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amon_hen/
lib.rs

1use clap::{error::ErrorKind, ArgAction, Parser, ValueEnum};
2use serde::Serialize;
3use serde_json::Value;
4use std::collections::{HashMap, HashSet};
5use std::ffi::OsString;
6use std::fs;
7use std::io::{self, IsTerminal, Read, Write};
8use std::path::{Path, PathBuf};
9use std::process::{Child, Command, Stdio};
10use std::sync::{
11    atomic::{AtomicBool, AtomicU64, Ordering},
12    mpsc, Arc, Mutex,
13};
14use std::thread;
15use std::time::{Duration, Instant};
16
17mod linear_delivery;
18mod studio;
19
20const VERSION: &str = env!("CARGO_PKG_VERSION");
21const DEFAULT_TIMEOUT_MS: u64 = 600_000;
22const DEFAULT_MAX_MEMBER_CHARS: usize = 12_000;
23const DEFAULT_ITERATIONS: usize = 1;
24const DEFAULT_TEAM_SIZE: usize = 0;
25const TOKEN_ESTIMATE_CHARS_PER_TOKEN: usize = 4;
26const PROVIDER_STREAM_EVENT_MIN_INTERVAL: Duration = Duration::from_millis(250);
27
28const ENGINES: [&str; 3] = ["codex", "claude", "gemini"];
29const DEFAULT_SUMMARIZER_ORDER: [&str; 3] = ["codex", "claude", "gemini"];
30const DEFAULT_AUTH_MODE: &str = "auto";
31const CAPABILITY_INHERIT: &str = "inherit";
32const CAPABILITY_OVERRIDE: &str = "override";
33const PLANNER_MODE_BLOCKING: &str = "blocking";
34const PLANNER_MODE_PARALLEL: &str = "parallel";
35
36#[derive(Debug, Copy, Clone, Eq, PartialEq)]
37enum Engine {
38    Codex,
39    Claude,
40    Gemini,
41}
42
43impl Engine {
44    fn parse(name: &str) -> Option<Self> {
45        match name {
46            "codex" => Some(Self::Codex),
47            "claude" => Some(Self::Claude),
48            "gemini" => Some(Self::Gemini),
49            _ => None,
50        }
51    }
52
53    fn as_str(self) -> &'static str {
54        match self {
55            Self::Codex => "codex",
56            Self::Claude => "claude",
57            Self::Gemini => "gemini",
58        }
59    }
60
61    fn binary_env_var(self) -> &'static str {
62        match self {
63            Self::Codex => "AMON_HEN_CODEX_BIN",
64            Self::Claude => "AMON_HEN_CLAUDE_BIN",
65            Self::Gemini => "AMON_HEN_GEMINI_BIN",
66        }
67    }
68
69    fn allowed_efforts(self) -> &'static [&'static str] {
70        match self {
71            Self::Codex => &["low", "medium", "high", "xhigh", ""],
72            Self::Claude => &["low", "medium", "high", "xhigh", "max"],
73            Self::Gemini => &["low", "medium", "high", ""],
74        }
75    }
76}
77
78#[derive(Parser, Debug, Clone)]
79#[command(
80    name = "amon-hen",
81    version,
82    about = "Ask multiple AI CLIs the same question, then synthesize their answers.",
83    trailing_var_arg = true,
84    disable_version_flag = true
85)]
86pub struct CliArgs {
87    #[arg(short = 'v', long = "version", action = ArgAction::SetTrue)]
88    version: bool,
89
90    #[arg(long, action = ArgAction::SetTrue)]
91    json: bool,
92
93    #[arg(long = "json-stream", alias = "ndjson", action = ArgAction::SetTrue)]
94    json_stream: bool,
95
96    #[arg(long, action = ArgAction::SetTrue)]
97    headless: bool,
98
99    #[arg(long, action = ArgAction::SetTrue)]
100    studio: bool,
101
102    #[arg(long, action = ArgAction::SetTrue)]
103    plain: bool,
104
105    #[arg(long = "no-banner", action = ArgAction::SetTrue)]
106    no_banner: bool,
107    #[arg(long = "banner", hide = true, action = ArgAction::SetTrue)]
108    banner: bool,
109
110    #[arg(short = 'q', long = "quiet", alias = "summary-only", action = ArgAction::SetTrue)]
111    summary_only: bool,
112
113    #[arg(short = 'd', long, action = ArgAction::SetTrue)]
114    verbose: bool,
115
116    #[arg(long, action = ArgAction::SetTrue)]
117    all: bool,
118
119    #[arg(long, action = ArgAction::SetTrue)]
120    codex: bool,
121    #[arg(long = "no-codex", action = ArgAction::SetTrue)]
122    no_codex: bool,
123    #[arg(long, action = ArgAction::SetTrue)]
124    claude: bool,
125    #[arg(long = "no-claude", action = ArgAction::SetTrue)]
126    no_claude: bool,
127    #[arg(long, action = ArgAction::SetTrue)]
128    gemini: bool,
129    #[arg(long = "no-gemini", action = ArgAction::SetTrue)]
130    no_gemini: bool,
131
132    #[arg(long, value_delimiter = ',')]
133    members: Vec<String>,
134
135    #[arg(long, default_value = "auto")]
136    summarizer: String,
137
138    #[arg(long, value_enum)]
139    effort: Option<Effort>,
140
141    #[arg(long = "codex-model")]
142    codex_model: Option<String>,
143    #[arg(long = "claude-model")]
144    claude_model: Option<String>,
145    #[arg(long = "gemini-model")]
146    gemini_model: Option<String>,
147
148    #[arg(long = "codex-effort")]
149    codex_effort: Option<String>,
150    #[arg(long = "claude-effort")]
151    claude_effort: Option<String>,
152    #[arg(long = "gemini-effort")]
153    gemini_effort: Option<String>,
154
155    #[arg(long = "codex-sandbox", default_value = "read-only")]
156    codex_sandbox: String,
157    #[arg(long = "claude-permission-mode", default_value = "plan")]
158    claude_permission_mode: String,
159
160    #[arg(long = "codex-auth", default_value = "auto")]
161    codex_auth: String,
162    #[arg(long = "claude-auth", default_value = "auto")]
163    claude_auth: String,
164    #[arg(long = "gemini-auth", default_value = "auto")]
165    gemini_auth: String,
166
167    #[arg(long = "codex-capabilities", default_value = "inherit")]
168    codex_capabilities: String,
169    #[arg(long = "claude-capabilities", default_value = "inherit")]
170    claude_capabilities: String,
171    #[arg(long = "gemini-capabilities", default_value = "inherit")]
172    gemini_capabilities: String,
173
174    #[arg(long = "codex-config", action = ArgAction::Append)]
175    codex_config: Vec<String>,
176    #[arg(long = "codex-mcp-profile")]
177    codex_mcp_profile: Option<String>,
178    #[arg(long = "claude-mcp-config", action = ArgAction::Append)]
179    claude_mcp_config: Vec<String>,
180    #[arg(long = "claude-allowed-tools", value_delimiter = ',', action = ArgAction::Append)]
181    claude_allowed_tools: Vec<String>,
182    #[arg(long = "claude-disallowed-tools", value_delimiter = ',', action = ArgAction::Append)]
183    claude_disallowed_tools: Vec<String>,
184    #[arg(long = "claude-tools", value_delimiter = ',', action = ArgAction::Append)]
185    claude_tools: Vec<String>,
186    #[arg(long = "claude-agent")]
187    claude_agent: Option<String>,
188    #[arg(long = "claude-agents-json")]
189    claude_agents_json: Option<String>,
190    #[arg(long = "claude-plugin-dir", action = ArgAction::Append)]
191    claude_plugin_dir: Vec<String>,
192    #[arg(long = "claude-strict-mcp-config", action = ArgAction::SetTrue)]
193    claude_strict_mcp_config: bool,
194    #[arg(long = "claude-disable-slash-commands", action = ArgAction::SetTrue)]
195    claude_disable_slash_commands: bool,
196    #[arg(long = "gemini-settings")]
197    gemini_settings: Option<String>,
198    #[arg(long = "gemini-tools-profile", value_delimiter = ',', action = ArgAction::Append)]
199    gemini_tools_profile: Vec<String>,
200    #[arg(long = "gemini-allowed-mcp-servers", value_delimiter = ',', action = ArgAction::Append)]
201    gemini_allowed_mcp_servers: Vec<String>,
202    #[arg(long = "gemini-policy", value_delimiter = ',', action = ArgAction::Append)]
203    gemini_policy: Vec<String>,
204    #[arg(long = "gemini-admin-policy", value_delimiter = ',', action = ArgAction::Append)]
205    gemini_admin_policy: Vec<String>,
206    #[arg(long = "capabilities-status", action = ArgAction::SetTrue)]
207    capabilities_status: bool,
208
209    #[arg(long = "auth-login", action = ArgAction::SetTrue)]
210    auth_login: bool,
211    #[arg(long = "auth-status", action = ArgAction::SetTrue)]
212    auth_status: bool,
213    #[arg(long = "auth-login-providers", value_delimiter = ',')]
214    auth_login_providers: Vec<String>,
215    #[arg(long = "auth-device-code", action = ArgAction::SetTrue)]
216    auth_device_code: bool,
217    #[arg(long = "no-auth-open-browser", action = ArgAction::SetTrue)]
218    no_auth_open_browser: bool,
219    #[arg(long = "auth-open-browser", hide = true, action = ArgAction::SetTrue)]
220    auth_open_browser: bool,
221    #[arg(long = "auth-timeout", default_value_t = 300)]
222    auth_timeout: u64,
223    #[arg(long = "claude-login-mode", default_value = "claudeai")]
224    claude_login_mode: String,
225    #[arg(long = "claude-login-email")]
226    claude_login_email: Option<String>,
227
228    #[arg(long = "file", alias = "tag-file", action = ArgAction::Append)]
229    files: Vec<PathBuf>,
230    #[arg(long = "cmd", alias = "prompt-command", action = ArgAction::Append)]
231    commands: Vec<String>,
232
233    #[arg(long, action = ArgAction::SetTrue)]
234    handoff: bool,
235    #[arg(long)]
236    lead: Option<String>,
237    #[arg(long)]
238    planner: Option<String>,
239    #[arg(long = "planner-mode", default_value = PLANNER_MODE_BLOCKING)]
240    planner_mode: String,
241    #[arg(long, default_value_t = DEFAULT_ITERATIONS)]
242    iterations: usize,
243    #[arg(long = "team-work", alias = "teamwork", alias = "sub-agents", default_value_t = DEFAULT_TEAM_SIZE)]
244    team_work: usize,
245    #[arg(long = "codex-sub-agents")]
246    codex_sub_agents: Option<usize>,
247    #[arg(long = "claude-sub-agents")]
248    claude_sub_agents: Option<usize>,
249    #[arg(long = "gemini-sub-agents")]
250    gemini_sub_agents: Option<usize>,
251
252    #[arg(long = "deliver-linear", alias = "linear", action = ArgAction::SetTrue)]
253    deliver_linear: bool,
254    #[arg(long = "linear-setup", action = ArgAction::SetTrue)]
255    linear_setup: bool,
256    #[arg(long = "linear-status", action = ArgAction::SetTrue)]
257    linear_status: bool,
258    #[arg(long = "linear-watch", action = ArgAction::SetTrue)]
259    linear_watch: bool,
260    #[arg(long = "linear-until-complete", action = ArgAction::SetTrue)]
261    linear_until_complete: bool,
262    #[arg(long = "linear-issue", value_delimiter = ',', action = ArgAction::Append)]
263    linear_issue: Vec<String>,
264    #[arg(long = "linear-query")]
265    linear_query: Option<String>,
266    #[arg(long = "linear-project", value_delimiter = ',', action = ArgAction::Append)]
267    linear_project: Vec<String>,
268    #[arg(long = "linear-epic", value_delimiter = ',', action = ArgAction::Append)]
269    linear_epic: Vec<String>,
270    #[arg(long = "linear-team")]
271    linear_team: Option<String>,
272    #[arg(long = "linear-state")]
273    linear_state: Option<String>,
274    #[arg(long = "linear-assignee")]
275    linear_assignee: Option<String>,
276    #[arg(long = "linear-limit", default_value_t = 3)]
277    linear_limit: usize,
278    #[arg(long = "linear-endpoint")]
279    linear_endpoint: Option<String>,
280    #[arg(long = "linear-auth", default_value = "api-key")]
281    linear_auth: String,
282    #[arg(long = "linear-api-key-env", default_value = "LINEAR_API_KEY")]
283    linear_api_key_env: String,
284    #[arg(long = "linear-oauth-token-env", default_value = "LINEAR_OAUTH_TOKEN")]
285    linear_oauth_token_env: String,
286    #[arg(long = "linear-completion-gate", default_value = "delivered")]
287    linear_completion_gate: String,
288    #[arg(long = "linear-review-state")]
289    linear_review_state: Option<String>,
290    #[arg(long = "linear-ci-timeout", default_value_t = 900)]
291    linear_ci_timeout: u64,
292    #[arg(long = "linear-ci-poll-interval", default_value_t = 30)]
293    linear_ci_poll_interval: u64,
294    #[arg(long = "linear-poll-interval", default_value_t = 60)]
295    linear_poll_interval: u64,
296    #[arg(long = "linear-max-polls")]
297    linear_max_polls: Option<usize>,
298    #[arg(long = "linear-max-concurrency", default_value_t = 1)]
299    linear_max_concurrency: usize,
300    #[arg(long = "linear-max-attempts", default_value_t = 3)]
301    linear_max_attempts: usize,
302    #[arg(long = "linear-retry-base", default_value_t = 60)]
303    linear_retry_base: u64,
304    #[arg(long = "linear-workspace-strategy", default_value = "worktree")]
305    linear_workspace_strategy: String,
306    #[arg(long = "linear-state-file")]
307    linear_state_file: Option<PathBuf>,
308    #[arg(long = "linear-workspace-root")]
309    linear_workspace_root: Option<PathBuf>,
310    #[arg(long = "linear-observability-dir")]
311    linear_observability_dir: Option<PathBuf>,
312    #[arg(long = "linear-workflow-file")]
313    linear_workflow_file: Option<PathBuf>,
314    #[arg(long = "linear-attach-media", value_delimiter = ',', action = ArgAction::Append)]
315    linear_attach_media: Vec<String>,
316    #[arg(long = "linear-attachment-title")]
317    linear_attachment_title: Option<String>,
318    #[arg(long = "no-linear-comments", action = ArgAction::SetTrue)]
319    no_linear_comments: bool,
320    #[arg(long = "linear-update-review-state", action = ArgAction::SetTrue)]
321    linear_update_review_state: bool,
322    #[arg(long = "delivery-phases", value_delimiter = ',')]
323    delivery_phases: Vec<String>,
324
325    #[arg(long, default_value_t = DEFAULT_TIMEOUT_MS / 1000)]
326    timeout: u64,
327    #[arg(long = "max-member-chars", default_value_t = DEFAULT_MAX_MEMBER_CHARS)]
328    max_member_chars: usize,
329    #[arg(long, default_value = ".")]
330    cwd: PathBuf,
331    #[arg(long, default_value = "auto")]
332    color: String,
333    #[arg(long = "no-color", action = ArgAction::SetTrue)]
334    no_color: bool,
335
336    #[arg(value_name = "QUERY")]
337    prompt: Vec<String>,
338}
339
340#[derive(Copy, Clone, Debug, ValueEnum)]
341enum Effort {
342    Low,
343    Medium,
344    High,
345}
346
347impl Effort {
348    fn as_str(self) -> &'static str {
349        match self {
350            Effort::Low => "low",
351            Effort::Medium => "medium",
352            Effort::High => "high",
353        }
354    }
355}
356
357#[derive(Debug, Clone)]
358struct ResolvedArgs {
359    raw: CliArgs,
360    members: Vec<String>,
361    prompt: String,
362    cwd: PathBuf,
363}
364
365#[derive(Debug, Clone, Serialize)]
366pub struct AmonHenResult {
367    query: String,
368    cwd: String,
369    members_requested: Vec<String>,
370    summarizer_requested: String,
371    workflow: Workflow,
372    prompt_commands: Vec<CommandTelemetry>,
373    iterations: Vec<IterationRecord>,
374    members: Vec<EngineResult>,
375    summary: EngineResult,
376}
377
378#[derive(Debug, Clone, Serialize)]
379struct Workflow {
380    handoff: bool,
381    lead: Option<String>,
382    planner: Option<String>,
383    planner_mode: String,
384    iterations: usize,
385    team_work: usize,
386    teams: HashMap<String, usize>,
387}
388
389#[derive(Debug, Clone, Serialize)]
390struct IterationRecord {
391    iteration: usize,
392    total_iterations: usize,
393    status: String,
394    duration_ms: u128,
395    members: Vec<EngineResult>,
396    sub_agents: Vec<EngineResult>,
397    handoff_context: Option<String>,
398    summary_context: Option<String>,
399    token_usage: TokenUsage,
400    tool_calls: Vec<ToolUsage>,
401}
402
403#[derive(Debug, Clone, Serialize)]
404pub struct EngineResult {
405    name: String,
406    bin: Option<String>,
407    status: String,
408    duration_ms: u128,
409    detail: String,
410    exit_code: Option<i32>,
411    stdout: String,
412    stderr: String,
413    output: String,
414    command: String,
415    token_usage: TokenUsage,
416    tool_calls: Vec<ToolUsage>,
417    sub_agents: Vec<EngineResult>,
418    role: String,
419    iteration: usize,
420    total_iterations: usize,
421    team_size: usize,
422}
423
424#[derive(Debug, Clone, Serialize)]
425struct TokenUsage {
426    input: usize,
427    output: usize,
428    total: usize,
429    estimated: bool,
430    source: String,
431}
432
433#[derive(Debug, Clone, Serialize)]
434struct ToolUsage {
435    name: String,
436    kind: String,
437    status: String,
438    detail: String,
439}
440
441#[derive(Debug, Clone, Serialize)]
442struct CommandTelemetry {
443    command: String,
444    status: String,
445    detail: String,
446    exit_code: Option<i32>,
447    duration_ms: u128,
448    stdout_chars: usize,
449    stderr_chars: usize,
450    timed_out: bool,
451}
452
453#[derive(Debug, Copy, Clone, Eq, PartialEq, Serialize)]
454#[serde(rename_all = "snake_case")]
455enum ProgressStage {
456    Context,
457    Start,
458    Spawn,
459    Heartbeat,
460    Done,
461}
462
463#[derive(Debug, Copy, Clone, Eq, PartialEq, Serialize)]
464#[serde(rename_all = "snake_case")]
465enum RuntimeEventKind {
466    Context,
467    Iteration,
468    Provider,
469    TokenUsage,
470    ToolUsage,
471    Result,
472}
473
474#[derive(Debug, Clone, Serialize)]
475struct ProgressEvent {
476    kind: RuntimeEventKind,
477    provider: Option<String>,
478    role: Option<String>,
479    stage: ProgressStage,
480    status: Option<String>,
481    iteration: Option<usize>,
482    total_iterations: Option<usize>,
483    is_sub_agent: bool,
484    duration_ms: Option<u128>,
485    token_usage: Option<TokenUsage>,
486    tool_calls: Vec<ToolUsage>,
487    message: String,
488}
489
490type ProgressSink = Arc<dyn Fn(ProgressEvent) + Send + Sync + 'static>;
491type RuntimeEventSink = Arc<dyn Fn(RuntimeEvent) + Send + Sync + 'static>;
492
493#[derive(Debug, Clone, Serialize)]
494struct RuntimeEvent {
495    sequence: u64,
496    elapsed_ms: u128,
497    #[serde(flatten)]
498    progress: ProgressEvent,
499    #[serde(skip_serializing_if = "Option::is_none")]
500    result: Option<Box<AmonHenResult>>,
501    #[serde(skip_serializing_if = "Option::is_none", rename = "linearResult")]
502    linear_result: Option<Box<linear_delivery::LinearDeliveryResult>>,
503}
504
505#[derive(Clone)]
506struct RuntimeEventBus {
507    started: Instant,
508    sequence: Arc<AtomicU64>,
509    emit_lock: Arc<Mutex<()>>,
510    sinks: Arc<Mutex<Vec<RuntimeEventSink>>>,
511}
512
513#[derive(Debug)]
514struct PromptContext {
515    prompt: String,
516    commands: Vec<CommandTelemetry>,
517}
518
519#[derive(Debug)]
520struct CommandResult {
521    command: String,
522    args: Vec<String>,
523    code: Option<i32>,
524    stdout: String,
525    stderr: String,
526    timed_out: bool,
527    cancelled: bool,
528    error: Option<String>,
529    timeout_ms: u64,
530    duration_ms: u128,
531}
532
533#[derive(Clone)]
534struct CommandProgress {
535    label: String,
536    sink: Option<ProgressSink>,
537    input_tokens: usize,
538}
539
540struct CommandRequest<'a> {
541    command: &'a str,
542    args: &'a [String],
543    cwd: &'a Path,
544    stdin_text: Option<&'a str>,
545    timeout_ms: u64,
546    envs: HashMap<String, String>,
547    progress: Option<CommandProgress>,
548    cancel: Option<Arc<AtomicBool>>,
549}
550
551impl<'a> CommandRequest<'a> {
552    fn new(command: &'a str, args: &'a [String], cwd: &'a Path, timeout_ms: u64) -> Self {
553        Self {
554            command,
555            args,
556            cwd,
557            stdin_text: None,
558            timeout_ms,
559            envs: HashMap::new(),
560            progress: None,
561            cancel: None,
562        }
563    }
564
565    fn stdin_text(mut self, stdin_text: Option<&'a str>) -> Self {
566        self.stdin_text = stdin_text;
567        self
568    }
569
570    fn envs(mut self, envs: HashMap<String, String>) -> Self {
571        self.envs = envs;
572        self
573    }
574
575    fn progress(mut self, progress: Option<CommandProgress>) -> Self {
576        self.progress = progress;
577        self
578    }
579
580    fn cancel(mut self, cancel: Option<Arc<AtomicBool>>) -> Self {
581        self.cancel = cancel;
582        self
583    }
584}
585
586#[derive(Clone)]
587struct EngineRunOptions {
588    prompt: String,
589    cwd: PathBuf,
590    timeout_ms: u64,
591    effort: Option<String>,
592    model: Option<String>,
593    permission: Option<String>,
594    auth: String,
595    capability: ProviderCapability,
596    role: String,
597    iteration: usize,
598    total_iterations: usize,
599    team_size: usize,
600    is_sub_agent: bool,
601    live: bool,
602    progress: Option<ProgressSink>,
603    cancel: Option<Arc<AtomicBool>>,
604}
605
606struct EngineOptionsInput<'a> {
607    member: &'a str,
608    prompt: String,
609    role: &'a str,
610    iteration: usize,
611    workflow: &'a Workflow,
612    progress: Option<ProgressSink>,
613    cancel: Option<Arc<AtomicBool>>,
614}
615
616struct MemberPromptInput<'a> {
617    query: &'a str,
618    role: &'a str,
619    workflow: &'a Workflow,
620    iteration: usize,
621    team_size: usize,
622    previous_iteration: &'a [EngineResult],
623    handoff_results: &'a [EngineResult],
624    plan_output: &'a str,
625}
626
627#[derive(Debug, Clone)]
628struct ProviderCapability {
629    mode: String,
630    config: Vec<String>,
631    mcp_profile: Option<String>,
632    mcp_config: Vec<String>,
633    allowed_tools: Vec<String>,
634    disallowed_tools: Vec<String>,
635    tools: Vec<String>,
636    agent: Option<String>,
637    agents_json: Option<String>,
638    plugin_dirs: Vec<String>,
639    strict_mcp_config: bool,
640    disable_slash_commands: bool,
641    settings: Option<String>,
642    tools_profile: Vec<String>,
643    allowed_mcp_servers: Vec<String>,
644    policy: Vec<String>,
645    admin_policy: Vec<String>,
646}
647
648#[derive(Debug, Clone, Serialize)]
649struct ProviderAuthStatus {
650    provider: String,
651    configured: bool,
652    status: String,
653    source: String,
654    detail: String,
655}
656
657#[derive(Debug, Clone, Serialize)]
658struct ProviderCapabilityStatus {
659    provider: String,
660    mcp: CommandTelemetry,
661    skills: Option<CommandTelemetry>,
662    tools: Option<CommandTelemetry>,
663    detail: String,
664}
665
666struct TempSettings {
667    _dir: tempfile::TempDir,
668    path: PathBuf,
669}
670
671pub fn run_from_env() -> i32 {
672    let args: Vec<OsString> = std::env::args_os().skip(1).collect();
673    run_with_args(args)
674}
675
676pub fn run_with_args<I, T>(args: I) -> i32
677where
678    I: IntoIterator<Item = T>,
679    T: Into<OsString>,
680{
681    let raw_args: Vec<OsString> = args.into_iter().map(Into::into).collect();
682    if raw_args.first().and_then(|value| value.to_str()) == Some("help") {
683        println!("{}", render_cli_help());
684        return 0;
685    }
686
687    let mut parse_args = vec![OsString::from("amon-hen")];
688    parse_args.extend(raw_args);
689    let parsed = match CliArgs::try_parse_from(parse_args) {
690        Ok(parsed) => parsed,
691        Err(error) => {
692            if error.kind() == ErrorKind::DisplayHelp {
693                println!("{}", render_cli_help());
694                return 0;
695            }
696            if error.kind() == ErrorKind::DisplayVersion {
697                println!("{VERSION}");
698                return 0;
699            }
700            let exit_code = parse_error_exit_code(error.kind());
701            let _ = error.print();
702            return exit_code;
703        }
704    };
705
706    if parsed.version {
707        println!("{VERSION}");
708        return 0;
709    }
710
711    let resolved = match resolve_args(parsed) {
712        Ok(resolved) => resolved,
713        Err(error) => {
714            eprintln!("{error}");
715            return 64;
716        }
717    };
718
719    if resolved.raw.studio {
720        return studio::run_studio(&resolved);
721    }
722
723    let event_bus = resolved.raw.json_stream.then(RuntimeEventBus::new);
724    if let Some(bus) = &event_bus {
725        let stdout_lock = Arc::new(Mutex::new(()));
726        bus.add_sink(Arc::new(move |event| {
727            let Ok(line) = serde_json::to_string(&event) else {
728                return;
729            };
730            let _guard = stdout_lock.lock().ok();
731            println!("{line}");
732            let _ = io::stdout().flush();
733        }));
734    }
735    let progress = event_bus.as_ref().map(RuntimeEventBus::progress_sink);
736
737    if resolved.raw.auth_status {
738        println!(
739            "{}",
740            render_auth_statuses(&collect_auth_statuses(&resolved))
741        );
742        if resolved.prompt.trim().is_empty()
743            && !resolved.raw.auth_login
744            && !resolved.raw.deliver_linear
745            && !resolved.raw.capabilities_status
746        {
747            return 0;
748        }
749    }
750
751    if resolved.raw.capabilities_status {
752        println!(
753            "{}",
754            render_provider_capability_statuses(&collect_provider_capability_statuses(&resolved))
755        );
756        if resolved.prompt.trim().is_empty()
757            && !resolved.raw.auth_login
758            && !resolved.raw.deliver_linear
759        {
760            return 0;
761        }
762    }
763
764    if resolved.raw.auth_login {
765        if let Err(error) = run_social_login(&resolved) {
766            eprintln!("{error}");
767            return 1;
768        }
769        if resolved.prompt.trim().is_empty() && !resolved.raw.deliver_linear {
770            return 0;
771        }
772    }
773
774    if resolved.raw.linear_setup || resolved.raw.linear_status {
775        match linear_delivery::get_linear_status(&resolved) {
776            Ok(status) => {
777                println!("{}", linear_delivery::render_linear_status(&status));
778                return 0;
779            }
780            Err(error) => {
781                eprintln!("{error}");
782                return 1;
783            }
784        }
785    }
786
787    if linear_delivery_requested(&resolved.raw) {
788        match linear_delivery::run_linear_delivery_with_progress(&resolved, progress.clone(), None)
789        {
790            Ok(result) => {
791                if let Some(bus) = &event_bus {
792                    bus.emit_linear_result(&result);
793                } else if resolved.raw.json {
794                    let serialized = serde_json::to_string_pretty(&result);
795                    println!("{}", serialized.unwrap_or_else(|_| "{}".to_string()));
796                } else {
797                    println!(
798                        "{}",
799                        linear_delivery::render_linear_delivery_result(&result)
800                    );
801                }
802                return if result.success { 0 } else { 1 };
803            }
804            Err(error) => {
805                eprintln!("{error}");
806                return 1;
807            }
808        }
809    }
810
811    if resolved.prompt.trim().is_empty() {
812        eprintln!("No query provided.\n\n{}", render_cli_help());
813        return 64;
814    }
815
816    let prompt_context = match build_prompt_context_with_progress(&resolved, progress.clone()) {
817        Ok(context) => context,
818        Err(error) => {
819            eprintln!("{error}");
820            return 1;
821        }
822    };
823
824    if should_show_banner(&resolved.raw) {
825        eprintln!("{}", render_banner());
826    }
827
828    let result = run_amon_hen_with_progress(
829        &resolved,
830        prompt_context.prompt,
831        prompt_context.commands,
832        progress,
833    );
834    if let Some(bus) = &event_bus {
835        bus.emit_result(&result);
836    } else if resolved.raw.json {
837        let serialized = serde_json::to_string_pretty(&result);
838        println!("{}", serialized.unwrap_or_else(|_| "{}".to_string()));
839    } else {
840        println!("{}", render_human_result(&result, resolved.raw.verbose));
841    }
842
843    if is_success(&result) {
844        0
845    } else {
846        1
847    }
848}
849
850fn parse_error_exit_code(kind: ErrorKind) -> i32 {
851    match kind {
852        ErrorKind::DisplayHelp | ErrorKind::DisplayVersion => 0,
853        _ => 64,
854    }
855}
856
857fn render_cli_help() -> &'static str {
858    r#"Amon Hen
859Rust-native orchestration for Codex, Claude, Gemini, and Linear delivery.
