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camel_component_exec/
producer.rs

1//! producer.rs — ExecProducer: Service<Exchange> running the enforcement flow.
2//!
3//! Outcomes: pre/during-spawn failures => Err. Post-spawn conditions with output
4//! (timeout, exit-code mismatch) => Ok with result + headers (route branches via choice).
5
6use std::collections::HashMap;
7use std::sync::Arc;
8use std::time::{Duration, Instant};
9
10use base64::Engine;
11use bytes::Bytes;
12use camel_api::{Body, CamelError, Exchange};
13use camel_component_api::RuntimeObservability;
14use tokio::sync::Semaphore;
15use tower::Service;
16
17use crate::audit::{ExecAuditEvent, emit};
18use crate::config::{ExecGlobalConfig, ExecProfile};
19use crate::error::ExecError;
20use crate::headers::*;
21use crate::policy;
22use crate::process::{self, RawResult};
23
24pub struct ExecProducer {
25    pub(crate) profile: Arc<ExecProfile>,
26    pub(crate) global: Arc<ExecGlobalConfig>,
27    pub(crate) route_id: String,
28    pub(crate) host_env: HashMap<String, String>,
29    pub(crate) semaphore: Arc<Semaphore>,
30    pub(crate) rt: Option<Arc<dyn RuntimeObservability>>,
31}
32
33impl Clone for ExecProducer {
34    fn clone(&self) -> Self {
35        Self {
36            profile: Arc::clone(&self.profile),
37            global: Arc::clone(&self.global),
38            route_id: self.route_id.clone(),
39            host_env: self.host_env.clone(),
40            semaphore: Arc::clone(&self.semaphore),
41            rt: self.rt.clone(),
42        }
43    }
44}
45
46impl Service<Exchange> for ExecProducer {
47    type Response = Exchange;
48    type Error = CamelError;
49    type Future = std::pin::Pin<
50        Box<dyn std::future::Future<Output = Result<Self::Response, Self::Error>> + Send>,
51    >;
52
53    fn poll_ready(
54        &mut self,
55        _cx: &mut std::task::Context<'_>,
56    ) -> std::task::Poll<Result<(), Self::Error>> {
57        std::task::Poll::Ready(Ok(()))
58    }
59
60    fn call(&mut self, mut exchange: Exchange) -> Self::Future {
61        let this = self.clone();
62        Box::pin(async move { this.run(&mut exchange).await.map(|_| exchange) })
63    }
64}
65
66impl ExecProducer {
67    /// Create a new ExecProducer. Public for integration tests.
68    pub fn new(
69        profile: Arc<ExecProfile>,
70        global: Arc<ExecGlobalConfig>,
71        route_id: String,
72        host_env: HashMap<String, String>,
73        semaphore: Arc<Semaphore>,
74        rt: Option<Arc<dyn RuntimeObservability>>,
75    ) -> Self {
76        Self {
77            profile,
78            global,
79            route_id,
80            host_env,
81            semaphore,
82            rt,
83        }
84    }
85
86    async fn run(&self, ex: &mut Exchange) -> Result<(), CamelError> {
87        let start = Instant::now();
88        // 1. args
89        let args = self.resolve_args(ex)?;
90        // 2. arg-policy
91        if let Err(e) = policy::eval_args(&args, &self.profile.args, &self.profile.deny_flags) {
92            self.metric_denied("arg_policy");
93            return Err(pack(&self.route_id, e));
94        }
95        // 3. shell reject
96        let exe = self
97            .profile
98            .canonical_executable
99            .clone()
100            .unwrap_or_default();
101        let exe_str = exe.to_string_lossy().to_string();
102        if !self.profile.allow_shell && policy::is_known_shell(&exe_str) {
103            self.metric_denied("shell");
104            return Err(pack(
105                &self.route_id,
106                ExecError::ShellRejected {
107                    executable: exe_str.clone(),
108                },
109            ));
110        }
111        // 4. env build (deny_env applied last, always wins)
112        let env = policy::build_env(&self.profile.env, &self.global.deny_env, &self.host_env);
113        // 5. cwd — use the STARTUP-PINNED canonical root (I-6: no "." fallback)
114        let cwd = match &self.global.canonical_workspace_root {
115            Some(root) => crate::config::confine(root, &self.profile.working_dir).map_err(|e| {
116                self.metric_denied("workdir");
117                pack(&self.route_id, ExecError::InvalidWorkDir { path: e })
118            })?,
119            None => {
120                return Err(pack(
121                    &self.route_id,
122                    ExecError::InvalidWorkDir {
