, "connector", "metrics_inc") => {
449 return reject_policy(
450 "builtin 'metrics_inc' exceeds connector.metrics_inc ceiling".to_string(),
451 );
452 }
453 "project_fingerprint"
454 | "project_context_profile_native"
455 | "project_scan_native"
456 | "project_scan_tree_native"
457 | "project_walk_tree_native"
458 | "project_catalog_native"
459 if !policy_allows_capability(&policy, "workspace", "list")
460 || !policy_allows_side_effect(&policy, "read_only") =>
461 {
462 return reject_policy(format!("builtin '{name}' exceeds workspace.list ceiling"));
463 }
464 "__agent_state_init"
465 | "__agent_state_resume"
466 | "__agent_state_write"
467 | "__agent_state_read"
468 | "__agent_state_list"
469 | "__agent_state_delete"
470 | "__agent_state_handoff"
471 if !policy_allows_capability(&policy, "agent_state", "access") =>
472 {
473 return reject_policy(format!(
474 "builtin '{name}' exceeds agent_state.access ceiling"
475 ));
476 }
477 "vision_ocr"
478 if !policy_allows_capability(&policy, "vision", "ocr")
479 || !policy_allows_side_effect(&policy, "process_exec") =>
480 {
481 return reject_policy(format!(
482 "builtin '{name}' exceeds vision.ocr/process ceiling"
483 ));
484 }
485 "mcp_connect"
486 | "mcp_ensure_active"
487 | "mcp_call"
488 | "mcp_list_tools"
489 | "mcp_list_resources"
490 | "mcp_list_resource_templates"
491 | "mcp_read_resource"
492 | "mcp_list_prompts"
493 | "mcp_get_prompt"
494 | "mcp_server_info"
495 | "mcp_disconnect"
496 if !policy_allows_capability(&policy, "process", "exec")
497 || !policy_allows_side_effect(&policy, "process_exec") =>
498 {
499 return reject_policy(format!("builtin '{name}' exceeds process.exec ceiling"));
500 }
501 "host_call" => {
502 let name = args.first().map(|v| v.display()).unwrap_or_default();
503 let Some((capability, op)) = name.split_once('.') else {
504 return reject_policy(format!(
505 "host_call '{name}' must use capability.operation naming"
506 ));
507 };
508 if !policy_allows_capability(&policy, capability, op) {
509 return reject_policy(format!(
510 "host_call {capability}.{op} exceeds capability ceiling"
511 ));
512 }
513 let requested_side_effect = match (capability, op) {
514 ("workspace", "write_text" | "apply_edit" | "delete") => "workspace_write",
515 ("process", "exec") => "process_exec",
516 _ => "read_only",
517 };
518 if !policy_allows_side_effect(&policy, requested_side_effect) {
519 return reject_policy(format!(
520 "host_call {capability}.{op} exceeds side-effect ceiling"
521 ));
522 }
523 }
524 "host_tool_list" | "host_tool_call"
525 if !policy_allows_capability(&policy, "host", "tool_call") =>
526 {
527 return reject_policy(format!("builtin '{name}' exceeds host.tool_call ceiling"));
528 }
529 _ => {}
530 }
531 Ok(())
532}
533
534pub fn enforce_current_policy_for_bridge_builtin(name: &str) -> Result<(), VmError> {
535 let trusted = TRUSTED_BRIDGE_CALL_DEPTH.with(|depth| *depth.borrow() > 0);
536 if trusted {
537 return Ok(());
538 }
539 if current_execution_policy().is_some() {
540 return reject_policy(format!(
541 "bridged builtin '{name}' exceeds execution policy; declare an explicit capability/tool surface instead"
542 ));
543 }
544 Ok(())
545}
546
547pub fn enforce_current_policy_for_tool(tool_name: &str) -> Result<(), PolicyDenial> {
548 use crate::agent_events::DenialGate;
549 let Some(policy) = current_execution_policy() else {
550 return Ok(());
551 };
