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alex_proxy/
lib.rs

1use std::collections::HashMap;
2use std::sync::Arc;
3use std::time::Duration;
4
5use alex_auth::{now_ms, Account, Vault};
6use alex_core::{
7    compute_cost, conversation_root, parse_since, parse_sse_usage, parse_trace_tags, route_model,
8    usage_from_json, ClientFormat, Provider, TraceRecord,
9};
10use alex_store::{Store, TraceFilter};
11use axum::body::{Body, Bytes};
12use axum::extract::{ConnectInfo, Path, Query, State};
13use axum::http::{HeaderMap, HeaderValue, StatusCode};
14use axum::response::{IntoResponse, Response};
15use axum::routing::{get, post};
16use axum::Router;
17use futures_util::StreamExt;
18use serde_json::{json, Value};
19use tokio_stream::wrappers::ReceiverStream;
20
21const ANTHROPIC_BASE: &str = "https://api.anthropic.com";
22const OPENAI_BASE: &str = "https://api.openai.com";
23const CODEX_BASE: &str = "https://chatgpt.com/backend-api/codex";
24const XAI_BASE: &str = "https://cli-chat-proxy.grok.com/v1";
25const GROK_CLIENT_VERSION: &str = "0.2.77";
26const ANTHROPIC_OAUTH_BETA: &str = "oauth-2025-04-20";
27const GEMINI_CODE_ASSIST_BASE: &str = "https://cloudcode-pa.googleapis.com";
28const GEMINI_CODE_ASSIST_VERSION: &str = "v1internal";
29
30#[derive(Debug, Clone)]
31pub struct DarioActive {
32    pub generation_id: String,
33    pub base_url: String,
34    pub api_key: String,
35}
36
37pub trait DarioRouter: Send + Sync {
38    fn active(&self) -> Option<DarioActive>;
39    fn begin(&self, generation_id: &str) -> Option<Box<dyn std::any::Any + Send>>;
40    fn status(&self) -> Value;
41    fn suspect(&self, generation_id: &str);
42}
43
44fn suspect_dario(state: &AppState, account: &Account) {
45    if account.kind != "dario" {
46        return;
47    }
48    if let (Some(dario), Some(gen)) = (&state.dario, account.id.strip_prefix("dario:")) {
49        dario.suspect(gen);
50    }
51}
52
53pub struct AppState {
54    pub local_key: String,
55    pub vault: Arc<Vault>,
56    pub store: Arc<Store>,
57    pub http: reqwest::Client,
58    pub dario: Option<Arc<dyn DarioRouter>>,
59    pub in_flight: std::sync::atomic::AtomicI64,
60    pub started_ms: i64,
61    pub base_url: String,
62    pub anthropic_usage: std::sync::Mutex<UsageCache>,
63    pub logins: alex_auth::sessions::LoginManager,
64    pub run_keys: std::sync::RwLock<HashMap<String, CachedRunKey>>,
65}
66
67#[derive(Debug, Clone)]
68pub struct CachedRunKey {
69    pub run_id: Option<String>,
70    pub tags_json: Option<String>,
71    pub expires_ms: Option<i64>,
72}
73
74struct InFlight(Arc<AppState>);
75
76impl InFlight {
77    fn new(state: &Arc<AppState>) -> Self {
78        state
79            .in_flight
80            .fetch_add(1, std::sync::atomic::Ordering::SeqCst);
81        Self(state.clone())
82    }
83}
84
85impl Drop for InFlight {
86    fn drop(&mut self) {
87        self.0
88            .in_flight
89            .fetch_sub(1, std::sync::atomic::Ordering::SeqCst);
90    }
91}
92
93pub fn build_state(
94    local_key: String,
95    vault: Arc<Vault>,
96    store: Arc<Store>,
97    dario: Option<Arc<dyn DarioRouter>>,
98    base_url: String,
99) -> Arc<AppState> {
100    let http = reqwest::Client::builder()
101        .connect_timeout(Duration::from_secs(15))
102        .build()
103        .expect("reqwest client");
104    Arc::new(AppState {
105        local_key,
106        vault,
107        store,
108        http,
109        dario,
110        in_flight: std::sync::atomic::AtomicI64::new(0),
111        started_ms: now_ms(),
112        base_url,
113        anthropic_usage: std::sync::Mutex::new(UsageCache::default()),
114        logins: alex_auth::sessions::LoginManager::default(),
115        run_keys: std::sync::RwLock::new(HashMap::new()),
116    })
117}
118
119pub fn router(state: Arc<AppState>) -> Router {
120    Router::new()
121        .route("/health", get(health))
122        .route("/connect", get(connect_info))
123        .route("/v1/models", get(models))
124        .route("/v1/messages", post(anthropic_messages))
125        .route("/v1/chat/completions", post(openai_chat))
126        .route("/v1/responses", post(openai_responses))
127        .route("/chat/completions", post(openai_chat))
128        .route("/responses", post(openai_responses))
129        .route("/v1beta/models/{model_action}", post(gemini_generate))
130        .route("/traces/search", get(traces_search))
131        .route("/traces/export.ndjson", get(traces_export))
132        .route("/traces/sessions", get(traces_sessions))
133        .route(
134            "/traces/sessions/{session_id}/transcript",
135            get(traces_session_transcript),
136        )
137        .route("/traces/{id}", get(trace_get).delete(trace_delete))
138        .route("/traces/{id}/reply.md", get(trace_reply_md))
139        .route("/traces/{id}/body/{kind}", get(trace_body))
140        .route("/traces/runs/{run_id}", get(traces_run_summary))
141        .route("/traces/runs/{run_id}/events", get(traces_run_events))
142        .route("/traces/runs/{run_id}/export.ndjson", get(traces_run_export))
143        .route("/traces/runs/{run_id}/artifacts", get(traces_run_artifacts))
144        .route(
145            "/admin/run-keys",
146            get(admin_run_keys_list).post(admin_run_keys_create),
147        )
148        .route(
149            "/admin/run-keys/{id}",
150            axum::routing::delete(admin_run_keys_revoke),
151        )
152        .route("/admin/storage", get(admin_storage))
153        .route("/admin/storage/prune", post(admin_storage_prune))
154        .route("/admin/traces", get(admin_traces))
155        .route("/admin/accounts", get(admin_accounts))
156        .route("/admin/health", get(admin_health))
157        .route("/admin/analytics", get(admin_analytics))
158        .route("/admin/limits", get(admin_limits))
159        .route("/admin/dario", get(admin_dario))
160        .route("/admin/auth/import", post(admin_auth_import))
161        .route("/admin/auth/login/start", post(admin_auth_login_start))
162        .route("/admin/auth/login/complete", post(admin_auth_login_complete))
163        .route("/admin/auth/login/{id}", get(admin_auth_login_status))
164        .layer(axum::extract::DefaultBodyLimit::max(64 * 1024 * 1024))
165        .with_state(state)
166}
167
168async fn admin_auth_import(
169    State(state): State<Arc<AppState>>,
170    body: Option<axum::Json<Value>>,
171) -> Response {
172    let source = body
173        .as_ref()
174        .and_then(|b| b.0["source"].as_str().or(b.0["provider"].as_str()))
175        .unwrap_or("all")
176        .to_string();
177    match alex_auth::import_all(&state.vault, &source).await {
178        Ok(outcomes) => {
179            let items: Vec<Value> = outcomes
180                .iter()
181                .map(|o| {
182                    json!({
183                        "source": o.source,
184                        "imported": o.imported,
185                        "note": o.note,
186                    })
187                })
188                .collect();
189            axum::Json(json!({"outcomes": items})).into_response()
190        }
191        Err(e) => error_response(StatusCode::BAD_REQUEST, &e.to_string()),
192    }
193}
194
195async fn admin_auth_login_start(
196    State(state): State<Arc<AppState>>,
197    body: axum::Json<Value>,
198) -> Response {
199    let Some(provider) = body.0["provider"].as_str() else {
200        return error_response(StatusCode::BAD_REQUEST, "missing 'provider'");
201    };
202    match state.logins.start(state.vault.clone(), provider).await {
203        Ok(snapshot) => axum::Json(snapshot).into_response(),
204        Err(e) => error_response(StatusCode::BAD_REQUEST, &e.to_string()),
205    }
206}
207
208async fn admin_auth_login_complete(
209    State(state): State<Arc<AppState>>,
210    body: axum::Json<Value>,
211) -> Response {
212    let (Some(id), Some(input)) = (body.0["login_id"].as_str(), body.0["input"].as_str()) else {
213        return error_response(StatusCode::BAD_REQUEST, "missing 'login_id' or 'input'");
214    };
215    match state.logins.complete(state.vault.clone(), id, input).await {
216        Ok(snapshot) => axum::Json(snapshot).into_response(),
217        Err(e) => error_response(StatusCode::BAD_REQUEST, &e.to_string()),
218    }
219}
220
221async fn admin_auth_login_status(
222    State(state): State<Arc<AppState>>,
223    axum::extract::Path(id): axum::extract::Path<String>,
224) -> Response {
225    match state.logins.status(&id).await {
226        Some(snapshot) => axum::Json(snapshot).into_response(),
227        None => error_response(StatusCode::NOT_FOUND, "unknown or expired login session"),
228    }
229}
230
231async fn health(State(state): State<Arc<AppState>>) -> impl IntoResponse {
232    axum::Json(json!({
233        "status": "ok",
234        "service": "alexandria",
235        "version": env!("CARGO_PKG_VERSION"),
236        "in_flight": state.in_flight.load(std::sync::atomic::Ordering::SeqCst),
237        "uptime_s": (now_ms() - state.started_ms) / 1000,
238        "dario": state.dario.is_some(),
239    }))
240}
241
242fn rewrite_host(base_url: &str, host: &str) -> String {
243    let port = base_url.rsplit(':').next().unwrap_or("4100");
244    format!("http://{host}:{port}")
245}
246
247pub fn connect_payload(base_url: &str, local_key: &str) -> (Value, String) {
248    let base = base_url.trim_end_matches('/').to_string();
249    let v1 = format!("{base}/v1");
250    let exports = format!(
251        "export ANTHROPIC_BASE_URL={base}\nexport ANTHROPIC_API_KEY={local_key}\n\
252         export OPENAI_BASE_URL={v1}\nexport OPENAI_API_KEY={local_key}\n\
253         export XAI_API_KEY={local_key}\nexport GROK_MODELS_BASE_URL={v1}\n\
254         export GOOGLE_GEMINI_BASE_URL={base}\nexport GOOGLE_GENAI_API_VERSION=v1beta\n\
255         export GEMINI_API_KEY={local_key}\nexport GEMINI_API_KEY_AUTH_MECHANISM=bearer\n\
256         export GOOGLE_GENAI_USE_GCA=false\n"
257    );
258    let payload = json!({
259        "service": "alexandria",
260        "base_url": base,
261        "api_key": local_key,
262        "anthropic": {"base_url": base, "env": {"ANTHROPIC_BASE_URL": base, "ANTHROPIC_API_KEY": local_key}},
263        "openai": {"base_url": v1, "env": {"OPENAI_BASE_URL": v1, "OPENAI_API_KEY": local_key}},
264        "xai": {"base_url": v1, "env": {"XAI_API_KEY": local_key, "GROK_MODELS_BASE_URL": v1}},
265        "gemini": {"base_url": base, "env": {
266            "GOOGLE_GEMINI_BASE_URL": base,
267            "GOOGLE_GENAI_API_VERSION": "v1beta",
268            "GEMINI_API_KEY": local_key,
269            "GEMINI_API_KEY_AUTH_MECHANISM": "bearer",
270            "GOOGLE_GENAI_USE_GCA": "false",
271        }},
272        "exports": exports,
273    });
274    (payload, exports)
275}
276
277async fn connect_info(
278    State(state): State<Arc<AppState>>,
279    axum::extract::ConnectInfo(peer): axum::extract::ConnectInfo<std::net::SocketAddr>,
280    Query(q): Query<HashMap<String, String>>,
281) -> Response {
282    if !peer.ip().is_loopback() {
283        return error_response(
284            StatusCode::FORBIDDEN,
285            "connection info is only served to loopback clients",
286        );
287    }
288    let base = match q.get("host").map(String::as_str) {
289        Some("docker") => rewrite_host(&state.base_url, "host.docker.internal"),
290        Some(host) if !host.is_empty() => rewrite_host(&state.base_url, host),
291        _ => state.base_url.clone(),
292    };
293    let (payload, exports) = connect_payload(&base, &state.local_key);
294    if q.get("format").map(|f| f == "env").unwrap_or(false) {
295        return Response::builder()
296            .status(StatusCode::OK)
297            .header("content-type", "text/plain")
298            .body(Body::from(exports))
299            .unwrap_or_else(|e| error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()));
300    }
301    axum::Json(payload).into_response()
302}
303
304async fn models(State(state): State<Arc<AppState>>) -> impl IntoResponse {
305    let mut ids = state.store.pricing_models();
306    for (alias, _) in alex_core::model_aliases() {
307        ids.push((*alias).to_string());
308    }
309    for id in ids.clone() {
310        ids.push(format!("alexandria/{id}"));
311    }
312    let data: Vec<Value> = ids
313        .into_iter()
314        .map(|m| json!({"id": m, "object": "model", "owned_by": "alexandria"}))
315        .collect();
316    axum::Json(json!({"object": "list", "data": data}))
317}
318
319async fn admin_analytics(
320    State(state): State<Arc<AppState>>,
321    Query(q): Query<HashMap<String, String>>,
322) -> Response {
323    let minutes: i64 = q
324        .get("since_minutes")
325        .and_then(|s| s.parse().ok())
326        .unwrap_or(60);
327    match state.store.analytics(now_ms() - minutes * 60_000) {
328        Ok(v) => axum::Json(v).into_response(),
329        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
330    }
331}
332
333const USAGE_CACHE_TTL_MS: i64 = 300_000;
334const USAGE_BACKOFF_BASE_MS: i64 = 60_000;
335const USAGE_BACKOFF_MAX_MS: i64 = 3_600_000;
336
337#[derive(Default)]
338pub struct UsageCache {
339    fetched_at_ms: i64,
340    entry: Option<Value>,
341    cooldown_until_ms: i64,
342    failures: u32,
343}
344
345fn usage_backoff_ms(failures: u32, retry_after_ms: Option<i64>) -> i64 {
346    let exp = USAGE_BACKOFF_BASE_MS
347        .saturating_mul(1i64 << failures.saturating_sub(1).min(6))
348        .min(USAGE_BACKOFF_MAX_MS);
349    exp.max(retry_after_ms.unwrap_or(0))
350}
351
352async fn anthropic_usage_entry(state: &Arc<AppState>) -> Option<Value> {
353    let account = state.vault.account_for(Provider::Anthropic, true).await.ok()?;
354    if account.kind != "oauth" {
355        return None;
356    }
357    let token = account.access_token.as_deref()?.to_string();