123                        path: "workspace root not pinned at startup".into(),
124                    },
125                ));
126            }
127        };
128        // 6. stdin (capped)
129        let stdin =
130            extract_stdin(ex, self.profile.stdin_max_bytes).map_err(|e| pack(&self.route_id, e))?;
131        // 7. concurrency permit — acquired BEFORE spawn (held through spawn→collect)
132        let _permit = self.semaphore.acquire().await.map_err(|_| {
133            CamelError::ProcessorErrorWithSource(
134                "exec semaphore closed".into(),
135                Arc::new(ExecError::Spawn(std::io::Error::other("semaphore"))),
136            )
137        })?;
138        // 8. spawn + timeout + drain (child held outside the timeout region — C-1)
139        let raw = self
140            .spawn_and_collect(&exe, &args, &env, &cwd, stdin)
141            .await
142            .map_err(|e| pack(&self.route_id, e))?;
143        // 9. populate exchange (non-error outcome even on timeout / non-zero exit)
144        let exit_code = raw.exit_code;
145        let accepted = exit_code
146            .map(|c| self.profile.accepted_exit_codes.contains(&c))
147            .unwrap_or(false);
148        let body_out = ExecResult {
149            exit_code,
150            stdout: b64(&raw.stdout),
151            stderr: b64(&raw.stderr),
152            stdout_truncated: raw.stdout_truncated,
153            stderr_truncated: raw.stderr_truncated,
154            timed_out: raw.timed_out,
155            profile: self.profile.name.clone(),
156            duration_ms: start.elapsed().as_millis() as u64,
157        };
158        ex.input.body = Body::Json(serde_json::to_value(&body_out).map_err(|e| {
159            pack(
160                &self.route_id,
161                ExecError::InvalidArgs(format!("serialize result: {e}")),
162            )
163        })?);
164        let h = &mut ex.input.headers;
165        h.insert(
166            CAMEL_EXEC_PROFILE.to_string(),
167            serde_json::Value::String(self.profile.name.clone()),
168        );
169        // Always emit CamelExecExitAccepted (false when no exit code, e.g. timeout).
170        if let Some(c) = exit_code {
171            h.insert(CAMEL_EXEC_EXIT_CODE.to_string(), serde_json::Value::from(c));
172            h.insert(
173                CAMEL_EXEC_EXIT_ACCEPTED.to_string(),
174                serde_json::Value::from(accepted),
175            );
176        } else {
177            h.insert(
178                CAMEL_EXEC_EXIT_ACCEPTED.to_string(),
179                serde_json::Value::from(false),
180            );
181        }
182        h.insert(
183            CAMEL_EXEC_TIMED_OUT.to_string(),
184            serde_json::Value::from(raw.timed_out),
185        );
186        h.insert(
187            CAMEL_EXEC_STDOUT_TRUNCATED.to_string(),
188            serde_json::Value::from(raw.stdout_truncated),
189        );
190        h.insert(
191            CAMEL_EXEC_STDERR_TRUNCATED.to_string(),
192            serde_json::Value::from(raw.stderr_truncated),
193        );
194        h.insert(
195            CAMEL_EXEC_STDERR.to_string(),
196            serde_json::Value::String(String::from_utf8_lossy(&raw.stderr).into_owned()),
197        );
198        // 10. metrics + audit
199        self.metric_outcome(
200            exit_code,
201            raw.timed_out,
202            raw.stdout_truncated,
203            start.elapsed(),
204        );
205        emit(&ExecAuditEvent {
206            route_id: &self.route_id,
207            profile: &self.profile.name,
208            canonical_executable: &exe_str,
209            args: &args,
210            env_keys: env.keys().map(|k| k.as_str()).collect::<Vec<_>>(),
211            cwd: &cwd.to_string_lossy(),
212            exit_code,
213            timed_out: raw.timed_out,
214            stdout_truncated: raw.stdout_truncated,
215            stderr_truncated: raw.stderr_truncated,
216            duration: start.elapsed(),
217        });
218        Ok(())
219    }
220
221    async fn spawn_and_collect(
222        &self,
223        exe: &std::path::Path,
224        args: &[String],
225        env: &HashMap<String, String>,
226        cwd: &std::path::Path,
227        stdin: Bytes,
228    ) -> Result<RawResult, ExecError> {
229        // C-1: spawn OUTSIDE the timeout so the Child handle survives a timeout
230        // and kill_tree can fire. kill_on_drop(true) is a belt-and-suspenders guard.