552 if !policy_allows_tool(&policy, tool_name) {
553 return reject_tool(
554 DenialGate::ToolCeiling,
555 None,
556 format!("tool '{tool_name}' exceeds tool ceiling"),
557 );
558 }
559 if let Some(annotations) = policy.tool_annotations.get(tool_name) {
560 for (capability, ops) in &annotations.capabilities {
561 for op in ops {
562 if !policy_allows_capability(&policy, capability, op) {
563 return reject_tool(
564 DenialGate::CapabilityCeiling,
565 Some(format!("{capability}.{op}")),
566 format!("tool '{tool_name}' exceeds capability ceiling: {capability}.{op}"),
567 );
568 }
569 }
570 }
571 let requested_level = annotations.side_effect_level;
572 if requested_level != SideEffectLevel::None
573 && !policy_allows_side_effect(&policy, requested_level.as_str())
574 {
575 return reject_tool(
576 DenialGate::SideEffectCeiling,
577 None,
578 format!(
579 "tool '{tool_name}' exceeds side-effect ceiling: {}",
580 requested_level.as_str()
581 ),
582 );
583 }
584 }
585 Ok(())
586}
587
588pub fn redact_transcript_visibility(
600 transcript: &VmValue,
601 visibility: Option<&str>,
602) -> Option<VmValue> {
603 let Some(visibility) = visibility else {
604 return Some(transcript.clone());
605 };
606 if visibility != "public" && visibility != "public_only" {
607 return Some(transcript.clone());
608 }
609 let dict = transcript.as_dict()?;
610 let public_messages = match dict.get("messages") {
611 Some(VmValue::List(list)) => list
612 .iter()
613 .filter_map(redact_public_message)
614 .collect::<Vec<_>>(),
615 _ => Vec::new(),
616 };
617 let public_events = match dict.get("events") {
618 Some(VmValue::List(list)) => list
619 .iter()
620 .filter(|event| {
621 event
622 .as_dict()
623 .and_then(|d| d.get("visibility"))
624 .map(|v| v.display())
625 .map(|value| value == "public")
626 .unwrap_or(true)
627 })
628 .cloned()
629 .collect::<Vec<_>>(),
630 _ => Vec::new(),
631 };
632 let mut redacted = dict.clone();
633 redacted.insert(
634 crate::value::intern_key("messages"),
635 VmValue::List(std::sync::Arc::new(public_messages)),
636 );
637 redacted.insert(
638 crate::value::intern_key("events"),
639 VmValue::List(std::sync::Arc::new(public_events)),
640 );
641 Some(VmValue::dict(redacted))
642}
643
644fn redact_public_message(message: &VmValue) -> Option<VmValue> {
645 let Some(dict) = message.as_dict() else {
646 return Some(message.clone());
647 };
648 if dict.get("role").map(|value| value.display()).as_deref() == Some("tool_result") {
649 return None;
650 }
651 if dict
652 .get("visibility")
653 .map(|value| value.display())
654 .is_some_and(|visibility| visibility != "public")
655 {
656 return None;
657 }
658
659 let mut redacted = dict.clone();
660 let mut saw_structured_blocks = false;
661 let mut public_text = Vec::new();
662 for key in ["content", "blocks"] {
663 if let Some(VmValue::List(blocks)) = dict.get(key) {
664 saw_structured_blocks = true;
665 let public_blocks = blocks
666 .iter()
667 .filter_map(redact_public_block)
668 .collect::<Vec<_>>();
669 if key == "blocks" || public_text.is_empty() {
670 public_text = text_fragments_from_blocks(&public_blocks);
671 }
672 redacted.insert(
673 crate::value::intern_key(key),
674 VmValue::List(std::sync::Arc::new(public_blocks)),
675 );
676 }
677 }
678 if saw_structured_blocks {
679 if public_text.is_empty() {
680 redacted.remove("text");
681 } else {
682 redacted.put_str("text", public_text.join("\n"));
683 }
684 }
685 Some(VmValue::dict(redacted))