358    {
359        let cache = state.anthropic_usage.lock().unwrap();
360        if cache.entry.is_some() && now_ms() < cache.fetched_at_ms + USAGE_CACHE_TTL_MS {
361            return cache.entry.clone();
362        }
363        if now_ms() < cache.cooldown_until_ms {
364            return cache.entry.clone();
365        }
366    }
367    let result = state
368        .http
369        .get(format!("{ANTHROPIC_BASE}/api/oauth/usage"))
370        .header("authorization", format!("Bearer {token}"))
371        .header("anthropic-beta", ANTHROPIC_OAUTH_BETA)
372        .header("accept", "application/json")
373        .header("user-agent", "claude-cli/2.1.202 (external, cli)")
374        .send()
375        .await;
376    match result {
377        Ok(resp) if resp.status().is_success() => {
378            let raw: Value = resp.json().await.unwrap_or(Value::Null);
379            let mut windows = Vec::new();
380            for (name, key) in [
381                ("5h", "five_hour"),
382                ("7d", "seven_day"),
383                ("7d opus", "seven_day_opus"),
384                ("7d sonnet", "seven_day_sonnet"),
385            ] {
386                let w = &raw[key];
387                if w.is_object() {
388                    windows.push(json!({
389                        "window": name,
390                        "used_pct": w["utilization"],
391                        "resets_at": w["resets_at"],
392                    }));
393                }
394            }
395            let entry = json!({
396                "provider": "anthropic",
397                "source": "oauth usage endpoint",
398                "plan": account.label,
399                "windows": windows,
400                "extra_usage": raw["extra_usage"],
401            });
402            let mut cache = state.anthropic_usage.lock().unwrap();
403            cache.fetched_at_ms = now_ms();
404            cache.cooldown_until_ms = 0;
405            cache.failures = 0;
406            cache.entry = Some(entry.clone());
407            Some(entry)
408        }
409        Ok(resp) => {
410            let retry_after = resp
411                .headers()
412                .get("retry-after")
413                .and_then(|v| v.to_str().ok())
414                .and_then(|v| v.parse::<i64>().ok())
415                .map(|s| s.clamp(30, 3600) * 1000);
416            let mut cache = state.anthropic_usage.lock().unwrap();
417            cache.failures += 1;
418            let cooldown = usage_backoff_ms(cache.failures, retry_after);
419            cache.cooldown_until_ms = now_ms() + cooldown;
420            tracing::debug!(
421                status = resp.status().as_u16(),
422                failures = cache.failures,
423                cooldown_ms = cooldown,
424                "anthropic usage endpoint unavailable; backing off"
425            );
426            cache.entry.clone()
427        }
428        Err(_) => {
429            let mut cache = state.anthropic_usage.lock().unwrap();
430            cache.failures += 1;
431            let cooldown = usage_backoff_ms(cache.failures, None);
432            cache.cooldown_until_ms = now_ms() + cooldown;
433            cache.entry.clone()
434        }
435    }
436}
437
438pub async fn limits_snapshot(state: &Arc<AppState>) -> Value {
439    let mut providers: Vec<Value> = Vec::new();
440    if let Some(entry) = anthropic_usage_entry(state).await {
441        providers.push(entry);
442    }
443    for (provider_str, ts_ms, headers_json) in
444        state.store.latest_provider_headers().unwrap_or_default()
445    {
446        if providers
447            .iter()
448            .any(|p| p["provider"].as_str() == Some(&provider_str))
449        {
450            continue;
451        }
452        let Some(provider) = Provider::from_str_loose(&provider_str) else {
453            continue;
454        };
455        let headers: Value = serde_json::from_str(&headers_json).unwrap_or(Value::Null);
456        let mut parsed = alex_core::parse_limit_headers(provider, &headers);
457        if let Some(o) = parsed.as_object_mut() {
458            o.insert("provider".into(), json!(provider_str));
459            o.insert("source".into(), json!("captured response headers"));
460            o.insert("observed_at_ms".into(), json!(ts_ms));
461            providers.push(parsed);
462        }
463    }
464    providers.sort_by_key(|p| p["provider"].as_str().unwrap_or("").to_string());
465    json!({"providers": providers})
466}
467
468async fn admin_limits(State(state): State<Arc<AppState>>) -> Response {
469    axum::Json(limits_snapshot(&state).await).into_response()
470}
471
472async fn admin_dario(State(state): State<Arc<AppState>>) -> Response {
473    match &state.dario {
474        Some(d) => axum::Json(d.status()).into_response(),
475        None => error_response(StatusCode::NOT_FOUND, "dario mode is not enabled"),
476    }
477}
478
479async fn admin_storage(State(state): State<Arc<AppState>>) -> Response {
480    match state.store.disk_usage() {
481        Ok(v) => axum::Json(v).into_response(),
482        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
483    }
484}
485
486async fn admin_storage_prune(
487    State(state): State<Arc<AppState>>,
488    body: axum::Json<Value>,
489) -> Response {
490    let now = now_ms();
491    let cutoff = match &body["older_than_ms"] {
492        Value::Null => match body["older_than"].as_str() {
493            Some(s) => match parse_since(s, now) {
494                Some(ms) => ms,
495                None => {
496                    return error_response(
497                        StatusCode::BAD_REQUEST,
498                        &format!("invalid 'older_than' '{s}' (use 45s, 30m, 24h, 7d, or RFC3339)"),
499                    )
500                }
501            },
502            None => {
503                return error_response(
504                    StatusCode::BAD_REQUEST,
505                    "missing 'older_than_ms' or 'older_than'",
506                )
507            }
508        },
509        v => match v.as_i64() {
510            Some(ms) => ms,
511            None => {
512                return error_response(StatusCode::BAD_REQUEST, "'older_than_ms' must be an integer")
513            }
514        },
515    };
516    if cutoff > now {
517        return error_response(StatusCode::BAD_REQUEST, "cutoff is in the future");
518    }
519    let bodies_only = body["bodies_only"].as_bool().unwrap_or(true);
520    let dry_run = body["dry_run"].as_bool().unwrap_or(false);
521    let store = state.store.clone();
522    let report =
523        tokio::task::spawn_blocking(move || store.prune(cutoff, bodies_only, dry_run)).await;
524    match report {
525        Ok(Ok(r)) => axum::Json(serde_json::to_value(r).unwrap_or_default()).into_response(),
526        Ok(Err(e)) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
527        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
528    }
529}
530
531async fn admin_traces(
532    State(state): State<Arc<AppState>>,
533    Query(q): Query<HashMap<String, String>>,
534) -> Response {
535    let limit = q.get("limit").and_then(|s| s.parse().ok()).unwrap_or(50);
536    match state.store.list_traces(
537        limit,
538        q.get("session").map(|s| s.as_str()),
539        q.get("model").map(|s| s.as_str()),
540    ) {
541        Ok(rows) => axum::Json(json!({"traces": rows})).into_response(),
542        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
543    }
544}
545
546fn filter_from_query(q: &HashMap<String, String>) -> TraceFilter {
547    let now = now_ms();
548    TraceFilter {
549        since_ms: q.get("since").and_then(|s| parse_since(s, now)),
550        until_ms: q.get("until").and_then(|s| parse_since(s, now)),
551        run_id: q.get("run_id").cloned(),
552        session: q.get("session").cloned(),
553        model: q.get("model").cloned(),
554        provider: q.get("provider").cloned(),
555        path: q.get("path").cloned(),
556        harness: q.get("harness").cloned(),
557        status: q.get("status").and_then(|s| s.parse().ok()),
558        errors_only: q
559            .get("errors")
560            .map(|v| v == "1" || v == "true")
561            .unwrap_or(false),
562        key_fingerprint: q.get("key_fingerprint").cloned(),
563        limit: q.get("limit").and_then(|s| s.parse().ok()).unwrap_or(200),
564    }
565}
566
567fn wants_bodies(q: &HashMap<String, String>) -> bool {
568    q.get("bodies").map(|v| v == "1" || v == "true").unwrap_or(false)
569}
570
571fn read_gz_file(path: &str) -> Option<Vec<u8>> {
572    let file = std::fs::File::open(path).ok()?;
573    let mut decoder = flate2::read::GzDecoder::new(file);
574    let mut buf = Vec::new();
575    std::io::Read::read_to_end(&mut decoder, &mut buf).ok()?;
576    Some(buf)
577}
578
579fn inline_row_bodies(row: &mut Value) {
580    use base64::Engine;
581    for (path_key, out_key) in [
582        ("req_body_path", "req_body_b64"),
583        ("upstream_req_body_path", "upstream_req_body_b64"),
584        ("resp_body_path", "resp_body_b64"),
585    ] {
586        let Some(buf) = row[path_key].as_str().and_then(read_gz_file) else {
587            continue;
588        };
589        row[out_key] = json!(base64::engine::general_purpose::STANDARD.encode(&buf));
590    }
591}
592
593fn ndjson_response(mut rows: Vec<Value>, inline_bodies: bool) -> Response {
594    rows.sort_by_key(|r| r["ts_request_ms"].as_i64().unwrap_or(0));
595    let mut out = String::new();
596    for mut row in rows {
597        if inline_bodies {
598            inline_row_bodies(&mut row);
599        }
600        out.push_str(&serde_json::to_string(&row).unwrap_or_default());
601        out.push('\n');
602    }
603    Response::builder()
604        .status(StatusCode::OK)
605        .header("content-type", "application/x-ndjson")
606        .body(Body::from(out))
607        .unwrap_or_else(|e| error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()))
608}
609
610const TEXT_SCAN_CAP: usize = 300;
611
612fn trace_matches_text(row: &Value, needle: &str) -> bool {
613    for key in ["req_body_path", "resp_body_path"] {
614        if let Some(path) = row.get(key).and_then(|v| v.as_str()) {
615            if let Some(bytes) = read_gz_file(path) {
616                if String::from_utf8_lossy(&bytes)
617                    .to_lowercase()
618                    .contains(needle)
619                {
620                    return true;
621                }
622            }
623        }
624    }
625    false
626}
627
628async fn traces_search(
629    State(state): State<Arc<AppState>>,
630    Query(q): Query<HashMap<String, String>>,
631) -> Response {
632    let mut filter = filter_from_query(&q);
633    let text = q
634        .get("text")
635        .or_else(|| q.get("q"))
636        .map(|t| t.trim().to_lowercase())
637        .filter(|t| !t.is_empty());
638    if text.is_some() {
639        filter.limit = TEXT_SCAN_CAP;
640    }
641    match state.store.search_traces(&filter) {
642        Ok(rows) => match text {
643            Some(needle) => {
644                let scanned = rows.len();
645                let rows = tokio::task::spawn_blocking(move || {
646                    rows.into_iter()
647                        .filter(|r| trace_matches_text(r, &needle))
648                        .collect::<Vec<_>>()
649                })
650                .await
651                .unwrap_or_default();
652                axum::Json(json!({"traces": rows, "scanned": scanned, "scan_cap": TEXT_SCAN_CAP}))
653                    .into_response()
654            }
655            None => axum::Json(json!({"traces": rows})).into_response(),
656        },
657        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
658    }
659}
660
661async fn traces_export(
662    State(state): State<Arc<AppState>>,
663    Query(q): Query<HashMap<String, String>>,
664) -> Response {
665    match state.store.search_traces(&filter_from_query(&q)) {
666        Ok(rows) => ndjson_response(rows, wants_bodies(&q)),
667        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
668    }
669}
670
671fn truncate_chars(s: String, max: usize) -> String {
672    if s.chars().count() <= max {
673        s
674    } else {
675        s.chars().take(max).collect()
676    }
677}
678
679fn read_gz_json(path: Option<&str>) -> Option<Value> {
680    let buf = path.and_then(read_gz_file)?;
681    serde_json::from_slice(&buf).ok()
682}
683
684fn read_gz_text(path: Option<&str>) -> Option<String> {
685    let buf = path.and_then(read_gz_file)?;
686    Some(String::from_utf8_lossy(&buf).to_string())
687}
688
689async fn traces_sessions(
690    State(state): State<Arc<AppState>>,
691    Query(q): Query<HashMap<String, String>>,
692) -> Response {
693    let since = q.get("since").and_then(|s| parse_since(s, now_ms()));
694    let limit = q.get("limit").and_then(|s| s.parse().ok()).unwrap_or(0);
695    match state.store.sessions(since, limit) {
696        Ok(rows) => axum::Json(json!({"sessions": rows})).into_response(),
697        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
698    }
699}
700
701fn transcript_turn(row: &Value) -> Value {
702    use alex_core::translate;
703    let user = read_gz_json(row["req_body_path"].as_str())
704        .and_then(|req| {
705            translate::last_user_text(row["client_format"].as_str().unwrap_or(""), &req)
706        })
707        .map(|s| truncate_chars(s, 8000));
708    let resp_text = read_gz_text(row["resp_body_path"].as_str());
709    let fmt = row["upstream_format"]
710        .as_str()
711        .or(row["client_format"].as_str())
712        .unwrap_or("")
713        .to_string();
714    let assistant = resp_text
715        .as_deref()
716        .and_then(|text| translate::assistant_reply_text(&fmt, text))
717        .map(|s| truncate_chars(s, 8000));
