harn_hostlib/process/handle.rs
1//! Process abstraction trait used by `tools/proc` and
2//! `tools/long_running`.
3//!
4//! Tier 1C of the de-flake epic (#1057). Production code spawns through
5//! the [`ProcessSpawner`] trait — the default implementation in
6//! `process::real` wraps `std::process::Child` and goes through
7//! `harn_vm::process_sandbox`. Tests install a `MockSpawner` (see
8//! `process::mock`) that returns deterministic [`MockProcess`] handles,
9//! so process-tool tests no longer depend on real subprocess scheduling
10//! or wall-clock timing.
11
12use std::collections::BTreeMap;
13use std::io::{self, Read, Write};
14use std::path::PathBuf;
15use std::sync::Arc;
16use std::time::Duration;
17
18pub use harn_vm::op_interrupt::{ProcessCleanupChild, ProcessCleanupReport};
19
20/// Resolved exit information for a finished process. Mirrors the subset of
21/// `std::process::ExitStatus` that the process-tool builtins surface.
22#[derive(Clone, Copy, Debug, PartialEq, Eq)]
23pub struct ExitStatus {
24 /// Exit code from `exit(2)` / `_exit(2)`. `None` means the process did not
25 /// exit normally (it was terminated by a signal).
26 pub code: Option<i32>,
27 /// Unix signal that terminated the process, when applicable. `None` on
28 /// non-Unix targets or when the process exited normally.
29 pub signal: Option<i32>,
30}
31
32impl ExitStatus {
33 /// Construct a normal exit with the given code.
34 pub fn from_code(code: i32) -> Self {
35 Self {
36 code: Some(code),
37 signal: None,
38 }
39 }
40
41 /// Construct a signal-terminated exit.
42 pub fn from_signal(signal: i32) -> Self {
43 Self {
44 code: None,
45 signal: Some(signal),
46 }
47 }
48}
49
50/// How a spawn should treat the parent's environment. Mirrors the legacy
51/// `EnvMode` from `tools/proc.rs`.
52#[derive(Clone, Copy, Debug, PartialEq, Eq)]
53pub enum EnvMode {
54 /// Inherit the parent's environment, then apply `env` overrides.
55 InheritClean,
56 /// Clear the environment, then apply `env`.
57 Replace,
58 /// Inherit the parent's environment and apply `env` (default behaviour).
59 Patch,
60}
61
62/// Explicit secret-bearing environment variable names that the agent's
63/// `run`/`command_run` tool must never leak into a child process (and thus
64/// into the model context, since the child's stdout is returned to the
65/// model as the tool result). These are matched case-insensitively in
66/// addition to the suffix patterns in [`is_sensitive_env_name`].
67const EXPLICIT_SENSITIVE_ENV_NAMES: &[&str] = &[
68 "GITHUB_TOKEN",
69 "GH_TOKEN",
70 "HARN_CLOUD_API_KEY",
71 "BURIN_ADMIN_TOKEN",
72 "AWS_SECRET_ACCESS_KEY",
73 "AWS_SESSION_TOKEN",
74];
75
76/// Provider-namespace prefixes whose entire family of variables is treated
77/// as secret-bearing (e.g. `ANTHROPIC_API_KEY`, `OPENAI_ORG_ID`). Matched
78/// case-insensitively against the start of the variable name.
79const SENSITIVE_ENV_PREFIXES: &[&str] = &[
80 "ANTHROPIC_",
81 "OPENAI_",
82 "OPENROUTER_",
83 "FIREWORKS_",
84 "TOGETHER_",
85 "XAI_",
86 "GROQ_",
87];
88
89/// Returns `true` when an environment variable name looks like it carries a
90/// secret (provider API key, access token, OAuth client secret, etc.) and so
91/// must be stripped from a child process spawned by the agent's `run` tool.
92///
93/// The check is deliberately conservative about credentials but permissive
94/// about ordinary build/toolchain variables: `PATH`, `HOME`, `LANG`,
95/// `CARGO_HOME`, language toolchain vars, etc. are *not* sensitive and stay
96/// in the child environment so builds and tests still work.
97///
98/// Matching is case-insensitive and covers:
99/// - suffix patterns `_API_KEY`, `_TOKEN`, `_SECRET`, `_KEY`;
100/// - the provider prefixes in [`SENSITIVE_ENV_PREFIXES`];
101/// - the explicit names in [`EXPLICIT_SENSITIVE_ENV_NAMES`].