686}
687
688fn redact_public_block(block: &VmValue) -> Option<VmValue> {
689 let Some(dict) = block.as_dict() else {
690 return Some(block.clone());
691 };
692 if dict
693 .get("visibility")
694 .map(|value| value.display())
695 .is_some_and(|visibility| visibility != "public")
696 {
697 return None;
698 }
699 Some(block.clone())
700}
701
702fn text_fragments_from_blocks(blocks: &[VmValue]) -> Vec<String> {
703 blocks
704 .iter()
705 .filter_map(|block| block.as_dict())
706 .filter_map(|dict| dict.get("text"))
707 .filter_map(|text| match text {
708 VmValue::String(value) if !value.is_empty() => Some(value.to_string()),
709 _ => None,
710 })
711 .collect()
712}
713
714pub fn builtin_ceiling() -> CapabilityPolicy {
715 CapabilityPolicy {
716 tools: Vec::new(),
720 capabilities: BTreeMap::new(),
721 workspace_roots: Vec::new(),
722 read_only_roots: Vec::new(),
723 side_effect_level: Some(SideEffectLevel::MAX.as_str().to_string()),
733 recursion_limit: Some(RuntimeLimits::DEFAULT.max_nested_execution_depth),
734 tool_arg_constraints: Vec::new(),
735 tool_annotations: BTreeMap::new(),
736 sandbox_profile: SandboxProfile::Worktree,
737 process_sandbox: Default::default(),
738 }
739}
740
741#[derive(Clone, Debug, Default, Serialize, Deserialize, PartialEq, Eq)]
745#[serde(default)]
746pub struct ToolApprovalPolicy {
747 #[serde(default)]
750 pub rules: Vec<PolicyRule>,
751 #[serde(default)]
753 pub auto_approve: Vec<String>,
754 #[serde(default)]
756 pub auto_deny: Vec<String>,
757 #[serde(default)]
759 pub require_approval: Vec<String>,
760 #[serde(default)]
762 pub write_path_allowlist: Vec<String>,
763 #[serde(default)]
765 pub allow_sensitive_paths: bool,
766 #[serde(default)]
769 pub sensitive_path_patterns: Vec<String>,
770 #[serde(default)]
772 pub allow_external_paths: bool,
773 #[serde(default)]
775 pub external_roots: Vec<String>,
776 #[serde(default, alias = "repeated_call_limit")]
778 pub repeat_limit: Option<u64>,
779 #[serde(default, alias = "repeated_call_action")]
781 pub repeat_action: Option<PolicyAction>,
782}
783
784#[derive(Debug, Clone, PartialEq, Eq)]
786pub enum ToolApprovalDecision {
787 AutoApproved,
789 AutoDenied { reason: String },
791 RequiresHostApproval,
794}
795
796impl ToolApprovalPolicy {
797 pub fn evaluate_detailed(&self, tool_name: &str, args: &serde_json::Value) -> PolicyEvaluation {
798 approval_rules::evaluate_tool_approval_policy(self, tool_name, args, None)
799 }
800
801 pub fn evaluate_detailed_with_repeat(
802 &self,
803 tool_name: &str,
804 args: &serde_json::Value,
805 repeat_count: u64,
806 ) -> PolicyEvaluation {
807 approval_rules::evaluate_tool_approval_policy(self, tool_name, args, Some(repeat_count))
808 }
809
810 pub fn evaluate(&self, tool_name: &str, args: &serde_json::Value) -> ToolApprovalDecision {
813 let decision = self.evaluate_detailed(tool_name, args);
814 if decision.is_deny() {
815 return ToolApprovalDecision::AutoDenied {
816 reason: decision.reason,
817 };
818 }
819 if decision.is_ask() {
820 return ToolApprovalDecision::RequiresHostApproval;
821 }
822 ToolApprovalDecision::AutoApproved
823 }
824
825 pub fn intersect(&self, other: &ToolApprovalPolicy) -> ToolApprovalPolicy {
831 let auto_approve = if self.auto_approve.is_empty() {
832 other.auto_approve.clone()
833 } else if other.auto_approve.is_empty() {
834 self.auto_approve.clone()
835 } else {
836 self.auto_approve