718    let tool_calls: Vec<Value> = resp_text
719        .as_deref()
720        .map(|text| translate::assistant_tool_calls(&fmt, text))
721        .unwrap_or_default()
722        .into_iter()
723        .take(24)
724        .map(|mut c| {
725            if let Some(a) = c["arguments"].as_str() {
726                let t = truncate_chars(a.to_string(), 600);
727                c["arguments"] = json!(t);
728            }
729            c
730        })
731        .collect();
732    json!({
733        "trace_id": row["id"],
734        "ts_request_ms": row["ts_request_ms"],
735        "ts_response_ms": row["ts_response_ms"],
736        "model": row["routed_model"],
737        "status": row["status"],
738        "input_tokens": row["input_tokens"],
739        "output_tokens": row["output_tokens"],
740        "cost_usd": row["cost_usd"],
741        "error": row["error"],
742        "user": user,
743        "assistant": assistant,
744        "tool_calls": tool_calls,
745    })
746}
747
748async fn traces_session_transcript(
749    State(state): State<Arc<AppState>>,
750    Path(session_id): Path<String>,
751    Query(q): Query<HashMap<String, String>>,
752) -> Response {
753    let since = q
754        .get("since_ms")
755        .and_then(|s| s.parse::<i64>().ok())
756        .or_else(|| q.get("since").and_then(|s| parse_since(s, now_ms())));
757    let limit: usize = q.get("limit").and_then(|s| s.parse().ok()).unwrap_or(500);
758    let rows = match state.store.session_traces(&session_id, since) {
759        Ok(rows) => rows,
760        Err(e) => return error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
761    };
762    let turns: Vec<Value> = rows.iter().take(limit).map(transcript_turn).collect();
763    axum::Json(json!({"session_id": session_id, "turns": turns})).into_response()
764}
765
766fn trace_extras(req: &Value) -> Value {
767    let system_text: Option<String> = match &req["system"] {
768        Value::String(s) => Some(s.clone()),
769        Value::Array(parts) => {
770            let joined: Vec<&str> = parts.iter().filter_map(|p| p["text"].as_str()).collect();
771            (!joined.is_empty()).then(|| joined.join("\n\n"))
772        }
773        _ => req["instructions"].as_str().map(String::from).or_else(|| {
774            let joined: Vec<String> = req["messages"]
775                .as_array()
776                .into_iter()
777                .flatten()
778                .filter(|m| matches!(m["role"].as_str(), Some("system") | Some("developer")))
779                .map(|m| match &m["content"] {
780                    Value::String(s) => s.clone(),
781                    Value::Array(parts) => parts
782                        .iter()
783                        .filter_map(|p| p["text"].as_str())
784                        .collect::<Vec<_>>()
785                        .join("\n"),
786                    _ => String::new(),
787                })
788                .filter(|s| !s.is_empty())
789                .collect();
790            (!joined.is_empty()).then(|| joined.join("\n\n"))
791        }),
792    };
793    let system_chars = system_text.as_ref().map(|s| s.chars().count());
794    let system_prompt = system_text.map(|s| truncate_chars(s, 64_000));
795    json!({
796        "reasoning_effort": req["reasoning"]["effort"],
797        "thinking_budget": req["thinking"]["budget_tokens"],
798        "max_tokens": req["max_tokens"].as_i64().or(req["max_output_tokens"].as_i64()),
799        "temperature": req["temperature"],
800        "message_count": req["messages"].as_array().or(req["input"].as_array()).map(|a| a.len()),
801        "system_chars": system_chars,
802        "system_prompt": system_prompt,
803    })
804}
805
806async fn trace_get(State(state): State<Arc<AppState>>, Path(id): Path<String>) -> Response {
807    match state.store.get_trace(&id) {
808        Ok(Some(row)) => {
809            let extras = read_gz_json(row["req_body_path"].as_str())
810                .map(|req| trace_extras(&req))
811                .unwrap_or_else(|| json!({}));
812            axum::Json(json!({"trace": row, "extras": extras})).into_response()
813        }
814        Ok(None) => error_response(StatusCode::NOT_FOUND, &format!("unknown trace '{id}'")),
815        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
816    }
817}
818
819async fn trace_body(
820    State(state): State<Arc<AppState>>,
821    Path((id, kind)): Path<(String, String)>,
822) -> Response {
823    let row = match state.store.get_trace(&id) {
824        Ok(Some(row)) => row,
825        Ok(None) => {
826            return error_response(StatusCode::NOT_FOUND, &format!("unknown trace '{id}'"))
827        }
828        Err(e) => return error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
829    };
830    let column = match kind.as_str() {
831        "request" => "req_body_path",
832        "upstream-request" => "upstream_req_body_path",
833        "response" => "resp_body_path",
834        _ => {
835            return error_response(
836                StatusCode::BAD_REQUEST,
837                "kind must be request|upstream-request|response",
838            )
839        }
840    };
841    match read_gz_text(row[column].as_str()) {
842        Some(text) => {
843            let ct = if text.trim_start().starts_with('{') || text.trim_start().starts_with('[') {
844                "application/json; charset=utf-8"
845            } else {
846                "text/plain; charset=utf-8"
847            };
848            Response::builder()
849                .status(StatusCode::OK)
850                .header("content-type", ct)
851                .header("x-alexandria-body-path", row[column].as_str().unwrap_or(""))
852                .body(Body::from(text))
853                .unwrap_or_else(|e| error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()))
854        }
855        None => error_response(
856            StatusCode::NOT_FOUND,
857            &format!("no {kind} body stored for trace '{id}'"),
858        ),
859    }
860}
861
862async fn trace_reply_md(State(state): State<Arc<AppState>>, Path(id): Path<String>) -> Response {
863    use alex_core::translate;
864    let row = match state.store.get_trace(&id) {
865        Ok(Some(row)) => row,
866        Ok(None) => {
867            return error_response(StatusCode::NOT_FOUND, &format!("unknown trace '{id}'"))
868        }
869        Err(e) => return error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
870    };
871    let fmt = row["upstream_format"]
872        .as_str()
873        .or(row["client_format"].as_str())
874        .unwrap_or("");
875    let reply = read_gz_text(row["resp_body_path"].as_str())
876        .and_then(|text| translate::assistant_reply_text(fmt, &text));
877    match reply {
878        Some(md) => Response::builder()
879            .status(StatusCode::OK)
880            .header("content-type", "text/markdown; charset=utf-8")
881            .body(Body::from(md))
882            .unwrap_or_else(|e| error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string())),
883        None => error_response(
884            StatusCode::NOT_FOUND,
885            &format!("no assistant reply available for trace '{id}'"),
886        ),
887    }
888}
889
890async fn trace_delete(State(state): State<Arc<AppState>>, Path(id): Path<String>) -> Response {
891    match state.store.get_trace(&id) {
892        Ok(Some(_)) => {}
893        Ok(None) => {
894            return error_response(StatusCode::NOT_FOUND, &format!("unknown trace '{id}'"))
895        }
896        Err(e) => return error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
897    }
898    match state.store.delete_trace(&id) {
899        Ok(paths) => {
900            let removed = paths
901                .iter()
902                .filter(|p| std::fs::remove_file(p).is_ok())
903                .count();
904            axum::Json(json!({"deleted": true, "files_removed": removed})).into_response()
905        }
906        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
907    }
908}
909
910async fn traces_run_summary(
911    State(state): State<Arc<AppState>>,
912    Path(run_id): Path<String>,
913) -> Response {
914    match state.store.run_summary(&run_id) {
915        Ok(v) if v["trace_count"].as_i64().unwrap_or(0) == 0 => error_response(
916            StatusCode::NOT_FOUND,
917            &format!("no traces for run '{run_id}'"),
918        ),
919        Ok(v) => axum::Json(v).into_response(),
920        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
921    }
922}
923
924async fn traces_run_events(
925    State(state): State<Arc<AppState>>,
926    Path(run_id): Path<String>,
927    Query(q): Query<HashMap<String, String>>,
928) -> Response {
929    let filter = TraceFilter {
930        run_id: Some(run_id),
931        limit: q.get("limit").and_then(|s| s.parse().ok()).unwrap_or(1000),
932        ..Default::default()
933    };
934    match state.store.search_traces(&filter) {
935        Ok(rows) => axum::Json(json!({"traces": rows})).into_response(),
936        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
937    }
938}
939
940async fn traces_run_export(
941    State(state): State<Arc<AppState>>,
942    Path(run_id): Path<String>,
943    Query(q): Query<HashMap<String, String>>,
944) -> Response {
945    let filter = TraceFilter {
946        run_id: Some(run_id),
947        limit: q.get("limit").and_then(|s| s.parse().ok()).unwrap_or(5000),
948        ..Default::default()
949    };
950    match state.store.search_traces(&filter) {
951        Ok(rows) => ndjson_response(rows, wants_bodies(&q)),
952        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
953    }
954}
955
956async fn traces_run_artifacts(
957    State(state): State<Arc<AppState>>,
958    Path(run_id): Path<String>,
959) -> Response {
960    match state.store.run_artifacts(&run_id) {
961        Ok(artifacts) => axum::Json(json!({
962            "run_id": run_id,
963            "data_dir": state.store.data_dir.to_string_lossy(),
964            "artifacts": artifacts,
965        }))
966        .into_response(),
967        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
968    }
969}
970
971async fn admin_accounts(State(state): State<Arc<AppState>>) -> impl IntoResponse {
972    let accounts: Vec<Value> = state
973        .vault
974        .list()
975        .await
976        .into_iter()
977        .map(|a| {
978            json!({
979                "id": a.id,
980                "provider": a.provider.as_str(),
981                "kind": a.kind,
982                "label": a.label,
983                "status": a.status,
984                "expires_at_ms": a.expires_at_ms,
985                "expires_in_s": a.expires_at_ms.map(|e| (e - now_ms()) / 1000),
986            })
987        })
988        .collect();
989    axum::Json(json!({"accounts": accounts}))
990}
991
992async fn admin_health(State(state): State<Arc<AppState>>) -> Response {
993    let heartbeats = state.store.last_heartbeats().unwrap_or_default();
994    let accounts: Vec<Value> = state
995        .vault
996        .list()
997        .await
998        .into_iter()
999        .map(|a| {
1000            let last = heartbeats
1001                .iter()
1002                .find(|h| h["provider"].as_str() == Some(a.provider.as_str()))
1003                .cloned();
1004            json!({
1005                "id": a.id,
1006                "provider": a.provider.as_str(),
1007                "kind": a.kind,
1008                "status": a.status,
1009                "token_expires_in_s": a.expires_at_ms.map(|e| (e - now_ms()) / 1000),
1010                "last_heartbeat": last,
1011            })
1012        })
1013        .collect();
1014    axum::Json(json!({"accounts": accounts})).into_response()
1015}
1016
1017#[derive(Debug, Clone, serde::Serialize)]
1018pub struct PingResult {
1019    pub provider: &'static str,
1020    pub account_id: Option<String>,
1021    pub ok: bool,
1022    pub status: Option<u16>,
1023    pub latency_ms: i64,
1024    pub message: String,
1025}
1026
1027#[derive(Debug, Clone)]
1028pub struct PingModels {
1029    pub anthropic: String,
1030    pub openai: String,
1031    pub xai: String,
1032    pub gemini: String,
1033}
1034
1035pub async fn ping_provider(
1036    state: &Arc<AppState>,
1037    provider: Provider,
1038    models: &PingModels,
1039) -> PingResult {
1040    let start = now_ms();
1041    let prompt = "Health check: what time is it? If you cannot know, just reply: creds ok";
1042    let (format, path, body) = match provider {
1043        Provider::Anthropic => (
1044            ClientFormat::AnthropicMessages,
1045            "/v1/messages",
1046            json!({
1047                "model": models.anthropic,
1048                "max_tokens": 64,
1049                "system": "You are Claude Code, Anthropic's official CLI for Claude.",
1050                "messages": [{"role": "user", "content": prompt}],
1051            }),
1052        ),
1053        Provider::Openai => (
1054            ClientFormat::OpenaiResponses,
1055            "/v1/responses",
1056            json!({
1057                "model": models.openai,
1058                "stream": true,
1059                "store": false,
1060                "instructions": "You are a helpful assistant.",
1061                "input": [{"type": "message", "role": "user",
1062                           "content": [{"type": "input_text", "text": prompt}]}],
1063            }),
1064        ),
1065        Provider::Xai => (
1066            ClientFormat::OpenaiChat,
1067            "/v1/chat/completions",
1068            json!({
1069                "model": models.xai,
1070                "stream": false,
1071                "messages": [{"role": "user", "content": prompt}],
1072            }),
1073        ),
1074        Provider::Gemini => (
1075            ClientFormat::GeminiGenerate,