231        let mut child = process::spawn(exe, args, env, cwd)?;
232        let stdin_handle = child.stdin.take();
233        let out = child.stdout.take();
234        let err = child.stderr.take();
235        // drain + stdin tasks run concurrently; they complete when pipes close.
236        let out_task = tokio::spawn(drain_join(out, self.profile.stdout_max_bytes));
237        let err_task = tokio::spawn(drain_join(err, self.profile.stderr_max_bytes));
238        let stdin_task = tokio::spawn(async move {
239            if let Some(mut sin) = stdin_handle {
240                use tokio::io::AsyncWriteExt;
241                let _ = sin.write_all(&stdin).await;
242                let _ = sin.shutdown().await;
243            }
244        });
245
246        let timeout = Duration::from_secs(self.profile.timeout_secs);
247        // select! keeps `child` accessible after either branch (the losing branch's
248        // future is dropped, releasing the &mut borrow). Timeout bounds stdin-write
249        // + wait together (a child that never reads stdin no longer hangs unbounded).
250        let (exit_code, timed_out) = tokio::select! {
251            biased;
252            status = child.wait() => match status {
253                Ok(s) => (s.code(), false),
254                Err(e) => return Err(ExecError::Spawn(e)),
255            },
256            _ = tokio::time::sleep(timeout) => {
257                process::kill_tree(&child);
258                let _ = child.wait().await; // reap the killed tree
259                (None, true)
260            }
261        };
262        // After success or timeout, collect whatever the drain tasks produced.
263        // (On timeout the pipes close after kill → tasks finish quickly.)
264        let _ = tokio::time::timeout(Duration::from_secs(2), stdin_task).await; // best-effort
265        let (stdout, stdout_tr) = out_task.await.unwrap_or((Bytes::new(), false));
266        let (stderr, stderr_tr) = err_task.await.unwrap_or((Bytes::new(), false));
267        Ok(RawResult {
268            stdout,
269            stderr,
270            stdout_truncated: stdout_tr,
271            stderr_truncated: stderr_tr,
272            exit_code,
273            timed_out,
274        })
275    }
276
277    fn resolve_args(&self, ex: &Exchange) -> Result<Vec<String>, CamelError> {
278        if let Some(v) = ex.input.headers.get(CAMEL_EXEC_ARGS) {
279            serde_json::from_value::<Vec<String>>(v.clone())
280                .map_err(|e| pack(&self.route_id, ExecError::InvalidArgs(e.to_string())))
281        } else {
282            Ok(Vec::new())
283        }
284    }
285
286    fn metric_denied(&self, reason: &'static str) {
287        if let Some(rt) = &self.rt {
288            rt.metrics().record_counter(
289                "exec_policy_denials_total",
290                1.0,
291                &[("reason", reason), ("route", &self.route_id)],
292            );
293        }
294    }
295
296    fn metric_outcome(
297        &self,
298        exit_code: Option<i32>,
299        timed_out: bool,
300        stdout_truncated: bool,
301        dur: Duration,
302    ) {
303        let Some(rt) = &self.rt else { return };
304        rt.metrics().record_histogram(
305            "exec_duration_secs",
306            dur.as_secs_f64(),
307            &[("route", &self.route_id)],
308        );
309        if let Some(c) = exit_code {
310            let code_str = c.to_string();
311            rt.metrics().record_counter(
312                "exec_exit_code",
313                1.0,
314                &[("code", &code_str), ("route", &self.route_id)],
315            );
316        }
317        if timed_out {
318            rt.metrics()
319                .record_counter("exec_timeouts_total", 1.0, &[("route", &self.route_id)]);
320        }
321        if stdout_truncated {
322            rt.metrics().record_counter(
323                "exec_stdout_truncated_total",
324                1.0,
325                &[("route", &self.route_id)],
326            );
327        }
328    }
329}
330
331/// Drain an Option<ChildStdout/Stderr> to (Bytes, truncated). Spawned as a task.
332async fn drain_join<R: tokio::io::AsyncRead + Unpin + Send + 'static>(
333    r: Option<R>,
334    cap: usize,
335) -> (Bytes, bool) {
336    match r {
337        Some(reader) => process::drain_with_cap(reader, cap).await,
338        None => (Bytes::new(), false),
339    }
340}
341
342/// Materialized result placed in the body. stdout/stderr are base64-encoded
343/// Strings (C-2: Bytes is not Serialize without a serde feature, and raw byte
344/// arrays would be a pathological JSON). `#[non_exhaustive]`.