837 .iter()
838 .filter(|p| other.auto_approve.contains(p))
839 .cloned()
840 .collect()
841 };
842 let mut auto_deny = self.auto_deny.clone();
843 auto_deny.extend(other.auto_deny.iter().cloned());
844 let mut require_approval = self.require_approval.clone();
845 require_approval.extend(other.require_approval.iter().cloned());
846 let write_path_allowlist = if self.write_path_allowlist.is_empty() {
847 other.write_path_allowlist.clone()
848 } else if other.write_path_allowlist.is_empty() {
849 self.write_path_allowlist.clone()
850 } else {
851 self.write_path_allowlist
852 .iter()
853 .filter(|p| other.write_path_allowlist.contains(p))
854 .cloned()
855 .collect()
856 };
857 let mut rules = self.rules.clone();
858 rules.extend(other.rules.iter().cloned());
859 let mut sensitive_path_patterns = self.sensitive_path_patterns.clone();
860 sensitive_path_patterns.extend(other.sensitive_path_patterns.iter().cloned());
861 sensitive_path_patterns.sort();
862 sensitive_path_patterns.dedup();
863 let external_roots = if self.external_roots.is_empty() {
864 other.external_roots.clone()
865 } else if other.external_roots.is_empty() {
866 self.external_roots.clone()
867 } else {
868 self.external_roots
869 .iter()
870 .filter(|root| other.external_roots.contains(root))
871 .cloned()
872 .collect()
873 };
874 ToolApprovalPolicy {
875 rules,
876 auto_approve,
877 auto_deny,
878 require_approval,
879 write_path_allowlist,
880 allow_sensitive_paths: self.allow_sensitive_paths && other.allow_sensitive_paths,
881 sensitive_path_patterns,
882 allow_external_paths: self.allow_external_paths && other.allow_external_paths,
883 external_roots,
884 repeat_limit: match (self.repeat_limit, other.repeat_limit) {
885 (Some(left), Some(right)) => Some(left.min(right)),
886 (Some(left), None) => Some(left),
887 (None, Some(right)) => Some(right),
888 (None, None) => None,
889 },
890 repeat_action: match (self.repeat_action, other.repeat_action) {
891 (Some(PolicyAction::Deny), _) | (_, Some(PolicyAction::Deny)) => {
892 Some(PolicyAction::Deny)
893 }
894 (Some(PolicyAction::Ask), _) | (_, Some(PolicyAction::Ask)) => {
895 Some(PolicyAction::Ask)
896 }
897 (Some(PolicyAction::Allow), Some(PolicyAction::Allow)) => Some(PolicyAction::Allow),
898 (Some(action), None) | (None, Some(action)) => Some(action),
899 (None, None) => None,
900 },
901 }
902 }
903}
904
905#[cfg(test)]
906mod approval_policy_tests {
907 use super::*;
908 use crate::orchestration::{pop_execution_policy, push_execution_policy, CapabilityPolicy};
909 use crate::tool_annotations::{ToolAnnotations, ToolArgSchema, ToolKind};
910
911 fn workspace_caps(ops: &[&str]) -> CapabilityPolicy {
912 CapabilityPolicy {
913 capabilities: std::collections::BTreeMap::from([(
914 "workspace".to_string(),
915 ops.iter().map(|s| s.to_string()).collect(),
916 )]),
917 ..Default::default()
918 }
919 }
920
921 #[test]
922 fn builtin_ceiling_permits_desktop_control_but_a_lower_ceiling_denies_it() {
923 let builtin = builtin_ceiling();
927 assert!(policy_allows_side_effect(
928 &builtin,
929 SideEffectLevel::DesktopControl.as_str()
930 ));
931
932 let network_ceiling = CapabilityPolicy {
936 side_effect_level: Some(SideEffectLevel::Network.as_str().to_string()),
937 ..Default::default()
938 };
939 assert!(!policy_allows_side_effect(
940 &network_ceiling,
941 SideEffectLevel::DesktopControl.as_str()
942 ));
943 assert!(policy_allows_side_effect(