102pub fn is_sensitive_env_name(name: &str) -> bool {
103 let upper = name.to_ascii_uppercase();
104 if EXPLICIT_SENSITIVE_ENV_NAMES.contains(&upper.as_str()) {
105 return true;
106 }
107 if SENSITIVE_ENV_PREFIXES
108 .iter()
109 .any(|prefix| upper.starts_with(prefix))
110 {
111 return true;
112 }
113 // Suffix patterns catch the long tail of provider/service credentials
114 // (`*_API_KEY`, `*_TOKEN`, `*_SECRET`, `*_KEY`) without enumerating every
115 // vendor. `_KEY` is last and broadest; it still excludes benign names
116 // like `PATH`/`HOME`/`LANG` that don't end in these suffixes.
117 upper.ends_with("_API_KEY")
118 || upper.ends_with("_TOKEN")
119 || upper.ends_with("_SECRET")
120 || upper.ends_with("_KEY")
121}
122
123/// Parameters describing a single spawn. The spawner is responsible for any
124/// sandbox setup (Linux seccomp/landlock, macOS sandbox-exec, etc.) and for
125/// configuring the child's process group when requested.
126#[derive(Clone, Debug)]
127pub struct SpawnSpec {
128 /// Builtin name surfaced in error messages (e.g. `"hostlib_tools_run_command"`).
129 pub builtin: &'static str,
130 /// Program to execute. Must be non-empty (validated by the spawner).
131 pub program: String,
132 /// Arguments to pass to the program.
133 pub args: Vec<String>,
134 /// Working directory for the child. `None` inherits the parent's cwd.
135 pub cwd: Option<PathBuf>,
136 /// Environment overrides to apply (interpretation depends on `env_mode`).
137 pub env: BTreeMap<String, String>,
138 /// Variable names to strip from the inherited environment before `env`
139 /// overrides apply. A key present in both `env_remove` and `env` ends up
140 /// set (explicit overrides win). No effect under `EnvMode::Replace`,
141 /// which already starts from an empty environment.
142 pub env_remove: Vec<String>,
143 /// How to treat the parent's environment.
144 pub env_mode: EnvMode,
145 /// Whether stdin will be written to (`true`) or piped to /dev/null (`false`).
146 pub use_stdin: bool,
147 /// Set the child's process group to its own pid (`setpgid(0, 0)`). Used
148 /// for long-running handles so the kill-by-pgid path works.
149 pub configure_process_group: bool,
150}
151
152/// Handle to a running (or finished) process. Used by both the synchronous
153/// `proc::run` path and the long-running waiter thread.
154///
155/// The trait is intentionally small: the legacy code already managed
156/// stdout/stderr drain on dedicated threads, and stdin is written once after
157/// spawn — wrapping those reads/writes via boxed trait objects keeps the
158/// real and mock paths uniform without forcing async into the rest of the
159/// hostlib.
160pub trait ProcessHandle: Send {
161 /// OS process id, when available.
162 fn pid(&self) -> Option<u32>;
163
164 /// OS process group id, when available. Falls back to [`Self::pid`] on
165 /// platforms that don't expose process groups.
166 fn process_group_id(&self) -> Option<u32>;
167
168 /// Returns a killer that can terminate the process even after the
169 /// stdout/stderr/wait halves have been moved into the waiter thread.
170 fn killer(&self) -> Arc<dyn ProcessKiller>;
171
172 /// Take ownership of the stdin pipe, if the spawn requested one.
173 fn take_stdin(&mut self) -> Option<Box<dyn Write + Send>>;
174
175 /// Take ownership of the stdout reader.
176 fn take_stdout(&mut self) -> Option<Box<dyn Read + Send>>;
177
178 /// Take ownership of the stderr reader.
179 fn take_stderr(&mut self) -> Option<Box<dyn Read + Send>>;
180
181 /// Wait for the process to exit, optionally with a timeout, while
182 /// polling `interrupt`. On timeout the spawner kills the child process
183 /// tree (SIGKILL, historical semantics) and reports
184 /// [`WaitOutcome::TimedOut`]. When `interrupt` returns `true` (scope
185 /// cancellation, `deadline` expiry — see `harn_vm::op_interrupt`) the
186 /// spawner gracefully terminates the child's process tree (SIGTERM,
187 /// then SIGKILL after `harn_vm::op_interrupt::SUBPROCESS_TERM_GRACE`)
188 /// and reports [`WaitOutcome::Interrupted`].
189 fn wait_with_timeout(
190 &mut self,
191 timeout: Option<Duration>,
192 interrupt: &dyn Fn() -> bool,
193 ) -> io::Result<WaitOutcome>;
194
195 /// Block until the process exits, no timeout, no interrupt polling.