1076            "/v1beta/models/:generateContent",
1077            json!({
1078                "model": models.gemini,
1079                "contents": [{"role": "user", "parts": [{"text": prompt}]}],
1080                "generationConfig": {"maxOutputTokens": 64},
1081            }),
1082        ),
1083    };
1084    let account_id = state
1085        .vault
1086        .account_for(provider, true)
1087        .await
1088        .ok()
1089        .map(|a| a.id);
1090    let mut headers = HeaderMap::new();
1091    headers.insert(
1092        "x-api-key",
1093        HeaderValue::from_str(&state.local_key).expect("key header"),
1094    );
1095    headers.insert("user-agent", HeaderValue::from_static("alexandria-ping"));
1096    let resp = proxy(
1097        state.clone(),
1098        format,
1099        path,
1100        headers,
1101        Bytes::from(serde_json::to_vec(&body).expect("ping body")),
1102        None,
1103    )
1104    .await;
1105    let status = resp.status().as_u16();
1106    let bytes = axum::body::to_bytes(resp.into_body(), 8 * 1024 * 1024)
1107        .await
1108        .unwrap_or_default();
1109    let text = String::from_utf8_lossy(&bytes);
1110    let message = extract_reply(&text).unwrap_or_else(|| snippet(&text));
1111    PingResult {
1112        provider: provider.as_str(),
1113        account_id,
1114        ok: (200..300).contains(&status),
1115        status: Some(status),
1116        latency_ms: now_ms() - start,
1117        message,
1118    }
1119}
1120
1121fn extract_reply(text: &str) -> Option<String> {
1122    if let Ok(v) = serde_json::from_str::<Value>(text) {
1123        if let Some(t) = v["content"][0]["text"].as_str() {
1124            return Some(t.to_string());
1125        }
1126        if let Some(t) = v["choices"][0]["message"]["content"].as_str() {
1127            return Some(t.to_string());
1128        }
1129        if let Some(t) = v["error"]["message"].as_str() {
1130            return Some(t.to_string());
1131        }
1132        if let Some(t) = v["detail"].as_str() {
1133            return Some(t.to_string());
1134        }
1135    }
1136    for line in text.lines() {
1137        let Some(data) = line.strip_prefix("data:") else {
1138            continue;
1139        };
1140        let Ok(v) = serde_json::from_str::<Value>(data.trim()) else {
1141            continue;
1142        };
1143        if v["type"].as_str() == Some("response.output_text.done") {
1144            if let Some(t) = v["text"].as_str() {
1145                return Some(t.to_string());
1146            }
1147        }
1148    }
1149    None
1150}
1151
1152fn snippet(text: &str) -> String {
1153    let t: String = text.chars().take(200).collect();
1154    t.replace('\n', " ")
1155}
1156
1157pub async fn heartbeat_once(state: &Arc<AppState>, models: &PingModels) -> Vec<PingResult> {
1158    let providers: Vec<Provider> = {
1159        let mut seen = Vec::new();
1160        for a in state.vault.list().await {
1161            if a.status == "active"
1162                && matches!(
1163                    a.provider,
1164                    Provider::Anthropic | Provider::Openai | Provider::Xai | Provider::Gemini
1165                )
1166                && !seen.contains(&a.provider)
1167            {
1168                seen.push(a.provider);
1169            }
1170        }
1171        seen
1172    };
1173    let mut results = Vec::new();
1174    for provider in providers {
1175        let r = ping_provider(state, provider, models).await;
1176        if let Err(e) = state.store.insert_heartbeat(
1177            now_ms(),
1178            r.provider,
1179            r.account_id.as_deref(),
1180            r.ok,
1181            r.status.map(|s| s as i64),
1182            r.latency_ms,
1183            &r.message,
1184        ) {
1185            tracing::warn!("failed to record heartbeat: {e}");
1186        }
1187        tracing::info!(
1188            provider = r.provider,
1189            ok = r.ok,
1190            status = r.status,
1191            latency_ms = r.latency_ms,
1192            reply = %r.message,
1193            "heartbeat"
1194        );
1195        results.push(r);
1196    }
1197    results
1198}
1199
1200async fn anthropic_messages(
1201    State(state): State<Arc<AppState>>,
1202    ConnectInfo(peer): ConnectInfo<std::net::SocketAddr>,
1203    headers: HeaderMap,
1204    body: Bytes,
1205) -> Response {
1206    proxy(
1207        state,
1208        ClientFormat::AnthropicMessages,
1209        "/v1/messages",
1210        headers,
1211        body,
1212        Some(peer),
1213    )
1214    .await
1215}
1216
1217async fn openai_chat(
1218    State(state): State<Arc<AppState>>,
1219    ConnectInfo(peer): ConnectInfo<std::net::SocketAddr>,
1220    headers: HeaderMap,
1221    body: Bytes,
1222) -> Response {
1223    proxy(
1224        state,
1225        ClientFormat::OpenaiChat,
1226        "/v1/chat/completions",
1227        headers,
1228        body,
1229        Some(peer),
1230    )
1231    .await
1232}
1233
1234async fn openai_responses(
1235    State(state): State<Arc<AppState>>,
1236    ConnectInfo(peer): ConnectInfo<std::net::SocketAddr>,
1237    headers: HeaderMap,
1238    body: Bytes,
1239) -> Response {
1240    proxy(
1241        state,
1242        ClientFormat::OpenaiResponses,
1243        "/v1/responses",
1244        headers,
1245        body,
1246        Some(peer),
1247    )
1248    .await
1249}
1250
1251async fn gemini_generate(
1252    State(state): State<Arc<AppState>>,
1253    ConnectInfo(peer): ConnectInfo<std::net::SocketAddr>,
1254    axum::extract::Path(model_action): axum::extract::Path<String>,
1255    headers: HeaderMap,
1256    body: Bytes,
1257) -> Response {
1258    let (model, method) = model_action
1259        .split_once(':')
1260        .unwrap_or((model_action.as_str(), "generateContent"));
1261    let stream = method == "streamGenerateContent";
1262    if method != "generateContent" && !stream {
1263        return error_response(
1264            StatusCode::NOT_FOUND,
1265            &format!("unsupported gemini method '{method}' (expected generateContent or streamGenerateContent)"),
1266        );
1267    }
1268    if model.is_empty() {
1269        return error_response(StatusCode::BAD_REQUEST, "missing model in path");
1270    }
1271    let mut v: Value = match serde_json::from_slice(&body) {
1272        Ok(v) => v,
1273        Err(e) => {
1274            return error_response(StatusCode::BAD_REQUEST, &format!("invalid JSON body: {e}"))
1275        }
1276    };
1277    v["model"] = json!(model);
1278    if stream {
1279        v["stream"] = json!(true);
1280    }
1281    let body = Bytes::from(serde_json::to_vec(&v).unwrap_or_default());
1282    let path = if stream {
1283        "/v1beta/models/:streamGenerateContent"
1284    } else {
1285        "/v1beta/models/:generateContent"
1286    };
1287    proxy(
1288        state,
1289        ClientFormat::GeminiGenerate,
1290        path,
1291        headers,
1292        body,
1293        Some(peer),
1294    )
1295    .await
1296}
1297
1298fn error_response(status: StatusCode, message: &str) -> Response {
1299    (
1300        status,
1301        axum::Json(json!({"error": {"type": "alexandria", "message": message}})),
1302    )
1303        .into_response()
1304}
1305
1306fn client_key(headers: &HeaderMap) -> Option<String> {
1307    if let Some(v) = headers.get("x-api-key").and_then(|v| v.to_str().ok()) {
1308        return Some(v.to_string());
1309    }
1310    if let Some(v) = headers.get("x-goog-api-key").and_then(|v| v.to_str().ok()) {
1311        return Some(v.to_string());
1312    }
1313    headers
1314        .get("authorization")
1315        .and_then(|v| v.to_str().ok())
1316        .and_then(|v| v.strip_prefix("Bearer "))
1317        .map(String::from)
1318}
1319
1320fn redacted_headers(headers: &HeaderMap) -> String {
1321    let map: HashMap<String, String> = headers
1322        .iter()
1323        .map(|(k, v)| {
1324            let key = k.as_str().to_lowercase();
1325            let val = if ["authorization", "x-api-key", "cookie", "chatgpt-account-id"]
1326                .contains(&key.as_str())
1327            {
1328                "<redacted>".to_string()
1329            } else {
1330                v.to_str().unwrap_or("<binary>").to_string()
1331            };
1332            (key, val)
1333        })
1334        .collect();
1335    serde_json::to_string(&map).unwrap_or_default()
1336}
1337
1338#[derive(Debug, Clone, Copy, PartialEq)]
1339enum RespondAs {
1340    Anthropic,
1341    OpenaiChat,
1342    OpenaiResponses,
1343    Gemini,
1344}
1345
1346struct UpstreamPlan {
1347    url: String,
1348    account: Account,
1349    body: Vec<u8>,
1350    upstream_format: &'static str,
1351    destream: bool,
1352    respond_as: Option<RespondAs>,
1353    client_stream: bool,
1354    extra_headers: Vec<(String, String)>,
1355    dario_guard: Option<Box<dyn std::any::Any + Send>>,
1356}
1357
1358fn dario_account(active: &DarioActive) -> Account {
1359    Account {
1360        id: format!("dario:{}", active.generation_id),
1361        provider: Provider::Anthropic,
1362        kind: "dario".into(),
1363        label: Some("dario generational proxy".into()),
1364        access_token: None,
1365        refresh_token: None,
1366        id_token: None,
1367        api_key: Some(active.api_key.clone()),
1368        expires_at_ms: None,
1369        last_refresh_ms: None,
1370        account_meta: Value::Null,
1371        cooldown_until_ms: None,
1372        status: "active".into(),
1373    }
1374}
1375
1376async fn ensure_gemini_project(
1377    state: &AppState,
1378    account: &Account,
1379) -> Result<String, (StatusCode, String)> {
1380    if let Some(p) = account.account_meta.get("project_id").and_then(|v| v.as_str()) {
1381        if !p.is_empty() {
1382            return Ok(p.to_string());
1383        }
1384    }
1385    if let Ok(env_p) = std::env::var("GOOGLE_CLOUD_PROJECT") {
1386        if !env_p.is_empty() {
1387            let _ = state
1388                .vault
1389                .set_account_meta(&account.id, "project_id", json!(env_p))
1390                .await;
1391            return Ok(env_p);
1392        }
1393    }
1394    let token = account
1395        .access_token
1396        .as_deref()
1397        .ok_or_else(|| (StatusCode::BAD_GATEWAY, "gemini account has no access token".into()))?;
1398    let load_url = format!("{GEMINI_CODE_ASSIST_BASE}/{GEMINI_CODE_ASSIST_VERSION}:loadCodeAssist");
1399    let load_body = json!({
1400        "cloudaicompanionProject": null,
1401        "metadata": {"ideType": "IDE_UNSPECIFIED", "platform": "PLATFORM_UNSPECIFIED", "pluginType": "GEMINI"},
1402    });
1403    let resp = state
1404        .http
1405        .post(&load_url)
1406        .header("authorization", format!("Bearer {token}"))
1407        .json(&load_body)
1408        .send()
1409        .await
1410        .map_err(|e| (StatusCode::BAD_GATEWAY, format!("loadCodeAssist failed: {e}")))?;
1411    let load: Value = resp.json().await.unwrap_or(Value::Null);
1412    let extract = |v: &Value| -> Option<String> {
1413        for key in ["cloudaicompanionProject", "projectId", "project"] {
1414            match &v[key] {
1415                Value::String(s) if !s.is_empty() => return Some(s.clone()),
1416                obj if obj["id"].is_string() => {
1417                    return obj["id"].as_str().map(String::from)
1418                }
1419                _ => {}
1420            }
1421        }
1422        None
1423    };
1424    if let Some(p) = extract(&load) {
1425        let _ = state
1426            .vault
1427            .set_account_meta(&account.id, "project_id", json!(p))
1428            .await;
1429        return Ok(p);
1430    }
1431    let tier = load["allowedTiers"]
1432        .as_array()
1433        .and_then(|tiers| tiers.iter().find(|t| t["isDefault"] == json!(true)))
1434        .and_then(|t| t["id"].as_str())
1435        .unwrap_or("free-tier")
1436        .to_string();
1437    let onboard_url =
1438        format!("{GEMINI_CODE_ASSIST_BASE}/{GEMINI_CODE_ASSIST_VERSION}:onboardUser");
1439    let onboard_body = json!({
1440        "tierId": tier,
1441        "cloudaicompanionProject": load["cloudaicompanionProject"],
1442        "metadata": {"ideType": "IDE_UNSPECIFIED", "platform": "PLATFORM_UNSPECIFIED", "pluginType": "GEMINI"},
1443    });
1444    for _ in 0..5 {
1445        let resp = state
1446            .http
1447            .post(&onboard_url)
1448            .header("authorization", format!("Bearer {token}"))
1449            .json(&onboard_body)
1450            .send()
1451            .await
1452            .map_err(|e| (StatusCode::BAD_GATEWAY, format!("onboardUser failed: {e}")))?;
1453        let lro: Value = resp.json().await.unwrap_or(Value::Null);
1454        if lro["done"] == json!(true) {
1455            if let Some(p) = extract(&lro["response"]) {
1456                let _ = state
1457                    .vault
1458                    .set_account_meta(&account.id, "project_id", json!(p))
1459                    .await;
1460                return Ok(p);
1461            }
1462        }
1463        tokio::time::sleep(Duration::from_secs(2)).await;
1464    }
1465    Err((
1466        StatusCode::BAD_GATEWAY,
1467        "gemini Code Assist onboarding did not return a project id (set GOOGLE_CLOUD_PROJECT to override)".into(),
1468    ))
1469}
1470
1471async fn plan_upstream(
1472    state: &AppState,
1473    format: ClientFormat,
1474    provider: Provider,
1475    routed_model: &str,
1476    body_json: &mut Value,
1477    original_body: &[u8],
1478    trace_id: &str,
1479) -> Result<UpstreamPlan, (StatusCode, String)> {
1480    use alex_core::translate;
1481    let client_stream = body_json["stream"].as_bool().unwrap_or(false);
1482    match provider {
1483        Provider::Anthropic => {