860
861Usage:
862  amon-hen [OPTIONS] "your task"
863  amon-hen --studio --members codex,claude,gemini "your task"
864  amon-hen --deliver-linear --linear-project "Project" --linear-until-complete
865
866Core run:
867  --members codex,claude,gemini       Providers to consult. Also supports --codex, --claude, --gemini, --all.
868  --summarizer auto|codex|claude|gemini
869                                      Provider used for synthesis. auto tries the configured order.
870  --studio                            Open the interactive native Studio.
871  --plain                             Disable rich terminal output for script-friendly runs.
872  --json, --json-stream               Emit JSON or newline-delimited JSON.
873  -q, --quiet                         Print the synthesis only.
874  -d, --verbose                       Include provider details, telemetry, and tool usage.
875
876Models, effort, and permissions:
877  --codex-model NAME                  Model passed to Codex.
878  --claude-model NAME                 Model passed to Claude.
879  --gemini-model NAME                 Model passed to Gemini.
880  --effort low|medium|high            Shared default effort.
881  --codex-effort low|medium|high|xhigh
882  --claude-effort low|medium|high|xhigh|max
883  --gemini-effort low|medium|high
884  --codex-sandbox read-only|workspace-write|danger-full-access
885  --claude-permission-mode MODE       Claude permission mode such as plan, acceptEdits, bypassPermissions.
886
887Auth and provider capabilities:
888  --auth-login                        Start provider social-login flows.
889  --auth-status                       Show configured auth sources for each provider.
890  --codex-auth auto|api-key|social-login|oauth|keychain
891  --claude-auth auto|api-key|social-login|oauth|keychain
892  --gemini-auth auto|api-key|social-login|oauth|keychain
893  --capabilities-status               Probe provider Skills / MCP / Tools support.
894  --codex-capabilities inherit|override
895  --claude-capabilities inherit|override
896  --gemini-capabilities inherit|override
897  --codex-config PATH                 Extra Codex config file, repeatable.
898  --codex-mcp-profile NAME            Codex MCP profile.
899  --claude-mcp-config PATH            Claude MCP config file, repeatable.
900  --claude-allowed-tools LIST         Allowed Claude tools.
901  --claude-disallowed-tools LIST      Disallowed Claude tools.
902  --claude-tools LIST                 Claude tool list override.
903  --claude-agent NAME                 Claude agent profile.
904  --claude-agents-json JSON           Claude agents JSON override.
905  --claude-plugin-dir PATH            Claude plugin directory, repeatable.
906  --gemini-settings PATH              Gemini settings file.
907  --gemini-tools-profile LIST         Gemini tool profile list.
908  --gemini-allowed-mcp-servers LIST   Gemini MCP allow-list.
909  --gemini-policy LIST                Gemini policy values.
910  --gemini-admin-policy LIST          Gemini admin policy values.
911
912Team workflow:
913  --handoff                           Feed planner/lead context between providers.
914  --planner codex|claude|gemini       Assign the planning role.
915  --planner-mode blocking|parallel     Wait for planner/handoff or run planner with executors.
916  --lead codex|claude|gemini          Assign the lead reviewer/synthesizer role.
917  --iterations N                      Run multiple provider rounds per prompt.
918  --team-work N                       Spawn N same-provider sub-agents per provider.
919  --codex-sub-agents N                Override Codex sub-agent count.
920  --claude-sub-agents N               Override Claude sub-agent count.
921  --gemini-sub-agents N               Override Gemini sub-agent count.
922  --file PATH                         Tag a local file into the prompt context, repeatable.
923  --cmd COMMAND                       Run a local command and include its telemetry, repeatable.
924
925Linear delivery:
926  --deliver-linear                    Deliver Linear work instead of a one-shot prompt.
927  --linear-watch                      Poll Linear for matching work.
928  --linear-until-complete             Continue until review/delivery gate is met.
929  --linear-issue ID,ID                Target specific Linear issues.
930  --linear-project NAME,NAME          Target Linear projects.
931  --linear-epic NAME,NAME             Target Linear epics.
932  --linear-team KEY                   Restrict to a Linear team.
933  --linear-state NAME                 Restrict by Linear workflow state.
934  --linear-completion-gate delivered|review|ci
935  --linear-max-concurrency N          Isolated workspace concurrency.
936  --linear-max-attempts N             Retry attempts per issue.
937  --linear-workspace-strategy worktree|local
938  --linear-workspace-root PATH        Root for per-issue workspaces.
939  --linear-observability-dir PATH     Logs, reconciliation, and run telemetry.
940  --linear-attach-media PATH,PATH     Attach generated media back to Linear.
941
942Runtime:
943  --cwd PATH                          Working directory for provider CLIs.
944  --timeout SECONDS                   Per-provider timeout.
945  --max-member-chars N                Max provider output included in synthesis.
946  --color auto|always|never           Color mode.
947  --no-color                          Disable color.
948  -v, --version                       Print version.
949  -h, --help                          Show this help.
950
951Examples:
952  amon-hen --studio --members codex,claude,gemini "Inspect this repo"
953  amon-hen --members codex,claude,gemini --planner codex --lead claude --handoff --iterations 2 "Suggest the cleanest next patch"
954  amon-hen --deliver-linear --linear-project "Developer Platform" --linear-until-complete --team-work 2
955  amon-hen --auth-login --auth-login-providers codex,claude,gemini"#
956}
957
958fn resolve_args(raw: CliArgs) -> Result<ResolvedArgs, String> {
959    let members = resolve_members(&raw)?;
960    validate_engine_name(&raw.summarizer, true, "--summarizer")?;
961    if let Some(lead) = &raw.lead {
962        validate_engine_name(lead, false, "--lead")?;
963        if !members.contains(lead) {
964            return Err(format!(
965                "--lead must be one of the enabled members: {}",
966                members.join(", ")
967            ));
968        }
969    }
970    if let Some(planner) = &raw.planner {
971        validate_engine_name(planner, false, "--planner")?;
972        if !members.contains(planner) {
973            return Err(format!(
974                "--planner must be one of the enabled members: {}",
975                members.join(", ")
976            ));
977        }
978    }
979    validate_choice(
980        "--planner-mode",
981        &raw.planner_mode,
982        &[PLANNER_MODE_BLOCKING, PLANNER_MODE_PARALLEL],
983    )?;
984    validate_provider_effort("codex", raw.codex_effort.as_deref())?;
985    validate_provider_effort("claude", raw.claude_effort.as_deref())?;
986    validate_provider_effort("gemini", raw.gemini_effort.as_deref())?;
987    validate_choice(
988        "--claude-login-mode",
989        &raw.claude_login_mode,
990        &["claudeai", "console", "sso"],
991    )?;
992    validate_choice(
993        "--codex-capabilities",
994        &raw.codex_capabilities,
995        &[CAPABILITY_INHERIT, CAPABILITY_OVERRIDE],
996    )?;
997    validate_choice(
998        "--claude-capabilities",
999        &raw.claude_capabilities,
1000        &[CAPABILITY_INHERIT, CAPABILITY_OVERRIDE],
1001    )?;
1002    validate_choice(
1003        "--gemini-capabilities",
1004        &raw.gemini_capabilities,
1005        &[CAPABILITY_INHERIT, CAPABILITY_OVERRIDE],
1006    )?;
1007    validate_choice("--linear-auth", &raw.linear_auth, &["api-key", "oauth"])?;
1008    validate_choice(
1009        "--linear-completion-gate",
1010        &raw.linear_completion_gate,
1011        &["delivered", "human-review", "ci-success", "review-or-ci"],
1012    )?;
1013    validate_choice(
1014        "--linear-workspace-strategy",
1015        &raw.linear_workspace_strategy,
1016        &["worktree", "copy", "none"],
1017    )?;
1018    if raw.linear_limit == 0 {
1019        return Err("--linear-limit requires a positive integer.".to_string());
1020    }
1021    if raw.linear_max_concurrency == 0 {
1022        return Err("--linear-max-concurrency requires a positive integer.".to_string());
1023    }
1024    if raw.linear_max_polls == Some(0) {
1025        return Err("--linear-max-polls requires a positive integer.".to_string());
1026    }
1027    if raw
1028        .linear_endpoint
1029        .as_ref()
1030        .is_some_and(|value| value.trim().is_empty())
1031    {
1032        return Err("--linear-endpoint requires a non-empty value.".to_string());
1033    }
1034    for phase in raw
1035        .delivery_phases
1036        .iter()
1037        .map(|phase| phase.trim())
1038        .filter(|phase| !phase.is_empty())
1039    {
1040        validate_choice(
1041            "--delivery-phases",
1042            phase,
1043            &["plan", "implement", "verify", "ship"],
1044        )?;
1045    }
1046
1047    let mut prompt = raw.prompt.join(" ");
1048    if prompt.trim().is_empty() && !io::stdin().is_terminal() {
1049        let mut stdin = String::new();
1050        io::stdin()
1051            .read_to_string(&mut stdin)
1052            .map_err(|error| format!("Failed to read stdin: {error}"))?;
1053        prompt = stdin;
1054    }
1055    let cwd = raw.cwd.canonicalize().unwrap_or_else(|_| raw.cwd.clone());
1056
1057    Ok(ResolvedArgs {
1058        raw,
1059        members,
1060        prompt,
1061        cwd,
1062    })
1063}
1064
1065fn resolve_members(raw: &CliArgs) -> Result<Vec<String>, String> {
1066    let mut members = if raw.members.is_empty() {
1067        ENGINES
1068            .iter()
1069            .map(|name| (*name).to_string())
1070            .collect::<Vec<_>>()
1071    } else {
1072        raw.members
1073            .iter()
1074            .map(|name| name.trim().to_string())
1075            .filter(|name| !name.is_empty())
1076            .collect::<Vec<_>>()
1077    };
1078
1079    if raw.all {
1080        members = ENGINES.iter().map(|name| (*name).to_string()).collect();
1081    }
1082    if raw.no_codex {
1083        members.retain(|name| name != "codex");
1084    }
1085    if raw.no_claude {
1086        members.retain(|name| name != "claude");
1087    }
1088    if raw.no_gemini {
1089        members.retain(|name| name != "gemini");
1090    }
1091    for enabled in [
1092        (raw.codex, "codex"),
1093        (raw.claude, "claude"),
1094        (raw.gemini, "gemini"),
1095    ] {
1096        if enabled.0 && !members.iter().any(|name| name == enabled.1) {
1097            members.push(enabled.1.to_string());
1098        }
1099    }
1100
1101    let mut seen = HashSet::new();
1102    members.retain(|member| seen.insert(member.clone()));
1103    for member in &members {
1104        validate_engine_name(member, false, "--members")?;
1105    }
1106    if members.is_empty() {
1107        return Err("At least one member must be enabled.".to_string());
1108    }
1109    Ok(members)
1110}
1111
1112fn validate_engine_name(name: &str, allow_auto: bool, flag: &str) -> Result<(), String> {
1113    if allow_auto && name == "auto" {
1114        return Ok(());
1115    }
1116    if Engine::parse(name).is_some() {
1117        Ok(())
1118    } else {
1119        Err(format!(
1120            "{flag} must be one of: {}",
1121            if allow_auto {
1122                "auto, codex, claude, gemini"
1123            } else {
1124                "codex, claude, gemini"
1125            }
1126        ))
1127    }
1128}
1129
1130fn validate_provider_effort(provider: &str, value: Option<&str>) -> Result<(), String> {
1131    let Some(value) = value else {
1132        return Ok(());
1133    };
1134    let engine = Engine::parse(provider).expect("provider effort validation uses known engines");
1135    if engine.allowed_efforts().contains(&value) {
1136        Ok(())
1137    } else {
1138        Err(format!("Unsupported --{provider}-effort value: {value}"))
1139    }
1140}
1141
1142fn validate_choice(flag: &str, value: &str, allowed: &[&str]) -> Result<(), String> {
1143    if allowed.contains(&value) {
1144        Ok(())
1145    } else {
1146        Err(format!("{flag} must be one of: {}", allowed.join(", ")))
1147    }
1148}
1149
1150fn collect_auth_statuses(resolved: &ResolvedArgs) -> Vec<ProviderAuthStatus> {
1151    collect_auth_statuses_with_cancel(resolved, None)
1152}
1153
1154fn collect_auth_statuses_with_cancel(
1155    resolved: &ResolvedArgs,
1156    cancel: Option<Arc<AtomicBool>>,
1157) -> Vec<ProviderAuthStatus> {
1158    resolved
1159        .members
1160        .iter()
1161        .map(|provider| provider_auth_status_with_cancel(provider, resolved, cancel.clone()))
1162        .collect()
1163}
1164
1165fn provider_auth_status(provider: &str, resolved: &ResolvedArgs) -> ProviderAuthStatus {
1166    provider_auth_status_with_cancel(provider, resolved, None)
1167}
1168
1169fn provider_auth_status_with_cancel(
1170    provider: &str,
1171    resolved: &ResolvedArgs,
1172    cancel: Option<Arc<AtomicBool>>,
1173) -> ProviderAuthStatus {
1174    let auth = provider_auth(resolved, provider);
1175    if cancel
1176        .as_ref()
1177        .is_some_and(|cancel| cancel.load(Ordering::Relaxed))
1178    {
1179        return ProviderAuthStatus {
1180            provider: provider.to_string(),
1181            configured: false,
1182            status: "cancelled".to_string(),
1183            source: auth,
1184            detail: "Auth status refresh cancelled.".to_string(),
1185        };
1186    }
1187    match provider {
1188        "codex" => {
1189            let bin = resolve_binary("codex");
1190            let args = vec!["login".to_string(), "status".to_string()];
1191            status_from_command(provider, &auth, &bin, &args, &resolved.cwd, cancel)
1192        }
1193        "claude" => {
1194            let bin = resolve_binary("claude");
1195            let args = vec![
1196                "auth".to_string(),
1197                "status".to_string(),
1198                "--text".to_string(),
1199            ];
1200            status_from_command(provider, &auth, &bin, &args, &resolved.cwd, cancel)
1201        }
1202        "gemini" => {
1203            let has_api_key = std::env::var("GEMINI_API_KEY")
1204                .ok()
1205                .is_some_and(|value| !value.trim().is_empty());
1206            let home = std::env::var("HOME").unwrap_or_default();
1207            let has_oauth_file = !home.is_empty()
1208                && [
1209                    ".gemini/oauth_creds.json",
1210                    ".gemini/oauth_tokens.json",
1211                    ".gemini/settings.json",
1212                ]
1213                .iter()
1214                .any(|path| Path::new(&home).join(path).exists());
1215            let configured = has_api_key || has_oauth_file;
1216            ProviderAuthStatus {
1217                provider: provider.to_string(),
1218                configured,
1219                status: if configured { "configured" } else { "unknown" }.to_string(),
1220                source: auth,
1221                detail: if has_api_key {
1222                    "GEMINI_API_KEY is present.".to_string()
1223                } else if has_oauth_file {
1224                    "Gemini local auth/config files are present.".to_string()
1225                } else {
1226                    "Gemini CLI does not currently expose a stable headless auth status command; use Social login from Studio or run gemini interactively.".to_string()
1227                },
1228            }
1229        }
1230        _ => ProviderAuthStatus {
1231            provider: provider.to_string(),
1232            configured: false,
1233            status: "unknown".to_string(),
1234            source: auth,
1235            detail: "Unknown provider.".to_string(),
1236        },
1237    }
1238}
1239
1240fn status_from_command(
1241    provider: &str,
1242    auth: &str,
1243    bin: &str,
1244    args: &[String],
1245    cwd: &Path,
1246    cancel: Option<Arc<AtomicBool>>,
1247) -> ProviderAuthStatus {
1248    let result = run_command(CommandRequest::new(bin, args, cwd, 15_000).cancel(cancel));
1249    let configured = result.code == Some(0);
1250    ProviderAuthStatus {
1251        provider: provider.to_string(),
1252        configured,
1253        status: if configured {
1254            "configured"
1255        } else if result.cancelled {
1256            "cancelled"
1257        } else if result.error.is_some() {
1258            "missing-cli"
1259        } else {
1260            "not-configured"
1261        }
1262        .to_string(),
1263        source: auth.to_string(),
1264        detail: sanitize_status_detail(&compact_failure(&result)),
1265    }
1266}
1267
1268fn sanitize_status_detail(detail: &str) -> String {
1269    let detail = detail.trim();
1270    if detail.is_empty() {
1271        return "No status detail returned.".to_string();
1272    }
1273    let detail = detail
1274        .lines()
1275        .take(6)
1276        .map(str::trim)
1277        .filter(|line| !line.is_empty())
1278        .map(redact_possible_secret)
1279        .collect::<Vec<_>>()
1280        .join(" ");
1281    redact_local_paths(&detail)
1282}
1283
1284fn redact_possible_secret(value: &str) -> String {
1285    value
1286        .split_whitespace()
1287        .map(|token| {
1288            if looks_sensitive_token(token) {
1289                "[redacted]"
1290            } else if looks_like_email(token) {
1291                "[email]"
1292            } else {
1293                token
1294            }
1295        })
1296        .collect::<Vec<_>>()
1297        .join(" ")
1298}
1299
1300fn looks_sensitive_token(token: &str) -> bool {
1301    let trimmed =
1302        token.trim_matches(|ch: char| !ch.is_ascii_alphanumeric() && ch != '-' && ch != '_');
1303    trimmed.len() >= 28
1304        && (trimmed.starts_with("sk-")
1305            || trimmed.starts_with("sk_")
1306            || trimmed.starts_with("gho_")
1307            || trimmed.starts_with("ghp_")
1308            || trimmed.starts_with("ghs_")
1309            || trimmed.starts_with("ghu_")
1310            || trimmed.starts_with("AIza")
1311            || trimmed.starts_with("AQ."))
1312}
1313
1314fn looks_like_email(token: &str) -> bool {
1315    let trimmed = token.trim_matches(|ch: char| {
1316        !ch.is_ascii_alphanumeric() && !matches!(ch, '@' | '.' | '_' | '-' | '+')
1317    });
1318    trimmed.contains('@') && trimmed.rsplit_once('.').is_some()
1319}
1320
1321fn redact_local_paths(value: &str) -> String {
1322    let mut redacted = value.to_string();
1323    if let Ok(home) = std::env::var("HOME") {
1324        if !home.trim().is_empty() {
1325            redacted = redacted.replace(&home, "~");
1326        }
1327    }
1328    redacted
1329}
1330
1331fn render_auth_statuses(statuses: &[ProviderAuthStatus]) -> String {
1332    let mut lines = vec!["Provider auth status".to_string()];
1333    for status in statuses {
1334        lines.push(format!(
1335            "- {}: {} via {} ({})",
1336            status.provider, status.status, status.source, status.detail
1337        ));
1338    }
1339    lines.join("\n")
1340}
1341
1342fn collect_provider_capability_statuses(resolved: &ResolvedArgs) -> Vec<ProviderCapabilityStatus> {
1343    collect_provider_capability_statuses_with_cancel(resolved, None)
1344}
1345
1346fn collect_provider_capability_statuses_with_cancel(
1347    resolved: &ResolvedArgs,
1348    cancel: Option<Arc<AtomicBool>>,
1349) -> Vec<ProviderCapabilityStatus> {
1350    resolved
1351        .members
1352        .iter()
1353        .map(|provider| provider_capability_status(provider, resolved, cancel.clone()))
1354        .collect()
1355}
1356
1357fn provider_capability_status(
1358    provider: &str,
1359    resolved: &ResolvedArgs,
1360    cancel: Option<Arc<AtomicBool>>,
1361) -> ProviderCapabilityStatus {
1362    match provider {
1363        "codex" => {
1364            let bin = resolve_binary("codex");
1365            let mcp = run_capability_probe(&bin, &["mcp", "list"], &resolved.cwd, cancel.clone());
1366            ProviderCapabilityStatus {
1367                provider: provider.to_string(),
1368                mcp,
1369                skills: None,
1370                tools: Some(run_capability_probe(
1371                    &bin,
1372                    &["plugin", "marketplace", "--help"],
1373                    &resolved.cwd,
1374                    cancel,
1375                )),
1376                detail:
1377                    "Codex inherits ~/.codex config unless --codex-capabilities override is set."
