2020-08-29 21:38:37 -05:00
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// ignore-windows: Concurrency on Windows is not supported yet.
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2020-08-31 19:32:14 -05:00
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//! Cause a panic in one thread while another thread is unwinding. This checks
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//! that separate threads have their own panicking state.
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2020-08-29 21:38:37 -05:00
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use std::sync::{Arc, Condvar, Mutex};
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use std::thread::{spawn, JoinHandle};
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struct BlockOnDrop(Option<JoinHandle<()>>);
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impl BlockOnDrop {
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fn new(handle: JoinHandle<()>) -> BlockOnDrop {
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BlockOnDrop(Some(handle))
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}
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}
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impl Drop for BlockOnDrop {
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fn drop(&mut self) {
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2020-08-31 19:32:14 -05:00
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eprintln!("Thread 2 blocking on thread 1");
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2020-08-29 21:38:37 -05:00
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let _ = self.0.take().unwrap().join();
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2020-08-31 19:32:14 -05:00
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eprintln!("Thread 1 has exited");
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2020-08-29 21:38:37 -05:00
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}
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}
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fn main() {
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let t1_started_pair = Arc::new((Mutex::new(false), Condvar::new()));
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let t2_started_pair = Arc::new((Mutex::new(false), Condvar::new()));
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let t1_continue_mutex = Arc::new(Mutex::new(()));
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let t1_continue_guard = t1_continue_mutex.lock();
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let t1 = {
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let t1_started_pair = t1_started_pair.clone();
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let t1_continue_mutex = t1_continue_mutex.clone();
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spawn(move || {
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2020-08-31 19:32:14 -05:00
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eprintln!("Thread 1 starting, will block on mutex");
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2020-08-29 21:38:37 -05:00
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let (mutex, condvar) = &*t1_started_pair;
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*mutex.lock().unwrap() = true;
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condvar.notify_one();
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drop(t1_continue_mutex.lock());
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panic!("panic in thread 1");
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})
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};
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2020-08-31 19:32:14 -05:00
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// Wait for thread 1 to signal it has started.
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let (t1_started_mutex, t1_started_condvar) = &*t1_started_pair;
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let mut t1_started_guard = t1_started_mutex.lock().unwrap();
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while !*t1_started_guard {
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t1_started_guard = t1_started_condvar.wait(t1_started_guard).unwrap();
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}
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eprintln!("Thread 1 reported it has started");
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// Thread 1 should now be blocked waiting on t1_continue_mutex.
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2020-08-29 21:38:37 -05:00
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let t2 = {
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let t2_started_pair = t2_started_pair.clone();
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let block_on_drop = BlockOnDrop::new(t1);
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spawn(move || {
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let _ = block_on_drop;
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let (mutex, condvar) = &*t2_started_pair;
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*mutex.lock().unwrap() = true;
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condvar.notify_one();
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panic!("panic in thread 2");
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})
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};
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// Wait for thread 2 to signal it has started.
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let (t2_started_mutex, t2_started_condvar) = &*t2_started_pair;
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let mut t2_started_guard = t2_started_mutex.lock().unwrap();
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while !*t2_started_guard {
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t2_started_guard = t2_started_condvar.wait(t2_started_guard).unwrap();
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}
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2020-08-31 19:32:14 -05:00
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eprintln!("Thread 2 reported it has started");
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2020-08-29 21:38:37 -05:00
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// Thread 2 should now have already panicked and be in the middle of
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// unwinding. It should now be blocked on joining thread 1.
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// Unlock t1_continue_mutex, and allow thread 1 to proceed.
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2020-08-31 19:32:14 -05:00
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eprintln!("Unlocking mutex");
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2020-08-29 21:38:37 -05:00
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drop(t1_continue_guard);
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// Thread 1 will panic the next time it is scheduled. This will test the
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// behavior of interest to this test, whether Miri properly handles
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// concurrent panics in two different threads.
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// Block the main thread on waiting to join thread 2. Thread 2 should
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// already be blocked on joining thread 1, so thread 1 will be scheduled
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// to run next, as it is the only ready thread.
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assert!(t2.join().is_err());
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2020-08-31 19:32:14 -05:00
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eprintln!("Thread 2 has exited");
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2020-08-29 21:38:37 -05:00
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}
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