1484            let converted = match format {
1485                ClientFormat::AnthropicMessages => None,
1486                ClientFormat::OpenaiChat => Some((
1487                    translate::openai_chat_to_anthropic(body_json),
1488                    RespondAs::OpenaiChat,
1489                )),
1490                ClientFormat::OpenaiResponses => Some((
1491                    translate::openai_responses_to_anthropic(body_json),
1492                    RespondAs::OpenaiResponses,
1493                )),
1494                ClientFormat::GeminiGenerate => Some((
1495                    translate::gemini_to_anthropic(body_json),
1496                    RespondAs::Gemini,
1497                )),
1498            };
1499            let dario_active = state.dario.as_ref().and_then(|d| d.active());
1500            let (base, account, dario_guard) = match (&state.dario, dario_active) {
1501                (Some(dario), Some(active)) => (
1502                    active.base_url.trim_end_matches('/').to_string(),
1503                    dario_account(&active),
1504                    dario.begin(&active.generation_id),
1505                ),
1506                _ => {
1507                    let account = state
1508                        .vault
1509                        .account_for(provider, true)
1510                        .await
1511                        .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?;
1512                    (ANTHROPIC_BASE.to_string(), account, None)
1513                }
1514            };
1515            let (body, respond_as) = match converted {
1516                None => {
1517                    body_json["model"] = json!(routed_model);
1518                    (
1519                        serde_json::to_vec(body_json).unwrap_or_else(|_| original_body.to_vec()),
1520                        None,
1521                    )
1522                }
1523                Some((mut converted, respond_as)) => {
1524                    converted["model"] = json!(routed_model);
1525                    converted["stream"] = json!(false);
1526                    (
1527                        serde_json::to_vec(&converted).unwrap_or_else(|_| original_body.to_vec()),
1528                        Some(respond_as),
1529                    )
1530                }
1531            };
1532            Ok(UpstreamPlan {
1533                url: format!("{base}/v1/messages"),
1534                account,
1535                body,
1536                upstream_format: "anthropic",
1537                destream: false,
1538                respond_as,
1539                client_stream,
1540                extra_headers: vec![],
1541                dario_guard,
1542            })
1543        }
1544        Provider::Openai => {
1545            let prefer_oauth = format != ClientFormat::OpenaiChat;
1546            let account = state
1547                .vault
1548                .account_for(provider, prefer_oauth)
1549                .await
1550                .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?;
1551            let oauth = account.kind == "oauth";
1552            match format {
1553                ClientFormat::OpenaiChat if !oauth => {
1554                    body_json["model"] = json!(routed_model);
1555                    let body =
1556                        serde_json::to_vec(body_json).unwrap_or_else(|_| original_body.to_vec());
1557                    Ok(UpstreamPlan {
1558                        url: format!("{OPENAI_BASE}/v1/chat/completions"),
1559                        account,
1560                        body,
1561                        upstream_format: "openai-chat",
1562                        destream: false,
1563                        respond_as: None,
1564                        client_stream,
1565                        extra_headers: vec![],
1566                        dario_guard: None,
1567                    })
1568                }
1569                ClientFormat::OpenaiChat => {
1570                    let pivot = translate::openai_chat_to_anthropic(body_json);
1571                    let mut converted = translate::anthropic_to_openai_responses(&pivot);
1572                    converted["model"] = json!(routed_model);
1573                    translate::normalize_codex_request(&mut converted);
1574                    let body = serde_json::to_vec(&converted)
1575                        .unwrap_or_else(|_| original_body.to_vec());
1576                    Ok(UpstreamPlan {
1577                        url: format!("{CODEX_BASE}/responses"),
1578                        account,
1579                        body,
1580                        upstream_format: "openai-responses",
1581                        destream: false,
1582                        respond_as: Some(RespondAs::OpenaiChat),
1583                        client_stream,
1584                        extra_headers: vec![],
1585                        dario_guard: None,
1586                    })
1587                }
1588                ClientFormat::OpenaiResponses => {
1589                    body_json["model"] = json!(routed_model);
1590                    let mut destream = false;
1591                    let url = if oauth {
1592                        if body_json["stream"].as_bool() != Some(true) {
1593                            destream = true;
1594                        }
1595                        translate::normalize_codex_request(body_json);
1596                        format!("{CODEX_BASE}/responses")
1597                    } else {
1598                        format!("{OPENAI_BASE}/v1/responses")
1599                    };
1600                    let body =
1601                        serde_json::to_vec(body_json).unwrap_or_else(|_| original_body.to_vec());
1602                    Ok(UpstreamPlan {
1603                        url,
1604                        account,
1605                        body,
1606                        upstream_format: "openai-responses",
1607                        destream,
1608                        respond_as: None,
1609                        client_stream,
1610                        extra_headers: vec![],
1611                        dario_guard: None,
1612                    })
1613                }
1614                ClientFormat::AnthropicMessages => {
1615                    let mut converted = translate::anthropic_to_openai_responses(body_json);
1616                    converted["model"] = json!(routed_model);
1617                    let url = if oauth {
1618                        translate::normalize_codex_request(&mut converted);
1619                        format!("{CODEX_BASE}/responses")
1620                    } else {
1621                        converted["stream"] = json!(false);
1622                        format!("{OPENAI_BASE}/v1/responses")
1623                    };
1624                    let body = serde_json::to_vec(&converted)
1625                        .unwrap_or_else(|_| original_body.to_vec());
1626                    Ok(UpstreamPlan {
1627                        url,
1628                        account,
1629                        body,
1630                        upstream_format: "openai-responses",
1631                        destream: false,
1632                        respond_as: Some(RespondAs::Anthropic),
1633                        client_stream,
1634                        extra_headers: vec![],
1635                        dario_guard: None,
1636                    })
1637                }
1638                ClientFormat::GeminiGenerate => {
1639                    let pivot = translate::gemini_to_anthropic(body_json);
1640                    let mut converted = translate::anthropic_to_openai_responses(&pivot);
1641                    converted["model"] = json!(routed_model);
1642                    let url = if oauth {
1643                        translate::normalize_codex_request(&mut converted);
1644                        format!("{CODEX_BASE}/responses")
1645                    } else {
1646                        converted["stream"] = json!(false);
1647                        format!("{OPENAI_BASE}/v1/responses")
1648                    };
1649                    let body = serde_json::to_vec(&converted)
1650                        .unwrap_or_else(|_| original_body.to_vec());
1651                    Ok(UpstreamPlan {
1652                        url,
1653                        account,
1654                        body,
1655                        upstream_format: "openai-responses",
1656                        destream: false,
1657                        respond_as: Some(RespondAs::Gemini),
1658                        client_stream,
1659                        extra_headers: vec![],
1660                        dario_guard: None,
1661                    })
1662                }
1663            }
1664        }
1665        Provider::Xai => {
1666            if format != ClientFormat::OpenaiChat {
1667                return Err((
1668                    StatusCode::NOT_IMPLEMENTED,
1669                    "the xai/grok upstream speaks OpenAI chat completions; POST to /v1/chat/completions".to_string(),
1670                ));
1671            }
1672            let account = state
1673                .vault
1674                .account_for(provider, true)
1675                .await
1676                .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?;
1677            body_json["model"] = json!(routed_model);
1678            let body = serde_json::to_vec(body_json).unwrap_or_else(|_| original_body.to_vec());
1679            Ok(UpstreamPlan {
1680                url: format!("{XAI_BASE}/chat/completions"),
1681                account,
1682                body,
1683                upstream_format: "openai-chat",
1684                destream: false,
1685                respond_as: None,
1686                client_stream,
1687                extra_headers: vec![
1688                    ("x-grok-model-override".into(), routed_model.to_string()),
1689                    ("x-grok-conv-id".into(), trace_id.to_string()),
1690                ],
1691                dario_guard: None,
1692            })
1693        }
1694        Provider::Gemini => {
1695            let account = state
1696                .vault
1697                .account_for(provider, true)
1698                .await
1699                .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?;
1700            let project = ensure_gemini_project(state, &account).await?;
1701            let (gemini_req, respond_as) = match format {
1702                ClientFormat::GeminiGenerate => {
1703                    let mut g = body_json.clone();
1704                    if let Some(o) = g.as_object_mut() {
1705                        o.remove("model");
1706                        o.remove("stream");
1707                    }
1708                    (g, None)
1709                }
1710                ClientFormat::AnthropicMessages => (
1711                    translate::anthropic_to_gemini_request(body_json),
1712                    Some(RespondAs::Anthropic),
1713                ),
1714                ClientFormat::OpenaiChat => (
1715                    translate::anthropic_to_gemini_request(&translate::openai_chat_to_anthropic(
1716                        body_json,
1717                    )),
1718                    Some(RespondAs::OpenaiChat),
1719                ),
1720                ClientFormat::OpenaiResponses => (
1721                    translate::anthropic_to_gemini_request(
1722                        &translate::openai_responses_to_anthropic(body_json),
1723                    ),
1724                    Some(RespondAs::OpenaiResponses),
1725                ),
1726            };
1727            let method = if client_stream {
1728                "streamGenerateContent"
1729            } else {
1730                "generateContent"
1731            };
1732            let envelope = json!({
1733                "model": routed_model,
1734                "project": project,
1735                "request": gemini_req,
1736            });
1737            let body = serde_json::to_vec(&envelope).unwrap_or_else(|_| original_body.to_vec());
1738            let mut url = format!(
1739                "{GEMINI_CODE_ASSIST_BASE}/{GEMINI_CODE_ASSIST_VERSION}:{method}"
1740            );
1741            if client_stream {
1742                url.push_str("?alt=sse");
1743            }
1744            Ok(UpstreamPlan {
1745                url,
1746                account,
1747                body,
1748                upstream_format: "gemini",
1749                destream: false,
1750                respond_as: respond_as.or(Some(RespondAs::Gemini)),
1751                client_stream,
1752                extra_headers: vec![],
1753                dario_guard: None,
1754            })
1755        }
1756    }
1757}
1758
1759#[cfg(test)]
1760mod trace_api_tests {
1761    use super::{session_from_metadata, trace_extras, transcript_turn, truncate_chars};
1762    use serde_json::json;
1763
1764    #[test]
1765    fn metadata_session_variants() {
1766        let claude = json!({"metadata": {"user_id":
1767            "{\"device_id\":\"d1\",\"session_id\":\"ses_inner\"}"}});
1768        assert_eq!(session_from_metadata(&claude), Some("ses_inner".into()));
1769        let plain = json!({"metadata": {"user_id": "user-123"}});
1770        assert_eq!(session_from_metadata(&plain), Some("user-123".into()));
1771        let json_no_session = json!({"metadata": {"user_id": "{\"device_id\":\"d1\"}"}});
1772        assert_eq!(
1773            session_from_metadata(&json_no_session),
1774            Some("{\"device_id\":\"d1\"}".into())
1775        );
1776        assert_eq!(session_from_metadata(&json!({})), None);
1777    }
1778
1779    #[test]
1780    fn extras_per_format() {
1781        let anthropic = json!({
1782            "system": [{"type": "text", "text": "abcd"}],