1378                        .to_string(),
1379            }
1380        }
1381        "claude" => {
1382            let bin = resolve_binary("claude");
1383            ProviderCapabilityStatus {
1384                provider: provider.to_string(),
1385                mcp: run_capability_probe(&bin, &["mcp", "list"], &resolved.cwd, cancel.clone()),
1386                skills: Some(run_capability_probe(
1387                    &bin,
1388                    &["plugin", "list"],
1389                    &resolved.cwd,
1390                    cancel.clone(),
1391                )),
1392                tools: Some(run_capability_probe(
1393                    &bin,
1394                    &["agents"],
1395                    &resolved.cwd,
1396                    cancel,
1397                )),
1398                detail: "Claude override can manage MCP config, tools, agents, plugin dirs, and slash-command skills.".to_string(),
1399            }
1400        }
1401        "gemini" => {
1402            let bin = resolve_binary("gemini");
1403            ProviderCapabilityStatus {
1404                provider: provider.to_string(),
1405                mcp: run_capability_probe(&bin, &["mcp", "list"], &resolved.cwd, cancel.clone()),
1406                skills: Some(run_capability_probe(
1407                    &bin,
1408                    &["skills", "list"],
1409                    &resolved.cwd,
1410                    cancel.clone(),
1411                )),
1412                tools: Some(run_capability_probe(
1413                    &bin,
1414                    &["extensions", "list"],
1415                    &resolved.cwd,
1416                    cancel,
1417                )),
1418                detail: "Gemini override can manage settings, extensions, MCP server allowlists, and policy files.".to_string(),
1419            }
1420        }
1421        _ => ProviderCapabilityStatus {
1422            provider: provider.to_string(),
1423            mcp: CommandTelemetry {
1424                command: provider.to_string(),
1425                status: "unknown".to_string(),
1426                detail: "Unknown provider.".to_string(),
1427                exit_code: None,
1428                duration_ms: 0,
1429                stdout_chars: 0,
1430                stderr_chars: 0,
1431                timed_out: false,
1432            },
1433            skills: None,
1434            tools: None,
1435            detail: "Unknown provider.".to_string(),
1436        },
1437    }
1438}
1439
1440fn run_capability_probe(
1441    bin: &str,
1442    args: &[&str],
1443    cwd: &Path,
1444    cancel: Option<Arc<AtomicBool>>,
1445) -> CommandTelemetry {
1446    let args = args
1447        .iter()
1448        .map(|arg| (*arg).to_string())
1449        .collect::<Vec<_>>();
1450    command_telemetry(&run_command(
1451        CommandRequest::new(bin, &args, cwd, 20_000).cancel(cancel),
1452    ))
1453}
1454
1455fn emit_runtime_event(
1456    progress: &Option<ProgressSink>,
1457    fallback_to_stderr: bool,
1458    event: ProgressEvent,
1459) {
1460    if let Some(progress) = progress {
1461        progress(event);
1462    } else if fallback_to_stderr {
1463        eprintln!("{}", event.message);
1464    }
1465}
1466
1467impl RuntimeEventBus {
1468    fn new() -> Self {
1469        Self {
1470            started: Instant::now(),
1471            sequence: Arc::new(AtomicU64::new(1)),
1472            emit_lock: Arc::new(Mutex::new(())),
1473            sinks: Arc::new(Mutex::new(Vec::new())),
1474        }
1475    }
1476
1477    fn add_sink(&self, sink: RuntimeEventSink) {
1478        if let Ok(mut sinks) = self.sinks.lock() {
1479            sinks.push(sink);
1480        }
1481    }
1482
1483    fn progress_sink(&self) -> ProgressSink {
1484        let bus = self.clone();
1485        Arc::new(move |event| bus.emit(event, None, None))
1486    }
1487
1488    fn emit_result(&self, result: &AmonHenResult) {
1489        let status = if is_success(result) { "ok" } else { "error" };
1490        self.emit(
1491            ProgressEvent {
1492                kind: RuntimeEventKind::Result,
1493                provider: Some(result.summary.name.clone()),
1494                role: Some(result.summary.role.clone()),
1495                stage: ProgressStage::Done,
1496                status: Some(status.to_string()),
1497                iteration: Some(result.workflow.iterations),
1498                total_iterations: Some(result.workflow.iterations),
1499                is_sub_agent: false,
1500                duration_ms: Some(result.summary.duration_ms),
1501                token_usage: Some(result.summary.token_usage.clone()),
1502                tool_calls: result.summary.tool_calls.clone(),
1503                message: format!("[amon-hen] result {status}"),
1504            },
1505            Some(Box::new(result.clone())),
1506            None,
1507        );
1508    }
1509
1510    fn emit_linear_result(&self, result: &linear_delivery::LinearDeliveryResult) {
1511        let status = if result.success { "ok" } else { "error" };
1512        self.emit(
1513            progress_event_with_context(
1514                Some("linear"),
1515                Some("delivery"),
1516                ProgressStage::Done,
1517                Some(status),
1518                None,
1519                None,
1520                false,
1521                Some(result.duration_ms),
1522                None,
1523                vec![],
1524                format!("[amon-hen] linear delivery {status}"),
1525            ),
1526            None,
1527            Some(Box::new(result.clone())),
1528        );
1529    }
1530
1531    fn emit(
1532        &self,
1533        progress: ProgressEvent,
1534        result: Option<Box<AmonHenResult>>,
1535        linear_result: Option<Box<linear_delivery::LinearDeliveryResult>>,
1536    ) {
1537        let _emit_guard = self.emit_lock.lock().ok();
1538        let event = RuntimeEvent {
1539            sequence: self.sequence.fetch_add(1, Ordering::SeqCst),
1540            elapsed_ms: self.started.elapsed().as_millis(),
1541            progress,
1542            result,
1543            linear_result,
1544        };
1545        let sinks = self
1546            .sinks
1547            .lock()
1548            .map(|sinks| sinks.clone())
1549            .unwrap_or_default();
1550        for sink in sinks {
1551            sink(event.clone());
1552        }
1553    }
1554}
1555
1556fn progress_event(
1557    provider: Option<&str>,
1558    role: Option<&str>,
1559    stage: ProgressStage,
1560    status: Option<&str>,
1561    message: impl Into<String>,
1562) -> ProgressEvent {
1563    progress_event_with_context(
1564        provider,
1565        role,
1566        stage,
1567        status,
1568        None,
1569        None,
1570        false,
1571        None,
1572        None,
1573        vec![],
1574        message,
1575    )
1576}
1577
1578#[allow(clippy::too_many_arguments)]
1579fn progress_event_with_context(
1580    provider: Option<&str>,
1581    role: Option<&str>,
1582    stage: ProgressStage,
1583    status: Option<&str>,
1584    iteration: Option<usize>,
1585    total_iterations: Option<usize>,
1586    is_sub_agent: bool,
1587    duration_ms: Option<u128>,
1588    token_usage: Option<TokenUsage>,
1589    tool_calls: Vec<ToolUsage>,
1590    message: impl Into<String>,
1591) -> ProgressEvent {
1592    ProgressEvent {
1593        kind: runtime_event_kind(provider, stage, token_usage.as_ref(), &tool_calls),
1594        provider: provider.map(ToString::to_string),
1595        role: role.map(ToString::to_string),
1596        stage,
1597        status: status.map(ToString::to_string),
1598        iteration,
1599        total_iterations,
1600        is_sub_agent,
1601        duration_ms,
1602        token_usage,
1603        tool_calls,
1604        message: message.into(),
1605    }
1606}
1607
1608fn runtime_event_kind(
1609    provider: Option<&str>,
1610    stage: ProgressStage,
1611    token_usage: Option<&TokenUsage>,
1612    tool_calls: &[ToolUsage],
1613) -> RuntimeEventKind {
1614    if !tool_calls.is_empty() {
1615        RuntimeEventKind::ToolUsage
1616    } else if token_usage.is_some() {
1617        RuntimeEventKind::TokenUsage
1618    } else if provider.is_some() {
1619        RuntimeEventKind::Provider
1620    } else if matches!(stage, ProgressStage::Context) {
1621        RuntimeEventKind::Context
1622    } else {
1623        RuntimeEventKind::Iteration
1624    }
1625}
1626
1627fn command_progress(label: Option<&str>, sink: Option<ProgressSink>) -> Option<CommandProgress> {
1628    command_progress_with_input(label, sink, 0)
1629}
1630
1631fn command_progress_with_input(
1632    label: Option<&str>,
1633    sink: Option<ProgressSink>,
1634    input_tokens: usize,
1635) -> Option<CommandProgress> {
1636    label.map(|label| CommandProgress {
1637        label: label.to_string(),
1638        sink,
1639        input_tokens,
1640    })
1641}
1642
1643fn render_provider_capability_statuses(statuses: &[ProviderCapabilityStatus]) -> String {
1644    let mut lines = vec!["Provider capabilities".to_string()];
1645    for status in statuses {
1646        lines.push(format!(
1647            "- {} MCP: {} ({})",
1648            status.provider, status.mcp.status, status.mcp.command
1649        ));
1650        if !status.mcp.detail.trim().is_empty() {
1651            lines.push(format!("  {}", status.mcp.detail));
1652        }
1653        if let Some(skills) = &status.skills {
1654            lines.push(format!(
1655                "  skills/plugins: {} ({})",
1656                skills.status, skills.command
1657            ));
1658            if !skills.detail.trim().is_empty() {
1659                lines.push(format!("  {}", skills.detail));
1660            }
1661        }
1662        if let Some(tools) = &status.tools {
1663            lines.push(format!(
1664                "  tools/extensions: {} ({})",
1665                tools.status, tools.command
1666            ));
1667            if !tools.detail.trim().is_empty() {
1668                lines.push(format!("  {}", tools.detail));
1669            }
1670        }
1671        lines.push(format!("  {}", status.detail));
1672    }
1673    lines.join("\n")
1674}
1675
1676fn run_social_login(resolved: &ResolvedArgs) -> Result<(), String> {
1677    let providers = if resolved.raw.auth_login_providers.is_empty() {
1678        resolved.members.clone()
1679    } else {
1680        resolved.raw.auth_login_providers.clone()
1681    };
1682
1683    for provider in providers {
1684        validate_engine_name(&provider, false, "--auth-login-providers")?;
1685        let (bin, args, instruction): (String, Vec<String>, &str) =
1686            match provider.as_str() {
1687                "codex" => {
1688                    let mut args = vec!["login".to_string()];
1689                    if resolved.raw.auth_device_code {
1690                        args.push("--device-auth".to_string());
1691                    }
1692                    (
1693                        resolve_binary("codex"),
1694                        args,
1695                        "Complete the Codex browser login. Deeplinks and pasted codes are supported by the provider CLI when prompted.",
1696                    )
1697                }
1698                "claude" => {
1699                    let mut args = vec!["auth".to_string(), "login".to_string()];
1700                    match resolved.raw.claude_login_mode.as_str() {
1701                        "console" => args.push("--console".to_string()),
1702                        "sso" => args.push("--sso".to_string()),
1703                        _ => args.push("--claudeai".to_string()),
1704                    }
1705                    if let Some(email) = &resolved.raw.claude_login_email {
1706                        push_arg(&mut args, "--email", email.clone());
1707                    }
1708                    (
1709                        resolve_binary("claude"),
1710                        args,
1711                        "Complete the Claude browser login. Paste any shown login code into this terminal when prompted; deeplinks are opened when the CLI emits them.",
1712                    )
1713                }
1714                "gemini" => (
1715                    resolve_binary("gemini"),
1716                    vec![],
1717                    "Use the Gemini CLI auth selector, choose browser/social login, and complete local callback or code paste when prompted.",
1718                ),
1719                _ => unreachable!(),
1720            };
1721        eprintln!(
1722            "[auth] launching {provider}: {}",
1723            format_command(&bin, &args)
1724        );
1725        eprintln!("[auth] {provider}: {instruction}");
1726        let result = run_interactive_auth_command(
1727            &bin,
1728            &args,
1729            &resolved.cwd,
1730            resolved.raw.auth_timeout * 1000,
1731            !resolved.raw.no_auth_open_browser,
1732            &provider,
1733        );
1734        if result.code.unwrap_or(1) != 0 {
1735            return Err(format!(
1736                "{provider} social login failed: {}",
1737                compact_failure(&result)
1738            ));
1739        }
1740        let status = provider_auth_status(&provider, resolved);
1741        eprintln!("[auth] {provider}: {} ({})", status.status, status.detail);
1742    }
1743    Ok(())
1744}
1745
1746fn run_interactive_auth_command(
1747    command: &str,
1748    args: &[String],
1749    cwd: &Path,
1750    timeout_ms: u64,
1751    open_browser: bool,
1752    provider: &str,
1753) -> CommandResult {
1754    let started = Instant::now();
1755    let mut process = Command::new(command);
1756    process
1757        .args(args)
1758        .current_dir(cwd)
1759        .stdin(Stdio::inherit())
1760        .stdout(Stdio::piped())
1761        .stderr(Stdio::piped());
1762    configure_process_group(&mut process);
1763    let mut child = match process.spawn() {
1764        Ok(child) => child,
1765        Err(error) => {
1766            return CommandResult {
1767                command: command.to_string(),
1768                args: args.to_vec(),
1769                code: None,
1770                stdout: String::new(),
1771                stderr: String::new(),
1772                timed_out: false,
1773                cancelled: false,
1774                error: Some(error.to_string()),
1775                timeout_ms,
1776                duration_ms: started.elapsed().as_millis(),
1777            }
1778        }
1779    };
1780
1781    let seen_urls = Arc::new(Mutex::new(HashSet::new()));
1782    let stdout = child.stdout.take().map(|pipe| {
1783        read_auth_pipe(
1784            pipe,
1785            true,
1786            provider.to_string(),
1787            open_browser,
1788            Arc::clone(&seen_urls),
1789        )
1790    });
1791    let stderr = child.stderr.take().map(|pipe| {
1792        read_auth_pipe(
1793            pipe,
1794            false,
1795            provider.to_string(),
1796            open_browser,
1797            Arc::clone(&seen_urls),
1798        )
1799    });
1800    let timeout = Duration::from_millis(timeout_ms);
1801    let mut timed_out = false;
1802    let code;
1803    loop {
1804        match child.try_wait() {
1805            Ok(Some(status)) => {
1806                code = status.code();
1807                break;
1808            }
1809            Ok(None) => {
1810                if timeout_ms > 0 && started.elapsed() >= timeout {
1811                    timed_out = true;
1812                    terminate_child_tree(&mut child);
1813                    let status = child.wait().ok();
1814                    code = status.and_then(|status| status.code());
1815                    break;
1816                }
1817                thread::sleep(Duration::from_millis(50));
1818            }
1819            Err(error) => {
1820                return CommandResult {
1821                    command: command.to_string(),
1822                    args: args.to_vec(),
1823                    code: None,
1824                    stdout: String::new(),
1825                    stderr: String::new(),
1826                    timed_out,
1827                    cancelled: false,
1828                    error: Some(error.to_string()),
1829                    timeout_ms,
1830                    duration_ms: started.elapsed().as_millis(),
1831                }
1832            }
1833        }
1834    }
1835
1836    CommandResult {
1837        command: command.to_string(),
1838        args: args.to_vec(),
1839        code,
1840        stdout: stdout
1841            .and_then(|handle| handle.join().ok())
1842            .unwrap_or_default(),
1843        stderr: stderr
1844            .and_then(|handle| handle.join().ok())
1845            .unwrap_or_default(),
1846        timed_out,
1847        cancelled: false,
1848        error: None,
1849        timeout_ms,
1850        duration_ms: started.elapsed().as_millis(),
1851    }
1852}
1853
1854fn read_auth_pipe<R>(
1855    mut pipe: R,
1856    stdout: bool,
1857    provider: String,
1858    open_browser: bool,
1859    seen_urls: Arc<Mutex<HashSet<String>>>,
1860) -> thread::JoinHandle<String>
1861where
1862    R: Read + Send + 'static,
1863{
1864    thread::spawn(move || {
1865        let mut text = String::new();
1866        let mut buffer = [0u8; 4096];
1867        loop {
1868            let read = match pipe.read(&mut buffer) {
1869                Ok(0) => break,
1870                Ok(read) => read,
1871                Err(_) => break,
1872            };
1873            let chunk = String::from_utf8_lossy(&buffer[..read]).to_string();
1874            text.push_str(&chunk);
1875            if stdout {
1876                print!("{chunk}");
1877                let _ = io::stdout().flush();
1878            } else {
1879                eprint!("{chunk}");
1880                let _ = io::stderr().flush();
1881            }
1882            if open_browser {
1883                for url in extract_auth_urls(&chunk) {
1884                    let mut seen = seen_urls.lock().ok();
1885                    if seen.as_mut().is_some_and(|seen| !seen.insert(url.clone())) {
1886                        continue;
1887                    }
1888                    eprintln!("[auth] {provider}: opening {url}");
1889                    if let Err(error) = open_browser_url(&url) {
1890                        eprintln!("[auth] {provider}: failed to open {url}: {error}");
1891                    }
1892                }
1893            }
1894        }
1895        text
1896    })
1897}
1898
1899fn extract_auth_urls(text: &str) -> Vec<String> {
1900    text.split_whitespace()
1901        .map(|token| {
1902            token.trim_matches(|ch: char| {
1903                matches!(ch, '<' | '>' | '"' | '\'' | ')' | '(' | ',' | ';')
1904            })
1905        })
1906        .map(|token| token.trim_end_matches(['.', ':', ',', ';']))
1907        .filter(|token| {
1908            token.starts_with("http://")
1909                || token.starts_with("https://")
1910                || token.starts_with("codex://")
1911                || token.starts_with("openai://")
1912                || token.starts_with("claude://")
1913                || token.starts_with("anthropic://")
1914                || token.starts_with("gemini://")
1915                || token.starts_with("google://")
1916        })
1917        .map(ToString::to_string)
1918        .collect()
1919}
1920
1921fn open_browser_url(url: &str) -> Result<(), String> {
1922    let (command, args): (&str, Vec<String>) = if cfg!(target_os = "macos") {
1923        ("open", vec![url.to_string()])
1924    } else if cfg!(target_os = "windows") {
1925        (
1926            "cmd",
1927            vec![
1928                "/c".to_string(),
1929                "start".to_string(),
1930                "".to_string(),
1931                url.to_string(),
1932            ],
1933        )
1934    } else {
1935        ("xdg-open", vec![url.to_string()])
1936    };
1937    Command::new(command)
1938        .args(args)
1939        .stdin(Stdio::null())
1940        .stdout(Stdio::null())
1941        .stderr(Stdio::null())
1942        .spawn()
1943        .map(|mut child| {
1944            let _ = child.try_wait();
1945        })
1946        .map_err(|error| error.to_string())
1947}
1948
1949fn build_prompt_context_with_progress(
1950    resolved: &ResolvedArgs,
1951    progress: Option<ProgressSink>,
1952) -> Result<PromptContext, String> {
1953    let mut prompt = resolved.prompt.trim().to_string();
1954    let mut sections = Vec::new();
1955    let mut commands = Vec::new();
1956
1957    for file in &resolved.raw.files {
1958        let path = if file.is_absolute() {
1959            file.clone()
1960        } else {
1961            resolved.cwd.join(file)
1962        };
1963        let content = fs::read_to_string(&path)
1964            .map_err(|error| format!("Failed to read tagged file {}: {error}", path.display()))?;
1965        sections.push(format!("--- file: {} ---\n{}", file.display(), content));
1966    }
1967
1968    for command in &resolved.raw.commands {
1969        let shell = if cfg!(windows) { "cmd" } else { "sh" };
1970        let args = if cfg!(windows) {
1971            vec!["/C".to_string(), command.clone()]
1972        } else {
1973            vec!["-lc".to_string(), command.clone()]
1974        };
1975        let live_label = (resolved.raw.verbose || progress.is_some())
1976            .then(|| format!("context command `{}`", truncate(command, 80)));
1977        emit_runtime_event(
1978            &progress,
1979            false,
1980            progress_event(
1981                None,
1982                None,
1983                ProgressStage::Context,
1984                None,
1985                format!("[amon-hen] context command `{}`", truncate(command, 80)),
1986            ),
1987        );
1988        let result = run_command(
1989            CommandRequest::new(shell, &args, &resolved.cwd, resolved.raw.timeout * 1000)
1990                .progress(command_progress(live_label.as_deref(), progress.clone())),
1991        );
1992        let telemetry = command_telemetry(&result);
1993        let mut event = progress_event(
1994            None,
1995            None,
1996            ProgressStage::Done,
1997            Some(&telemetry.status),
1998            format!(
1999                "[amon-hen] context command `{}` {} in {:.1}s",
2000                truncate(command, 80),
2001                telemetry.status,
2002                result.duration_ms as f64 / 1000.0
2003            ),
2004        );
2005        event.kind = RuntimeEventKind::Context;
2006        emit_runtime_event(&progress, false, event);
2007        commands.push(telemetry);
2008        sections.push(format!(
2009            "--- command: {} (exit {}) ---\nstdout:\n{}\nstderr:\n{}",
2010            command,
2011            result
2012                .code
2013                .map(|code| code.to_string())
2014                .unwrap_or_else(|| "unknown".to_string()),
2015            result.stdout.trim(),
2016            result.stderr.trim()
2017        ));
2018    }
2019
2020    if !sections.is_empty() {
2021        prompt.push_str("\n\nPrompt context:\n");
2022        prompt.push_str(&sections.join("\n\n"));
2023    }
2024    Ok(PromptContext { prompt, commands })
2025}
2026
2027fn run_amon_hen_with_progress(
2028    resolved: &ResolvedArgs,
2029    query: String,
2030    prompt_commands: Vec<CommandTelemetry>,
2031    progress: Option<ProgressSink>,
2032) -> AmonHenResult {
2033    run_amon_hen_with_progress_and_cancel(resolved, query, prompt_commands, progress, None)
2034}
2035
2036fn run_amon_hen_with_progress_and_cancel(
2037    resolved: &ResolvedArgs,
2038    query: String,
2039    prompt_commands: Vec<CommandTelemetry>,
2040    progress: Option<ProgressSink>,
2041    cancel: Option<Arc<AtomicBool>>,
2042) -> AmonHenResult {
2043    let workflow = build_workflow(resolved);
2044    let mut previous_iteration = Vec::new();
2045    let mut final_members = Vec::new();
2046    let mut iterations = Vec::new();
2047
2048    for iteration in 1..=workflow.iterations {
2049        let iteration_started = Instant::now();
2050        let handoff_context =
2051            iteration_handoff_context(&previous_iteration, resolved.raw.max_member_chars);
2052        emit_runtime_event(
2053            &progress,
2054            resolved.raw.verbose,
2055            progress_event_with_context(
2056                None,
2057                None,
2058                ProgressStage::Start,
2059                None,
2060                Some(iteration),
2061                Some(workflow.iterations),
2062                false,
2063                None,
2064                None,
2065                vec![],
2066                format!(
2067                    "[amon-hen] iteration {iteration}/{} started",
2068                    workflow.iterations
2069                ),
2070            ),
2071        );
2072        final_members = run_iteration(
2073            resolved,
2074            &query,
2075            &workflow,
2076            iteration,
2077            &previous_iteration,
2078            progress.clone(),
2079            cancel.clone(),
2080        );
2081        iterations.push(iteration_record(
2082            iteration,
2083            workflow.iterations,
2084            final_members.clone(),
2085            iteration_started.elapsed().as_millis(),
2086            handoff_context,
2087            None,
2088        ));
2089        previous_iteration = final_members.clone();
2090    }
2091
2092    let successes = final_members
2093        .iter()
2094        .filter(|result| result.status == "ok")
2095        .cloned()
2096        .collect::<Vec<_>>();
2097    let summary = if successes.is_empty() {
2098        EngineResult {
2099            name: resolved.raw.summarizer.clone(),
2100            bin: None,
2101            status: "error".to_string(),
2102            duration_ms: 0,
2103            detail: "No Amon Hen member produced a response.".to_string(),
2104            exit_code: None,
2105            stdout: String::new(),
2106            stderr: String::new(),
2107            output: String::new(),
2108            command: String::new(),
2109            token_usage: token_usage("", ""),
2110            tool_calls: vec![],
2111            sub_agents: vec![],
2112            role: "summary".to_string(),
2113            iteration: workflow.iterations,
2114            total_iterations: workflow.iterations,
2115            team_size: 0,
2116        }
2117    } else {
2118        let summary_prompt =
2119            build_summary_prompt(&query, &successes, &workflow, resolved.raw.max_member_chars);
2120        if let Some(record) = iterations.last_mut() {
2121            record.summary_context = Some(truncate(&summary_prompt, resolved.raw.max_member_chars));
2122        }
2123        let summarizer = pick_summarizer(resolved, &successes);
2124        let mut options = engine_options(
2125            resolved,
2126            EngineOptionsInput {
2127                member: &summarizer,
2128                prompt: summary_prompt,
2129                role: "summary",
2130                iteration: workflow.iterations,
2131                workflow: &workflow,
2132                progress: progress.clone(),
2133                cancel: cancel.clone(),
2134            },
2135        );
2136        options.role = "summary".to_string();
2137        options.team_size = 0;
2138        run_engine(&summarizer, options)
2139    };
2140
2141    AmonHenResult {
2142        query,
2143        cwd: resolved.cwd.display().to_string(),
2144        members_requested: resolved.members.clone(),
2145        summarizer_requested: resolved.raw.summarizer.clone(),
2146        workflow,
2147        prompt_commands,
2148        iterations,
2149        members: final_members,
2150        summary,
2151    }
2152}
2153
2154fn build_workflow(resolved: &ResolvedArgs) -> Workflow {
2155    let mut teams = HashMap::new();
2156    for member in ENGINES {
2157        teams.insert(member.to_string(), resolved.raw.team_work);
2158    }
2159    if let Some(value) = resolved.raw.codex_sub_agents {
2160        teams.insert("codex".to_string(), value);
2161    }
2162    if let Some(value) = resolved.raw.claude_sub_agents {
2163        teams.insert("claude".to_string(), value);
2164    }
2165    if let Some(value) = resolved.raw.gemini_sub_agents {
2166        teams.insert("gemini".to_string(), value);
2167    }
2168    Workflow {
2169        handoff: resolved.raw.handoff,
2170        lead: resolved.raw.lead.clone(),
2171        planner: resolved.raw.planner.clone(),
2172        planner_mode: resolved.raw.planner_mode.clone(),
2173        iterations: resolved.raw.iterations.max(1),
2174        team_work: resolved.raw.team_work,
2175        teams,
2176    }
2177}
2178
2179fn effective_team_size(workflow: &Workflow, member: &str) -> usize {
2180    *workflow.teams.get(member).unwrap_or(&workflow.team_work)
2181}
2182
2183fn iteration_record(
2184    iteration: usize,
2185    total_iterations: usize,
2186    members: Vec<EngineResult>,
2187    duration_ms: u128,
2188    handoff_context: Option<String>,
2189    summary_context: Option<String>,
2190) -> IterationRecord {
2191    let status = if members.iter().any(|member| member.status == "ok") {
2192        "ok"
2193    } else if members.iter().any(|member| member.status == "cancelled") {
2194        "cancelled"
2195    } else if members.iter().any(|member| member.status == "timeout") {
2196        "timeout"
2197    } else if members.iter().any(|member| member.status == "missing") {
2198        "missing"
2199    } else {
2200        "error"
2201    };
2202    let sub_agents = members
2203        .iter()
2204        .flat_map(|member| member.sub_agents.iter().cloned())
2205        .collect::<Vec<_>>();
2206    let token_usage = aggregate_results_token_usage(members.iter());
2207    let tool_calls = members
2208        .iter()
2209        .chain(sub_agents.iter())
2210        .flat_map(|member| member.tool_calls.iter().cloned())
2211        .collect::<Vec<_>>();
2212    IterationRecord {
2213        iteration,
2214        total_iterations,
2215        status: status.to_string(),
2216        duration_ms,
2217        members,
2218        sub_agents,
2219        handoff_context,
2220        summary_context,
2221        token_usage,
2222        tool_calls,
2223    }
2224}
2225
2226fn iteration_handoff_context(
2227    previous_iteration: &[EngineResult],
2228    max_member_chars: usize,
2229) -> Option<String> {
