// ignore-windows: Concurrency on Windows is not supported yet. // compile-flags: -Zmiri-disable-isolation -Zmir-opt-level=0 -Zmiri-disable-weak-memory-emulation -Zmiri-preemption-rate=0 // Note: mir-opt-level set to 0 to prevent the read of stack_var in thread 1 // from being optimized away and preventing the detection of the data-race. use std::ptr::null_mut; use std::sync::atomic::{AtomicPtr, Ordering}; use std::thread::{sleep, spawn}; use std::time::Duration; #[derive(Copy, Clone)] struct EvilSend(pub T); unsafe impl Send for EvilSend {} unsafe impl Sync for EvilSend {} pub fn main() { // Shared atomic pointer let pointer = AtomicPtr::new(null_mut::()); let ptr = EvilSend(&pointer as *const AtomicPtr); // Note: this is scheduler-dependent // the operations need to occur in // order, otherwise the allocation is // not visible to the other-thread to // detect the race: // 1. stack-allocate // 2. atomic_store // 3. atomic_load // 4. write-value // 5. read-value unsafe { let j1 = spawn(move || { // Concurrent allocate the memory. // Uses relaxed semantics to not generate // a release sequence. let pointer = &*ptr.0; let mut stack_var = 0usize; pointer.store(&mut stack_var as *mut _, Ordering::Release); sleep(Duration::from_millis(200)); stack_var //~ ERROR Data race detected between Read on Thread(id = 1) and Write on Thread(id = 2) }); let j2 = spawn(move || { let pointer = &*ptr.0; *pointer.load(Ordering::Acquire) = 3; }); j1.join().unwrap(); j2.join().unwrap(); } }