1783            "messages": [{"role": "user", "content": "hi"}],
1784            "max_tokens": 100,
1785            "temperature": 0.5,
1786            "thinking": {"type": "enabled", "budget_tokens": 4096},
1787        });
1788        let e = trace_extras(&anthropic);
1789        assert_eq!(e["thinking_budget"], 4096);
1790        assert_eq!(e["max_tokens"], 100);
1791        assert_eq!(e["temperature"], 0.5);
1792        assert_eq!(e["message_count"], 1);
1793        assert_eq!(e["system_chars"], 4);
1794        assert_eq!(e["reasoning_effort"], serde_json::Value::Null);
1795        let responses = json!({
1796            "instructions": "abc",
1797            "input": [{"type": "message"}, {"type": "message"}],
1798            "max_output_tokens": 200,
1799            "reasoning": {"effort": "high"},
1800        });
1801        let e = trace_extras(&responses);
1802        assert_eq!(e["reasoning_effort"], "high");
1803        assert_eq!(e["max_tokens"], 200);
1804        assert_eq!(e["message_count"], 2);
1805        assert_eq!(e["system_chars"], 3);
1806        assert_eq!(e["thinking_budget"], serde_json::Value::Null);
1807    }
1808
1809    #[test]
1810    fn truncates_on_char_boundaries() {
1811        assert_eq!(truncate_chars("abc".into(), 8000), "abc");
1812        assert_eq!(truncate_chars("héllo".repeat(2000), 8000).chars().count(), 8000);
1813    }
1814
1815    #[test]
1816    fn transcript_turn_missing_bodies_are_null() {
1817        let row = json!({
1818            "id": "t1", "ts_request_ms": 1, "ts_response_ms": 2,
1819            "routed_model": "m", "status": 200,
1820            "input_tokens": 10, "output_tokens": 5, "cost_usd": 0.01, "error": null,
1821            "req_body_path": "/nonexistent/x.gz", "resp_body_path": null,
1822            "client_format": "anthropic", "upstream_format": "anthropic",
1823        });
1824        let turn = transcript_turn(&row);
1825        assert_eq!(turn["trace_id"], "t1");
1826        assert_eq!(turn["user"], serde_json::Value::Null);
1827        assert_eq!(turn["assistant"], serde_json::Value::Null);
1828        assert_eq!(turn["model"], "m");
1829    }
1830}
1831
1832#[cfg(test)]
1833mod run_key_tests {
1834    use super::{generate_run_key, key_fingerprint, key_hash_hex, merge_run_key_tags};
1835
1836    #[test]
1837    fn merge_header_tags_win_per_key() {
1838        let merged = merge_run_key_tags(
1839            Some(r#"{"task":"demo","suite":"swebench"}"#),
1840            Some(r#"{"task":"override","case":"x1"}"#),
1841        )
1842        .unwrap();
1843        let v: serde_json::Value = serde_json::from_str(&merged).unwrap();
1844        assert_eq!(v["task"], "override");
1845        assert_eq!(v["suite"], "swebench");
1846        assert_eq!(v["case"], "x1");
1847    }
1848
1849    #[test]
1850    fn merge_handles_missing_sides() {
1851        assert_eq!(merge_run_key_tags(None, None), None);
1852        assert_eq!(
1853            merge_run_key_tags(Some(r#"{"a":"1"}"#), None).unwrap(),
1854            r#"{"a":"1"}"#
1855        );
1856        assert_eq!(
1857            merge_run_key_tags(None, Some(r#"{"b":"2"}"#)).unwrap(),
1858            r#"{"b":"2"}"#
1859        );
1860        assert_eq!(merge_run_key_tags(Some("not json"), None), None);
1861    }
1862
1863    #[test]
1864    fn run_key_shape_and_fingerprint() {
1865        let key = generate_run_key();
1866        assert!(key.starts_with("alxk-"));
1867        assert_eq!(key.len(), 5 + 64);
1868        assert_ne!(key, generate_run_key());
1869        let hash = key_hash_hex(&key);
1870        assert_eq!(hash.len(), 64);
1871        assert_eq!(hash[..16], key_fingerprint(&key));
1872    }
1873}
1874
1875#[cfg(test)]
1876mod usage_tests {
1877    use super::{key_fingerprint, usage_backoff_ms};
1878
1879    #[test]
1880    fn fingerprint_is_first_8_sha256_bytes_hex() {
1881        assert_eq!(key_fingerprint("abc"), "ba7816bf8f01cfea");
1882        assert_eq!(key_fingerprint("abc").len(), 16);
1883        assert_ne!(key_fingerprint("abc"), key_fingerprint("abd"));
1884    }
1885
1886    #[test]
1887    fn backoff_grows_and_caps() {
1888        assert_eq!(usage_backoff_ms(1, None), 60_000);
1889        assert_eq!(usage_backoff_ms(2, None), 120_000);
1890        assert_eq!(usage_backoff_ms(3, None), 240_000);
1891        assert_eq!(usage_backoff_ms(10, None), 3_600_000);
1892    }
1893
1894    #[test]
1895    fn retry_after_wins_when_larger() {
1896        assert_eq!(usage_backoff_ms(1, Some(600_000)), 600_000);
1897        assert_eq!(usage_backoff_ms(5, Some(1_000)), 960_000);
1898    }
1899}
1900
1901fn upstream_headers(
1902    account: &Account,
1903    client_headers: &HeaderMap,
1904) -> Result<reqwest::header::HeaderMap, (StatusCode, String)> {
1905    let mut h = reqwest::header::HeaderMap::new();
1906    h.insert("content-type", HeaderValue::from_static("application/json"));
1907    h.insert("accept", HeaderValue::from_static("*/*"));
1908    h.insert("accept-encoding", HeaderValue::from_static("identity"));
1909    if let Some(ua) = client_headers.get("user-agent") {
1910        h.insert("user-agent", ua.clone());
1911    }
1912    match (account.provider, account.kind.as_str()) {
1913        (Provider::Anthropic, "oauth") => {
1914            let token = account.access_token.as_deref().ok_or((
1915                StatusCode::BAD_GATEWAY,
1916                "anthropic oauth account has no access token".to_string(),
1917            ))?;
1918            h.insert(
1919                "authorization",
1920                HeaderValue::from_str(&format!("Bearer {token}"))
1921                    .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?,
1922            );
1923            let mut beta = ANTHROPIC_OAUTH_BETA.to_string();
1924            if let Some(client_beta) = client_headers
1925                .get("anthropic-beta")
1926                .and_then(|v| v.to_str().ok())
1927            {
1928                if !client_beta.contains(ANTHROPIC_OAUTH_BETA) {
1929                    beta = format!("{ANTHROPIC_OAUTH_BETA},{client_beta}");
1930                } else {
1931                    beta = client_beta.to_string();
1932                }
1933            }
1934            h.insert(
1935                "anthropic-beta",
1936                HeaderValue::from_str(&beta)
1937                    .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?,
1938            );
1939            insert_anthropic_version(&mut h, client_headers);
1940        }
1941        (Provider::Anthropic, _) => {
1942            let key = account
1943                .api_key
1944                .as_deref()
1945                .or(account.access_token.as_deref())
1946                .ok_or((
1947                    StatusCode::BAD_GATEWAY,
1948                    "anthropic account has no api key".to_string(),
1949                ))?;
1950            h.insert(
1951                "x-api-key",
1952                HeaderValue::from_str(key).map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?,
1953            );
1954            if let Some(client_beta) = client_headers.get("anthropic-beta") {
1955                h.insert("anthropic-beta", client_beta.clone());
1956            }
1957            insert_anthropic_version(&mut h, client_headers);
1958        }
1959        (Provider::Openai, "oauth") => {
1960            let token = account.access_token.as_deref().ok_or((
1961                StatusCode::BAD_GATEWAY,
1962                "openai oauth account has no access token".to_string(),
1963            ))?;
1964            h.insert(
1965                "authorization",
1966                HeaderValue::from_str(&format!("Bearer {token}"))
1967                    .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?,
1968            );
1969            if let Some(acct) = account.chatgpt_account_id() {
1970                h.insert(
1971                    "chatgpt-account-id",
1972                    HeaderValue::from_str(&acct)
1973                        .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?,
1974                );
1975            }
1976            h.insert(
1977                "openai-beta",
1978                HeaderValue::from_static("responses=experimental"),
1979            );
1980            h.insert("originator", HeaderValue::from_static("codex_cli_rs"));
1981            let session = client_headers
1982                .get("session_id")
1983                .and_then(|v| v.to_str().ok())
1984                .map(String::from)
1985                .unwrap_or_else(|| uuid::Uuid::new_v4().to_string());
1986            h.insert(
1987                "session_id",
1988                HeaderValue::from_str(&session)
1989                    .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?,
1990            );
1991        }
1992        (Provider::Openai, _) => {
1993            let key = account.api_key.as_deref().ok_or((
1994                StatusCode::BAD_GATEWAY,
1995                "openai account has no api key".to_string(),
1996            ))?;
1997            h.insert(
1998                "authorization",
1999                HeaderValue::from_str(&format!("Bearer {key}"))
2000                    .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?,
2001            );
2002        }
2003        (Provider::Xai, _) => {
2004            let token = account
2005                .access_token
2006                .as_deref()
2007                .or(account.api_key.as_deref())
2008                .ok_or((
2009                    StatusCode::BAD_GATEWAY,
2010                    "xai account has no access token".to_string(),
2011                ))?;
2012            h.insert(
2013                "authorization",
2014                HeaderValue::from_str(&format!("Bearer {token}"))
2015                    .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?,
2016            );
2017            h.insert("x-xai-token-auth", HeaderValue::from_static("xai-grok-cli"));
2018            h.insert(
2019                "x-grok-client-version",
2020                HeaderValue::from_static(GROK_CLIENT_VERSION),
2021            );
2022            h.insert("user-agent", HeaderValue::from_static("xai-grok-workspace"));
2023            h.insert("accept", HeaderValue::from_static("text/event-stream"));
2024        }
2025        (Provider::Gemini, _) => {
2026            let token = account.access_token.as_deref().ok_or((
2027                StatusCode::BAD_GATEWAY,
2028                "gemini account has no access token".to_string(),
2029            ))?;
2030            h.insert(
2031                "authorization",
2032                HeaderValue::from_str(&format!("Bearer {token}"))
2033                    .map_err(|e| (StatusCode::BAD_GATEWAY, e.to_string()))?,
2034            );
2035        }
2036    }
2037    Ok(h)
2038}
2039
2040fn insert_anthropic_version(h: &mut reqwest::header::HeaderMap, client_headers: &HeaderMap) {
2041    match client_headers.get("anthropic-version") {
2042        Some(v) => {
2043            h.insert("anthropic-version", v.clone());
2044        }
2045        None => {
2046            h.insert("anthropic-version", HeaderValue::from_static("2023-06-01"));
2047        }
2048    }
2049}
2050
2051fn key_fingerprint(key: &str) -> String {
2052    use sha2::{Digest, Sha256};
2053    let digest = Sha256::digest(key.as_bytes());
2054    digest[..8].iter().map(|b| format!("{b:02x}")).collect()
2055}
2056
2057const RUN_KEY_PREFIX: &str = "alxk-";
2058const RUN_KEY_DEFAULT_TTL_S: i64 = 86_400;
2059const RUN_KEY_MAX_TTL_S: i64 = 604_800;
2060
2061pub fn generate_run_key() -> String {
2062    use rand::RngCore;
2063    let mut bytes = [0u8; 32];
2064    rand::thread_rng().fill_bytes(&mut bytes);
2065    format!(
2066        "{RUN_KEY_PREFIX}{}",
2067        bytes.iter().map(|b| format!("{b:02x}")).collect::<String>()
2068    )
2069}
2070
2071fn key_hash_hex(key: &str) -> String {
2072    use sha2::{Digest, Sha256};
2073    let digest = Sha256::digest(key.as_bytes());
2074    digest.iter().map(|b| format!("{b:02x}")).collect()
2075}
2076
2077fn merge_run_key_tags(key_tags: Option<&str>, header_tags: Option<&str>) -> Option<String> {
2078    let parse = |s: Option<&str>| {
2079        s.and_then(|s| serde_json::from_str::<Value>(s).ok())
2080            .and_then(|v| v.as_object().cloned())
2081            .unwrap_or_default()
2082    };
2083    let mut merged = parse(key_tags);
2084    merged.extend(parse(header_tags));
2085    if merged.is_empty() {
2086        None
2087    } else {
2088        serde_json::to_string(&Value::Object(merged)).ok()
2089    }
2090}
2091
2092fn run_key_entry(state: &AppState, key_hash: &str) -> Option<CachedRunKey> {
2093    let now = now_ms();
2094    let cached = state.run_keys.read().unwrap().get(key_hash).cloned();
2095    if let Some(entry) = cached {
2096        if entry.expires_ms.map(|e| e > now).unwrap_or(true) {
2097            return Some(entry);
2098        }
2099        state.run_keys.write().unwrap().remove(key_hash);
2100        return None;
2101    }
2102    let row = state.store.lookup_run_key(key_hash, now).ok().flatten()?;
2103    let entry = CachedRunKey {
2104        run_id: row["run_id"].as_str().map(String::from),
2105        tags_json: row["tags"]
2106            .as_object()
2107            .filter(|o| !o.is_empty())
2108            .and_then(|o| serde_json::to_string(o).ok()),
2109        expires_ms: row["expires_ms"].as_i64(),
2110    };
2111    state
2112        .run_keys
2113        .write()
2114        .unwrap()
2115        .insert(key_hash.to_string(), entry.clone());
2116    Some(entry)
2117}
2118
2119async fn admin_run_keys_create(
2120    State(state): State<Arc<AppState>>,
2121    body: Option<axum::Json<Value>>,
2122) -> Response {
2123    let body = body.map(|b| b.0).unwrap_or_else(|| json!({}));
2124    let tags = match &body["tags"] {