2230    let context = previous_iteration
2231        .iter()
2232        .filter(|result| result.status == "ok" && !result.output.trim().is_empty())
2233        .map(|result| {
2234            format!(
2235                "### {} ({})\n{}",
2236                result.name,
2237                result.role,
2238                truncate(result.output.trim(), max_member_chars)
2239            )
2240        })
2241        .collect::<Vec<_>>()
2242        .join("\n\n");
2243    (!context.is_empty()).then_some(context)
2244}
2245
2246fn run_iteration(
2247    resolved: &ResolvedArgs,
2248    query: &str,
2249    workflow: &Workflow,
2250    iteration: usize,
2251    previous_iteration: &[EngineResult],
2252    progress: Option<ProgressSink>,
2253    cancel: Option<Arc<AtomicBool>>,
2254) -> Vec<EngineResult> {
2255    let ordered = execution_order(
2256        &resolved.members,
2257        workflow.planner.as_deref(),
2258        workflow.lead.as_deref(),
2259    );
2260    if workflow.handoff && workflow.planner_mode == PLANNER_MODE_BLOCKING {
2261        let mut results = Vec::new();
2262        for member in ordered {
2263            let role = role_for(&member, workflow);
2264            let team_size = effective_team_size(workflow, &member);
2265            let prompt = build_member_prompt(MemberPromptInput {
2266                query,
2267                role: &role,
2268                workflow,
2269                iteration,
2270                team_size,
2271                previous_iteration,
2272                handoff_results: &results,
2273                plan_output: "",
2274            });
2275            let options = engine_options(
2276                resolved,
2277                EngineOptionsInput {
2278                    member: &member,
2279                    prompt,
2280                    role: &role,
2281                    iteration,
2282                    workflow,
2283                    progress: progress.clone(),
2284                    cancel: cancel.clone(),
2285                },
2286            );
2287            results.push(run_engine(&member, options));
2288        }
2289        return results;
2290    }
2291
2292    let planner = workflow
2293        .planner
2294        .as_ref()
2295        .filter(|planner| ordered.contains(planner))
2296        .cloned();
2297    let mut results = Vec::new();
2298    let mut plan_output = String::new();
2299    let blocking_planner = workflow.planner_mode == PLANNER_MODE_BLOCKING;
2300    if let Some(planner_name) = planner.as_ref().filter(|_| blocking_planner) {
2301        let role = role_for(planner_name, workflow);
2302        let team_size = effective_team_size(workflow, planner_name);
2303        let prompt = build_member_prompt(MemberPromptInput {
2304            query,
2305            role: &role,
2306            workflow,
2307            iteration,
2308            team_size,
2309            previous_iteration,
2310            handoff_results: &[],
2311            plan_output: "",
2312        });
2313        let options = engine_options(
2314            resolved,
2315            EngineOptionsInput {
2316                member: planner_name,
2317                prompt,
2318                role: &role,
2319                iteration,
2320                workflow,
2321                progress: progress.clone(),
2322                cancel: cancel.clone(),
2323            },
2324        );
2325        let result = run_engine(planner_name, options);
2326        if result.status == "ok" {
2327            plan_output = result.output.clone();
2328        }
2329        results.push(result);
2330    }
2331
2332    let (tx, rx) = mpsc::channel();
2333    let executors = ordered
2334        .into_iter()
2335        .filter(|member| !(blocking_planner && Some(member) == planner.as_ref()))
2336        .collect::<Vec<_>>();
2337    let resolved = Arc::new(resolved.clone());
2338    let workflow = Arc::new(workflow.clone());
2339    let previous_iteration = Arc::new(previous_iteration.to_vec());
2340    let plan_output = Arc::new(plan_output);
2341    let progress = Arc::new(progress);
2342    let cancel = Arc::new(cancel);
2343    for member in executors.clone() {
2344        let tx = tx.clone();
2345        let resolved = Arc::clone(&resolved);
2346        let workflow = Arc::clone(&workflow);
2347        let query = query.to_string();
2348        let previous_iteration = Arc::clone(&previous_iteration);
2349        let plan_output = Arc::clone(&plan_output);
2350        let progress = Arc::clone(&progress);
2351        let cancel = Arc::clone(&cancel);
2352        thread::spawn(move || {
2353            let role = role_for(&member, &workflow);
2354            let team_size = effective_team_size(&workflow, &member);
2355            let prompt = build_member_prompt(MemberPromptInput {
2356                query: &query,
2357                role: &role,
2358                workflow: &workflow,
2359                iteration,
2360                team_size,
2361                previous_iteration: previous_iteration.as_slice(),
2362                handoff_results: &[],
2363                plan_output: &plan_output,
2364            });
2365            let options = engine_options(
2366                &resolved,
2367                EngineOptionsInput {
2368                    member: &member,
2369                    prompt,
2370                    role: &role,
2371                    iteration,
2372                    workflow: &workflow,
2373                    progress: (*progress).clone(),
2374                    cancel: (*cancel).clone(),
2375                },
2376            );
2377            let _ = tx.send(run_engine(&member, options));
2378        });
2379    }
2380    drop(tx);
2381    let mut executor_results = rx.into_iter().collect::<Vec<_>>();
2382    executor_results.sort_by_key(|result| {
2383        executors
2384            .iter()
2385            .position(|member| member == &result.name)
2386            .unwrap_or(usize::MAX)
2387    });
2388    results.extend(executor_results);
2389    results
2390}
2391
2392fn engine_options(resolved: &ResolvedArgs, input: EngineOptionsInput<'_>) -> EngineRunOptions {
2393    EngineRunOptions {
2394        prompt: input.prompt,
2395        cwd: resolved.cwd.clone(),
2396        timeout_ms: resolved.raw.timeout * 1000,
2397        effort: provider_effort(resolved, input.member),
2398        model: provider_model(resolved, input.member),
2399        permission: provider_permission(resolved, input.member),
2400        auth: provider_auth(resolved, input.member),
2401        capability: provider_capability(resolved, input.member),
2402        role: input.role.to_string(),
2403        iteration: input.iteration,
2404        total_iterations: input.workflow.iterations,
2405        team_size: effective_team_size(input.workflow, input.member),
2406        is_sub_agent: false,
2407        live: resolved.raw.verbose || input.progress.is_some(),
2408        progress: input.progress,
2409        cancel: input.cancel,
2410    }
2411}
2412
2413fn provider_effort(resolved: &ResolvedArgs, member: &str) -> Option<String> {
2414    provider_option(
2415        member,
2416        &resolved.raw.codex_effort,
2417        &resolved.raw.claude_effort,
2418        &resolved.raw.gemini_effort,
2419    )
2420    .or_else(|| {
2421        resolved
2422            .raw
2423            .effort
2424            .map(|effort| effort.as_str().to_string())
2425    })
2426}
2427
2428fn provider_model(resolved: &ResolvedArgs, member: &str) -> Option<String> {
2429    provider_option(
2430        member,
2431        &resolved.raw.codex_model,
2432        &resolved.raw.claude_model,
2433        &resolved.raw.gemini_model,
2434    )
2435}
2436
2437fn provider_permission(resolved: &ResolvedArgs, member: &str) -> Option<String> {
2438    match Engine::parse(member) {
2439        Some(Engine::Codex) => Some(resolved.raw.codex_sandbox.clone()),
2440        Some(Engine::Claude) => Some(resolved.raw.claude_permission_mode.clone()),
2441        Some(Engine::Gemini) | None => None,
2442    }
2443}
2444
2445fn provider_auth(resolved: &ResolvedArgs, member: &str) -> String {
2446    match Engine::parse(member) {
2447        Some(Engine::Codex) => resolved.raw.codex_auth.clone(),
2448        Some(Engine::Claude) => resolved.raw.claude_auth.clone(),
2449        Some(Engine::Gemini) => resolved.raw.gemini_auth.clone(),
2450        None => DEFAULT_AUTH_MODE.to_string(),
2451    }
2452}
2453
2454fn provider_capability(resolved: &ResolvedArgs, member: &str) -> ProviderCapability {
2455    match Engine::parse(member).expect("provider capabilities use validated engines") {
2456        Engine::Codex => ProviderCapability {
2457            mode: inferred_capability_mode(
2458                &resolved.raw.codex_capabilities,
2459                !resolved.raw.codex_config.is_empty() || resolved.raw.codex_mcp_profile.is_some(),
2460            ),
2461            config: resolved.raw.codex_config.clone(),
2462            mcp_profile: resolved.raw.codex_mcp_profile.clone(),
2463            mcp_config: vec![],
2464            allowed_tools: vec![],
2465            disallowed_tools: vec![],
2466            tools: vec![],
2467            agent: None,
2468            agents_json: None,
2469            plugin_dirs: vec![],
2470            strict_mcp_config: false,
2471            disable_slash_commands: false,
2472            settings: None,
2473            tools_profile: vec![],
2474            allowed_mcp_servers: vec![],
2475            policy: vec![],
2476            admin_policy: vec![],
2477        },
2478        Engine::Claude => ProviderCapability {
2479            mode: inferred_capability_mode(
2480                &resolved.raw.claude_capabilities,
2481                !resolved.raw.claude_mcp_config.is_empty()
2482                    || !resolved.raw.claude_allowed_tools.is_empty()
2483                    || !resolved.raw.claude_disallowed_tools.is_empty()
2484                    || !resolved.raw.claude_tools.is_empty()
2485                    || resolved.raw.claude_agent.is_some()
2486                    || resolved.raw.claude_agents_json.is_some()
2487                    || !resolved.raw.claude_plugin_dir.is_empty()
2488                    || resolved.raw.claude_strict_mcp_config
2489                    || resolved.raw.claude_disable_slash_commands,
2490            ),
2491            config: vec![],
2492            mcp_profile: None,
2493            mcp_config: resolved.raw.claude_mcp_config.clone(),
2494            allowed_tools: resolved.raw.claude_allowed_tools.clone(),
2495            disallowed_tools: resolved.raw.claude_disallowed_tools.clone(),
2496            tools: resolved.raw.claude_tools.clone(),
2497            agent: resolved.raw.claude_agent.clone(),
2498            agents_json: resolved.raw.claude_agents_json.clone(),
2499            plugin_dirs: resolved.raw.claude_plugin_dir.clone(),
2500            strict_mcp_config: resolved.raw.claude_strict_mcp_config,
2501            disable_slash_commands: resolved.raw.claude_disable_slash_commands,
2502            settings: None,
2503            tools_profile: vec![],
2504            allowed_mcp_servers: vec![],
2505            policy: vec![],
2506            admin_policy: vec![],
2507        },
2508        Engine::Gemini => ProviderCapability {
2509            mode: inferred_capability_mode(
2510                &resolved.raw.gemini_capabilities,
2511                resolved.raw.gemini_settings.is_some()
2512                    || !resolved.raw.gemini_tools_profile.is_empty()
2513                    || !resolved.raw.gemini_allowed_mcp_servers.is_empty()
2514                    || !resolved.raw.gemini_policy.is_empty()
2515                    || !resolved.raw.gemini_admin_policy.is_empty(),
2516            ),
2517            config: vec![],
2518            mcp_profile: None,
2519            mcp_config: vec![],
2520            allowed_tools: vec![],
2521            disallowed_tools: vec![],
2522            tools: vec![],
2523            agent: None,
2524            agents_json: None,
2525            plugin_dirs: vec![],
2526            strict_mcp_config: false,
2527            disable_slash_commands: false,
2528            settings: resolved.raw.gemini_settings.clone(),
2529            tools_profile: resolved.raw.gemini_tools_profile.clone(),
2530            allowed_mcp_servers: resolved.raw.gemini_allowed_mcp_servers.clone(),
2531            policy: resolved.raw.gemini_policy.clone(),
2532            admin_policy: resolved.raw.gemini_admin_policy.clone(),
2533        },
2534    }
2535}
2536
2537fn inferred_capability_mode(configured: &str, has_override_flags: bool) -> String {
2538    if configured == CAPABILITY_INHERIT && has_override_flags {
2539        CAPABILITY_OVERRIDE.to_string()
2540    } else {
2541        configured.to_string()
2542    }
2543}
2544
2545fn provider_option(
2546    member: &str,
2547    codex: &Option<String>,
2548    claude: &Option<String>,
2549    gemini: &Option<String>,
2550) -> Option<String> {
2551    match Engine::parse(member) {
2552        Some(Engine::Codex) => codex.clone(),
2553        Some(Engine::Claude) => claude.clone(),
2554        Some(Engine::Gemini) => gemini.clone(),
2555        None => None,
2556    }
2557}
2558
2559fn build_sub_agent_prompt(original: &str, role: &str, index: usize, total: usize) -> String {
2560    format!(
2561        "You are sub-agent {index} of {total} for an Amon Hen provider assigned role `{role}`.\n\
2562         Work independently on a useful slice of the task. Inspect, reason, or verify as needed, \
2563         then return concise findings, risks, and concrete recommendations for the provider lead.\n\n\
2564         Original provider prompt:\n{original}"
2565    )
2566}
2567
2568fn build_team_lead_prompt(original: &str, sub_agents: &[EngineResult]) -> String {
2569    let handoff = sub_agents
2570        .iter()
2571        .map(|agent| {
2572            format!(
2573                "### {} [{}]\n{}",
2574                agent.role,
2575                agent.status,
2576                if agent.output.trim().is_empty() {
2577                    agent.detail.trim()
2578                } else {
2579                    agent.output.trim()
2580                }
2581            )
2582        })
2583        .collect::<Vec<_>>()
2584        .join("\n\n");
2585    format!(
2586        "You are the provider lead. Use the sub-agent handoffs below, resolve disagreements, \
2587         and produce the final provider response for the original Amon Hen role.\n\n\
2588         Sub-agent handoffs:\n{handoff}\n\nOriginal provider prompt:\n{original}"
2589    )
2590}
2591
2592fn run_engine(name: &str, options: EngineRunOptions) -> EngineResult {
2593    if let Some(result) = missing_engine_if_unavailable(name, &options) {
2594        return result;
2595    }
2596    if options.team_size > 0 && options.role != "summary" && !options.is_sub_agent {
2597        return run_engine_team(name, options);
2598    }
2599    run_engine_single(name, options, vec![])
2600}
2601
2602fn missing_engine_if_unavailable(name: &str, options: &EngineRunOptions) -> Option<EngineResult> {
2603    let bin = resolve_binary(name);
2604    if command_available(&bin) {
2605        return None;
2606    }
2607    let detail = format!(
2608        "Provider CLI `{bin}` was not found in PATH. Install the {name} CLI on this machine or set {} to the executable path.",
2609        Engine::parse(name)
2610            .map(Engine::binary_env_var)
2611            .unwrap_or("AMON_HEN_PROVIDER_BIN")
2612    );
2613    let message = format!("[amon-hen] {name} missing: {detail}");
2614    emit_runtime_event(
2615        &options.progress,
2616        options.live && options.progress.is_none(),
2617        progress_event_with_context(
2618            Some(name),
2619            Some(&options.role),
2620            ProgressStage::Done,
2621            Some("missing"),
2622            Some(options.iteration),
2623            Some(options.total_iterations),
2624            options.is_sub_agent,
2625            Some(0),
2626            Some(token_usage(&options.prompt, "")),
2627            vec![],
2628            message,
2629        ),
2630    );
2631    Some(EngineResult {
2632        name: name.to_string(),
2633        bin: Some(bin.clone()),
2634        status: "missing".to_string(),
2635        duration_ms: 0,
2636        detail: detail.clone(),
2637        exit_code: None,
2638        stdout: String::new(),
2639        stderr: detail,
2640        output: String::new(),
2641        command: bin,
2642        token_usage: token_usage(&options.prompt, ""),
2643        tool_calls: vec![],
2644        sub_agents: vec![],
2645        role: options.role.clone(),
2646        iteration: options.iteration,
2647        total_iterations: options.total_iterations,
2648        team_size: options.team_size,
2649    })
2650}
2651
2652fn command_available(command: &str) -> bool {
2653    let path = Path::new(command);
2654    if path.components().count() > 1 || path.is_absolute() {
2655        return path.is_file();
2656    }
2657    let Some(paths) = std::env::var_os("PATH") else {
2658        return false;
2659    };
2660    std::env::split_paths(&paths).any(|dir| dir.join(command).is_file())
2661}
2662
2663fn run_engine_team(name: &str, options: EngineRunOptions) -> EngineResult {
2664    let team_size = options.team_size;
2665    let (tx, rx) = mpsc::channel();
2666    for index in 1..=team_size {
2667        let tx = tx.clone();
2668        let name = name.to_string();
2669        let mut sub_options = options.clone();
2670        sub_options.team_size = 0;
2671        sub_options.is_sub_agent = true;
2672        sub_options.role = format!("{}:sub-agent-{index}", options.role);
2673        sub_options.prompt =
2674            build_sub_agent_prompt(&options.prompt, &options.role, index, team_size);
2675        thread::spawn(move || {
2676            let _ = tx.send((index, run_engine_single(&name, sub_options, vec![])));
2677        });
2678    }
2679    drop(tx);
2680
2681    let mut indexed = rx.into_iter().collect::<Vec<_>>();
2682    indexed.sort_by_key(|(index, _)| *index);
2683    let sub_agents = indexed
2684        .into_iter()
2685        .map(|(_, result)| result)
2686        .collect::<Vec<_>>();
2687    let mut lead_options = options.clone();
2688    lead_options.prompt = build_team_lead_prompt(&options.prompt, &sub_agents);
2689    lead_options.is_sub_agent = true;
2690    run_engine_single(name, lead_options, sub_agents)
2691}
2692
2693fn run_engine_single(
2694    name: &str,
2695    options: EngineRunOptions,
2696    sub_agents: Vec<EngineResult>,
2697) -> EngineResult {
2698    let started = Instant::now();
2699    let bin = resolve_binary(name);
2700    let live = options.live;
2701    let role_is_sub_agent = options.role.contains(":sub-agent-");
2702    let start_message = format!(
2703        "[amon-hen] start {} role={} iteration={}/{}{}",
2704        name,
2705        options.role,
2706        options.iteration,
2707        options.total_iterations,
2708        if role_is_sub_agent { " sub-agent" } else { "" }
2709    );
2710    emit_runtime_event(
2711        &options.progress,
2712        live && options.progress.is_none(),
2713        progress_event_with_context(
2714            Some(name),
2715            Some(&options.role),
2716            ProgressStage::Start,
2717            Some("running"),
2718            Some(options.iteration),
2719            Some(options.total_iterations),
2720            role_is_sub_agent,
2721            None,
2722            None,
2723            vec![],
2724            start_message,
2725        ),
2726    );
2727    let result = match Engine::parse(name) {
2728        Some(Engine::Codex) => run_codex(&bin, &options),
2729        Some(Engine::Claude) => run_claude(&bin, &options),
2730        Some(Engine::Gemini) => run_gemini(&bin, &options),
2731        None => CommandResult {
2732            command: name.to_string(),
2733            args: vec![],
2734            code: None,
2735            stdout: String::new(),
2736            stderr: String::new(),
2737            timed_out: false,
2738            cancelled: false,
2739            error: Some(format!("Unknown engine: {name}")),
2740            timeout_ms: options.timeout_ms,
2741            duration_ms: started.elapsed().as_millis(),
2742        },
2743    };
2744    let engine_progress = options.progress.clone();
2745    let engine = finalize_engine(
2746        name,
2747        &bin,
2748        started.elapsed().as_millis(),
2749        result,
2750        options,
2751        sub_agents,
2752    );
2753    if live {
2754        let done_message = format!(
2755            "[amon-hen] done {} role={} status={} elapsed={:.1}s tokens={} tools={} sub-agents={}",
2756            engine.name,
2757            engine.role,
2758            engine.status,
2759            engine.duration_ms as f64 / 1000.0,
2760            engine.token_usage.total,
2761            engine.tool_calls.len(),
2762            engine.sub_agents.len()
2763        );
2764        emit_runtime_event(
2765            &engine_progress,
2766            live && engine_progress.is_none(),
2767            progress_event_with_context(
2768                Some(&engine.name),
2769                Some(&engine.role),
2770                ProgressStage::Done,
2771                Some(&engine.status),
2772                Some(engine.iteration),
2773                Some(engine.total_iterations),
2774                engine.role.contains(":sub-agent-"),
2775                Some(engine.duration_ms),
2776                Some(engine.token_usage.clone()),
2777                engine.tool_calls.clone(),
2778                done_message,
2779            ),
2780        );
2781    }
2782    engine
2783}
2784
2785fn push_arg(args: &mut Vec<String>, flag: &str, value: impl Into<String>) {
2786    args.push(flag.to_string());
2787    args.push(value.into());
2788}
2789
2790fn push_optional_arg(args: &mut Vec<String>, flag: &str, value: &Option<String>) {
2791    if let Some(value) = value {
2792        push_arg(args, flag, value.clone());
2793    }
2794}
2795
2796fn push_repeated_flag(args: &mut Vec<String>, flag: &str, values: &[String]) {
2797    if !values.is_empty() {
2798        args.push(flag.to_string());
2799        args.extend(values.iter().cloned());
2800    }
2801}
2802
2803fn push_each_arg(args: &mut Vec<String>, flag: &str, values: &[String]) {
2804    for value in values {
2805        push_arg(args, flag, value.clone());
2806    }
2807}
2808
2809fn run_codex(bin: &str, options: &EngineRunOptions) -> CommandResult {
2810    let temp = match tempfile::tempdir() {
2811        Ok(temp) => temp,
2812        Err(error) => {
2813            return CommandResult {
2814                command: bin.to_string(),
2815                args: vec![],
2816                code: None,
2817                stdout: String::new(),
2818                stderr: String::new(),
2819                timed_out: false,
2820                cancelled: false,
2821                error: Some(error.to_string()),
2822                timeout_ms: options.timeout_ms,
2823                duration_ms: 0,
2824            }
2825        }
2826    };
2827    let output_path = temp.path().join("last-message.txt");
2828    let mut args = vec!["exec".to_string()];
2829    push_optional_arg(&mut args, "--model", &options.model);
2830    if let Some(effort) = &options.effort {
2831        push_arg(&mut args, "-c", format!("model_reasoning_effort={effort}"));
2832    }
2833    if options.capability.mode == CAPABILITY_OVERRIDE {
2834        for config in &options.capability.config {
2835            push_arg(&mut args, "-c", config.clone());
2836        }
2837        push_optional_arg(&mut args, "--profile", &options.capability.mcp_profile);
2838    }
2839    args.extend([
2840        "--skip-git-repo-check".to_string(),
2841        "--sandbox".to_string(),
2842        options
2843            .permission
2844            .clone()
2845            .unwrap_or_else(|| "read-only".to_string()),
2846        "--ephemeral".to_string(),
2847        "--json".to_string(),
2848        "-o".to_string(),
2849        output_path.display().to_string(),
2850        "-".to_string(),
2851    ]);
2852    let mut result = run_command(
2853        CommandRequest::new(bin, &args, &options.cwd, options.timeout_ms)
2854            .stdin_text(Some(&options.prompt))
2855            .progress(command_progress_with_input(
2856                live_label("codex", options).as_deref(),
2857                options.progress.clone(),
2858                estimate_tokens(&options.prompt),
2859            ))
2860            .cancel(options.cancel.clone()),
2861    );
2862    if let Ok(output) = fs::read_to_string(output_path) {
2863        if !output.trim().is_empty() {
2864            result.stdout = output;
2865        }
2866    }
2867    result
2868}
2869
2870fn run_claude(bin: &str, options: &EngineRunOptions) -> CommandResult {
2871    let mut args = Vec::new();
2872    if should_use_claude_bare_mode(&options.auth) {
2873        args.push("--bare".to_string());
2874    }
2875    args.extend([
2876        "-p".to_string(),
2877        "--permission-mode".to_string(),
2878        options
2879            .permission
2880            .clone()
2881            .unwrap_or_else(|| "plan".to_string()),
2882        "--verbose".to_string(),
2883        "--output-format".to_string(),
2884        "stream-json".to_string(),
2885        "--include-partial-messages".to_string(),
2886        "--no-session-persistence".to_string(),
2887    ]);
2888    push_optional_arg(&mut args, "--model", &options.model);
2889    if let Some(effort) = options
2890        .effort
2891        .clone()
2892        .or_else(|| std::env::var("CLAUDE_CODE_EFFORT_LEVEL").ok())
2893    {
2894        push_arg(&mut args, "--effort", effort);
2895    }
2896    if options.capability.mode == CAPABILITY_OVERRIDE {
2897        push_repeated_flag(&mut args, "--mcp-config", &options.capability.mcp_config);
2898        push_repeated_flag(
2899            &mut args,
2900            "--allowedTools",
2901            &options.capability.allowed_tools,
2902        );
2903        push_repeated_flag(
2904            &mut args,
2905            "--disallowedTools",
2906            &options.capability.disallowed_tools,
2907        );
2908        push_repeated_flag(&mut args, "--tools", &options.capability.tools);
2909        push_optional_arg(&mut args, "--agent", &options.capability.agent);
2910        push_optional_arg(&mut args, "--agents", &options.capability.agents_json);
2911        push_each_arg(&mut args, "--plugin-dir", &options.capability.plugin_dirs);
2912        if options.capability.strict_mcp_config {
2913            args.push("--strict-mcp-config".to_string());
2914        }
2915        if options.capability.disable_slash_commands {
2916            args.push("--disable-slash-commands".to_string());
2917        }
2918    }
2919    run_command(
2920        CommandRequest::new(bin, &args, &options.cwd, options.timeout_ms)
2921            .stdin_text(Some(&options.prompt))
2922            .progress(command_progress_with_input(
2923                live_label("claude", options).as_deref(),
2924                options.progress.clone(),
2925                estimate_tokens(&options.prompt),
2926            ))
2927            .cancel(options.cancel.clone()),
2928    )
2929}
2930
2931fn run_gemini(bin: &str, options: &EngineRunOptions) -> CommandResult {
2932    let mut args = Vec::new();
2933    push_optional_arg(&mut args, "--model", &options.model);
2934    if options.capability.mode == CAPABILITY_OVERRIDE {
2935        push_repeated_flag(&mut args, "--extensions", &options.capability.tools_profile);
2936        push_repeated_flag(
2937            &mut args,
2938            "--allowed-mcp-server-names",
2939            &options.capability.allowed_mcp_servers,
2940        );
2941        push_repeated_flag(&mut args, "--policy", &options.capability.policy);
2942        push_repeated_flag(
2943            &mut args,
2944            "--admin-policy",
2945            &options.capability.admin_policy,
2946        );
2947    }
2948    args.extend([
2949        "-p".to_string(),
2950        options.prompt.clone(),
2951        "--skip-trust".to_string(),
2952        "--approval-mode".to_string(),
2953        "plan".to_string(),
2954        "--output-format".to_string(),
2955        "json".to_string(),
2956    ]);
2957    let mut envs = HashMap::new();
2958    let effort_settings = prepare_gemini_settings(options);
2959    if let Some(path) = effort_settings.as_ref() {
2960        envs.insert(
2961            "GEMINI_CLI_SYSTEM_SETTINGS_PATH".to_string(),
2962            path.path.display().to_string(),
2963        );
2964    } else if options.capability.mode == CAPABILITY_OVERRIDE {
2965        if let Some(settings) = &options.capability.settings {
2966            envs.insert(
2967                "GEMINI_CLI_SYSTEM_SETTINGS_PATH".to_string(),
2968                settings.clone(),
2969            );
2970        }
2971    }
2972    run_command(
2973        CommandRequest::new(bin, &args, &options.cwd, options.timeout_ms)
2974            .envs(envs)
2975            .progress(command_progress_with_input(
2976                live_label("gemini", options).as_deref(),
2977                options.progress.clone(),
2978                estimate_tokens(&options.prompt),
2979            ))
2980            .cancel(options.cancel.clone()),
2981    )
2982}
2983
2984fn live_label(name: &str, options: &EngineRunOptions) -> Option<String> {
2985    options.live.then(|| {
2986        format!(
2987            "{} {} iteration {}/{}",
2988            name, options.role, options.iteration, options.total_iterations
2989        )
2990    })
2991}
2992
2993fn provider_from_live_label(label: &str) -> Option<&str> {
2994    let provider = label.split_whitespace().next()?;
2995    ENGINES.contains(&provider).then_some(provider)
2996}
2997
2998fn role_from_live_label(label: &str) -> Option<&str> {
2999    if provider_from_live_label(label).is_some() {
3000        return label.split_whitespace().nth(1);
3001    }
3002    None
3003}
3004
3005fn iteration_from_live_label(label: &str) -> Option<usize> {
3006    iteration_pair_from_live_label(label).map(|(iteration, _)| iteration)
3007}
3008
3009fn total_iterations_from_live_label(label: &str) -> Option<usize> {
3010    iteration_pair_from_live_label(label).map(|(_, total)| total)
3011}
3012
3013fn iteration_pair_from_live_label(label: &str) -> Option<(usize, usize)> {
3014    let pair = label.split_whitespace().last()?;
3015    let (iteration, total) = pair.split_once('/')?;