945 &network_ceiling,
946 SideEffectLevel::ProcessExec.as_str()
947 ));
948 }
949
950 #[test]
951 fn read_text_subsumes_exists_probe() {
952 push_execution_policy(workspace_caps(&[
960 "read_text",
961 "list",
962 "write_text",
963 "apply_edit",
964 ]));
965 assert!(enforce_current_policy_for_builtin("file_exists", &[]).is_ok());
966 assert!(enforce_current_policy_for_builtin("path_status", &[]).is_ok());
967 assert!(enforce_current_policy_for_builtin("stat", &[]).is_ok());
968 pop_execution_policy();
969 }
970
971 #[test]
972 fn list_alone_subsumes_exists_probe() {
973 push_execution_policy(workspace_caps(&["list"]));
975 assert!(enforce_current_policy_for_builtin("file_exists", &[]).is_ok());
976 assert!(enforce_current_policy_for_builtin("path_status", &[]).is_ok());
977 pop_execution_policy();
978 }
979
980 #[test]
981 fn exists_probe_rejected_without_any_read_grant() {
982 push_execution_policy(workspace_caps(&["write_text", "apply_edit"]));
985 assert!(enforce_current_policy_for_builtin("file_exists", &[]).is_err());
986 assert!(enforce_current_policy_for_builtin("path_status", &[]).is_err());
987 pop_execution_policy();
988 }
989
990 #[test]
991 fn auto_deny_takes_precedence_over_auto_approve() {
992 let policy = ToolApprovalPolicy {
993 auto_approve: vec!["*".to_string()],
994 auto_deny: vec!["dangerous_*".to_string()],
995 ..Default::default()
996 };
997 assert_eq!(
998 policy.evaluate("dangerous_rm", &serde_json::json!({})),
999 ToolApprovalDecision::AutoDenied {
1000 reason: "tool 'dangerous_rm' matches deny pattern 'dangerous_*'".to_string()
1001 }
1002 );
1003 }
1004
1005 #[test]
1006 fn auto_approve_matches_glob() {
1007 let policy = ToolApprovalPolicy {
1008 auto_approve: vec!["read*".to_string(), "search*".to_string()],
1009 ..Default::default()
1010 };
1011 assert_eq!(
1012 policy.evaluate("read_file", &serde_json::json!({})),
1013 ToolApprovalDecision::AutoApproved
1014 );
1015 assert_eq!(
1016 policy.evaluate("search", &serde_json::json!({})),
1017 ToolApprovalDecision::AutoApproved
1018 );
1019 }
1020
1021 #[test]
1022 fn require_approval_emits_decision() {
1023 let policy = ToolApprovalPolicy {
1024 require_approval: vec!["edit*".to_string()],
1025 ..Default::default()
1026 };
1027 let decision = policy.evaluate("edit_file", &serde_json::json!({"path": "foo.rs"}));
1028 assert!(matches!(
1029 decision,
1030 ToolApprovalDecision::RequiresHostApproval
1031 ));
1032 }
1033
1034 #[test]
1035 fn unmatched_tool_defaults_to_approved() {
1036 let policy = ToolApprovalPolicy {
1037 auto_approve: vec!["read*".to_string()],
1038 require_approval: vec!["edit*".to_string()],
1039 ..Default::default()
1040 };
1041 assert_eq!(
1042 policy.evaluate("unknown_tool", &serde_json::json!({})),
1043 ToolApprovalDecision::AutoApproved
1044 );
1045 }
1046
1047 #[test]
1048 fn intersect_merges_deny_lists() {
1049 let a = ToolApprovalPolicy {
1050 auto_deny: vec!["rm*".to_string()],
1051 ..Default::default()
1052 };
1053 let b = ToolApprovalPolicy {
1054 auto_deny: vec!["drop*".to_string()],
1055 ..Default::default()
1056 };
1057 let merged = a.intersect(&b);
1058 assert_eq!(merged.auto_deny.len(), 2);
1059 }
1060
1061 #[test]
1062 fn intersect_restricts_auto_approve_to_common_patterns() {
1063 let a = ToolApprovalPolicy {
1064 auto_approve: vec!["read*".to_string(), "search*".to_string()],
1065 ..Default::default()
1066 };
1067 let b = ToolApprovalPolicy {
