relative futex and condvar timeouts can work with isolation
This commit is contained in:
Ralf Jung
parent
a0fbf0d077
commit
c8a5d4b600
@ -90,9 +90,11 @@ pub fn futex<'tcx>(
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let timeout_time = if this.ptr_is_null(timeout.ptr)? {
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None
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} else {
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if op & futex_realtime != 0 {
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this.check_no_isolation(
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"`futex` syscall with `op=FUTEX_WAIT` and non-null timeout",
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"`futex` syscall with `op=FUTEX_WAIT` and non-null timeout with `FUTEX_CLOCK_REALTIME`",
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)?;
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}
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let duration = match this.read_timespec(&timeout)? {
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Some(duration) => duration,
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None => {
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@ -743,8 +743,6 @@ fn pthread_cond_timedwait(
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) -> InterpResult<'tcx> {
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let this = self.eval_context_mut();
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this.check_no_isolation("`pthread_cond_timedwait`")?;
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let id = this.condvar_get_or_create_id(cond_op, CONDVAR_ID_OFFSET)?;
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let mutex_id = this.mutex_get_or_create_id(mutex_op, MUTEX_ID_OFFSET)?;
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let active_thread = this.get_active_thread();
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@ -761,6 +759,7 @@ fn pthread_cond_timedwait(
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};
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let timeout_time = if clock_id == this.eval_libc_i32("CLOCK_REALTIME")? {
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this.check_no_isolation("`pthread_cond_timedwait` with `CLOCK_REALTIME`")?;
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Time::RealTime(SystemTime::UNIX_EPOCH.checked_add(duration).unwrap())
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} else if clock_id == this.eval_libc_i32("CLOCK_MONOTONIC")? {
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Time::Monotonic(this.machine.clock.anchor().checked_add(duration).unwrap())
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@ -254,8 +254,6 @@ fn WaitOnAddress(
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let timeout_time = if timeout_ms == this.eval_windows("c", "INFINITE")?.to_u32()? {
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None
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} else {
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this.check_no_isolation("`WaitOnAddress` with non-infinite timeout")?;
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let duration = Duration::from_millis(timeout_ms.into());
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Some(Time::Monotonic(this.machine.clock.now().checked_add(duration).unwrap()))
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};
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@ -0,0 +1,82 @@
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//@ignore-target-windows: No libc on Windows
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//@ignore-target-apple: pthread_condattr_setclock is not supported on MacOS.
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/// Test that conditional variable timeouts are working properly
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/// with monotonic clocks even under isolation.
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use std::mem::MaybeUninit;
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use std::time::Instant;
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fn test_timed_wait_timeout(clock_id: i32) {
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unsafe {
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let mut attr: MaybeUninit<libc::pthread_condattr_t> = MaybeUninit::uninit();
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assert_eq!(libc::pthread_condattr_init(attr.as_mut_ptr()), 0);
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assert_eq!(libc::pthread_condattr_setclock(attr.as_mut_ptr(), clock_id), 0);
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let mut cond: MaybeUninit<libc::pthread_cond_t> = MaybeUninit::uninit();
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assert_eq!(libc::pthread_cond_init(cond.as_mut_ptr(), attr.as_ptr()), 0);
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assert_eq!(libc::pthread_condattr_destroy(attr.as_mut_ptr()), 0);
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let mut mutex: libc::pthread_mutex_t = libc::PTHREAD_MUTEX_INITIALIZER;
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let mut now_mu: MaybeUninit<libc::timespec> = MaybeUninit::uninit();
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assert_eq!(libc::clock_gettime(clock_id, now_mu.as_mut_ptr()), 0);
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let now = now_mu.assume_init();
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// Waiting for a second... mostly because waiting less requires mich more tricky arithmetic.
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// FIXME: wait less.
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let timeout = libc::timespec { tv_sec: now.tv_sec + 1, tv_nsec: now.tv_nsec };
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assert_eq!(libc::pthread_mutex_lock(&mut mutex as *mut _), 0);
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let current_time = Instant::now();
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assert_eq!(
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libc::pthread_cond_timedwait(cond.as_mut_ptr(), &mut mutex as *mut _, &timeout),
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libc::ETIMEDOUT
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);
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let elapsed_time = current_time.elapsed().as_millis();
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assert!(900 <= elapsed_time && elapsed_time <= 1300);
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// Test calling `pthread_cond_timedwait` again with an already elapsed timeout.
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assert_eq!(
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libc::pthread_cond_timedwait(cond.as_mut_ptr(), &mut mutex as *mut _, &timeout),
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libc::ETIMEDOUT
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);
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// Test that invalid nanosecond values (above 10^9 or negative) are rejected with the
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// correct error code.
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let invalid_timeout_1 = libc::timespec { tv_sec: now.tv_sec + 1, tv_nsec: 1_000_000_000 };
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assert_eq!(
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libc::pthread_cond_timedwait(
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cond.as_mut_ptr(),
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&mut mutex as *mut _,
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&invalid_timeout_1
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),
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libc::EINVAL
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);
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let invalid_timeout_2 = libc::timespec { tv_sec: now.tv_sec + 1, tv_nsec: -1 };
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assert_eq!(
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libc::pthread_cond_timedwait(
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cond.as_mut_ptr(),
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&mut mutex as *mut _,
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&invalid_timeout_2
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),
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libc::EINVAL
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);
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// Test that invalid second values (negative) are rejected with the correct error code.
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let invalid_timeout_3 = libc::timespec { tv_sec: -1, tv_nsec: 0 };
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assert_eq!(
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libc::pthread_cond_timedwait(
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cond.as_mut_ptr(),
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&mut mutex as *mut _,
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&invalid_timeout_3
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),
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libc::EINVAL
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);
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assert_eq!(libc::pthread_mutex_unlock(&mut mutex as *mut _), 0);
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assert_eq!(libc::pthread_mutex_destroy(&mut mutex as *mut _), 0);
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assert_eq!(libc::pthread_cond_destroy(cond.as_mut_ptr()), 0);
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}
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}
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fn main() {
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test_timed_wait_timeout(libc::CLOCK_MONOTONIC);
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}
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@ -0,0 +1,12 @@
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//@ignore-target-apple: park_timeout on macOS uses the system clock
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use std::thread;
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use std::time::{Duration, Instant};
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fn main() {
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let start = Instant::now();
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thread::park_timeout(Duration::from_millis(200));
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// Thanks to deterministic execution, this will wiat *exactly* 200ms (rounded to 1ms).
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assert!((200..201).contains(&start.elapsed().as_millis()));
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}
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