3016    Some((iteration.parse().ok()?, total.parse().ok()?))
3017}
3018
3019fn prepare_gemini_settings(options: &EngineRunOptions) -> Option<TempSettings> {
3020    let effort = options.effort.as_deref()?;
3021    let budget = match effort {
3022        "low" => 1024,
3023        "medium" => 8192,
3024        "high" => 24576,
3025        _ => return None,
3026    };
3027    let dir = tempfile::tempdir().ok()?;
3028    let path = dir.path().join("settings.json");
3029    let mut settings = if options.capability.mode == CAPABILITY_OVERRIDE {
3030        options
3031            .capability
3032            .settings
3033            .as_ref()
3034            .and_then(|path| fs::read_to_string(path).ok())
3035            .and_then(|text| serde_json::from_str::<Value>(&text).ok())
3036            .unwrap_or_else(|| Value::Object(Default::default()))
3037    } else {
3038        Value::Object(Default::default())
3039    };
3040    if let Value::Object(object) = &mut settings {
3041        object.insert("thinkingBudget".to_string(), Value::from(budget));
3042    }
3043    let _ = fs::write(&path, serde_json::to_vec(&settings).ok()?);
3044    Some(TempSettings { _dir: dir, path })
3045}
3046
3047fn should_use_claude_bare_mode(auth: &str) -> bool {
3048    if auth == "api-key" {
3049        return true;
3050    }
3051    if matches!(auth, "social-login" | "oauth" | "keychain") {
3052        return false;
3053    }
3054    if std::env::var("CLAUDE_CODE_OAUTH_TOKEN")
3055        .ok()
3056        .filter(|value| !value.trim().is_empty())
3057        .is_some()
3058    {
3059        return false;
3060    }
3061    std::env::var("ANTHROPIC_API_KEY")
3062        .ok()
3063        .filter(|value| !value.trim().is_empty())
3064        .is_some()
3065}
3066
3067fn configure_process_group(command: &mut Command) {
3068    #[cfg(unix)]
3069    {
3070        use std::os::unix::process::CommandExt;
3071        command.process_group(0);
3072    }
3073}
3074
3075fn terminate_child_tree(child: &mut Child) {
3076    #[cfg(unix)]
3077    {
3078        let pgid = -(child.id() as i32);
3079        unsafe {
3080            libc::kill(pgid, libc::SIGTERM);
3081        }
3082        for _ in 0..20 {
3083            if child.try_wait().ok().flatten().is_some() {
3084                return;
3085            }
3086            thread::sleep(Duration::from_millis(25));
3087        }
3088        unsafe {
3089            libc::kill(pgid, libc::SIGKILL);
3090        }
3091    }
3092    let _ = child.kill();
3093}
3094
3095fn run_command(request: CommandRequest<'_>) -> CommandResult {
3096    let CommandRequest {
3097        command,
3098        args,
3099        cwd,
3100        stdin_text,
3101        timeout_ms,
3102        envs,
3103        progress,
3104        cancel,
3105    } = request;
3106    let started = Instant::now();
3107    if let Some(progress) = &progress {
3108        emit_runtime_event(
3109            &progress.sink,
3110            progress.sink.is_none(),
3111            progress_event_with_context(
3112                provider_from_live_label(&progress.label),
3113                role_from_live_label(&progress.label),
3114                ProgressStage::Spawn,
3115                Some("running"),
3116                iteration_from_live_label(&progress.label),
3117                total_iterations_from_live_label(&progress.label),
3118                role_from_live_label(&progress.label)
3119                    .is_some_and(|role| role.contains(":sub-agent-")),
3120                None,
3121                None,
3122                vec![],
3123                format!("[amon-hen] spawn {}", progress.label),
3124            ),
3125        );
3126    }
3127    let mut process = Command::new(command);
3128    process
3129        .args(args)
3130        .current_dir(cwd)
3131        .envs(envs)
3132        .stdin(Stdio::piped())
3133        .stdout(Stdio::piped())
3134        .stderr(Stdio::piped());
3135    configure_process_group(&mut process);
3136    let mut child = match process.spawn() {
3137        Ok(child) => child,
3138        Err(error) => {
3139            if let Some(progress) = &progress {
3140                emit_runtime_event(
3141                    &progress.sink,
3142                    progress.sink.is_none(),
3143                    progress_event_with_context(
3144                        provider_from_live_label(&progress.label),
3145                        role_from_live_label(&progress.label),
3146                        ProgressStage::Done,
3147                        Some("missing"),
3148                        iteration_from_live_label(&progress.label),
3149                        total_iterations_from_live_label(&progress.label),
3150                        role_from_live_label(&progress.label)
3151                            .is_some_and(|role| role.contains(":sub-agent-")),
3152                        Some(started.elapsed().as_millis()),
3153                        None,
3154                        vec![],
3155                        format!("[amon-hen] spawn failed {}: {error}", progress.label),
3156                    ),
3157                );
3158            }
3159            return CommandResult {
3160                command: command.to_string(),
3161                args: args.to_vec(),
3162                code: None,
3163                stdout: String::new(),
3164                stderr: String::new(),
3165                timed_out: false,
3166                cancelled: false,
3167                error: Some(error.to_string()),
3168                timeout_ms,
3169                duration_ms: started.elapsed().as_millis(),
3170            };
3171        }
3172    };
3173
3174    if let Some(mut stdin) = child.stdin.take() {
3175        if let Some(text) = stdin_text {
3176            let _ = stdin.write_all(text.as_bytes());
3177        }
3178    }
3179
3180    let stdout = child
3181        .stdout
3182        .take()
3183        .map(|pipe| read_pipe(pipe, progress.clone(), "stdout"));
3184    let stderr = child
3185        .stderr
3186        .take()
3187        .map(|pipe| read_pipe(pipe, progress.clone(), "stderr"));
3188    let timeout = Duration::from_millis(timeout_ms);
3189    let mut next_live_tick = Duration::from_secs(10);
3190    let mut timed_out = false;
3191    let mut cancelled = false;
3192    let code;
3193    loop {
3194        match child.try_wait() {
3195            Ok(Some(status)) => {
3196                code = status.code();
3197                break;
3198            }
3199            Ok(None) => {
3200                if cancel
3201                    .as_ref()
3202                    .is_some_and(|cancel| cancel.load(Ordering::Relaxed))
3203                {
3204                    cancelled = true;
3205                    terminate_child_tree(&mut child);
3206                    let status = child.wait().ok();
3207                    code = status.and_then(|status| status.code());
3208                    break;
3209                }
3210                if timeout_ms > 0 && started.elapsed() >= timeout {
3211                    timed_out = true;
3212                    terminate_child_tree(&mut child);
3213                    let status = child.wait().ok();
3214                    code = status.and_then(|status| status.code());
3215                    break;
3216                }
3217                if let Some(progress) = &progress {
3218                    let elapsed = started.elapsed();
3219                    if elapsed >= next_live_tick {
3220                        let timeout_detail = if timeout_ms > 0 {
3221                            format!("/{}s", timeout_ms / 1000)
3222                        } else {
3223                            String::new()
3224                        };
3225                        emit_runtime_event(
3226                            &progress.sink,
3227                            progress.sink.is_none(),
3228                            progress_event_with_context(
3229                                provider_from_live_label(&progress.label),
3230                                role_from_live_label(&progress.label),
3231                                ProgressStage::Heartbeat,
3232                                Some("running"),
3233                                iteration_from_live_label(&progress.label),
3234                                total_iterations_from_live_label(&progress.label),
3235                                role_from_live_label(&progress.label)
3236                                    .is_some_and(|role| role.contains(":sub-agent-")),
3237                                Some(elapsed.as_millis()),
3238                                None,
3239                                vec![],
3240                                format!(
3241                                    "[amon-hen] running {} for {}s{}",
3242                                    progress.label,
3243                                    elapsed.as_secs(),
3244                                    timeout_detail
3245                                ),
3246                            ),
3247                        );
3248                        next_live_tick += Duration::from_secs(10);
3249                    }
3250                }
3251                thread::sleep(Duration::from_millis(25));
3252            }
3253            Err(error) => {
3254                return CommandResult {
3255                    command: command.to_string(),
3256                    args: args.to_vec(),
3257                    code: None,
3258                    stdout: String::new(),
3259                    stderr: String::new(),
3260                    timed_out,
3261                    cancelled,
3262                    error: Some(error.to_string()),
3263                    timeout_ms,
3264                    duration_ms: started.elapsed().as_millis(),
3265                }
3266            }
3267        }
3268    }
3269
3270    CommandResult {
3271        command: command.to_string(),
3272        args: args.to_vec(),
3273        code,
3274        stdout: stdout
3275            .and_then(|handle| handle.join().ok())
3276            .unwrap_or_default(),
3277        stderr: stderr
3278            .and_then(|handle| handle.join().ok())
3279            .unwrap_or_default(),
3280        timed_out,
3281        cancelled,
3282        error: cancelled.then(|| "cancelled".to_string()),
3283        timeout_ms,
3284        duration_ms: started.elapsed().as_millis(),
3285    }
3286}
3287
3288fn read_pipe<R>(
3289    mut pipe: R,
3290    progress: Option<CommandProgress>,
3291    stream: &'static str,
3292) -> thread::JoinHandle<String>
3293where
3294    R: Read + Send + 'static,
3295{
3296    thread::spawn(move || {
3297        let mut text = String::new();
3298        let mut pending = String::new();
3299        let mut buffer = [0u8; 4096];
3300        let mut last_stream_event = Instant::now() - PROVIDER_STREAM_EVENT_MIN_INTERVAL;
3301        loop {
3302            let read = match pipe.read(&mut buffer) {
3303                Ok(0) => break,
3304                Ok(read) => read,
3305                Err(_) => break,
3306            };
3307            let chunk = String::from_utf8_lossy(&buffer[..read]).to_string();
3308            text.push_str(&chunk);
3309            pending.push_str(&chunk);
3310            while let Some(newline) = pending.find('\n') {
3311                let line = pending[..newline].trim_end_matches('\r').to_string();
3312                pending = pending[newline + 1..].to_string();
3313                maybe_emit_provider_stream_line(
3314                    &progress,
3315                    stream,
3316                    &line,
3317                    &text,
3318                    &mut last_stream_event,
3319                );
3320            }
3321            if !chunk.contains('\n') {
3322                maybe_emit_provider_stream_chunk(
3323                    &progress,
3324                    stream,
3325                    &chunk,
3326                    &text,
3327                    &mut last_stream_event,
3328                );
3329            }
3330        }
3331        if !pending.trim().is_empty() {
3332            emit_provider_stream_line(&progress, stream, &pending, &text);
3333        }
3334        text
3335    })
3336}
3337
3338fn maybe_emit_provider_stream_chunk(
3339    progress: &Option<CommandProgress>,
3340    stream: &str,
3341    chunk: &str,
3342    accumulated: &str,
3343    last_stream_event: &mut Instant,
3344) {
3345    let clipped = chunk.trim();
3346    if clipped.len() >= 24 {
3347        maybe_emit_provider_stream_line(progress, stream, clipped, accumulated, last_stream_event);
3348    }
3349}
3350
3351fn maybe_emit_provider_stream_line(
3352    progress: &Option<CommandProgress>,
3353    stream: &str,
3354    line: &str,
3355    accumulated: &str,
3356    last_stream_event: &mut Instant,
3357) {
3358    let now = Instant::now();
3359    let important = provider_stream_line_is_important(line);
3360    if important || now.duration_since(*last_stream_event) >= PROVIDER_STREAM_EVENT_MIN_INTERVAL {
3361        emit_provider_stream_line(progress, stream, line, accumulated);
3362        *last_stream_event = now;
3363    }
3364}
3365
3366fn provider_stream_line_is_important(line: &str) -> bool {
3367    let line = line.to_ascii_lowercase();
3368    [
3369        "tool_use",
3370        "tool_call",
3371        "functioncall",
3372        "function_call",
3373        "command_execution",
3374        "item.completed",
3375        "\"result\"",
3376        "\"error\"",
3377        "error",
3378        "failed",
3379        "permission",
3380    ]
3381    .iter()
3382    .any(|needle| line.contains(needle))
3383}
3384
3385fn emit_provider_stream_line(
3386    progress: &Option<CommandProgress>,
3387    stream: &str,
3388    line: &str,
3389    accumulated: &str,
3390) {
3391    let Some(progress) = progress else {
3392        return;
3393    };
3394    let line = line.trim();
3395    if line.is_empty() {
3396        return;
3397    }
3398    let provider = provider_from_live_label(&progress.label);
3399    let role = role_from_live_label(&progress.label);
3400    let output_tokens = estimate_tokens(accumulated);
3401    let token_usage = provider.map(|_| TokenUsage {
3402        input: progress.input_tokens,
3403        output: output_tokens,
3404        total: progress.input_tokens + output_tokens,
3405        estimated: true,
3406        source: "live-stream-estimate".to_string(),
3407    });
3408    let tool_calls = provider
3409        .map(|provider| extract_tool_usage(provider, line, ""))
3410        .unwrap_or_default();
3411    let visible = match provider_visible_stream(provider, line, &tool_calls) {
3412        StreamDisplay::Visible(visible) => visible,
3413        StreamDisplay::Suppress => return,
3414    };
3415    emit_runtime_event(
3416        &progress.sink,
3417        progress.sink.is_none(),
3418        progress_event_with_context(
3419            provider,
3420            role,
3421            ProgressStage::Heartbeat,
3422            Some("streaming"),
3423            iteration_from_live_label(&progress.label),
3424            total_iterations_from_live_label(&progress.label),
3425            role.is_some_and(|role| role.contains(":sub-agent-")),
3426            None,
3427            token_usage,
3428            tool_calls,
3429            format!(
3430                "[amon-hen] stream {} {stream}: {}",
3431                progress.label,
3432                truncate(&visible, 220)
3433            ),
3434        ),
3435    );
3436}
3437
3438#[derive(Debug, Eq, PartialEq)]
3439enum StreamDisplay {
3440    Visible(String),
3441    Suppress,
3442}
3443
3444fn provider_visible_stream(
3445    provider: Option<&str>,
3446    line: &str,
3447    tool_calls: &[ToolUsage],
3448) -> StreamDisplay {
3449    let Some(provider) = provider else {
3450        return StreamDisplay::Visible(sanitize_status_detail(line));
3451    };
3452    let Ok(value) = serde_json::from_str::<Value>(line) else {
3453        if looks_like_json_line(line) {
3454            return StreamDisplay::Suppress;
3455        }
3456        return StreamDisplay::Visible(sanitize_status_detail(line));
3457    };
3458    let visible = match provider {
3459        "claude" => claude_visible_stream(&value),
3460        "gemini" => gemini_visible_stream(&value),
3461        "codex" => codex_visible_stream(&value),
3462        _ => None,
3463    }
3464    .or_else(|| tool_calls.first().map(visible_tool_summary));
3465    visible
3466        .filter(|text| !text.trim().is_empty())
3467        .map(StreamDisplay::Visible)
3468        .unwrap_or(StreamDisplay::Suppress)
3469}
3470
3471fn visible_tool_summary(tool: &ToolUsage) -> String {
3472    let detail = sanitize_status_detail(&tool.detail);
3473    if detail.is_empty() {
3474        format!("tool {}: {}", tool.status, tool.name)
3475    } else {
3476        format!("tool {}: {} {}", tool.status, tool.name, detail)
3477    }
3478}
3479
3480fn claude_visible_stream(value: &Value) -> Option<String> {
3481    if value.get("type").and_then(Value::as_str) == Some("stream_event") {
3482        return value.get("event").and_then(claude_visible_stream);
3483    }
3484    match value.get("type").and_then(Value::as_str) {
3485        Some("content_block_delta") => return claude_visible_delta(value.get("delta")?),
3486        Some("content_block_start") => {
3487            return value
3488                .get("content_block")
3489                .and_then(visible_content_block)
3490                .map(|text| sanitize_status_detail(&text));
3491        }
3492        Some("content_block_stop" | "message_start" | "message_delta" | "message_stop") => {
3493            return None;
3494        }
3495        _ => {}
3496    }
3497    if let Some(result) = non_empty_str(value.get("result")) {
3498        return Some(format!("result: {}", sanitize_status_detail(result)));
3499    }
3500    if let Some(content) = value.pointer("/message/content").and_then(Value::as_array) {
3501        if let Some(text) = visible_content_blocks(content) {
3502            return Some(text);
3503        }
3504    }
3505    if let Some(delta) = value.pointer("/delta/text").and_then(Value::as_str) {
3506        return Some(format!("assistant: {}", sanitize_status_detail(delta)));
3507    }
3508    if let Some(block) = value.pointer("/content_block") {
3509        if let Some(text) = visible_content_block(block) {
3510            return Some(text);
3511        }
3512    }
3513    if let Some(error) = value.pointer("/error/message").and_then(Value::as_str) {
3514        return Some(format!("error: {}", sanitize_status_detail(error)));
3515    }
3516    None
3517}
3518
3519fn claude_visible_delta(delta: &Value) -> Option<String> {
3520    match delta.get("type").and_then(Value::as_str) {
3521        Some("text_delta") => delta
3522            .get("text")
3523            .and_then(Value::as_str)
3524            .filter(|text| !text.trim().is_empty())
3525            .map(|text| format!("assistant: {}", sanitize_status_detail(text))),
3526        Some("input_json_delta" | "thinking_delta" | "signature_delta") => None,
3527        _ => delta
3528            .get("text")
3529            .and_then(Value::as_str)
3530            .filter(|text| !text.trim().is_empty())
3531            .map(|text| format!("assistant: {}", sanitize_status_detail(text))),
3532    }
3533}
3534
3535fn claude_output_text(value: &Value) -> Option<String> {
3536    if value.get("type").and_then(Value::as_str) == Some("stream_event") {
3537        return value.get("event").and_then(claude_output_text);
3538    }
3539    match value.get("type").and_then(Value::as_str) {
3540        Some("content_block_delta") => {
3541            let delta = value.get("delta")?;
3542            return match delta.get("type").and_then(Value::as_str) {
3543                Some("text_delta") => non_empty_str(delta.get("text")).map(str::to_string),
3544                _ => None,
3545            };
3546        }
3547        Some("content_block_start") => {
3548            let block = value.get("content_block")?;
3549            if matches!(
3550                block.get("type").and_then(Value::as_str),
3551                Some("text" | "output_text")
3552            ) {
3553                return non_empty_str(block.get("text")).map(str::to_string);
3554            }
3555        }
3556        _ => {}
3557    }
3558    if let Some(result) = non_empty_str(value.get("result")) {
3559        return Some(result.to_string());
3560    }
3561    value
3562        .pointer("/message/content")
3563        .and_then(Value::as_array)
3564        .map(|content| {
3565            content
3566                .iter()
3567                .filter_map(|block| {
3568                    matches!(
3569                        block.get("type").and_then(Value::as_str),
3570                        Some("text" | "output_text")
3571                    )
3572                    .then(|| non_empty_str(block.get("text")))
3573                    .flatten()
3574                })
3575                .collect::<String>()
3576        })
3577        .filter(|text| !text.trim().is_empty())
3578}
3579
3580fn gemini_visible_stream(value: &Value) -> Option<String> {
3581    if let Some(response) = non_empty_str(value.get("response")) {
3582        return Some(format!("assistant: {}", sanitize_status_detail(response)));
3583    }
3584    if let Some(text) = non_empty_str(value.get("text")) {
3585        return Some(format!("assistant: {}", sanitize_status_detail(text)));
3586    }
3587    if let Some(text) = value
3588        .pointer("/candidates/0/content/parts/0/text")
3589        .and_then(Value::as_str)
3590        .filter(|text| !text.trim().is_empty())
3591    {
3592        return Some(format!("assistant: {}", sanitize_status_detail(text)));
3593    }
3594    if let Some(call) = value
3595        .pointer("/functionCall")
3596        .or_else(|| value.pointer("/candidates/0/content/parts/0/functionCall"))
3597    {
3598        return Some(format!("tool: {}", function_call_summary(call)));
3599    }
3600    if let Some(error) = value.pointer("/error/message").and_then(Value::as_str) {
3601        return Some(format!("error: {}", sanitize_status_detail(error)));
3602    }
3603    None
3604}
3605
3606fn codex_visible_stream(value: &Value) -> Option<String> {
3607    if let Some(message) = non_empty_str(value.get("message")) {
3608        return Some(format!("assistant: {}", sanitize_status_detail(message)));
3609    }
3610    if let Some(text) = non_empty_str(value.get("text")) {
3611        return Some(format!("assistant: {}", sanitize_status_detail(text)));
3612    }
3613    if let Some(item) = value.get("item") {
3614        return codex_visible_item(item);
3615    }
3616    if let Some(error) = value.pointer("/error/message").and_then(Value::as_str) {
3617        return Some(format!("error: {}", sanitize_status_detail(error)));
3618    }
3619    None
3620}
3621
3622fn codex_visible_item(item: &Value) -> Option<String> {
3623    let item_type = item.get("type").and_then(Value::as_str).unwrap_or_default();
3624    match item_type {
3625        "message" => codex_message_text(item),
3626        "command_execution" => {
3627            let command = item
3628                .get("command")
3629                .and_then(Value::as_str)
3630                .map(sanitize_status_detail)
3631                .unwrap_or_else(|| "command".to_string());
3632            let output = item
3633                .get("aggregated_output")
3634                .or_else(|| item.get("output"))
3635                .and_then(Value::as_str)
3636                .map(sanitize_status_detail)
3637                .unwrap_or_default();
3638            if output.trim().is_empty() {
3639                Some(format!("tool: shell {command}"))
3640            } else {
3641                Some(format!(
3642                    "tool: shell {command} -> {}",
3643                    truncate(&output, 140)
3644                ))
3645            }
3646        }
3647        "function_call" | "tool_call" => Some(format!("tool: {}", function_call_summary(item))),
3648        "error" => item
3649            .get("message")
3650            .and_then(Value::as_str)
3651            .map(|message| format!("error: {}", sanitize_status_detail(message))),
3652        "reasoning" => item
3653            .get("summary")
3654            .and_then(Value::as_str)
3655            .filter(|summary| !summary.trim().is_empty())
3656            .map(|summary| format!("reasoning summary: {}", sanitize_status_detail(summary))),
3657        _ => None,
3658    }
3659}
3660
3661fn codex_message_text(item: &Value) -> Option<String> {
3662    if let Some(text) = non_empty_str(item.get("text")) {
3663        return Some(sanitize_status_detail(text));
3664    }
3665    item.get("content")
3666        .and_then(Value::as_array)
3667        .and_then(|blocks| visible_content_blocks(blocks))
3668}
3669
3670fn visible_content_blocks(blocks: &[Value]) -> Option<String> {
3671    let parts = blocks
3672        .iter()
3673        .filter_map(visible_content_block)
3674        .collect::<Vec<_>>();
3675    (!parts.is_empty()).then(|| parts.join(" | "))
3676}
3677
3678fn visible_content_block(block: &Value) -> Option<String> {
3679    match block.get("type").and_then(Value::as_str) {
3680        Some("text") | Some("output_text") => non_empty_str(block.get("text"))
3681            .map(|text| format!("assistant: {}", sanitize_status_detail(text))),
3682        Some("tool_use") => {
3683            let name = block.get("name").and_then(Value::as_str).unwrap_or("tool");
3684            let input = block
3685                .get("input")
3686                .map(short_json_detail)
3687                .unwrap_or_default();
3688            if input.is_empty() {
3689                Some(format!("tool: {name}"))
3690            } else {
3691                Some(format!("tool: {name} {}", truncate(&input, 140)))
3692            }
3693        }
3694        Some("function_call") | Some("tool_call") => {
3695            Some(format!("tool: {}", function_call_summary(block)))
3696        }
3697        _ => non_empty_str(block.get("text"))
3698            .map(|text| format!("assistant: {}", sanitize_status_detail(text))),
3699    }
3700}
3701
3702fn function_call_summary(value: &Value) -> String {
3703    let name = value
3704        .get("name")
3705        .or_else(|| value.get("tool"))
3706        .or_else(|| value.get("function"))
3707        .and_then(Value::as_str)
3708        .unwrap_or("tool");
3709    let args = value
3710        .get("args")
3711        .or_else(|| value.get("arguments"))
3712        .or_else(|| value.get("input"))
3713        .map(short_json_detail)
3714        .unwrap_or_default();
3715    if args.is_empty() {
3716        name.to_string()
3717    } else {
3718        format!("{name} {}", truncate(&args, 140))
3719    }
3720}
3721
3722fn non_empty_str(value: Option<&Value>) -> Option<&str> {
3723    value
3724        .and_then(Value::as_str)
3725        .map(str::trim)
3726        .filter(|text| !text.is_empty())
3727}
3728
3729fn finalize_engine(
3730    name: &str,
3731    bin: &str,
3732    duration_ms: u128,
3733    command_result: CommandResult,
3734    options: EngineRunOptions,
3735    sub_agents: Vec<EngineResult>,
3736) -> EngineResult {
3737    let output = match Engine::parse(name) {
3738        Some(Engine::Claude) => parse_claude_output(&command_result.stdout),
3739        Some(Engine::Gemini) => parse_gemini_output(&command_result.stdout),
3740        Some(Engine::Codex) => parse_codex_output(&command_result.stdout),
3741        None => command_result.stdout.trim().to_string(),
3742    };
3743    let status = if command_result.cancelled {
3744        "cancelled"
3745    } else if command_result.error.is_some() {
3746        "missing"
3747    } else if command_result.timed_out {
3748        "timeout"
3749    } else if command_result.code != Some(0) || output.trim().is_empty() {
3750        "error"
3751    } else {
3752        "ok"
3753    };
3754    let detail = if status == "ok" {
3755        String::new()
3756    } else if command_result.cancelled {
3757        "Cancelled by Studio/user request.".to_string()
3758    } else if command_result.timed_out {
3759        format!("Timed out after {}s.", command_result.timeout_ms / 1000)
3760    } else {
3761        compact_failure(&command_result)
3762    };
3763    let usage = aggregate_token_usage(
3764        extract_token_usage(&command_result.stdout, &options.prompt, &output)
3765            .unwrap_or_else(|| token_usage(&options.prompt, &output)),
3766        &sub_agents,
3767    );
3768    let tool_calls = extract_tool_usage(name, &command_result.stdout, &command_result.stderr);
3769    EngineResult {
3770        name: name.to_string(),
3771        bin: Some(bin.to_string()),
3772        status: status.to_string(),
3773        duration_ms,
3774        detail,
3775        exit_code: command_result.code,
3776        stdout: command_result.stdout,
3777        stderr: command_result.stderr,
3778        output,
3779        command: format_command(&command_result.command, &command_result.args),
3780        token_usage: usage,
3781        tool_calls,
3782        sub_agents,
3783        role: options.role,
3784        iteration: options.iteration,
3785        total_iterations: options.total_iterations,
3786        team_size: options.team_size,
3787    }
3788}
3789
3790fn compact_failure(result: &CommandResult) -> String {
3791    if let Some(error) = &result.error {
3792        return error.clone();
3793    }
3794    if !result.stderr.trim().is_empty() {
3795        return result.stderr.trim().to_string();
3796    }
3797    if !result.stdout.trim().is_empty() {
3798        return result.stdout.trim().to_string();
3799    }
3800    result
3801        .code
3802        .map(|code| format!("Exited with code {code}."))