2125        Value::Null => None,
2126        Value::Object(o) => Some(o.clone()),
2127        _ => return error_response(StatusCode::BAD_REQUEST, "'tags' must be an object"),
2128    };
2129    let ttl_seconds = body["ttl_seconds"].as_i64().unwrap_or(RUN_KEY_DEFAULT_TTL_S);
2130    if ttl_seconds <= 0 {
2131        return error_response(StatusCode::BAD_REQUEST, "'ttl_seconds' must be positive");
2132    }
2133    let ttl_seconds = ttl_seconds.min(RUN_KEY_MAX_TTL_S);
2134    let run_id = body["run_id"].as_str().map(String::from);
2135    let label = body["label"].as_str().map(String::from);
2136    let key = generate_run_key();
2137    let key_hash = key_hash_hex(&key);
2138    let id = format!("rk-{}", &key_hash[..8]);
2139    let created_ms = now_ms();
2140    let expires_ms = created_ms + ttl_seconds * 1000;
2141    let tags_json = tags
2142        .as_ref()
2143        .filter(|o| !o.is_empty())
2144        .and_then(|o| serde_json::to_string(o).ok());
2145    match state.store.insert_run_key(
2146        &id,
2147        &key_hash,
2148        run_id.as_deref(),
2149        tags_json.as_deref(),
2150        label.as_deref(),
2151        created_ms,
2152        Some(expires_ms),
2153    ) {
2154        Ok(()) => {
2155            let (_, exports) = connect_payload(&state.base_url, &key);
2156            (
2157                StatusCode::CREATED,
2158                axum::Json(json!({
2159                    "id": id,
2160                    "key": key,
2161                    "run_id": run_id,
2162                    "tags": tags.map(Value::Object).unwrap_or_else(|| json!({})),
2163                    "expires_ms": expires_ms,
2164                    "exports": exports,
2165                })),
2166            )
2167                .into_response()
2168        }
2169        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
2170    }
2171}
2172
2173async fn admin_run_keys_list(
2174    State(state): State<Arc<AppState>>,
2175    Query(q): Query<HashMap<String, String>>,
2176) -> Response {
2177    let all = q.get("all").map(|v| v == "1" || v == "true").unwrap_or(false);
2178    match state.store.list_run_keys(all) {
2179        Ok(rows) => axum::Json(json!({"run_keys": rows})).into_response(),
2180        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
2181    }
2182}
2183
2184async fn admin_run_keys_revoke(
2185    State(state): State<Arc<AppState>>,
2186    Path(id): Path<String>,
2187) -> Response {
2188    match state.store.revoke_run_key(&id) {
2189        Ok(true) => {
2190            state.run_keys.write().unwrap().clear();
2191            axum::Json(json!({"revoked": true})).into_response()
2192        }
2193        Ok(false) => error_response(StatusCode::NOT_FOUND, &format!("unknown run key '{id}'")),
2194        Err(e) => error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()),
2195    }
2196}
2197
2198fn session_from_metadata(body_json: &Value) -> Option<String> {
2199    let raw = body_json["metadata"]["user_id"].as_str()?;
2200    if let Ok(v) = serde_json::from_str::<Value>(raw) {
2201        if let Some(inner) = v["session_id"].as_str() {
2202            return Some(inner.to_string());
2203        }
2204    }
2205    Some(raw.to_string())
2206}
2207
2208const METADATA_HEADERS: &[(&str, &str)] = &[
2209    ("x-alexandria-harness", "harness"),
2210    ("x-alexandria-task", "task"),
2211    ("x-alexandria-model", "model"),
2212    ("x-alexandria-job", "job"),
2213    ("x-alexandria-phase", "phase"),
2214    ("x-alexandria-kind", "kind"),
2215];
2216
2217fn trace_tags_json(headers: &HeaderMap) -> Option<String> {
2218    let values: Vec<&str> = headers
2219        .get_all("x-alexandria-trace-tag")
2220        .iter()
2221        .filter_map(|v| v.to_str().ok())
2222        .collect();
2223    let mut tags = parse_trace_tags(&values);
2224    if let Some(o) = tags.as_object_mut() {
2225        for (header, key) in METADATA_HEADERS {
2226            if o.contains_key(*key) {
2227                continue;
2228            }
2229            if let Some(v) = headers.get(*header).and_then(|v| v.to_str().ok()) {
2230                let v = v.trim();
2231                if !v.is_empty() {
2232                    o.insert((*key).to_string(), json!(v));
2233                }
2234            }
2235        }
2236    }
2237    if tags.as_object().map(|o| o.is_empty()).unwrap_or(true) {
2238        return None;
2239    }
2240    serde_json::to_string(&tags).ok()
2241}
2242
2243async fn proxy(
2244    state: Arc<AppState>,
2245    format: ClientFormat,
2246    path: &'static str,
2247    headers: HeaderMap,
2248    body: Bytes,
2249    peer: Option<std::net::SocketAddr>,
2250) -> Response {
2251    let mut run_key: Option<CachedRunKey> = None;
2252    let client_fingerprint = match client_key(&headers) {
2253        Some(k) if k == state.local_key => key_fingerprint(&k),
2254        Some(k) => {
2255            let key_hash = key_hash_hex(&k);
2256            match run_key_entry(&state, &key_hash) {
2257                Some(entry) => {
2258                    if let Err(e) = state.store.touch_run_key(&key_hash, now_ms()) {
2259                        tracing::warn!("failed to touch run key: {e}");
2260                    }
2261                    run_key = Some(entry);
2262                    key_hash.chars().take(16).collect()
2263                }
2264                None if k.starts_with(RUN_KEY_PREFIX) => {
2265                    return error_response(
2266                        StatusCode::UNAUTHORIZED,
2267                        "run key expired or revoked",
2268                    )
2269                }
2270                None => {
2271                    return error_response(
2272                        StatusCode::UNAUTHORIZED,
2273                        "bad or missing local key (x-api-key / Authorization: Bearer)",
2274                    )
2275                }
2276            }
2277        }
2278        None => {
2279            return error_response(
2280                StatusCode::UNAUTHORIZED,
2281                "bad or missing local key (x-api-key / Authorization: Bearer)",
2282            )
2283        }
2284    };
2285
2286    let in_flight = InFlight::new(&state);
2287    let trace_id = uuid::Uuid::new_v4().to_string();
2288    let mut trace = TraceRecord {
2289        id: trace_id.clone(),
2290        ts_request_ms: now_ms(),
2291        method: Some("POST".into()),
2292        path: Some(path.into()),
2293        client_format: Some(format.as_str().into()),
2294        harness: headers
2295            .get("user-agent")
2296            .and_then(|v| v.to_str().ok())
2297            .map(String::from),
2298        req_headers_json: Some(redacted_headers(&headers)),
2299        run_id: headers
2300            .get("x-alexandria-run-id")
2301            .and_then(|v| v.to_str().ok())
2302            .map(String::from)
2303            .or_else(|| run_key.as_ref().and_then(|k| k.run_id.clone())),
2304        tags: merge_run_key_tags(
2305            run_key.as_ref().and_then(|k| k.tags_json.as_deref()),
2306            trace_tags_json(&headers).as_deref(),
2307        ),
2308        client_ip: peer.map(|p| p.ip().to_string()),
2309        key_fingerprint: Some(client_fingerprint),
2310        ..Default::default()
2311    };
2312
2313    let mut body_json: Value = match serde_json::from_slice(&body) {
2314        Ok(v) => v,
2315        Err(e) => {
2316            return error_response(StatusCode::BAD_REQUEST, &format!("body is not JSON: {e}"))
2317        }
2318    };
2319
2320    trace.session_id = headers
2321        .get("x-session-id")
2322        .and_then(|v| v.to_str().ok())
2323        .map(String::from)
2324        .or_else(|| {
2325            headers
2326                .get("session_id")
2327                .and_then(|v| v.to_str().ok())
2328                .map(String::from)
2329        })
2330        .or_else(|| session_from_metadata(&body_json))
2331        .or_else(|| {
2332            conversation_root(format, &body_json).map(|root| {
2333                let ua = headers
2334                    .get("user-agent")
2335                    .and_then(|v| v.to_str().ok())
2336                    .unwrap_or("");
2337                let ip = peer.map(|p| p.ip().to_string()).unwrap_or_default();
2338                format!("auto-{}", key_fingerprint(&format!("{root}{ua}{ip}")))
2339            })
2340        });
2341
2342    let requested_model = body_json["model"].as_str().unwrap_or("").to_string();
2343    if requested_model.is_empty() {
2344        return error_response(StatusCode::BAD_REQUEST, "missing 'model' in request body");
2345    }
2346    let (routed_provider, routed_model) = route_model(&requested_model);
2347    let provider = routed_provider.unwrap_or_else(|| format.default_provider());
2348    trace.requested_model = Some(requested_model.clone());
2349    trace.routed_model = Some(routed_model.clone());
2350    trace.upstream_provider = Some(provider.as_str().into());
2351    trace.streamed = Some(body_json["stream"].as_bool().unwrap_or(false));
2352
2353    let mut plan = match plan_upstream(
2354        &state,
2355        format,
2356        provider,
2357        &routed_model,
2358        &mut body_json,
2359        &body,
2360        &trace_id,
2361    )
2362    .await
2363    {
2364        Ok(p) => p,
2365        Err((status, msg)) => {
2366            trace.status = Some(status.as_u16() as i64);
2367            trace.error = Some(msg.clone());
2368            finalize_trace(&state, trace, &body, None, None);
2369            return error_response(status, &msg);
2370        }
2371    };
2372    trace.upstream_format = Some(plan.upstream_format.into());
2373    trace.account_id = Some(plan.account.id.clone());
2374    trace.billing_bucket = Some(
2375        if plan.account.kind == "oauth" || plan.account.kind == "dario" {
2376            "subscription"
2377        } else {
2378            "api"
2379        }
2380        .into(),
2381    );
2382
2383    tracing::info!(
2384        trace_id,
2385        model = %routed_model,
2386        provider = provider.as_str(),
2387        account = %plan.account.id,
2388        url = %plan.url,
2389        "proxying request"
2390    );
2391
2392    let mut account = plan.account.clone();
2393    let mut upstream_resp = None;
2394    for attempt in 0..2 {
2395        let mut up_headers = match upstream_headers(&account, &headers) {
2396            Ok(h) => h,
2397            Err((status, msg)) => {
2398                trace.status = Some(status.as_u16() as i64);
2399                trace.error = Some(msg.clone());
2400                finalize_trace(&state, trace, &body, Some(&plan.body), None);
2401                return error_response(status, &msg);
2402            }
2403        };
2404        for (k, v) in &plan.extra_headers {
2405            if let (Ok(name), Ok(value)) = (
2406                reqwest::header::HeaderName::from_bytes(k.as_bytes()),
2407                HeaderValue::from_str(v),
2408            ) {
2409                up_headers.insert(name, value);
2410            }
2411        }
2412        let resp = match state
2413            .http
2414            .post(&plan.url)
2415            .headers(up_headers)
2416            .body(plan.body.clone())
2417            .send()
2418            .await
2419        {
2420            Ok(r) => r,
2421            Err(e) => {
2422                let msg = format!("upstream request failed: {e}");
2423                suspect_dario(&state, &account);
2424                trace.status = Some(502);
2425                trace.error = Some(msg.clone());
2426                finalize_trace(&state, trace, &body, Some(&plan.body), None);
2427                return error_response(StatusCode::BAD_GATEWAY, &msg);
2428            }
2429        };
2430        if resp.status() == reqwest::StatusCode::TOO_MANY_REQUESTS && account.kind != "dario" {
2431            let retry_after_s = resp
2432                .headers()
2433                .get("retry-after")
2434                .and_then(|v| v.to_str().ok())
2435                .and_then(|v| v.parse::<i64>().ok())
2436                .unwrap_or(60)
2437                .clamp(1, 3600);
2438            tracing::warn!(
2439                account = %account.id,
2440                retry_after_s,
2441                "upstream returned 429; cooling account down"
2442            );
2443            if let Err(e) = state
2444                .vault
2445                .mark_cooldown(&account.id, now_ms() + retry_after_s * 1000)
2446                .await
2447            {
2448                tracing::warn!("failed to mark cooldown: {e}");
2449            }
2450        }
2451        if resp.status() == reqwest::StatusCode::UNAUTHORIZED
2452            && account.kind == "oauth"
2453            && attempt == 0
2454        {
2455            tracing::warn!(
2456                account = %account.id,
2457                "upstream returned 401 for oauth account; forcing token refresh and retrying"
2458            );
2459            match state.vault.refresh(&account.id, true).await {
2460                Ok(fresh) => {
2461                    account = fresh;
2462                    continue;
2463                }
2464                Err(e) => {
2465                    tracing::warn!("forced refresh failed: {e}");
2466                }
2467            }
2468        }
2469        upstream_resp = Some(resp);
2470        break;
2471    }
2472    let upstream_resp = upstream_resp.expect("upstream response after retry loop");
2473
2474    let status = upstream_resp.status();
2475    trace.status = Some(status.as_u16() as i64);
2476    let resp_headers = upstream_resp.headers().clone();
2477    let content_type = resp_headers
2478        .get("content-type")
2479        .and_then(|v| v.to_str().ok())
2480        .unwrap_or("application/octet-stream")
2481        .to_string();