345#[derive(Debug, serde::Serialize, serde::Deserialize)]
346#[non_exhaustive]
347pub struct ExecResult {
348    pub exit_code: Option<i32>,
349    pub stdout: String, // base64
350    pub stderr: String, // base64
351    pub stdout_truncated: bool,
352    pub stderr_truncated: bool,
353    pub timed_out: bool,
354    pub profile: String,
355    pub duration_ms: u64,
356}
357
358fn b64(b: &[u8]) -> String {
359    base64::engine::general_purpose::STANDARD.encode(b)
360}
361
362fn extract_stdin(ex: &Exchange, cap: usize) -> Result<Bytes, ExecError> {
363    let b = match &ex.input.body {
364        Body::Text(s) => Bytes::copy_from_slice(s.as_bytes()),
365        Body::Bytes(b) => Bytes::copy_from_slice(b),
366        Body::Json(v) => Bytes::from(serde_json::to_vec(v).unwrap_or_default()),
367        _ => Bytes::new(),
368    };
369    if b.len() > cap {
370        return Err(ExecError::StdinTooLarge {
371            size: b.len(),
372            max: cap,
373        });
374    }
375    Ok(b)
376}
377
378fn pack(route_id: &str, e: ExecError) -> CamelError {
379    CamelError::ProcessorErrorWithSource(format!("exec producer ({route_id}): {e}"), Arc::new(e))
380}
381
382#[cfg(test)]
383mod tests {
384    use super::*;
385    use crate::config::{ArgPolicy, ExecGlobalConfig, ExecProfile};
386    use camel_api::{Body, Exchange};
387    use std::collections::HashMap;
388    use std::path::PathBuf;
389    use std::sync::Arc;
390    use tokio::sync::Semaphore;
391
392    /// Minimal PATH lookup (mirrors config::which, but does NOT canonicalize).
393    /// Tests need the symlink name (e.g., "echo") preserved as argv[0] for multicall binaries.
394    fn which(name: &str) -> PathBuf {
395        let path = std::env::var_os("PATH").expect("PATH must be set");
396        for dir in std::env::split_paths(&path) {
397            let cand = dir.join(name);
398            if cand.is_file() {
399                return cand; // Do NOT canonicalize — preserve symlink name for argv[0]
400            }
401        }
402        panic!("{name} not found on PATH");
403    }
404
405    fn make_global() -> Arc<ExecGlobalConfig> {
406        let root = std::env::temp_dir().canonicalize().unwrap();
407        Arc::new(ExecGlobalConfig {
408            canonical_workspace_root: Some(root),
409            ..ExecGlobalConfig::default()
410        })
411    }
412
413    fn make_profile(
414        exe: &str,
415        args_policy: ArgPolicy,
416        accepted: Vec<i32>,
417        timeout: u64,
418    ) -> ExecProfile {
419        // Provide minimal env: set PATH explicitly so binaries can be found.
420        let mut env = crate::config::EnvPolicy::default();
421        if let Ok(path) = std::env::var("PATH") {
422            env.set.insert("PATH".into(), path);
423        }
424
425        ExecProfile {
426            name: "test".into(),
427            executable: exe.into(),
428            args: args_policy,
429            deny_flags: Default::default(),
430            allow_shell: true, // allow sh for tests
431            env,
432            working_dir: ".".into(),
433            timeout_secs: timeout,
434            accepted_exit_codes: accepted,
435            concurrency: 1,
436            stdin_max_bytes: 1 << 20,
437            stdout_max_bytes: 10 << 20,
438            stderr_max_bytes: 1 << 20,
439            sandbox: Default::default(),
440            output_mode: Default::default(),
441            canonical_executable: Some(which(exe)),
442        }
443    }
444
445    fn make_producer(profile: ExecProfile) -> ExecProducer {
446        ExecProducer {
447            profile: Arc::new(profile),
448            global: make_global(),
449            route_id: "test".into(),
450            host_env: HashMap::new(),
451            semaphore: Arc::new(Semaphore::new(1)),
452            rt: None,
453        }
454    }
455
456    /// Helper: set CamelExecArgs header on the exchange.
457    fn set_args(ex: &mut Exchange, args: Vec<&str>) {
458        let v: Vec<String> = args.into_iter().map(String::from).collect();
459        ex.input.headers.insert(
460            crate::headers::CAMEL_EXEC_ARGS.to_string(),
461            serde_json::to_value(v).unwrap(),
462        );
463    }
464
465    /// Helper: deserialize the ExecResult JSON from the exchange body.