1068 auto_approve: vec!["read*".to_string(), "write*".to_string()],
1069 ..Default::default()
1070 };
1071 let merged = a.intersect(&b);
1072 assert_eq!(merged.auto_approve, vec!["read*".to_string()]);
1073 }
1074
1075 #[test]
1076 fn intersect_defers_auto_approve_when_one_side_empty() {
1077 let a = ToolApprovalPolicy {
1078 auto_approve: vec!["read*".to_string()],
1079 ..Default::default()
1080 };
1081 let b = ToolApprovalPolicy::default();
1082 let merged = a.intersect(&b);
1083 assert_eq!(merged.auto_approve, vec!["read*".to_string()]);
1084 }
1085
1086 #[test]
1087 fn write_path_allowlist_matches_recovered_workspace_relative_path() {
1088 let temp = tempfile::tempdir().unwrap();
1089 std::fs::create_dir_all(temp.path().join("packages/demo")).unwrap();
1090 std::fs::write(temp.path().join("packages/demo/file.txt"), "ok").unwrap();
1091 crate::stdlib::process::set_thread_execution_context(Some(
1092 crate::orchestration::RunExecutionRecord {
1093 cwd: Some(temp.path().to_string_lossy().into_owned()),
1094 source_dir: Some(temp.path().to_string_lossy().into_owned()),
1095 env: BTreeMap::new(),
1096 adapter: None,
1097 repo_path: None,
1098 worktree_path: None,
1099 branch: None,
1100 base_ref: None,
1101 cleanup: None,
1102 },
1103 ));
1104
1105 let mut tool_annotations = BTreeMap::new();
1106 tool_annotations.insert(
1107 "write_file".to_string(),
1108 ToolAnnotations {
1109 kind: ToolKind::Edit,
1110 arg_schema: ToolArgSchema {
1111 path_params: vec!["path".to_string()],
1112 ..Default::default()
1113 },
1114 ..Default::default()
1115 },
1116 );
1117 push_execution_policy(CapabilityPolicy {
1118 tool_annotations,
1119 ..Default::default()
1120 });
1121
1122 let policy = ToolApprovalPolicy {
1123 write_path_allowlist: vec!["packages/demo/file.txt".to_string()],
1124 ..Default::default()
1125 };
1126 let decision = policy.evaluate(
1127 "write_file",
1128 &serde_json::json!({"path": "/packages/demo/file.txt"}),
1129 );
1130 assert_eq!(decision, ToolApprovalDecision::AutoApproved);
1131
1132 pop_execution_policy();
1133 crate::stdlib::process::set_thread_execution_context(None);
1134 }
1135
1136 #[test]
1137 fn write_path_allowlist_does_not_block_read_only_tools() {
1138 let temp = tempfile::tempdir().unwrap();
1139 std::fs::create_dir_all(temp.path().join("packages/demo")).unwrap();
1140 std::fs::write(temp.path().join("packages/demo/context.txt"), "ok").unwrap();
1141 crate::stdlib::process::set_thread_execution_context(Some(
1142 crate::orchestration::RunExecutionRecord {
1143 cwd: Some(temp.path().to_string_lossy().into_owned()),
1144 source_dir: Some(temp.path().to_string_lossy().into_owned()),
1145 env: BTreeMap::new(),
1146 adapter: None,
1147 repo_path: None,
1148 worktree_path: None,
1149 branch: None,
1150 base_ref: None,
1151 cleanup: None,
1152 },
1153 ));
1154
1155 let mut tool_annotations = BTreeMap::new();
1156 tool_annotations.insert(
1157 "read_file".to_string(),
1158 ToolAnnotations {
1159 kind: ToolKind::Read,
1160 arg_schema: ToolArgSchema {
1161 path_params: vec!["path".to_string()],
1162 ..Default::default()
1163 },
1164 ..Default::default()
1165 },
1166 );
1167 push_execution_policy(CapabilityPolicy {
1168 tool_annotations,
1169 ..Default::default()
1170 });
1171
1172 let policy = ToolApprovalPolicy {
1173 write_path_allowlist: vec!["packages/demo/file.txt".to_string()],
1174 ..Default::default()
1175 };
1176 let decision = policy.evaluate(