196 /// Used by the background (`background: true`) waiter thread, whose
197 /// children deliberately outlive scope cancellation and deadlines.
198 fn wait(&mut self) -> io::Result<ExitStatus>;
199}
200
201/// How a [`ProcessHandle::wait_with_timeout`] ended.
202#[derive(Clone, Debug, PartialEq, Eq)]
203pub enum WaitOutcome {
204 /// The process exited on its own.
205 Exited(ExitStatus),
206 /// The timeout elapsed; the spawner killed the child process tree.
207 TimedOut(ProcessCleanupReport),
208 /// The interrupt callback fired; the spawner gracefully terminated the
209 /// child's process tree.
210 Interrupted(ProcessCleanupReport),
211}
212
213/// Kill side of a [`ProcessHandle`]. Cloneable via `Arc` so cancellation
214/// works after the waiter thread has taken ownership of the handle itself.
215pub trait ProcessKiller: Send + Sync {
216 /// Send SIGKILL to the process tree/group when applicable.
217 fn kill(&self) -> ProcessCleanupReport;
218}
219
220/// Spawner abstraction: produces [`ProcessHandle`] instances.
221pub trait ProcessSpawner: Send + Sync {
222 /// Spawn the configured process.
223 fn spawn(&self, spec: SpawnSpec) -> Result<Box<dyn ProcessHandle>, ProcessError>;
224}
225
226/// Errors raised by a spawner. These map onto `HostlibError::Backend` /
227/// `HostlibError::InvalidParameter` at the call site so the script-side
228/// surface stays unchanged.
229#[derive(Clone, Debug, thiserror::Error)]
230pub enum ProcessError {
231 /// `argv` was empty or otherwise malformed.
232 #[error("invalid argv: {0}")]
233 InvalidArgv(String),
234 /// Sandbox setup (e.g. landlock policy assembly) failed.
235 #[error("sandbox setup failed: {0}")]
236 SandboxSetup(String),
237 /// Sandbox rejected the supplied cwd.
238 #[error("sandbox cwd rejected: {0}")]
239 SandboxCwd(String),
240 /// Sandbox rejected the spawn at execve time.
241 #[error("sandbox rejected spawn: {0}")]
242 SandboxSpawn(String),
243 /// Generic spawn failure (typically io::Error from `Command::spawn`).
244 #[error("spawn failed: {0}")]
245 Spawn(String),
246 /// A never-approvable UNIVERSAL catastrophic command (machine/disk/data
247 /// destruction) was rejected by the floor BEFORE spawning. Enforced
248 /// unconditionally at [`spawn_process`] — no `command_policy` required —
249 /// so it is universal across every hostlib process tool, embedders, and
250 /// standalone Harn. See
251 /// [`harn_vm::orchestration::universal_catastrophic_reason`].
252 #[error("{0}")]
253 CatastrophicFloor(String),
254}
255
256use std::cell::RefCell;
257
258thread_local! {
259 static THREAD_SPAWNER: RefCell<Option<Arc<dyn ProcessSpawner>>> = const { RefCell::new(None) };
260}
261
262/// Install a per-thread spawner used by `spawn_process` from this thread.
263/// Returns a guard that restores the previous spawner on drop. Tests use
264/// this to install a [`super::mock::MockSpawner`]; production never calls
265/// it (the default real spawner runs whenever no per-thread spawner is
266/// installed).
267///
268/// Thread-local rather than global so parallel test execution is safe.
269/// Process-tool spawns happen on the test's thread; the long-running
270/// waiter threads operate on the handle that was already returned, so
271/// they don't perform spawner lookups themselves.
272pub fn install_spawner(spawner: Arc<dyn ProcessSpawner>) -> SpawnerGuard {
273 let prev = THREAD_SPAWNER.with(|slot| slot.replace(Some(spawner)));
274 SpawnerGuard { prev: Some(prev) }
275}
276
277/// Guard returned by [`install_spawner`]. Restores the previous spawner on
278/// drop so installs nest correctly across tests.
279pub struct SpawnerGuard {
280 // Outer Option distinguishes "guard already restored" (None) from
281 // "guard owes a restore" (Some(_)); inner Option carries the previous
282 // spawner slot value (which can itself be None when no spawner was set).
283 #[allow(clippy::option_option)]
284 prev: Option<Option<Arc<dyn ProcessSpawner>>>,
285}
286
287impl Drop for SpawnerGuard {
288 fn drop(&mut self) {
289 if let Some(prev) = self.prev.take() {
290 THREAD_SPAWNER.with(|slot| {
291 *slot.borrow_mut() = prev;
292 });
293 }
294 }
295}
296
297/// Return the currently installed spawner for this thread, falling back
298/// to the default real spawner.