466    fn result_from_body(ex: &Exchange) -> ExecResult {
467        let v = match &ex.input.body {
468            Body::Json(v) => v.clone(),
469            other => panic!("expected Body::Json, got {other:?}"),
470        };
471        serde_json::from_value(v).expect("deserialize ExecResult")
472    }
473
474    #[tokio::test]
475    async fn echo_happy_path() {
476        let profile = make_profile("echo", ArgPolicy::Any, vec![0], 30);
477        let producer = make_producer(profile);
478        let mut ex = Exchange::default();
479        set_args(&mut ex, vec!["hello"]);
480
481        producer.run(&mut ex).await.expect("echo must succeed");
482
483        let result = result_from_body(&ex);
484        assert_eq!(result.exit_code, Some(0));
485        assert!(!result.timed_out);
486        // stdout is base64-encoded "hello\n"
487        let stdout_bytes = base64::engine::general_purpose::STANDARD
488            .decode(&result.stdout)
489            .unwrap();
490        assert_eq!(stdout_bytes, b"hello\n");
491        // Header assertions
492        assert_eq!(
493            ex.input
494                .headers
495                .get(crate::headers::CAMEL_EXEC_EXIT_ACCEPTED),
496            Some(&serde_json::Value::Bool(true))
497        );
498        assert_eq!(
499            ex.input.headers.get(crate::headers::CAMEL_EXEC_TIMED_OUT),
500            Some(&serde_json::Value::Bool(false))
501        );
502    }
503
504    #[tokio::test]
505    async fn timeout_is_non_error_outcome() {
506        let profile = make_profile("sleep", ArgPolicy::Any, vec![0], 1);
507        let producer = make_producer(profile);
508        let mut ex = Exchange::default();
509        set_args(&mut ex, vec!["30"]);
510
511        // KEY ASSERTION: timeout returns Ok(()), NOT Err.
512        let res = producer.run(&mut ex).await;
513        assert!(
514            res.is_ok(),
515            "timeout must be non-error outcome, got {res:?}"
516        );
517
518        let result = result_from_body(&ex);
519        assert_eq!(result.exit_code, None, "killed process has no exit code");
520        assert!(result.timed_out, "must be marked as timed out");
521        // CamelExecExitAccepted must be false when no exit code
522        assert_eq!(
523            ex.input
524                .headers
525                .get(crate::headers::CAMEL_EXEC_EXIT_ACCEPTED),
526            Some(&serde_json::Value::Bool(false))
527        );
528        assert_eq!(
529            ex.input.headers.get(crate::headers::CAMEL_EXEC_TIMED_OUT),
530            Some(&serde_json::Value::Bool(true))
531        );
532    }
533
534    #[tokio::test]
535    async fn non_zero_exit_is_non_error_outcome() {
536        // Case 1: accepted_exit_codes=[0], actual exit=2 → accepted=false
537        let profile = make_profile("sh", ArgPolicy::Any, vec![0], 30);
538        let producer = make_producer(profile);
539        let mut ex = Exchange::default();
540        set_args(&mut ex, vec!["-c", "exit 2"]);
541
542        let res = producer.run(&mut ex).await;
543        assert!(res.is_ok(), "non-zero exit must be non-error outcome");
544
545        let result = result_from_body(&ex);
546        assert_eq!(result.exit_code, Some(2));
547        assert!(!result.timed_out);
548        assert_eq!(
549            ex.input
550                .headers
551                .get(crate::headers::CAMEL_EXEC_EXIT_ACCEPTED),
552            Some(&serde_json::Value::Bool(false)),
553            "exit 2 not in accepted_exit_codes=[0]"
554        );
555
556        // Case 2: accepted_exit_codes=[2], actual exit=2 → accepted=true
557        let profile2 = make_profile("sh", ArgPolicy::Any, vec![2], 30);
558        let producer2 = make_producer(profile2);
559        let mut ex2 = Exchange::default();
560        set_args(&mut ex2, vec!["-c", "exit 2"]);
561
562        producer2.run(&mut ex2).await.expect("must succeed");
563        assert_eq!(
564            ex2.input
565                .headers
566                .get(crate::headers::CAMEL_EXEC_EXIT_ACCEPTED),
567            Some(&serde_json::Value::Bool(true)),
568            "exit 2 in accepted_exit_codes=[2]"
569        );
570    }
571}