uucore: process: fix exit status processing (#1743)

* uucore: process: fix exit status processing * tests: timeout: check whether subcommand exit codes are returned
2024-12-14 07:12:44 +00:00 · 2021-02-23 01:21:01 -08:00 · 2021-02-23 01:21:01 -08:00 · 5431e947bc
commit 5431e947bc
parent 7e5d9ee32d
3 changed files with 53 additions and 44 deletions
--- a/src/uucore/src/lib/features/process.rs
+++ b/src/uucore/src/lib/features/process.rs
@ -9,11 +9,11 @@
 // spell-checker:ignore (vars) cvar exitstatus
 // spell-checker:ignore (sys/unix) WIFSIGNALED

-use libc::{c_int, gid_t, pid_t, uid_t};
+use libc::{gid_t, pid_t, uid_t};
 use std::fmt;
 use std::io;
 use std::process::Child;
-use std::sync::{Arc, Condvar, Mutex};
+use std::process::ExitStatus as StdExitStatus;
 use std::thread;
 use std::time::{Duration, Instant};

@ -41,13 +41,18 @@ pub enum ExitStatus {
 }

 impl ExitStatus {
-    fn from_status(status: c_int) -> ExitStatus {
-        if status & 0x7F != 0 {
-            // WIFSIGNALED(status) == terminating by/with unhandled signal
-            ExitStatus::Signal(status & 0x7F)
-        } else {
-            ExitStatus::Code(status & 0xFF00 >> 8)
+    fn from_std_status(status: StdExitStatus) -> Self {
+        #[cfg(unix)]
+        {
+            use std::os::unix::process::ExitStatusExt;
+
+            if let Some(signal) = status.signal() {
+                return ExitStatus::Signal(signal);
+            }
        }
+
+        // NOTE: this should never fail as we check if the program exited through a signal above
+        ExitStatus::Code(status.code().unwrap())
    }

    pub fn success(&self) -> bool {
@ -100,47 +105,25 @@ impl ChildExt for Child {
    }

    fn wait_or_timeout(&mut self, timeout: Duration) -> io::Result<Option<ExitStatus>> {
-        // The result will be written to that Option, protected by a Mutex
-        // Then the Condvar will be signaled
-        let state = Arc::new((
-            Mutex::new(Option::None::<io::Result<ExitStatus>>),
-            Condvar::new(),
-        ));
+        // .try_wait() doesn't drop stdin, so we do it manually
+        drop(self.stdin.take());

-        // Start the waiting thread
-        let state_th = state.clone();
-        let pid_th = self.id();
-        thread::spawn(move || {
-            let &(ref lock_th, ref cvar_th) = &*state_th;
-            // Child::wait() would need a &mut to self, can't use that...
-            // use waitpid() directly, with our own ExitStatus
-            let mut status: c_int = 0;
-            let r = unsafe { libc::waitpid(pid_th as i32, &mut status, 0) };
-            // Fill the Option and notify on the Condvar
-            let mut exitstatus_th = lock_th.lock().unwrap();
-            if r != pid_th as c_int {
-                *exitstatus_th = Some(Err(io::Error::last_os_error()));
-            } else {
-                let s = ExitStatus::from_status(status);
-                *exitstatus_th = Some(Ok(s));
-            }
-            cvar_th.notify_one();
-        });
-
-        // Main thread waits
-        let &(ref lock, ref cvar) = &*state;
-        let mut exitstatus = lock.lock().unwrap();
-        // Condvar::wait_timeout_ms() can wake too soon, in this case wait again
        let start = Instant::now();
        loop {
-            if let Some(exitstatus) = exitstatus.take() {
-                return exitstatus.map(Some);
+            if let Some(status) = self.try_wait()? {
+                return Ok(Some(ExitStatus::from_std_status(status)));
            }
+
            if start.elapsed() >= timeout {
-                return Ok(None);
+                break;
            }
-            let cvar_timeout = timeout - start.elapsed();
-            exitstatus = cvar.wait_timeout(exitstatus, cvar_timeout).unwrap().0;
+
+            // XXX: this is kinda gross, but it's cleaner than starting a thread just to wait
+            //      (which was the previous solution).  We might want to use a different duration
+            //      here as well
+            thread::sleep(Duration::from_millis(100));
        }
+
+        Ok(None)
    }
 }
--- a/tests/by-util/test_timeout.rs
+++ b/tests/by-util/test_timeout.rs
@ -1 +1,18 @@
-// ToDO: add tests
+use crate::common::util::*;
+
+// FIXME: this depends on the system having true and false in PATH
+//        the best solution is probably to generate some test binaries that we can call for any
+//        utility that requires executing another program (kill, for instance)
+#[test]
+fn test_subcommand_retcode() {
+    new_ucmd!()
+        .arg("1")
+        .arg("true")
+        .succeeds();
+
+    new_ucmd!()
+        .arg("1")
+        .arg("false")
+        .run()
+        .status_code(1);
+}
--- a/tests/common/util.rs
+++ b/tests/common/util.rs
@ -69,6 +69,8 @@ pub fn repeat_str(s: &str, n: u32) -> String {
 pub struct CmdResult {
    //tmpd is used for convenience functions for asserts against fixtures
    tmpd: Option<Rc<TempDir>>,
+    /// exit status for command (if there is one)
+    pub code: Option<i32>,
    /// zero-exit from running the Command?
    /// see [`success`]
    pub success: bool,
@ -91,6 +93,12 @@ impl CmdResult {
        Box::new(self)
    }

+    /// asserts that the command's exit code is the same as the given one
+    pub fn status_code(&self, code: i32) -> Box<&CmdResult> {
+        assert!(self.code == Some(code));
+        Box::new(self)
+    }
+
    /// asserts that the command resulted in empty (zero-length) stderr stream output
    /// generally, it's better to use stdout_only() instead,
    /// but you might find yourself using this function if
@ -573,6 +581,7 @@ impl UCommand {

        CmdResult {
            tmpd: self.tmpd.clone(),
+            code: prog.status.code(),
            success: prog.status.success(),
            stdout: from_utf8(&prog.stdout).unwrap().to_string(),
            stderr: from_utf8(&prog.stderr).unwrap().to_string(),