299pub fn current_spawner() -> Arc<dyn ProcessSpawner> {
300 THREAD_SPAWNER
301 .with(|slot| slot.borrow().clone())
302 .unwrap_or_else(super::real::default_spawner)
303}
304
305/// Spawn a process via the currently installed spawner.
306///
307/// This is the single chokepoint every hostlib process tool funnels through
308/// (`run_command`, `run_test`, `run_build_command`, `manage_packages`, and the
309/// long-running background path). The UNIVERSAL catastrophic-command floor is
310/// enforced HERE, UNCONDITIONALLY — no `command_policy` on the stack is
311/// required — so a machine/disk/data-destroying command (`rm -rf /`, fork bomb,
312/// `mkfs`, `dd of=<device>`, `chmod -R 000`, `truncate -s 0` of a source file,
313/// redirect-over-source, project-root delete) and the textual git-destructive
314/// family (`git reset --hard`, `git clean -fd`, force-push) is rejected before
315/// the child is ever created, on standalone Harn and under every embedder
316/// alike. Structured git builtins remain the reviewed path for legitimate
317/// force-with-lease workflows. The spec's raw `program`/`args` are classified
318/// BEFORE any sandbox wrapper is applied, so a `sandbox-exec`/`bwrap` prefix
319/// can't bury the real command.
320pub fn spawn_process(spec: SpawnSpec) -> Result<Box<dyn ProcessHandle>, ProcessError> {
321 let workspace_roots: Vec<String> = spec
322 .cwd
323 .as_ref()
324 .map(|cwd| vec![cwd.display().to_string()])
325 .unwrap_or_default();
326 if let Some(reason) = harn_vm::orchestration::universal_catastrophic_reason(
327 &spec.program,
328 &spec.args,
329 &workspace_roots,
330 ) {
331 return Err(ProcessError::CatastrophicFloor(reason));
332 }
333 current_spawner().spawn(spec)
334}
335
336#[cfg(test)]
337mod tests {
338 use super::is_sensitive_env_name;
339
340 #[test]
341 fn denies_secret_bearing_names() {
342 // Suffix patterns.
343 assert!(is_sensitive_env_name("ANTHROPIC_API_KEY"));
344 assert!(is_sensitive_env_name("OPENAI_API_KEY"));
345 assert!(is_sensitive_env_name("SOME_VENDOR_TOKEN"));
346 assert!(is_sensitive_env_name("MY_CLIENT_SECRET"));
347 assert!(is_sensitive_env_name("RANDOM_KEY"));
348 // Explicit names.
349 assert!(is_sensitive_env_name("GITHUB_TOKEN"));
350 assert!(is_sensitive_env_name("GH_TOKEN"));
351 assert!(is_sensitive_env_name("HARN_CLOUD_API_KEY"));
352 assert!(is_sensitive_env_name("BURIN_ADMIN_TOKEN"));
353 assert!(is_sensitive_env_name("AWS_SECRET_ACCESS_KEY"));
354 assert!(is_sensitive_env_name("AWS_SESSION_TOKEN"));
355 // Provider prefixes (even without a key/token suffix).
356 assert!(is_sensitive_env_name("OPENROUTER_BASE_URL"));
357 assert!(is_sensitive_env_name("FIREWORKS_ACCOUNT"));
358 assert!(is_sensitive_env_name("TOGETHER_ORG"));
359 assert!(is_sensitive_env_name("XAI_REGION"));
360 assert!(is_sensitive_env_name("GROQ_PROJECT"));
361 }
362
363 #[test]
364 fn allows_benign_build_and_toolchain_names() {
365 assert!(!is_sensitive_env_name("PATH"));
366 assert!(!is_sensitive_env_name("HOME"));
367 assert!(!is_sensitive_env_name("CARGO_HOME"));
368 assert!(!is_sensitive_env_name("LANG"));
369 assert!(!is_sensitive_env_name("LC_ALL"));
370 assert!(!is_sensitive_env_name("TERM"));
371 assert!(!is_sensitive_env_name("USER"));
372 assert!(!is_sensitive_env_name("RUSTUP_HOME"));
373 assert!(!is_sensitive_env_name("CARGO_TARGET_DIR"));
374 assert!(!is_sensitive_env_name("SHELL"));
375 }
376
377 #[test]
378 fn matches_case_insensitively() {
379 assert!(is_sensitive_env_name("anthropic_api_key"));
380 assert!(is_sensitive_env_name("github_token"));
381 assert!(!is_sensitive_env_name("path"));
382 }
383}