1177 "read_file",
1178 &serde_json::json!({"path": "/packages/demo/context.txt"}),
1179 );
1180 assert_eq!(decision, ToolApprovalDecision::AutoApproved);
1181
1182 pop_execution_policy();
1183 crate::stdlib::process::set_thread_execution_context(None);
1184 }
1185
1186 #[test]
1187 fn builtin_policy_covers_fs_read_and_list_helpers() {
1188 clear_execution_policy_stacks();
1189 push_execution_policy(CapabilityPolicy {
1190 capabilities: BTreeMap::from([("workspace".to_string(), vec!["exists".to_string()])]),
1191 side_effect_level: Some("read_only".to_string()),
1192 ..CapabilityPolicy::default()
1193 });
1194
1195 for name in [
1196 "read_lines",
1197 "find_text",
1198 "walk_dir",
1199 "glob",
1200 "project_context_profile_native",
1201 ] {
1202 assert!(
1203 enforce_current_policy_for_builtin(name, &[]).is_err(),
1204 "{name} should be rejected when the matching workspace capability is absent"
1205 );
1206 }
1207
1208 pop_execution_policy();
1209 }
1210
1211 #[test]
1212 fn move_file_requires_workspace_write_side_effect() {
1213 clear_execution_policy_stacks();
1214 push_execution_policy(CapabilityPolicy {
1215 capabilities: BTreeMap::from([(
1216 "workspace".to_string(),
1217 vec!["write_text".to_string()],
1218 )]),
1219 side_effect_level: Some("read_only".to_string()),
1220 ..CapabilityPolicy::default()
1221 });
1222
1223 let error = enforce_current_policy_for_builtin("move_file", &[]).unwrap_err();
1224 assert!(
1225 error.to_string().contains("workspace write ceiling"),
1226 "unexpected error: {error}"
1227 );
1228
1229 pop_execution_policy();
1230 }
1231
1232 #[test]
1233 fn unix_socket_json_request_requires_network_side_effect() {
1234 clear_execution_policy_stacks();
1235 push_execution_policy(CapabilityPolicy {
1236 side_effect_level: Some("read_only".to_string()),
1237 ..CapabilityPolicy::default()
1238 });
1239
1240 let error =
1241 enforce_current_policy_for_builtin("__net_unix_socket_json_request", &[]).unwrap_err();
1242 assert!(
1243 error.to_string().contains("network ceiling"),
1244 "unexpected error: {error}"
1245 );
1246
1247 pop_execution_policy();
1248 }
1249
1250 #[test]
1251 fn files_upload_requires_workspace_read_and_network_side_effect() {
1252 clear_execution_policy_stacks();
1253 push_execution_policy(CapabilityPolicy {
1254 capabilities: BTreeMap::from([(
1255 "workspace".to_string(),
1256 vec!["read_text".to_string()],
1257 )]),
1258 side_effect_level: Some("read_only".to_string()),
1259 ..CapabilityPolicy::default()
1260 });
1261
1262 let network_error = enforce_current_policy_for_builtin("__files_upload", &[]).unwrap_err();
1263 assert!(
1264 network_error.to_string().contains("network ceiling"),
1265 "unexpected error: {network_error}"
1266 );
1267 pop_execution_policy();
1268
1269 push_execution_policy(CapabilityPolicy {
1270 capabilities: BTreeMap::from([("workspace".to_string(), vec!["exists".to_string()])]),
1271 side_effect_level: Some("network".to_string()),
1272 ..CapabilityPolicy::default()
1273 });
1274 let read_error = enforce_current_policy_for_builtin("__files_upload", &[]).unwrap_err();
1275 assert!(
1276 read_error.to_string().contains("workspace.read_text"),
1277 "unexpected error: {read_error}"
1278 );
1279
1280 pop_execution_policy();
1281 }
1282}
1283
1284#[cfg(test)]
1285mod turn_policy_tests {
1286 use super::TurnPolicy;
1287
1288 #[test]
1289 fn default_allows_done_sentinel() {