3803        .unwrap_or_else(|| "Command failed.".to_string())
3804}
3805
3806fn command_telemetry(result: &CommandResult) -> CommandTelemetry {
3807    let status = if result.cancelled {
3808        "cancelled"
3809    } else if result.error.is_some() {
3810        "missing"
3811    } else if result.timed_out {
3812        "timeout"
3813    } else if result.code == Some(0) {
3814        "ok"
3815    } else {
3816        "error"
3817    };
3818    CommandTelemetry {
3819        command: format_command(&result.command, &result.args),
3820        status: status.to_string(),
3821        detail: truncate(&sanitize_status_detail(&compact_failure(result)), 600),
3822        exit_code: result.code,
3823        duration_ms: result.duration_ms,
3824        stdout_chars: result.stdout.len(),
3825        stderr_chars: result.stderr.len(),
3826        timed_out: result.timed_out,
3827    }
3828}
3829
3830fn parse_codex_output(stdout: &str) -> String {
3831    stdout.trim().to_string()
3832}
3833
3834fn parse_claude_output(stdout: &str) -> String {
3835    let trimmed = stdout.trim();
3836    if trimmed.is_empty() {
3837        return String::new();
3838    }
3839    if let Some(value) = extract_json(trimmed) {
3840        if let Some(result) = value.get("result").and_then(Value::as_str) {
3841            return result.trim().to_string();
3842        }
3843    }
3844    let mut latest = String::new();
3845    let mut streamed_text = String::new();
3846    for line in trimmed.lines() {
3847        let Ok(value) = serde_json::from_str::<Value>(line) else {
3848            continue;
3849        };
3850        if value.get("type").and_then(Value::as_str) == Some("result") {
3851            if let Some(result) = value.get("result").and_then(Value::as_str) {
3852                latest = result.trim().to_string();
3853            }
3854            continue;
3855        }
3856        if let Some(text) = claude_output_text(&value) {
3857            if value.get("type").and_then(Value::as_str) == Some("stream_event") {
3858                streamed_text.push_str(&text);
3859                latest = streamed_text.trim().to_string();
3860            } else if !text.trim().is_empty() {
3861                latest = text.trim().to_string();
3862            }
3863        }
3864    }
3865    if latest.is_empty() {
3866        trimmed.to_string()
3867    } else {
3868        latest
3869    }
3870}
3871
3872fn parse_gemini_output(stdout: &str) -> String {
3873    let trimmed = stdout.trim();
3874    if trimmed.is_empty() {
3875        return String::new();
3876    }
3877    if let Some(value) = extract_json(trimmed) {
3878        if let Some(response) = value.get("response").and_then(Value::as_str) {
3879            return response.trim().to_string();
3880        }
3881    }
3882    trimmed.to_string()
3883}
3884
3885fn extract_json(text: &str) -> Option<Value> {
3886    serde_json::from_str::<Value>(text).ok().or_else(|| {
3887        let start = text.find('{')?;
3888        let end = text.rfind('}')?;
3889        serde_json::from_str::<Value>(&text[start..=end]).ok()
3890    })
3891}
3892
3893fn build_member_prompt(input: MemberPromptInput<'_>) -> String {
3894    let mut sections = vec![
3895        "You are one member of a multi-model Amon Hen run.".to_string(),
3896        format!(
3897            "Amon Hen workflow: iteration {iteration} of {}.",
3898            input.workflow.iterations,
3899            iteration = input.iteration
3900        ),
3901        input
3902            .workflow
3903            .lead
3904            .as_ref()
3905            .map(|lead| format!("Lead model: {lead}."))
3906            .unwrap_or_else(|| "Lead model: auto.".to_string()),
3907        input
3908            .workflow
3909            .planner
3910            .as_ref()
3911            .map(|planner| format!("Planner model: {planner}."))
3912            .unwrap_or_else(|| "Planner model: none.".to_string()),
3913        format!("Your assigned role: {}.", input.role),
3914        role_instruction(input.role).to_string(),
3915        "Answer the user query directly.".to_string(),
3916        "Do not introduce yourself.".to_string(),
3917        "Do not describe your tools, environment, or capabilities unless the user explicitly asks."
3918            .to_string(),
3919        "Be concise unless the user asks for depth.".to_string(),
3920    ];
3921    if input.team_size > 0 {
3922        sections.push(format!(
3923            "Team work: you may coordinate up to {} internal sub-agents or subtasks inside your own CLI if that helps.",
3924            input.team_size
3925        ));
3926    }
3927    if input.workflow.handoff {
3928        sections.push(
3929            "Handoff mode is enabled. Treat earlier Amon Hen outputs as working context."
3930                .to_string(),
3931        );
3932    }
3933    if !input.plan_output.trim().is_empty() {
3934        sections.push(format!("Planner handoff:\n{}", input.plan_output.trim()));
3935    }
3936    let context = input
3937        .previous_iteration
3938        .iter()
3939        .chain(input.handoff_results.iter())
3940        .filter(|result| result.status == "ok" && !result.output.trim().is_empty())
3941        .map(|result| format!("### {}\n{}", result.name, result.output.trim()))
3942        .collect::<Vec<_>>()
3943        .join("\n\n");
3944    if !context.is_empty() {
3945        sections.push(format!("Earlier Amon Hen handoffs:\n{context}"));
3946    }
3947    sections.push(format!("Current user query:\n{}", input.query.trim()));
3948    sections.join("\n\n")
3949}
3950
3951fn build_summary_prompt(
3952    query: &str,
3953    responses: &[EngineResult],
3954    workflow: &Workflow,
3955    max_member_chars: usize,
3956) -> String {
3957    let blocks = responses
3958        .iter()
3959        .map(|response| {
3960            let output = truncate(&response.output, max_member_chars);
3961            format!("### {}\n{}", response.name, output.trim())
3962        })
3963        .collect::<Vec<_>>()
3964        .join("\n\n");
3965    format!(
3966        "You are synthesizing answers from multiple AI CLI tools.\n\nAmon Hen workflow: {} iteration{}, {}.\nLead model: {}.\nPlanner model: {}.\nProduce one final answer to the original user query.\nAnswer directly. Call out meaningful disagreement or uncertainty when it exists.\n\nCurrent user query:\n{}\n\nAmon Hen member responses:\n{}",
3967        workflow.iterations,
3968        if workflow.iterations == 1 { "" } else { "s" },
3969        if workflow.handoff { "handoff enabled" } else { "parallel consultation" },
3970        workflow.lead.as_deref().unwrap_or("auto"),
3971        workflow.planner.as_deref().unwrap_or("none"),
3972        query.trim(),
3973        blocks
3974    )
3975}
3976
3977fn role_instruction(role: &str) -> &'static str {
3978    match role {
3979        "planner" => "Plan the work: identify the approach, risks, checkpoints, and useful handoffs for the executors.",
3980        "lead" => "Lead the work: make the strongest direct attempt while watching for conflicts you may need to resolve in synthesis.",
3981        "lead+planner" => "Plan and lead the work: produce a practical plan, then make the strongest direct attempt from that plan.",
3982        _ => "Execute the work: use any plan or handoff context, then produce your independent best answer.",
3983    }
3984}
3985
3986fn execution_order(members: &[String], planner: Option<&str>, lead: Option<&str>) -> Vec<String> {
3987    let mut ordered = Vec::new();
3988    if let Some(planner) = planner {
3989        if members.iter().any(|member| member == planner) {
3990            ordered.push(planner.to_string());
3991        }
3992    }
3993    ordered.extend(
3994        members
3995            .iter()
3996            .filter(|member| Some(member.as_str()) != planner && Some(member.as_str()) != lead)
3997            .cloned(),
3998    );
3999    if lead != planner {
4000        if let Some(lead) = lead {
4001            if members.iter().any(|member| member == lead) {
4002                ordered.push(lead.to_string());
4003            }
4004        }
4005    }
4006    ordered
4007}
4008
4009fn role_for(member: &str, workflow: &Workflow) -> String {
4010    let is_lead = workflow.lead.as_deref() == Some(member);
4011    let is_planner = workflow.planner.as_deref() == Some(member);
4012    match (is_lead, is_planner) {
4013        (true, true) => "lead+planner",
4014        (true, false) => "lead",
4015        (false, true) => "planner",
4016        (false, false) => "executor",
4017    }
4018    .to_string()
4019}
4020
4021fn pick_summarizer(resolved: &ResolvedArgs, successes: &[EngineResult]) -> String {
4022    if resolved.raw.summarizer != "auto" {
4023        return resolved.raw.summarizer.clone();
4024    }
4025    if let Some(lead) = &resolved.raw.lead {
4026        if successes.iter().any(|result| &result.name == lead) {
4027            return lead.clone();
4028        }
4029    }
4030    DEFAULT_SUMMARIZER_ORDER
4031        .iter()
4032        .find(|name| successes.iter().any(|result| result.name == **name))
4033        .unwrap_or(&successes[0].name.as_str())
4034        .to_string()
4035}
4036
4037fn resolve_binary(name: &str) -> String {
4038    let Some(engine) = Engine::parse(name) else {
4039        return name.to_string();
4040    };
4041    std::env::var(engine.binary_env_var())
4042        .ok()
4043        .filter(|value| !value.trim().is_empty())
4044        .unwrap_or_else(|| engine.as_str().to_string())
4045}
4046
4047fn token_usage(prompt: &str, output: &str) -> TokenUsage {
4048    let input = estimate_tokens(prompt);
4049    let output = estimate_tokens(output);
4050    TokenUsage {
4051        input,
4052        output,
4053        total: input + output,
4054        estimated: true,
4055        source: "estimate".to_string(),
4056    }
4057}
4058
4059fn aggregate_token_usage(mut usage: TokenUsage, sub_agents: &[EngineResult]) -> TokenUsage {
4060    if sub_agents.is_empty() {
4061        return usage;
4062    }
4063    for agent in sub_agents {
4064        usage.input += agent.token_usage.input;
4065        usage.output += agent.token_usage.output;
4066        usage.total += agent.token_usage.total;
4067        usage.estimated |= agent.token_usage.estimated;
4068    }
4069    usage.source = format!("{}+sub-agents", usage.source);
4070    usage
4071}
4072
4073fn aggregate_results_token_usage<'a>(
4074    results: impl IntoIterator<Item = &'a EngineResult>,
4075) -> TokenUsage {
4076    let mut usage = TokenUsage {
4077        input: 0,
4078        output: 0,
4079        total: 0,
4080        estimated: false,
4081        source: "aggregate".to_string(),
4082    };
4083    for result in results {
4084        usage.input += result.token_usage.input;
4085        usage.output += result.token_usage.output;
4086        usage.total += result.token_usage.total;
4087        usage.estimated |= result.token_usage.estimated;
4088    }
4089    usage
4090}
4091
4092fn extract_token_usage(stdout: &str, prompt: &str, output: &str) -> Option<TokenUsage> {
4093    let mut usage = TokenAccumulator::default();
4094    for value in json_values(stdout) {
4095        collect_token_counts(&value, &mut usage);
4096    }
4097    if usage.input.is_none() && usage.output.is_none() && usage.total.is_none() {
4098        return None;
4099    }
4100    let input = usage.input.unwrap_or_else(|| estimate_tokens(prompt));
4101    let output = usage.output.unwrap_or_else(|| estimate_tokens(output));
4102    let total = usage.total.unwrap_or(input + output);
4103    Some(TokenUsage {
4104        input,
4105        output,
4106        total,
4107        estimated: usage.input.is_none() || usage.output.is_none(),
4108        source: "provider".to_string(),
4109    })
4110}
4111
4112#[derive(Default)]
4113struct TokenAccumulator {
4114    input: Option<usize>,
4115    output: Option<usize>,
4116    total: Option<usize>,
4117}
4118
4119fn collect_token_counts(value: &Value, usage: &mut TokenAccumulator) {
4120    match value {
4121        Value::Object(map) => {
4122            for (key, value) in map {
4123                let normalized = key.replace(['_', '-'], "").to_ascii_lowercase();
4124                if let Some(count) = value.as_u64().map(|value| value as usize) {
4125                    match normalized.as_str() {
4126                        "inputtokens" | "inputtokencount" | "prompttokens" | "prompttokencount" => {
4127                            usage.input = Some(count)
4128                        }
4129                        "outputtokens"
4130                        | "outputtokencount"
4131                        | "completiontokens"
4132                        | "candidatestokencount" => usage.output = Some(count),
4133                        "totaltokens" | "totaltokencount" => usage.total = Some(count),
4134                        _ => {}
4135                    }
4136                }
4137                collect_token_counts(value, usage);
4138            }
4139        }
4140        Value::Array(values) => {
4141            for value in values {
4142                collect_token_counts(value, usage);
4143            }
4144        }
4145        _ => {}
4146    }
4147}
4148
4149fn extract_tool_usage(provider: &str, stdout: &str, stderr: &str) -> Vec<ToolUsage> {
4150    let mut tools = Vec::new();
4151    for value in json_values(stdout) {
4152        collect_tool_usage(&value, &mut tools);
4153    }
4154    for line in stdout.lines().chain(stderr.lines()) {
4155        if let Some(tool) = line_tool_usage(provider, line) {
4156            tools.push(tool);
4157        }
4158    }
4159    dedupe_tools(tools)
4160}
4161
4162fn collect_tool_usage(value: &Value, tools: &mut Vec<ToolUsage>) {
4163    match value {
4164        Value::Object(map) => {
4165            let type_name = map.get("type").and_then(Value::as_str).unwrap_or_default();
4166            let name = map
4167                .get("name")
4168                .or_else(|| map.get("tool"))
4169                .or_else(|| map.get("tool_name"))
4170                .or_else(|| map.get("toolName"))
4171                .and_then(Value::as_str);
4172            if let Some(name) = name.filter(|_| {
4173                type_name.contains("tool")
4174                    || map.contains_key("input")
4175                    || map.contains_key("arguments")
4176                    || map.contains_key("toolCall")
4177            }) {
4178                tools.push(ToolUsage {
4179                    name: name.to_string(),
4180                    kind: if type_name.is_empty() {
4181                        "tool"
4182                    } else {
4183                        type_name
4184                    }
4185                    .to_string(),
4186                    status: "observed".to_string(),
4187                    detail: short_json_detail(value),
4188                });
4189            }
4190            for value in map.values() {
4191                collect_tool_usage(value, tools);
4192            }
4193        }
4194        Value::Array(values) => {
4195            for value in values {
4196                collect_tool_usage(value, tools);
4197            }
4198        }
4199        _ => {}
4200    }
4201}
4202
4203fn line_tool_usage(provider: &str, line: &str) -> Option<ToolUsage> {
4204    let trimmed = line.trim();
4205    if looks_like_json_line(trimmed) {
4206        return None;
4207    }
4208    let lowered = trimmed.to_ascii_lowercase();
4209    let marker = ["running shell:", "tool:", "tool_use", "mcp:", "command:"]
4210        .iter()
4211        .find(|marker| lowered.contains(**marker))?;
4212    Some(ToolUsage {
4213        name: marker.trim_end_matches(':').to_string(),
4214        kind: provider.to_string(),
4215        status: "observed".to_string(),
4216        detail: truncate(trimmed, 240),
4217    })
4218}
4219
4220fn short_json_detail(value: &Value) -> String {
4221    serde_json::to_string(value)
4222        .map(|text| truncate(&text, 240))
4223        .unwrap_or_default()
4224}
4225
4226fn dedupe_tools(tools: Vec<ToolUsage>) -> Vec<ToolUsage> {
4227    let mut seen = HashSet::new();
4228    tools
4229        .into_iter()
4230        .filter(|tool| seen.insert(format!("{}:{}:{}", tool.kind, tool.name, tool.detail)))
4231        .collect()
4232}
4233
4234fn json_values(text: &str) -> Vec<Value> {
4235    let trimmed = text.trim();
4236    if trimmed.is_empty() {
4237        return vec![];
4238    }
4239    let mut values = Vec::new();
4240    if let Ok(value) = serde_json::from_str::<Value>(trimmed) {
4241        values.push(value);
4242        return values;
4243    }
4244    for line in trimmed.lines() {
4245        if let Ok(value) = serde_json::from_str::<Value>(line.trim()) {
4246            values.push(value);
4247        }
4248    }
4249    values
4250}
4251
4252fn looks_like_json_line(line: &str) -> bool {
4253    let trimmed = line.trim_start();
4254    trimmed.starts_with('{') || trimmed.starts_with('[')
4255}
4256
4257fn estimate_tokens(text: &str) -> usize {
4258    if text.trim().is_empty() {
4259        0
4260    } else {
4261        text.len().div_ceil(TOKEN_ESTIMATE_CHARS_PER_TOKEN)
4262    }
4263}
4264
4265fn format_command(command: &str, args: &[String]) -> String {
4266    std::iter::once(command.to_string())
4267        .chain(args.iter().map(|arg| shell_quote(arg)))
4268        .collect::<Vec<_>>()
4269        .join(" ")
4270}
4271
4272fn shell_quote(value: &str) -> String {
4273    if value
4274        .chars()
4275        .all(|ch| ch.is_ascii_alphanumeric() || "_./:=@%+-".contains(ch))
4276    {
4277        value.to_string()
4278    } else {
4279        serde_json::to_string(value).unwrap_or_else(|_| value.to_string())
4280    }
4281}
4282
4283fn truncate(text: &str, max_chars: usize) -> String {
4284    if text.chars().count() <= max_chars {
4285        text.to_string()
4286    } else {
4287        let mut truncated = text.chars().take(max_chars).collect::<String>();
4288        truncated.push_str("\n...[truncated]");
4289        truncated
4290    }
4291}
4292
4293fn should_show_banner(raw: &CliArgs) -> bool {
4294    !raw.no_banner && !raw.headless && !raw.json && !raw.json_stream && !raw.plain
4295}
4296
4297fn linear_delivery_requested(raw: &CliArgs) -> bool {
4298    raw.deliver_linear
4299        || raw.linear_until_complete
4300        || raw.linear_watch
4301        || !raw.linear_issue.is_empty()
4302        || raw
4303            .linear_query
4304            .as_ref()
4305            .is_some_and(|value| !value.trim().is_empty())
4306        || !raw.linear_project.is_empty()
4307        || !raw.linear_epic.is_empty()
4308}
4309
4310fn render_banner() -> &'static str {
4311    "    _                         _   _            \n   / \\   _ __ ___   ___  _ __ | | | | ___ _ __  \n  / _ \\ | '_ ` _ \\ / _ \\| '_ \\| |_| |/ _ \\ '_ \\ \n / ___ \\| | | | | | (_) | | | |  _  |  __/ | | |\n/_/   \\_\\_| |_| |_|\\___/|_| |_|_| |_|\\___|_| |_|"
4312}
4313
4314fn render_human_result(result: &AmonHenResult, verbose: bool) -> String {
4315    let mut lines = Vec::new();
4316    if verbose {
4317        lines.push(format!(
4318            "Amon Hen consulted: {}",
4319            result.members_requested.join(", ")
4320        ));
4321        for command in &result.prompt_commands {
4322            lines.push(format!(
4323                "cmd [{}] {} ({:.1}s)",
4324                command.status,
4325                command.command,
4326                command.duration_ms as f64 / 1000.0
4327            ));
4328        }
4329        for (index, member) in result.members.iter().enumerate() {
4330            lines.push(format!(
4331                "{}. [{}] {} ({:.1}s, tokens:{}, tools:{}, sub-agents:{}){}",
4332                index + 1,
4333                member.status,
4334                member.name,
4335                member.duration_ms as f64 / 1000.0,
4336                member.token_usage.total,
4337                member.tool_calls.len(),
4338                member.sub_agents.len(),
4339                if member.detail.is_empty() { "" } else { ": " }
4340            ));
4341            if !member.detail.is_empty() {
4342                lines.push(format!("   {}", member.detail));
4343            }
4344            for sub_agent in &member.sub_agents {
4345                lines.push(format!(
4346                    "   - {} [{}] tokens:{} tools:{}",
4347                    sub_agent.role,
4348                    sub_agent.status,
4349                    sub_agent.token_usage.total,
4350                    sub_agent.tool_calls.len()
4351                ));
4352            }
4353            if member.status == "ok" {
4354                lines.push(indent(&member.output, "   "));
4355            }
4356        }
4357        lines.push("----------- synthesis -----------".to_string());
4358    }
4359    if result.summary.status == "ok" {
4360        lines.push(result.summary.output.trim().to_string());
4361    } else {
4362        lines.push(format!("Synthesis failed: {}", result.summary.detail));
4363    }
4364    lines.join("\n")
4365}
4366
4367fn indent(text: &str, prefix: &str) -> String {
4368    text.lines()
4369        .map(|line| format!("{prefix}{line}"))
4370        .collect::<Vec<_>>()
4371        .join("\n")
4372}
4373
4374fn is_success(result: &AmonHenResult) -> bool {
4375    result.members.iter().any(|member| member.status == "ok") && result.summary.status == "ok"
4376}
4377
4378#[cfg(test)]
4379mod tests {
4380    use super::*;
4381    use std::sync::Mutex as TestMutex;
4382
4383    static ENV_LOCK: TestMutex<()> = TestMutex::new(());
4384
4385    struct ProviderEnvGuard {
4386        saved: Vec<(&'static str, Option<OsString>)>,
4387    }
4388
4389    impl ProviderEnvGuard {
4390        fn install_echo_bins() -> Option<Self> {
4391            let echo = Path::new("/bin/echo");
4392            if !echo.is_file() {
4393                return None;
4394            }
4395            let vars = [
4396                "AMON_HEN_CODEX_BIN",
4397                "AMON_HEN_CLAUDE_BIN",
4398                "AMON_HEN_GEMINI_BIN",
4399            ];
4400            let saved = vars
4401                .into_iter()
4402                .map(|name| (name, std::env::var_os(name)))
4403                .collect::<Vec<_>>();
4404            for (name, _) in &saved {
4405                unsafe {
4406                    std::env::set_var(name, echo);
4407                }
4408            }
4409            Some(Self { saved })
4410        }
4411    }
4412
4413    impl Drop for ProviderEnvGuard {
4414        fn drop(&mut self) {
4415            for (name, value) in &self.saved {
4416                unsafe {
4417                    if let Some(value) = value {
4418                        std::env::set_var(name, value);
4419                    } else {
4420                        std::env::remove_var(name);
4421                    }
4422                }
4423            }
4424        }
4425    }
4426
4427    #[test]
4428    fn help_flags_use_success_exit_code() {
4429        let long_help = CliArgs::try_parse_from(["amon-hen", "--help"]).unwrap_err();
4430        let short_help = CliArgs::try_parse_from(["amon-hen", "-h"]).unwrap_err();
4431
4432        assert_eq!(long_help.kind(), ErrorKind::DisplayHelp);
4433        assert_eq!(short_help.kind(), ErrorKind::DisplayHelp);
4434        assert_eq!(parse_error_exit_code(long_help.kind()), 0);
4435        assert_eq!(parse_error_exit_code(short_help.kind()), 0);
4436    }
4437
4438    #[test]
4439    fn rendered_help_is_grouped_and_compact() {
4440        let help = render_cli_help();
4441
4442        assert!(help.contains("Core run:"));
4443        assert!(help.contains("Models, effort, and permissions:"));
4444        assert!(help.contains("Auth and provider capabilities:"));
4445        assert!(help.contains("Linear delivery:"));
4446        assert!(help.contains("--members codex,claude,gemini"));
4447        assert!(help.contains("--claude-permission-mode MODE"));
4448        assert!(!help.contains("\n\n\n"));
4449    }
4450
4451    #[test]
4452    fn parses_members_and_provider_flags() {
4453        let args = CliArgs::try_parse_from([
4454            "amon-hen",
4455            "--members",
4456            "codex,claude",
4457            "--planner",
4458            "codex",
4459            "--planner-mode",
4460            "parallel",
4461            "--handoff",
4462            "--lead",
4463            "claude",
4464            "--codex-effort",
4465            "xhigh",
4466            "--claude-capabilities",
4467            "override",
4468            "--claude-allowed-tools",
4469            "Read,Bash(git:*)",
4470            "--claude-tools",
4471            "Read,Edit",
4472            "--claude-agent",
4473            "reviewer",
4474            "--gemini-allowed-mcp-servers",
4475            "linear,github",
4476            "ship it",
4477        ])
4478        .unwrap();
4479        let resolved = resolve_args(args).unwrap();
4480        assert_eq!(resolved.members, vec!["codex", "claude"]);
4481        assert_eq!(resolved.raw.planner_mode, PLANNER_MODE_PARALLEL);
4482        assert_eq!(resolved.raw.codex_effort.as_deref(), Some("xhigh"));
4483        assert_eq!(
4484            resolved.raw.claude_allowed_tools,
4485            vec!["Read", "Bash(git:*)"]
4486        );
4487        assert_eq!(resolved.raw.claude_tools, vec!["Read", "Edit"]);
4488        assert_eq!(resolved.raw.claude_agent.as_deref(), Some("reviewer"));
4489        assert_eq!(
4490            resolved.raw.gemini_allowed_mcp_servers,
4491            vec!["linear", "github"]
4492        );
4493    }
4494
4495    #[test]
4496    fn planner_parallel_mode_keeps_executors_unblocked() {
4497        let args = CliArgs::try_parse_from([
4498            "amon-hen",
4499            "--members",
4500            "codex,claude,gemini",
4501            "--planner",
4502            "claude",
4503            "--planner-mode",
4504            "parallel",
4505            "--handoff",
4506            "--lead",
4507            "claude",
4508            "ship it",
4509        ])
4510        .unwrap();
4511        let resolved = resolve_args(args).unwrap();
4512        let workflow = build_workflow(&resolved);
4513        let ordered = execution_order(
4514            &resolved.members,
4515            workflow.planner.as_deref(),
4516            workflow.lead.as_deref(),
4517        );
4518        let planner = workflow
4519            .planner
4520            .as_ref()
4521            .filter(|planner| ordered.contains(planner))