2482    trace.resp_headers_json = Some(redacted_headers(&resp_headers));
2483    let is_sse = content_type.starts_with("text/event-stream");
2484
2485    if let Some(target) = plan.respond_as {
2486        use alex_core::translate;
2487        let buf = match upstream_resp.bytes().await {
2488            Ok(b) => b.to_vec(),
2489            Err(e) => {
2490                let msg = format!("upstream body read failed: {e}");
2491                suspect_dario(&state, &account);
2492                trace.status = Some(502);
2493                trace.error = Some(msg.clone());
2494                finalize_trace(&state, trace, &body, Some(&plan.body), None);
2495                return error_response(StatusCode::BAD_GATEWAY, &msg);
2496            }
2497        };
2498        drop(plan.dario_guard.take());
2499        trace.ts_response_ms = Some(now_ms());
2500        fill_usage_and_cost(&state, &mut trace, &buf, is_sse);
2501        let text = String::from_utf8_lossy(&buf).to_string();
2502        if !status.is_success() {
2503            finalize_trace(&state, trace, &body, Some(&plan.body), Some(&buf));
2504            return Response::builder()
2505                .status(status)
2506                .header("content-type", "application/json")
2507                .header("x-alexandria-trace-id", &trace_id)
2508                .body(Body::from(buf))
2509                .unwrap_or_else(|e| {
2510                    error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string())
2511                });
2512        }
2513        let trimmed = text.trim_start();
2514        let looks_sse = trimmed.starts_with("event:") || trimmed.starts_with("data:");
2515        let upstream_final = if plan.upstream_format == "anthropic" {
2516            if is_sse || looks_sse {
2517                translate::parse_anthropic_sse_to_message(&text)
2518            } else {
2519                serde_json::from_str(&text).ok()
2520            }
2521        } else if plan.upstream_format == "gemini" {
2522            translate::parse_gemini_upstream_final(&text)
2523        } else if is_sse || looks_sse {
2524            translate::parse_responses_sse_final(&text)
2525        } else {
2526            serde_json::from_str(&text).ok()
2527        };
2528        let Some(upstream_final) = upstream_final else {
2529            let msg = "could not reassemble upstream response for translation";
2530            trace.error = Some(msg.to_string());
2531            finalize_trace(&state, trace, &body, Some(&plan.body), Some(&buf));
2532            return error_response(StatusCode::BAD_GATEWAY, msg);
2533        };
2534        let out = match (target, plan.upstream_format) {
2535            (RespondAs::Gemini, "gemini") => upstream_final.clone(),
2536            (RespondAs::Anthropic, "gemini") => {
2537                translate::gemini_response_to_anthropic(&upstream_final, &requested_model)
2538            }
2539            (RespondAs::OpenaiChat, "gemini") => translate::anthropic_response_to_openai_chat(
2540                &translate::gemini_response_to_anthropic(&upstream_final, &requested_model),
2541                &requested_model,
2542            ),
2543            (RespondAs::OpenaiResponses, "gemini") => {
2544                translate::anthropic_response_to_openai_responses(
2545                    &translate::gemini_response_to_anthropic(&upstream_final, &requested_model),
2546                    &requested_model,
2547                )
2548            }
2549            (RespondAs::OpenaiChat, "anthropic") => {
2550                translate::anthropic_response_to_openai_chat(&upstream_final, &requested_model)
2551            }
2552            (RespondAs::OpenaiResponses, "anthropic") => translate::anthropic_response_to_openai_responses(
2553                &upstream_final,
2554                &requested_model,
2555            ),
2556            (RespondAs::Gemini, "anthropic") => {
2557                translate::anthropic_response_to_gemini(&upstream_final, &requested_model)
2558            }
2559            (RespondAs::Gemini, _) => translate::anthropic_response_to_gemini(
2560                &translate::responses_final_to_anthropic(&upstream_final, &requested_model),
2561                &requested_model,
2562            ),
2563            (RespondAs::Anthropic, "anthropic") | (RespondAs::OpenaiResponses, _) => {
2564                upstream_final.clone()
2565            }
2566            (RespondAs::Anthropic, _) => {
2567                translate::responses_final_to_anthropic(&upstream_final, &requested_model)
2568            }
2569            (RespondAs::OpenaiChat, _) => {
2570                translate::responses_final_to_openai_chat(&upstream_final, &requested_model)
2571            }
2572        };
2573        let (out_ct, out_body) = if plan.client_stream {
2574            let sse = match target {
2575                RespondAs::Anthropic => translate::synth_anthropic_sse(&out),
2576                RespondAs::OpenaiChat => translate::synth_openai_chat_sse(&out),
2577                RespondAs::OpenaiResponses => translate::synth_openai_responses_sse(&out),
2578                RespondAs::Gemini => translate::synth_gemini_sse(&out),
2579            };
2580            ("text/event-stream", sse.into_bytes())
2581        } else {
2582            (
2583                "application/json",
2584                serde_json::to_vec(&out).unwrap_or_default(),
2585            )
2586        };
2587        finalize_trace(&state, trace, &body, Some(&plan.body), Some(&buf));
2588        return Response::builder()
2589            .status(StatusCode::OK)
2590            .header("content-type", out_ct)
2591            .header("x-alexandria-trace-id", &trace_id)
2592            .body(Body::from(out_body))
2593            .unwrap_or_else(|e| error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()));
2594    }
2595
2596    if plan.destream {
2597        let buf = match upstream_resp.bytes().await {
2598            Ok(b) => b.to_vec(),
2599            Err(e) => {
2600                let msg = format!("upstream body read failed: {e}");
2601                trace.status = Some(502);
2602                trace.error = Some(msg.clone());
2603                finalize_trace(&state, trace, &body, Some(&plan.body), None);
2604                return error_response(StatusCode::BAD_GATEWAY, &msg);
2605            }
2606        };
2607        trace.ts_response_ms = Some(now_ms());
2608        fill_usage_and_cost(&state, &mut trace, &buf, is_sse);
2609        let text = String::from_utf8_lossy(&buf).to_string();
2610        let (out_status, out_body) = if status.is_success() {
2611            match extract_final_response(&text) {
2612                Some(v) => (StatusCode::OK, serde_json::to_vec(&v).unwrap_or_default()),
2613                None => {
2614                    let msg = "upstream stream ended without a response.completed event";
2615                    trace.error = Some(msg.to_string());
2616                    (
2617                        StatusCode::BAD_GATEWAY,
2618                        serde_json::to_vec(
2619                            &json!({"error": {"type": "alexandria", "message": msg}}),
2620                        )
2621                        .unwrap_or_default(),
2622                    )
2623                }
2624            }
2625        } else {
2626            (status, buf.clone())
2627        };
2628        finalize_trace(&state, trace, &body, Some(&plan.body), Some(&buf));
2629        return Response::builder()
2630            .status(out_status)
2631            .header("content-type", "application/json")
2632            .header("x-alexandria-trace-id", &trace_id)
2633            .body(Body::from(out_body))
2634            .unwrap_or_else(|e| error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()));
2635    }
2636
2637    let (tx, rx) = tokio::sync::mpsc::channel::<Result<Bytes, std::io::Error>>(64);
2638    let mut upstream_stream = upstream_resp.bytes_stream();
2639    let state2 = state.clone();
2640    let client_body = body.clone();
2641    let upstream_body = plan.body.clone();
2642    let dario_guard = plan.dario_guard.take();
2643    tokio::spawn(async move {
2644        let _dario_guard = dario_guard;
2645        let _in_flight = in_flight;
2646        let mut buf: Vec<u8> = Vec::new();
2647        let mut stream_error: Option<String> = None;
2648        while let Some(chunk) = upstream_stream.next().await {
2649            match chunk {
2650                Ok(b) => {
2651                    buf.extend_from_slice(&b);
2652                    let _ = tx.send(Ok(b)).await;
2653                }
2654                Err(e) => {
2655                    stream_error = Some(format!("upstream stream error: {e}"));
2656                    let _ = tx
2657                        .send(Err(std::io::Error::new(
2658                            std::io::ErrorKind::Other,
2659                            e.to_string(),
2660                        )))
2661                        .await;
2662                    break;
2663                }
2664            }
2665        }
2666        drop(tx);
2667        trace.ts_response_ms = Some(now_ms());
2668        if trace.error.is_none() {
2669            trace.error = stream_error;
2670        }
2671        if trace.error.is_some() {
2672            if let (Some(dario), Some(gen)) = (
2673                &state2.dario,
2674                trace
2675                    .account_id
2676                    .as_deref()
2677                    .and_then(|id| id.strip_prefix("dario:")),
2678            ) {
2679                dario.suspect(gen);
2680            }
2681        }
2682
2683        fill_usage_and_cost(&state2, &mut trace, &buf, is_sse);
2684        finalize_trace(
2685            &state2,
2686            trace,
2687            &client_body,
2688            Some(&upstream_body),
2689            Some(&buf),
2690        );
2691    });
2692
2693    let mut response = Response::builder().status(status);
2694    for (k, v) in resp_headers.iter() {
2695        let key = k.as_str().to_lowercase();
2696        if [
2697            "transfer-encoding",
2698            "connection",
2699            "content-encoding",
2700            "content-length",
2701        ]
2702        .contains(&key.as_str())
2703        {
2704            continue;
2705        }
2706        response = response.header(k, v);
2707    }
2708    response = response.header("x-alexandria-trace-id", &trace_id);
2709    response
2710        .body(Body::from_stream(ReceiverStream::new(rx)))
2711        .unwrap_or_else(|e| error_response(StatusCode::INTERNAL_SERVER_ERROR, &e.to_string()))
2712}
2713
2714fn fill_usage_and_cost(state: &AppState, trace: &mut TraceRecord, buf: &[u8], is_sse: bool) {
2715    let text = String::from_utf8_lossy(buf);
2716    let trimmed = text.trim_start();
2717    let looks_sse = trimmed.starts_with("event:") || trimmed.starts_with("data:");
2718    trace.usage = if is_sse || looks_sse {
2719        parse_sse_usage(&text)
2720    } else {
2721        serde_json::from_str::<Value>(&text)
2722            .map(|v| usage_from_json(&v))
2723            .unwrap_or_default()
2724    };
2725    if !trace.usage.is_empty() {
2726        if let Some(pricing) = trace
2727            .routed_model
2728            .as_deref()
2729            .and_then(|m| state.store.pricing_for(m))
2730        {
2731            let input_includes_cached = trace
2732                .upstream_format
2733                .as_deref()
2734                .map(|f| f.starts_with("openai"))
2735                .unwrap_or(false);
2736            trace.cost_usd = Some(compute_cost(&trace.usage, &pricing, input_includes_cached));
2737        }
2738    }
2739}
2740
2741fn extract_final_response(text: &str) -> Option<Value> {
2742    let mut last: Option<Value> = None;
2743    for line in text.lines() {
2744        let Some(data) = line.strip_prefix("data:") else {
2745            continue;
2746        };
2747        let Ok(v) = serde_json::from_str::<Value>(data.trim()) else {
2748            continue;
2749        };
2750        if matches!(
2751            v["type"].as_str(),
2752            Some("response.completed") | Some("response.incomplete") | Some("response.failed")
2753        ) && v["response"].is_object()
2754        {
2755            last = Some(v["response"].clone());
2756        }
2757    }
2758    last
2759}
2760
2761fn finalize_trace(
2762    state: &AppState,
2763    mut trace: TraceRecord,
2764    client_body: &[u8],
2765    upstream_body: Option<&[u8]>,
2766    resp_body: Option<&[u8]>,
2767) {
2768    let store = &state.store;
2769    match store.write_body(&trace.id, "request.json", client_body) {
2770        Ok(p) => trace.req_body_path = Some(p),
2771        Err(e) => tracing::warn!("failed to write request body: {e}"),
2772    }
2773    if let Some(up) = upstream_body {
2774        if up != client_body {
2775            match store.write_body(&trace.id, "upstream-request.json", up) {
2776                Ok(p) => trace.upstream_req_body_path = Some(p),
2777                Err(e) => tracing::warn!("failed to write upstream request body: {e}"),
2778            }
2779        }
2780    }
2781    if let Some(resp) = resp_body {
2782        match store.write_body(&trace.id, "response.body", resp) {
2783            Ok(p) => trace.resp_body_path = Some(p),
2784            Err(e) => tracing::warn!("failed to write response body: {e}"),
2785        }
2786    }
2787    if let Err(e) = store.insert_trace(&trace) {
2788        tracing::error!("failed to insert trace {}: {e}", trace.id);
2789    } else {
2790        tracing::info!(
2791            trace_id = %trace.id,
2792            status = trace.status,
2793            input = trace.usage.input_tokens,
2794            output = trace.usage.output_tokens,
2795            cost = trace.cost_usd,
2796            "trace recorded"
2797        );
2798    }
2799}