1290 let policy = TurnPolicy::default();
1291 assert!(policy.allow_done_sentinel);
1292 assert!(!policy.require_action_or_yield);
1293 assert!(policy.max_prose_chars.is_none());
1294 }
1295
1296 #[test]
1297 fn deserializing_partial_dict_preserves_done_sentinel_pathway() {
1298 let policy: TurnPolicy =
1303 serde_json::from_value(serde_json::json!({ "require_action_or_yield": true }))
1304 .expect("deserialize");
1305 assert!(policy.require_action_or_yield);
1306 assert!(policy.allow_done_sentinel);
1307 }
1308
1309 #[test]
1310 fn deserializing_explicit_false_disables_done_sentinel() {
1311 let policy: TurnPolicy = serde_json::from_value(serde_json::json!({
1312 "require_action_or_yield": true,
1313 "allow_done_sentinel": false,
1314 }))
1315 .expect("deserialize");
1316 assert!(policy.require_action_or_yield);
1317 assert!(!policy.allow_done_sentinel);
1318 }
1319}
1320
1321#[cfg(test)]
1322mod visibility_redaction_tests {
1323 use super::*;
1324 use crate::value::VmValue;
1325
1326 fn mock_transcript() -> VmValue {
1327 let messages = vec![
1328 serde_json::json!({"role": "user", "content": "hi"}),
1329 serde_json::json!({"role": "assistant", "content": "hello"}),
1330 serde_json::json!({"role": "tool_result", "content": "internal tool output"}),
1331 ];
1332 crate::llm::helpers::transcript_to_vm_with_events(
1333 Some("test-id".to_string()),
1334 None,
1335 None,
1336 &messages,
1337 Vec::new(),
1338 Vec::new(),
1339 Some("active"),
1340 )
1341 }
1342
1343 fn message_count(transcript: &VmValue) -> usize {
1344 transcript
1345 .as_dict()
1346 .and_then(|d| d.get("messages"))
1347 .and_then(|v| match v {
1348 VmValue::List(list) => Some(list.len()),
1349 _ => None,
1350 })
1351 .unwrap_or(0)
1352 }
1353
1354 #[test]
1355 fn visibility_none_returns_unchanged() {
1356 let t = mock_transcript();
1357 let result = redact_transcript_visibility(&t, None).unwrap();
1358 assert_eq!(message_count(&result), 3);
1359 }
1360
1361 #[test]
1362 fn visibility_public_drops_tool_results() {
1363 let t = mock_transcript();
1364 let result = redact_transcript_visibility(&t, Some("public")).unwrap();
1365 assert_eq!(message_count(&result), 2);
1366 }
1367
1368 #[test]
1369 fn visibility_public_drops_private_content_blocks() {
1370 let t = crate::schema::json_to_vm_value(&serde_json::json!({
1371 "messages": [
1372 {
1373 "role": "assistant",
1374 "visibility": "public",
1375 "text": "visible answer\nsecret chain",
1376 "content": [
1377 {"type": "output_text", "text": "visible answer", "visibility": "public"},
1378 {"type": "reasoning", "text": "secret chain", "visibility": "private"}
1379 ],
1380 "blocks": [
1381 {"type": "output_text", "text": "visible block", "visibility": "public"},
1382 {"type": "tool_call", "text": "internal args", "visibility": "internal"}
1383 ]
1384 }
1385 ],
1386 "events": []
1387 }));
1388
1389 let result = redact_transcript_visibility(&t, Some("public")).unwrap();
1390 let rendered = result.display();
1391 assert!(rendered.contains("visible answer"));
1392 assert!(rendered.contains("visible block"));
1393 assert!(!rendered.contains("secret chain"));
1394 assert!(!rendered.contains("internal args"));
1395 }
1396
1397 #[test]
1398 fn visibility_unknown_string_is_pass_through() {
1399 let t = mock_transcript();
1400 let result = redact_transcript_visibility(&t, Some("internal")).unwrap();
1401 assert_eq!(message_count(&result), 3);
1402 }
1403}