4522            .cloned();
4523        let blocking_planner = workflow.planner_mode == PLANNER_MODE_BLOCKING;
4524        let executors = ordered
4525            .into_iter()
4526            .filter(|member| !(blocking_planner && Some(member) == planner.as_ref()))
4527            .collect::<Vec<_>>();
4528
4529        assert_eq!(workflow.planner_mode, PLANNER_MODE_PARALLEL);
4530        assert!(workflow.handoff);
4531        assert_eq!(executors, vec!["claude", "codex", "gemini"]);
4532        assert_eq!(role_for("claude", &workflow), "lead+planner");
4533        assert_eq!(role_for("codex", &workflow), "executor");
4534        assert_eq!(role_for("gemini", &workflow), "executor");
4535    }
4536
4537    #[test]
4538    fn parses_historical_linear_flags_in_rust() {
4539        let args = CliArgs::try_parse_from([
4540            "amon-hen",
4541            "--banner",
4542            "--auth-open-browser",
4543            "--members",
4544            "codex,claude,gemini",
4545            "--linear-project",
4546            "ENG",
4547            "--linear-endpoint",
4548            "https://linear.example/graphql",
4549            "--linear-auth",
4550            "oauth",
4551            "--linear-max-polls",
4552            "2",
4553            "--linear-max-concurrency",
4554            "3",
4555            "--linear-workflow-file",
4556            "docs/linear-workflow.md",
4557            "--linear-workspace-strategy",
4558            "copy",
4559            "--linear-completion-gate",
4560            "review-or-ci",
4561            "--delivery-phases",
4562            "plan,implement,verify,ship",
4563            "deliver it",
4564        ])
4565        .unwrap();
4566        let resolved = resolve_args(args).unwrap();
4567
4568        assert!(linear_delivery_requested(&resolved.raw));
4569        assert_eq!(
4570            resolved.raw.linear_endpoint.as_deref(),
4571            Some("https://linear.example/graphql")
4572        );
4573        assert_eq!(resolved.raw.linear_auth, "oauth");
4574        assert_eq!(resolved.raw.linear_max_polls, Some(2));
4575        assert_eq!(resolved.raw.linear_max_concurrency, 3);
4576        assert_eq!(
4577            resolved.raw.linear_workflow_file.as_deref(),
4578            Some(Path::new("docs/linear-workflow.md"))
4579        );
4580        assert_eq!(resolved.raw.linear_workspace_strategy, "copy");
4581        assert_eq!(resolved.raw.linear_completion_gate, "review-or-ci");
4582        assert_eq!(
4583            resolved.raw.delivery_phases,
4584            vec!["plan", "implement", "verify", "ship"]
4585        );
4586    }
4587
4588    #[test]
4589    fn cli_role_flag_matrix_reaches_provider_options_and_prompts() {
4590        let args = CliArgs::try_parse_from([
4591            "amon-hen",
4592            "--members",
4593            "codex,claude,gemini",
4594            "--planner",
4595            "codex",
4596            "--lead",
4597            "claude",
4598            "--handoff",
4599            "--iterations",
4600            "3",
4601            "--team-work",
4602            "2",
4603            "--codex-sub-agents",
4604            "4",
4605            "--claude-sub-agents",
4606            "1",
4607            "--gemini-sub-agents",
4608            "0",
4609            "--codex-model",
4610            "gpt-5.2",
4611            "--codex-effort",
4612            "xhigh",
4613            "--codex-sandbox",
4614            "danger-full-access",
4615            "--codex-config",
4616            "sandbox_workspace_write.network_access=true",
4617            "--codex-mcp-profile",
4618            "repo",
4619            "--claude-model",
4620            "sonnet",
4621            "--claude-effort",
4622            "max",
4623            "--claude-permission-mode",
4624            "bypassPermissions",
4625            "--claude-allowed-tools",
4626            "Read,Edit",
4627            "--claude-tools",
4628            "Bash",
4629            "--claude-agent",
4630            "lead-reviewer",
4631            "--gemini-model",
4632            "gemini-2.5-pro",
4633            "--gemini-effort",
4634            "high",
4635            "--gemini-settings",
4636            "gemini-settings.json",
4637            "--gemini-tools-profile",
4638            "repo,ci",
4639            "--gemini-allowed-mcp-servers",
4640            "linear",
4641            "Fix the regression",
4642        ])
4643        .unwrap();
4644        let resolved = resolve_args(args).unwrap();
4645        let workflow = build_workflow(&resolved);
4646        let previous = vec![EngineResult {
4647            name: "gemini".to_string(),
4648            bin: Some("gemini".to_string()),
4649            status: "ok".to_string(),
4650            duration_ms: 1,
4651            detail: String::new(),
4652            exit_code: Some(0),
4653            stdout: String::new(),
4654            stderr: String::new(),
4655            output: "previous iteration context".to_string(),
4656            command: "gemini".to_string(),
4657            token_usage: token_usage("a", "b"),
4658            tool_calls: vec![],
4659            sub_agents: vec![],
4660            role: "executor".to_string(),
4661            iteration: 1,
4662            total_iterations: 3,
4663            team_size: 0,
4664        }];
4665        let handoff = vec![EngineResult {
4666            name: "codex".to_string(),
4667            bin: Some("codex".to_string()),
4668            status: "ok".to_string(),
4669            duration_ms: 1,
4670            detail: String::new(),
4671            exit_code: Some(0),
4672            stdout: String::new(),
4673            stderr: String::new(),
4674            output: "planner handoff context".to_string(),
4675            command: "codex".to_string(),
4676            token_usage: token_usage("a", "b"),
4677            tool_calls: vec![],
4678            sub_agents: vec![],
4679            role: "planner".to_string(),
4680            iteration: 2,
4681            total_iterations: 3,
4682            team_size: 4,
4683        }];
4684
4685        assert_eq!(workflow.iterations, 3);
4686        assert!(workflow.handoff);
4687        assert_eq!(workflow.team_work, 2);
4688        assert_eq!(workflow.teams.get("codex"), Some(&4));
4689        assert_eq!(workflow.teams.get("claude"), Some(&1));
4690        assert_eq!(workflow.teams.get("gemini"), Some(&0));
4691        assert_eq!(role_for("codex", &workflow), "planner");
4692        assert_eq!(role_for("claude", &workflow), "lead");
4693        assert_eq!(role_for("gemini", &workflow), "executor");
4694
4695        let codex_prompt = build_member_prompt(MemberPromptInput {
4696            query: "Fix the regression",
4697            role: "planner",
4698            workflow: &workflow,
4699            iteration: 2,
4700            team_size: effective_team_size(&workflow, "codex"),
4701            previous_iteration: &previous,
4702            handoff_results: &handoff,
4703            plan_output: "plan output",
4704        });
4705        assert!(codex_prompt.contains("Amon Hen workflow: iteration 2 of 3."));
4706        assert!(codex_prompt.contains("Lead model: claude."));
4707        assert!(codex_prompt.contains("Planner model: codex."));
4708        assert!(codex_prompt.contains("Your assigned role: planner."));
4709        assert!(codex_prompt.contains("Handoff mode is enabled."));
4710        assert!(codex_prompt.contains("Team work: you may coordinate up to 4 internal sub-agents"));
4711        assert!(codex_prompt.contains("Planner handoff:\nplan output"));
4712        assert!(codex_prompt.contains("previous iteration context"));
4713        assert!(codex_prompt.contains("planner handoff context"));
4714
4715        let codex_options = engine_options(
4716            &resolved,
4717            EngineOptionsInput {
4718                member: "codex",
4719                prompt: codex_prompt,
4720                role: "planner",
4721                iteration: 2,
4722                workflow: &workflow,
4723                progress: None,
4724                cancel: None,
4725            },
4726        );
4727        assert_eq!(codex_options.model.as_deref(), Some("gpt-5.2"));
4728        assert_eq!(codex_options.effort.as_deref(), Some("xhigh"));
4729        assert_eq!(
4730            codex_options.permission.as_deref(),
4731            Some("danger-full-access")
4732        );
4733        assert_eq!(codex_options.role, "planner");
4734        assert_eq!(codex_options.iteration, 2);
4735        assert_eq!(codex_options.total_iterations, 3);
4736        assert_eq!(codex_options.team_size, 4);
4737        assert_eq!(codex_options.capability.mode, CAPABILITY_OVERRIDE);
4738        assert_eq!(
4739            codex_options.capability.config,
4740            vec!["sandbox_workspace_write.network_access=true"]
4741        );
4742        assert_eq!(
4743            codex_options.capability.mcp_profile.as_deref(),
4744            Some("repo")
4745        );
4746
4747        let claude_options = engine_options(
4748            &resolved,
4749            EngineOptionsInput {
4750                member: "claude",
4751                prompt: build_member_prompt(MemberPromptInput {
4752                    query: "Fix the regression",
4753                    role: "lead",
4754                    workflow: &workflow,
4755                    iteration: 2,
4756                    team_size: effective_team_size(&workflow, "claude"),
4757                    previous_iteration: &[],
4758                    handoff_results: &[],
4759                    plan_output: "",
4760                }),
4761                role: "lead",
4762                iteration: 2,
4763                workflow: &workflow,
4764                progress: None,
4765                cancel: None,
4766            },
4767        );
4768        assert_eq!(claude_options.model.as_deref(), Some("sonnet"));
4769        assert_eq!(claude_options.effort.as_deref(), Some("max"));
4770        assert_eq!(
4771            claude_options.permission.as_deref(),
4772            Some("bypassPermissions")
4773        );
4774        assert_eq!(claude_options.role, "lead");
4775        assert_eq!(claude_options.team_size, 1);
4776        assert_eq!(claude_options.capability.mode, CAPABILITY_OVERRIDE);
4777        assert_eq!(
4778            claude_options.capability.allowed_tools,
4779            vec!["Read", "Edit"]
4780        );
4781        assert_eq!(claude_options.capability.tools, vec!["Bash"]);
4782        assert_eq!(
4783            claude_options.capability.agent.as_deref(),
4784            Some("lead-reviewer")
4785        );
4786
4787        let gemini_options = engine_options(
4788            &resolved,
4789            EngineOptionsInput {
4790                member: "gemini",
4791                prompt: build_member_prompt(MemberPromptInput {
4792                    query: "Fix the regression",
4793                    role: "executor",
4794                    workflow: &workflow,
4795                    iteration: 2,
4796                    team_size: effective_team_size(&workflow, "gemini"),
4797                    previous_iteration: &[],
4798                    handoff_results: &[],
4799                    plan_output: "",
4800                }),
4801                role: "executor",
4802                iteration: 2,
4803                workflow: &workflow,
4804                progress: None,
4805                cancel: None,
4806            },
4807        );
4808        assert_eq!(gemini_options.model.as_deref(), Some("gemini-2.5-pro"));
4809        assert_eq!(gemini_options.effort.as_deref(), Some("high"));
4810        assert_eq!(gemini_options.permission, None);
4811        assert_eq!(gemini_options.role, "executor");
4812        assert_eq!(gemini_options.team_size, 0);
4813        assert_eq!(gemini_options.capability.mode, CAPABILITY_OVERRIDE);
4814        assert_eq!(
4815            gemini_options.capability.settings.as_deref(),
4816            Some("gemini-settings.json")
4817        );
4818        assert_eq!(gemini_options.capability.tools_profile, vec!["repo", "ci"]);
4819        assert_eq!(
4820            gemini_options.capability.allowed_mcp_servers,
4821            vec!["linear"]
4822        );
4823    }
4824
4825    #[test]
4826    fn provider_command_args_include_role_matrix_settings() {
4827        let cwd = std::env::current_dir().unwrap();
4828        let codex_options = EngineRunOptions {
4829            prompt: "codex prompt".to_string(),
4830            cwd: cwd.clone(),
4831            timeout_ms: 1,
4832            effort: Some("high".to_string()),
4833            model: Some("gpt-5.2".to_string()),
4834            permission: Some("workspace-write".to_string()),
4835            auth: DEFAULT_AUTH_MODE.to_string(),
4836            capability: ProviderCapability {
4837                mode: CAPABILITY_OVERRIDE.to_string(),
4838                config: vec!["tools.web_search=true".to_string()],
4839                mcp_profile: Some("repo".to_string()),
4840                mcp_config: vec![],
4841                allowed_tools: vec![],
4842                disallowed_tools: vec![],
4843                tools: vec![],
4844                agent: None,
4845                agents_json: None,
4846                plugin_dirs: vec![],
4847                strict_mcp_config: false,
4848                disable_slash_commands: false,
4849                settings: None,
4850                tools_profile: vec![],
4851                allowed_mcp_servers: vec![],
4852                policy: vec![],
4853                admin_policy: vec![],
4854            },
4855            role: "planner".to_string(),
4856            iteration: 2,
4857            total_iterations: 3,
4858            team_size: 4,
4859            is_sub_agent: false,
4860            live: false,
4861            progress: None,
4862            cancel: None,
4863        };
4864        let codex = run_codex("definitely-missing-codex-test-bin", &codex_options);
4865        assert_eq!(codex.args[0], "exec");
4866        assert!(codex
4867            .args
4868            .windows(2)
4869            .any(|pair| pair == ["--model", "gpt-5.2"]));
4870        assert!(codex
4871            .args
4872            .windows(2)
4873            .any(|pair| pair == ["-c", "model_reasoning_effort=high"]));
4874        assert!(codex
4875            .args
4876            .windows(2)
4877            .any(|pair| pair == ["-c", "tools.web_search=true"]));
4878        assert!(codex
4879            .args
4880            .windows(2)
4881            .any(|pair| pair == ["--profile", "repo"]));
4882        assert!(codex
4883            .args
4884            .windows(2)
4885            .any(|pair| pair == ["--sandbox", "workspace-write"]));
4886
4887        let claude_options = EngineRunOptions {
4888            prompt: "claude prompt".to_string(),
4889            cwd: cwd.clone(),
4890            timeout_ms: 1,
4891            effort: Some("max".to_string()),
4892            model: Some("sonnet".to_string()),
4893            permission: Some("bypassPermissions".to_string()),
4894            auth: "social-login".to_string(),
4895            capability: ProviderCapability {
4896                mode: CAPABILITY_OVERRIDE.to_string(),
4897                config: vec![],
4898                mcp_profile: None,
4899                mcp_config: vec!["mcp.json".to_string()],
4900                allowed_tools: vec!["Read".to_string(), "Edit".to_string()],
4901                disallowed_tools: vec!["WebFetch".to_string()],
4902                tools: vec!["Bash".to_string()],
4903                agent: Some("lead-reviewer".to_string()),
4904                agents_json: Some("agents.json".to_string()),
4905                plugin_dirs: vec!["plugins/a".to_string(), "plugins/b".to_string()],
4906                strict_mcp_config: true,
4907                disable_slash_commands: true,
4908                settings: None,
4909                tools_profile: vec![],
4910                allowed_mcp_servers: vec![],
4911                policy: vec![],
4912                admin_policy: vec![],
4913            },
4914            role: "lead".to_string(),
4915            iteration: 2,
4916            total_iterations: 3,
4917            team_size: 1,
4918            is_sub_agent: false,
4919            live: false,
4920            progress: None,
4921            cancel: None,
4922        };
4923        let claude = run_claude("definitely-missing-claude-test-bin", &claude_options);
4924        assert!(!claude.args.iter().any(|arg| arg == "--bare"));
4925        assert!(claude
4926            .args
4927            .windows(2)
4928            .any(|pair| pair == ["--permission-mode", "bypassPermissions"]));
4929        assert!(claude
4930            .args
4931            .windows(2)
4932            .any(|pair| pair == ["--model", "sonnet"]));
4933        assert!(claude
4934            .args
4935            .windows(2)
4936            .any(|pair| pair == ["--effort", "max"]));
4937        assert!(claude
4938            .args
4939            .windows(3)
4940            .any(|triple| triple == ["--allowedTools", "Read", "Edit"]));
4941        assert!(claude
4942            .args
4943            .windows(2)
4944            .any(|pair| pair == ["--agent", "lead-reviewer"]));
4945        assert!(claude.args.iter().any(|arg| arg == "--strict-mcp-config"));
4946        assert!(claude
4947            .args
4948            .iter()
4949            .any(|arg| arg == "--disable-slash-commands"));
4950
4951        let gemini_options = EngineRunOptions {
4952            prompt: "gemini prompt".to_string(),
4953            cwd,
4954            timeout_ms: 1,
4955            effort: Some("high".to_string()),
4956            model: Some("gemini-2.5-pro".to_string()),
4957            permission: None,
4958            auth: DEFAULT_AUTH_MODE.to_string(),
4959            capability: ProviderCapability {
4960                mode: CAPABILITY_OVERRIDE.to_string(),
4961                config: vec![],
4962                mcp_profile: None,
4963                mcp_config: vec![],
4964                allowed_tools: vec![],
4965                disallowed_tools: vec![],
4966                tools: vec![],
4967                agent: None,
4968                agents_json: None,
4969                plugin_dirs: vec![],
4970                strict_mcp_config: false,
4971                disable_slash_commands: false,
4972                settings: None,
4973                tools_profile: vec!["repo".to_string(), "ci".to_string()],
4974                allowed_mcp_servers: vec!["linear".to_string()],
4975                policy: vec!["default".to_string()],
4976                admin_policy: vec!["locked".to_string()],
4977            },
4978            role: "executor".to_string(),
4979            iteration: 2,
4980            total_iterations: 3,
4981            team_size: 0,
4982            is_sub_agent: false,
4983            live: false,
4984            progress: None,
4985            cancel: None,
4986        };
4987        let gemini = run_gemini("definitely-missing-gemini-test-bin", &gemini_options);
4988        assert!(gemini
4989            .args
4990            .windows(2)
4991            .any(|pair| pair == ["--model", "gemini-2.5-pro"]));
4992        assert!(gemini
4993            .args
4994            .windows(3)
4995            .any(|triple| triple == ["--extensions", "repo", "ci"]));
4996        assert!(gemini
4997            .args
4998            .windows(2)
4999            .any(|pair| pair == ["--allowed-mcp-server-names", "linear"]));
5000        assert!(gemini
5001            .args
5002            .windows(2)
5003            .any(|pair| pair == ["--policy", "default"]));
5004        assert!(gemini
5005            .args
5006            .windows(2)
5007            .any(|pair| pair == ["--admin-policy", "locked"]));
5008        assert!(gemini
5009            .args
5010            .windows(2)
5011            .any(|pair| pair == ["-p", "gemini prompt"]));
5012    }
5013
5014    #[test]
5015    fn builds_member_prompt_with_roles_and_handoff() {
5016        let workflow = Workflow {
5017            handoff: true,
5018            lead: Some("claude".to_string()),
5019            planner: Some("codex".to_string()),
5020            planner_mode: PLANNER_MODE_BLOCKING.to_string(),
5021            iterations: 2,
5022            team_work: 1,
5023            teams: HashMap::new(),
5024        };
5025        let prompt = build_member_prompt(MemberPromptInput {
5026            query: "Fix the bug",
5027            role: "planner",
5028            workflow: &workflow,
5029            iteration: 1,
5030            team_size: 1,
5031            previous_iteration: &[],
5032            handoff_results: &[],
5033            plan_output: "",
5034        });
5035        assert!(prompt.contains("Amon Hen workflow: iteration 1 of 2."));
5036        assert!(prompt.contains("Lead model: claude."));
5037        assert!(prompt.contains("Planner model: codex."));
5038        assert!(prompt.contains("Your assigned role: planner."));
5039        assert!(prompt.contains("Current user query:"));
5040    }
5041
5042    #[test]
5043    fn parses_claude_stream_json_result() {
5044        let text = r#"{"type":"system","subtype":"status","status":"requesting"}
5045{"type":"result","result":"done"}"#;
5046        assert_eq!(parse_claude_output(text), "done");
5047    }
5048
5049    #[test]
5050    fn parses_gemini_json_response() {
5051        assert_eq!(parse_gemini_output(r#"{"response":"hello"}"#), "hello");
5052    }
5053
5054    #[test]
5055    fn estimates_tokens_with_ceiling_chunks() {
5056        assert_eq!(estimate_tokens(""), 0);
5057        assert_eq!(estimate_tokens("abc"), 1);
5058        assert_eq!(estimate_tokens("abcd"), 1);
5059        assert_eq!(estimate_tokens("abcde"), 2);
5060    }
5061
5062    #[test]
5063    fn extracts_social_login_urls() {
5064        assert_eq!(
5065            extract_auth_urls("Open https://example.com/callback?code=123, then continue"),
5066            vec!["https://example.com/callback?code=123"]
5067        );
5068        assert_eq!(
5069            extract_auth_urls("deeplink: claude://login/complete."),
5070            vec!["claude://login/complete"]
5071        );
5072    }
5073
5074    #[test]
5075    fn parses_provider_token_usage() {
5076        let stdout = r#"{"usage":{"input_tokens":12,"output_tokens":8,"total_tokens":20}}"#;
5077        let usage = extract_token_usage(stdout, "hello", "world").unwrap();
5078        assert_eq!(usage.input, 12);
5079        assert_eq!(usage.output, 8);
5080        assert_eq!(usage.total, 20);
5081        assert!(!usage.estimated);
5082    }
5083
5084    #[test]
5085    fn extracts_tool_usage_from_provider_streams() {
5086        let stdout = r#"{"type":"assistant","message":{"content":[{"type":"tool_use","name":"Bash","input":{"command":"git status"}}]}}"#;
5087        let tools = extract_tool_usage("claude", stdout, "");
5088        assert!(tools.iter().any(|tool| tool.name == "Bash"));
5089    }
5090
5091    #[test]
5092    fn provider_stream_json_renders_readable_messages() {
5093        let claude = r#"{"type":"assistant","message":{"content":[{"type":"text","text":"Inspecting the truth predicates now."},{"type":"tool_use","name":"Bash","input":{"command":"git status -sb"}}]}}"#;
5094        let codex = r#"{"type":"item.completed","item":{"id":"item_13","type":"command_execution","command":"/bin/bash -lc 'sed -n 1,40p execution/live_router.py'","aggregated_output":"def route_order():\n    pass\n"}}"#;
5095        let gemini = r#"{"candidates":[{"content":{"parts":[{"text":"Gate waterfall evidence is still thin."}]}}]}"#;
5096
5097        assert_eq!(
5098            provider_visible_stream(Some("claude"), claude, &[]),
5099            StreamDisplay::Visible(
5100                "assistant: Inspecting the truth predicates now. | tool: Bash {\"command\":\"git status -sb\"}"
5101                    .to_string()
5102            )
5103        );
5104        let codex_visible = match provider_visible_stream(Some("codex"), codex, &[]) {
5105            StreamDisplay::Visible(text) => text,
5106            StreamDisplay::Suppress => panic!("codex command event should be visible"),
5107        };
5108        assert!(codex_visible.contains("tool: shell"));
5109        assert!(codex_visible.contains("execution/live_router.py"));
5110        assert!(!codex_visible.contains("\"type\":\"item.completed\""));
5111        assert_eq!(
5112            provider_visible_stream(Some("gemini"), gemini, &[]),
5113            StreamDisplay::Visible("assistant: Gate waterfall evidence is still thin.".to_string())
5114        );
5115    }
5116
5117    #[test]
5118    fn claude_stream_event_json_suppresses_input_shards() {
5119        let input_delta = r#"{"type":"stream_event","event":{"type":"content_block_delta","index":6,"delta":{"type":"input_json_delta","partial_json":"\"fallback_trigger\""},"session_id":"abc"}}"#;
5120        let tool_start = r#"{"type":"stream_event","event":{"type":"content_block_start","index":6,"content_block":{"type":"tool_use","id":"toolu_123","name":"Agent","input":{"description":"Agent E - CLOB/WS Timing","prompt":"Inspect the live VPS timing path"}},"session_id":"abc"}}"#;
5121        let text_delta = r#"{"type":"stream_event","event":{"type":"content_block_delta","index":0,"delta":{"type":"text_delta","text":"I found the first timing issue."},"session_id":"abc"}}"#;
5122
5123        assert_eq!(
5124            provider_visible_stream(Some("claude"), input_delta, &[]),
5125            StreamDisplay::Suppress
5126        );
5127        assert!(extract_tool_usage("claude", input_delta, "").is_empty());
5128
5129        let visible_tool = match provider_visible_stream(Some("claude"), tool_start, &[]) {
5130            StreamDisplay::Visible(text) => text,
5131            StreamDisplay::Suppress => panic!("tool start should be visible"),
5132        };
5133        assert!(visible_tool.contains("tool: Agent"));
5134        assert!(visible_tool.contains("CLOB/WS Timing"));
5135        assert!(!visible_tool.contains("stream_event"));
5136        assert!(!visible_tool.contains("partial_json"));
5137
5138        assert_eq!(
5139            provider_visible_stream(Some("claude"), text_delta, &[]),
5140            StreamDisplay::Visible("assistant: I found the first timing issue.".to_string())
5141        );
5142        assert_eq!(
5143            parse_claude_output(&format!("{text_delta}\n{text_delta}\n")),
5144            "I found the first timing issue.I found the first timing issue."
5145        );
5146    }
5147
5148    #[test]
5149    fn provider_stream_json_suppresses_session_plumbing() {
5150        let claude_hook = r#"{"type":"system","subtype":"hook_response","hook_name":"SessionStart:startup","output":"noise"}"#;
5151        let codex_session = r#"{"type":"session.started","session_id":"abc"}"#;
5152
5153        assert_eq!(
5154            provider_visible_stream(Some("claude"), claude_hook, &[]),
5155            StreamDisplay::Suppress
5156        );
5157        assert_eq!(
5158            provider_visible_stream(Some("codex"), codex_session, &[]),
5159            StreamDisplay::Suppress
5160        );
5161    }
5162
5163    #[test]
5164    fn builds_real_sub_agent_handoff_prompt() {
5165        let agent = EngineResult {
5166            name: "codex".to_string(),
5167            bin: Some("codex".to_string()),
5168            status: "ok".to_string(),
5169            duration_ms: 1,
5170            detail: String::new(),
5171            exit_code: Some(0),
5172            stdout: String::new(),
5173            stderr: String::new(),
5174            output: "inspect parser".to_string(),
5175            command: "codex exec".to_string(),
5176            token_usage: token_usage("a", "b"),
5177            tool_calls: vec![],
5178            sub_agents: vec![],
5179            role: "executor:sub-agent-1".to_string(),
5180            iteration: 1,
5181            total_iterations: 1,
5182            team_size: 0,
5183        };
5184        let prompt = build_team_lead_prompt("ship it", &[agent]);
5185        assert!(prompt.contains("Sub-agent handoffs"));
5186        assert!(prompt.contains("inspect parser"));
5187        assert!(prompt.contains("Original provider prompt"));
5188    }
5189
5190    #[test]
5191    fn json_stream_events_emit_progress_before_final_result() {
5192        let bus = RuntimeEventBus::new();
5193        let events = Arc::new(Mutex::new(Vec::new()));
5194        let captured = Arc::clone(&events);
5195        bus.add_sink(Arc::new(move |event| {
5196            captured.lock().unwrap().push(event);
5197        }));
5198        let progress = bus.progress_sink();
5199
5200        progress(progress_event_with_context(
5201            None,
5202            None,
5203            ProgressStage::Start,
5204            None,
5205            Some(1),
5206            Some(1),
5207            false,
5208            None,
5209            None,
5210            vec![],
5211            "[amon-hen] iteration 1/1 started",
5212        ));
5213        progress(progress_event_with_context(
5214            Some("codex"),
5215            Some("planner"),
5216            ProgressStage::Done,
5217            Some("ok"),
5218            Some(1),
5219            Some(1),
5220            false,
5221            Some(25),
5222            Some(token_usage("prompt", "answer")),
5223            vec![],
5224            "[amon-hen] done codex role=planner status=ok",
5225        ));
5226        let result = test_amon_hen_result(vec![test_engine_result("codex", "planner", 1)], 1);
5227        bus.emit_result(&result);
5228
5229        let events = events.lock().unwrap();
5230        assert!(events.len() >= 3);
5231        assert!(events[..events.len() - 1]
5232            .iter()
5233            .any(|event| event.progress.stage != ProgressStage::Done));
5234        assert!(events
5235            .iter()
5236            .any(|event| event.progress.kind == RuntimeEventKind::TokenUsage));
5237        assert_eq!(
5238            events.last().unwrap().progress.kind,
5239            RuntimeEventKind::Result
5240        );
5241        assert!(events.last().unwrap().result.is_some());
5242        for event in events.iter() {
5243            serde_json::to_string(event).expect("json-stream event should serialize");
5244        }
5245    }
5246
5247    #[test]
5248    fn runtime_event_bus_preserves_stream_sequence_order_under_fanout() {
5249        let bus = RuntimeEventBus::new();
5250        let events = Arc::new(Mutex::new(Vec::new()));
5251        let captured = Arc::clone(&events);
5252        bus.add_sink(Arc::new(move |event| {
5253            captured.lock().unwrap().push(event.sequence);
5254        }));
5255        let barrier = Arc::new(std::sync::Barrier::new(16));
5256        let mut handles = Vec::new();
5257
5258        for index in 0..16 {
5259            let progress = bus.progress_sink();
5260            let barrier = Arc::clone(&barrier);
5261            handles.push(thread::spawn(move || {
5262                barrier.wait();
5263                progress(progress_event(
5264                    Some("codex"),
5265                    Some("planner"),
5266                    ProgressStage::Heartbeat,
5267                    Some("running"),
5268                    format!("[amon-hen] fanout event {index}"),
5269                ));
5270            }));
5271        }
5272        for handle in handles {
5273            handle.join().unwrap();
5274        }
5275
5276        let sequences = events.lock().unwrap().clone();
5277        assert_eq!(sequences, (1..=16).collect::<Vec<_>>());
5278    }
5279
5280    #[test]
5281    fn multiple_iterations_preserve_timeline_entries() {
5282        let first = vec![test_engine_result("codex", "planner", 1)];
5283        let second = vec![test_engine_result("claude", "lead", 2)];
5284        let timeline = vec![
5285            iteration_record(1, 2, first.clone(), 10, None, None),
5286            iteration_record(
5287                2,
5288                2,
5289                second.clone(),
5290                15,
5291                iteration_handoff_context(&first, DEFAULT_MAX_MEMBER_CHARS),
5292                Some("summary context".to_string()),
5293            ),
5294        ];
5295        let result = test_amon_hen_result_with_iterations(second, timeline);
5296
5297        assert_eq!(result.iterations.len(), 2);
5298        assert_eq!(result.iterations[0].iteration, 1);
5299        assert_eq!(result.iterations[1].iteration, 2);
5300        assert!(result.iterations[1].handoff_context.is_some());
5301        assert_eq!(result.members[0].name, "claude");
5302    }
5303
5304    #[test]
5305    fn sub_agent_roles_remain_correct_in_timeline() {
5306        let mut member = test_engine_result("gemini", "lead", 1);
5307        member.sub_agents = vec![
5308            test_engine_result("gemini", "lead:sub-agent-1", 1),
5309            test_engine_result("gemini", "lead:sub-agent-2", 1),
5310        ];
5311        let timeline = vec![iteration_record(1, 1, vec![member], 20, None, None)];
5312
5313        assert_eq!(
5314            timeline[0]
5315                .sub_agents
5316                .iter()
5317                .map(|agent| agent.role.as_str())
5318                .collect::<Vec<_>>(),
5319            vec!["lead:sub-agent-1", "lead:sub-agent-2"]
5320        );
5321        assert_eq!(timeline[0].members[0].role, "lead");
5322    }
5323
5324    #[test]
5325    fn runtime_role_matrix_reaches_json_result_and_stream_events() {
5326        let _lock = ENV_LOCK.lock().unwrap();
5327        let Some(_env) = ProviderEnvGuard::install_echo_bins() else {
5328            return;
5329        };
5330        let args = CliArgs::try_parse_from([
5331            "amon-hen",
5332            "--members",
5333            "codex,claude,gemini",
5334            "--planner",
5335            "codex",
5336            "--lead",
5337            "claude",
5338            "--handoff",
5339            "--iterations",
5340            "2",
5341            "--team-work",
5342            "1",
5343            "--codex-sub-agents",
5344            "2",
5345            "--claude-sub-agents",
5346            "1",
5347            "--gemini-sub-agents",
5348            "0",
5349            "--timeout",
5350            "5",
5351            "role matrix smoke",
5352        ])
5353        .unwrap();
5354        let resolved = resolve_args(args).unwrap();
5355        let bus = RuntimeEventBus::new();
5356        let events = Arc::new(Mutex::new(Vec::new()));
5357        let captured = Arc::clone(&events);
5358        bus.add_sink(Arc::new(move |event| {
5359            captured.lock().unwrap().push(event);
5360        }));
5361        let prompt_context =
5362            build_prompt_context_with_progress(&resolved, Some(bus.progress_sink())).unwrap();
5363        let result = run_amon_hen_with_progress_and_cancel(
5364            &resolved,
5365            prompt_context.prompt,
5366            prompt_context.commands,
5367            Some(bus.progress_sink()),
5368            None,
5369        );
5370        bus.emit_result(&result);
5371
5372        assert_eq!(result.workflow.iterations, 2);
5373        assert_eq!(result.workflow.teams.get("codex"), Some(&2));
5374        assert_eq!(result.workflow.teams.get("claude"), Some(&1));
5375        assert_eq!(result.workflow.teams.get("gemini"), Some(&0));
5376        assert_eq!(result.iterations.len(), 2);
5377        for iteration in &result.iterations {
5378            assert_eq!(
5379                iteration
5380                    .members
5381                    .iter()
5382                    .map(|member| (member.name.as_str(), member.role.as_str()))
5383                    .collect::<Vec<_>>(),
5384                vec![
5385                    ("codex", "planner"),
5386                    ("gemini", "executor"),
5387                    ("claude", "lead")
5388                ]
5389            );
5390            assert_eq!(
5391                iteration
5392                    .sub_agents
5393                    .iter()
5394                    .map(|agent| (agent.name.as_str(), agent.role.as_str()))
5395                    .collect::<Vec<_>>(),
5396                vec![
5397                    ("codex", "planner:sub-agent-1"),
5398                    ("codex", "planner:sub-agent-2"),
5399                    ("claude", "lead:sub-agent-1")
5400                ]
5401            );
5402        }
5403
5404        let events = events.lock().unwrap();
5405        assert!(events.iter().any(|event| {
5406            event.progress.provider.as_deref() == Some("codex")
5407                && event.progress.role.as_deref() == Some("planner")
5408                && !event.progress.is_sub_agent
5409        }));
5410        assert!(events.iter().any(|event| {
5411            event.progress.provider.as_deref() == Some("claude")
5412                && event.progress.role.as_deref() == Some("lead:sub-agent-1")
5413                && event.progress.is_sub_agent
5414        }));
5415        let final_event = events.last().expect("final result event should exist");
5416        assert_eq!(final_event.progress.kind, RuntimeEventKind::Result);
5417        assert!(final_event.result.is_some());
5418    }
5419
5420    #[test]
5421    fn per_provider_sub_agent_overrides_are_reflected_in_prompts() {
5422        let args = CliArgs::try_parse_from([
5423            "amon-hen",
5424            "--members",
5425            "codex,gemini",
5426            "--team-work",
5427            "2",
5428            "--codex-sub-agents",
5429            "0",
5430            "--gemini-sub-agents",
5431            "3",
5432            "ship",
5433        ])
5434        .unwrap();
5435        let resolved = resolve_args(args).unwrap();
5436        let workflow = build_workflow(&resolved);
5437        let codex_prompt = build_member_prompt(MemberPromptInput {
5438            query: "ship",
5439            role: "executor",
5440            workflow: &workflow,
5441            iteration: 1,
5442            team_size: effective_team_size(&workflow, "codex"),
5443            previous_iteration: &[],
5444            handoff_results: &[],
5445            plan_output: "",
5446        });
5447        let gemini_prompt = build_member_prompt(MemberPromptInput {
5448            query: "ship",
5449            role: "executor",
5450            workflow: &workflow,
5451            iteration: 1,
5452            team_size: effective_team_size(&workflow, "gemini"),
5453            previous_iteration: &[],
5454            handoff_results: &[],
5455            plan_output: "",
5456        });
5457
5458        assert!(!codex_prompt.contains("Team work:"));
5459        assert!(gemini_prompt.contains("up to 3 internal sub-agents"));
5460    }
5461
5462    #[test]
5463    fn duplicate_members_are_deduped_in_input_order() {
5464        let args = CliArgs::try_parse_from([
5465            "amon-hen",
5466            "--members",
5467            "codex,claude,codex,gemini,claude",
5468            "hello",
5469        ])
5470        .unwrap();
5471        let resolved = resolve_args(args).unwrap();
5472        assert_eq!(resolved.members, vec!["codex", "claude", "gemini"]);
5473    }
5474
5475    #[test]
5476    fn command_cancel_stops_child_process_promptly() {
5477        if !command_available("sh") {
5478            return;
5479        }
5480        let cwd = std::env::current_dir().unwrap();
5481        let cancel = Arc::new(AtomicBool::new(true));
5482        let started = Instant::now();
5483        let args = ["-c".to_string(), "sleep 30".to_string()];
5484        let result =
5485            run_command(CommandRequest::new("sh", &args, &cwd, 30_000).cancel(Some(cancel)));
5486
5487        assert!(result.cancelled);
5488        assert_eq!(result.error.as_deref(), Some("cancelled"));
5489        assert!(
5490            started.elapsed() < Duration::from_secs(3),
5491            "cancelled command took {:?}",
5492            started.elapsed()
5493        );
5494    }
5495
5496    #[test]
5497    fn command_streams_visible_output_and_live_token_usage() {
5498        if !command_available("sh") {
5499            return;
5500        }
5501        let cwd = std::env::current_dir().unwrap();
5502        let events = Arc::new(Mutex::new(Vec::new()));
5503        let captured = Arc::clone(&events);
5504        let progress: ProgressSink = Arc::new(move |event| {
5505            captured.lock().unwrap().push(event);
5506        });
5507        let args = [
5508            "-c".to_string(),
5509            "printf 'visible-work\\n'; printf '{\"type\":\"assistant\",\"message\":{\"content\":[{\"type\":\"tool_use\",\"name\":\"Bash\"}]}}\\n'"
5510                .to_string(),
5511        ];
5512
5513        let result = run_command(CommandRequest::new("sh", &args, &cwd, 5_000).progress(Some(
5514            CommandProgress {
5515                label: "codex planner:sub-agent-1 iteration 1/1".to_string(),
5516                sink: Some(progress),
5517                input_tokens: 10,
5518            },
5519        )));
5520
5521        assert_eq!(result.code, Some(0));
5522        let events = events.lock().unwrap();
5523        assert!(events.iter().any(|event| {
5524            event.message.contains("visible-work")
5525                && event
5526                    .token_usage
5527                    .as_ref()
5528                    .is_some_and(|usage| usage.total > 10)
5529        }));
5530        assert!(events.iter().any(|event| {
5531            event.kind == RuntimeEventKind::ToolUsage
5532                && event.tool_calls.iter().any(|tool| tool.name == "Bash")
5533        }));
5534    }
5535
5536    #[test]
5537    fn command_stream_sampling_preserves_important_tool_events() {
5538        if !command_available("sh") {
5539            return;
5540        }
5541        let cwd = std::env::current_dir().unwrap();
5542        let events = Arc::new(Mutex::new(Vec::new()));
5543        let captured = Arc::clone(&events);
5544        let progress: ProgressSink = Arc::new(move |event| {
5545            captured.lock().unwrap().push(event);
5546        });
5547        let args = [
5548            "-c".to_string(),
5549            "i=0; while [ $i -lt 120 ]; do echo stream-line-$i; i=$((i+1)); done; printf '{\"type\":\"assistant\",\"message\":{\"content\":[{\"type\":\"tool_use\",\"name\":\"Bash\"}]}}\\n'"
5550                .to_string(),
5551        ];
5552
5553        let result = run_command(CommandRequest::new("sh", &args, &cwd, 5_000).progress(Some(
5554            CommandProgress {
5555                label: "codex planner iteration 1/1".to_string(),
5556                sink: Some(progress),
5557                input_tokens: 10,
5558            },
5559        )));
5560
5561        assert_eq!(result.code, Some(0));
5562        let events = events.lock().unwrap();
5563        let streaming_events = events
5564            .iter()
5565            .filter(|event| event.status.as_deref() == Some("streaming"))
5566            .count();
5567        assert!(
5568            streaming_events < 20,
5569            "expected sampled streaming events, got {streaming_events}"
5570        );
5571        assert!(events.iter().any(|event| {
5572            event.kind == RuntimeEventKind::ToolUsage
5573                && event.tool_calls.iter().any(|tool| tool.name == "Bash")
5574        }));
5575    }
5576
5577    #[test]
5578    fn command_stream_decodes_provider_json_before_dashboard_events() {
5579        if !command_available("sh") {
5580            return;
5581        }
5582        let cwd = std::env::current_dir().unwrap();
5583        let events = Arc::new(Mutex::new(Vec::new()));
5584        let captured = Arc::clone(&events);
5585        let progress: ProgressSink = Arc::new(move |event| {
5586            captured.lock().unwrap().push(event);
5587        });
5588        let args = [
5589            "-c".to_string(),
5590            "printf '%s\\n' '{\"type\":\"session.started\",\"session_id\":\"abc\"}'; printf '%s\\n' '{\"type\":\"item.completed\",\"item\":{\"id\":\"item_13\",\"type\":\"command_execution\",\"command\":\"/bin/bash -lc sed\",\"aggregated_output\":\"line one\"}}'"
5591                .to_string(),
5592        ];
5593
5594        let result = run_command(CommandRequest::new("sh", &args, &cwd, 5_000).progress(Some(
5595            CommandProgress {
5596                label: "codex executor iteration 1/1".to_string(),
5597                sink: Some(progress),
5598                input_tokens: 10,
5599            },
5600        )));
5601
5602        assert_eq!(result.code, Some(0));
5603        let events = events.lock().unwrap();
5604        assert!(!events
5605            .iter()
5606            .any(|event| event.message.contains("session.started")));
5607        assert!(events.iter().any(|event| {
5608            event.message.contains("tool: shell")
5609                && event.message.contains("line one")
5610                && !event.message.contains("\"type\":\"item.completed\"")
5611        }));
5612    }
5613
5614    #[test]
5615    fn missing_provider_preflight_avoids_team_fanout() {
5616        let args = CliArgs::try_parse_from([
5617            "amon-hen",
5618            "--members",
5619            "codex",
5620            "--team-work",
5621            "5",
5622            "hello",
5623        ])
5624        .unwrap();
5625        let resolved = resolve_args(args).unwrap();
5626        let options = EngineRunOptions {
5627            prompt: "hello".to_string(),
5628            cwd: resolved.cwd.clone(),
5629            timeout_ms: 1_000,
5630            effort: None,
5631            model: None,
5632            permission: None,
5633            auth: DEFAULT_AUTH_MODE.to_string(),
5634            capability: provider_capability(&resolved, "codex"),
5635            role: "planner".to_string(),
5636            iteration: 1,
5637            total_iterations: 1,
5638            team_size: 5,
5639            is_sub_agent: false,
5640            live: false,
5641            progress: None,
5642            cancel: None,
5643        };
5644
5645        let result = run_engine("definitely-missing-amon-hen-test-bin", options);
5646
5647        assert_eq!(result.status, "missing");
5648        assert!(result.sub_agents.is_empty());
5649        assert!(result.detail.contains("not found in PATH"));
5650    }
5651
5652    #[test]
5653    fn system_time_is_available_for_test_environment() {
5654        assert!(std::time::SystemTime::now()
5655            .duration_since(std::time::UNIX_EPOCH)
5656            .is_ok());
5657    }
5658
5659    #[test]
5660    fn cli_hygiene_has_no_legacy_npm_cli_or_council_binary_references() {
5661        let crate_dir = Path::new(env!("CARGO_MANIFEST_DIR"));
5662        let repo_root = crate_dir
5663            .parent()
5664            .and_then(Path::parent)
5665            .expect("crate lives under crates/amon-hen");
5666        assert!(!repo_root.join("package.json").exists());
5667        assert!(!repo_root.join("package-lock.json").exists());
5668        assert!(!repo_root.join("npm").exists());
5669        assert!(!repo_root.join("bin").join("council").exists());
5670
5671        let docs = [
5672            repo_root.join("README.md"),
5673            crate_dir.join("README.md"),
5674            crate_dir.join("CHANGELOG.md"),
5675        ];
5676        for path in docs {
5677            let text = fs::read_to_string(&path).unwrap();
5678            assert!(
5679                !text.contains("`council`") && !text.contains(" council "),
5680                "legacy binary reference remains in {}",
5681                path.display()
5682            );
5683        }
5684
5685        let help = render_cli_help();
5686        assert!(!help.contains("council"));
5687        assert!(help.contains("amon-hen"));
5688    }
5689
5690    fn test_amon_hen_result(members: Vec<EngineResult>, total_iterations: usize) -> AmonHenResult {
5691        let timeline = vec![iteration_record(
5692            total_iterations,
5693            total_iterations,
5694            members.clone(),
5695            25,
5696            None,
5697            Some("summary context".to_string()),
5698        )];
5699        test_amon_hen_result_with_iterations(members, timeline)
5700    }
5701
5702    fn test_amon_hen_result_with_iterations(
5703        members: Vec<EngineResult>,
5704        iterations: Vec<IterationRecord>,
5705    ) -> AmonHenResult {
5706        let mut teams = HashMap::new();
5707        teams.insert("codex".to_string(), 0);
5708        teams.insert("claude".to_string(), 0);
5709        teams.insert("gemini".to_string(), 0);
5710        let workflow = Workflow {
5711            handoff: true,
5712            lead: Some("claude".to_string()),
5713            planner: Some("codex".to_string()),
5714            planner_mode: PLANNER_MODE_BLOCKING.to_string(),
5715            iterations: iterations.len().max(1),
5716            team_work: 0,
5717            teams,
5718        };
5719        AmonHenResult {
5720            query: "ship it".to_string(),
5721            cwd: ".".to_string(),
5722            members_requested: members.iter().map(|member| member.name.clone()).collect(),
5723            summarizer_requested: "auto".to_string(),
5724            workflow,
5725            prompt_commands: vec![],
5726            iterations,
5727            members,
5728            summary: test_engine_result("codex", "summary", 1),
5729        }
5730    }
5731
5732    fn test_engine_result(name: &str, role: &str, iteration: usize) -> EngineResult {
5733        EngineResult {
5734            name: name.to_string(),
5735            bin: Some(name.to_string()),
5736            status: "ok".to_string(),
5737            duration_ms: 10,
5738            detail: String::new(),
5739            exit_code: Some(0),
5740            stdout: String::new(),
5741            stderr: String::new(),
5742            output: format!("{name} output"),
5743            command: format!("{name} exec"),
5744            token_usage: token_usage("prompt", "output"),
5745            tool_calls: vec![ToolUsage {
5746                name: "tool".to_string(),
5747                kind: name.to_string(),
5748                status: "observed".to_string(),
5749                detail: "detail".to_string(),
5750            }],
5751            sub_agents: vec![],
5752            role: role.to_string(),
5753            iteration,
5754            total_iterations: iteration.max(1),
5755            team_size: 0,
5756        }
5757    }
5758}