227 lines
6.5 KiB
Rust
227 lines
6.5 KiB
Rust
// ignore-windows: Concurrency on Windows is not supported yet.
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// compile-flags: -Zmiri-ignore-leaks -Zmiri-disable-stacked-borrows
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// The following tests check whether our weak memory emulation produces
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// any inconsistent execution outcomes
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//
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// Due to the random nature of choosing valid stores, it is always
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// possible that our tests spuriously succeeds: even though our weak
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// memory emulation code has incorrectly identified a store in
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// modification order as being valid, it may be never chosen by
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// the RNG and never observed in our tests.
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//
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// To mitigate this, each test is ran enough times such that the chance
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// of spurious success is very low. These tests never supriously fail.
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// Test cases and their consistent outcomes are from
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// http://svr-pes20-cppmem.cl.cam.ac.uk/cppmem/
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// Based on
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// M. Batty, S. Owens, S. Sarkar, P. Sewell and T. Weber,
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// "Mathematizing C++ concurrency", ACM SIGPLAN Notices, vol. 46, no. 1, pp. 55-66, 2011.
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// Available: https://ss265.host.cs.st-andrews.ac.uk/papers/n3132.pdf.
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use std::sync::atomic::AtomicUsize;
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use std::sync::atomic::Ordering::*;
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use std::thread::spawn;
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#[derive(Copy, Clone)]
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struct EvilSend<T>(pub T);
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unsafe impl<T> Send for EvilSend<T> {}
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unsafe impl<T> Sync for EvilSend<T> {}
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// We can't create static items because we need to run each test
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// multiple times
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fn static_atomic(val: usize) -> &'static AtomicUsize {
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let ret = Box::leak(Box::new(AtomicUsize::new(val)));
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ret
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}
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// Spins until it acquires a pre-determined value.
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fn acquires_value(loc: &AtomicUsize, val: usize) -> usize {
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while loc.load(Acquire) != val {
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std::hint::spin_loop();
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}
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val
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}
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fn test_corr() {
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let x = static_atomic(0);
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let y = static_atomic(0);
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let j1 = spawn(move || {
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x.store(1, Relaxed);
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x.store(2, Relaxed);
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});
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let j2 = spawn(move || {
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let r2 = x.load(Relaxed); // -------------------------------------+
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y.store(1, Release); // ---------------------+ |
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r2 // | |
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}); // | |
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// |synchronizes-with |happens-before
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let j3 = spawn(move || { // | |
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acquires_value(&y, 1); // <------------------+ |
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x.load(Relaxed) // <----------------------------------------------+
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// The two reads on x are ordered by hb, so they cannot observe values
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// differently from the modification order. If the first read observed
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// 2, then the second read must observe 2 as well.
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});
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j1.join().unwrap();
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let r2 = j2.join().unwrap();
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let r3 = j3.join().unwrap();
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if r2 == 2 {
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assert_eq!(r3, 2);
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}
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}
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fn test_wrc() {
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let x = static_atomic(0);
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let y = static_atomic(0);
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let j1 = spawn(move || {
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x.store(1, Release); // ---------------------+---------------------+
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}); // | |
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// |synchronizes-with |
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let j2 = spawn(move || { // | |
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acquires_value(&x, 1); // <------------------+ |
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y.store(1, Release); // ---------------------+ |happens-before
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}); // | |
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// |synchronizes-with |
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let j3 = spawn(move || { // | |
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acquires_value(&y, 1); // <------------------+ |
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x.load(Relaxed) // <-----------------------------------------------+
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});
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j1.join().unwrap();
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j2.join().unwrap();
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let r3 = j3.join().unwrap();
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assert_eq!(r3, 1);
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}
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fn test_message_passing() {
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let mut var = 0u32;
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let ptr = &mut var as *mut u32;
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let x = EvilSend(ptr);
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let y = static_atomic(0);
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let j1 = spawn(move || {
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unsafe { *x.0 = 1 }; // -----------------------------------------+
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y.store(1, Release); // ---------------------+ |
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}); // | |
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// |synchronizes-with | happens-before
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let j2 = spawn(move || { // | |
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acquires_value(&y, 1); // <------------------+ |
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unsafe { *x.0 } // <---------------------------------------------+
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});
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j1.join().unwrap();
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let r2 = j2.join().unwrap();
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assert_eq!(r2, 1);
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}
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// LB+acq_rel+acq_rel
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fn test_load_buffering_acq_rel() {
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let x = static_atomic(0);
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let y = static_atomic(0);
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let j1 = spawn(move || {
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let r1 = x.load(Acquire);
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y.store(1, Release);
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r1
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});
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let j2 = spawn(move || {
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let r2 = y.load(Acquire);
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x.store(1, Release);
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r2
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});
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let r1 = j1.join().unwrap();
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let r2 = j2.join().unwrap();
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// 3 consistent outcomes: (0,0), (0,1), (1,0)
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assert_ne!((r1, r2), (1, 1));
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}
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fn test_mixed_access() {
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/*
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int main() {
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atomic_int x = 0;
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{{{
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x.store(1, mo_relaxed);
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}}}
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x.store(2, mo_relaxed);
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{{{
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r1 = x.load(mo_relaxed);
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}}}
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return 0;
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}
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*/
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let x = static_atomic(0);
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spawn(move || {
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x.store(1, Relaxed);
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})
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.join()
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.unwrap();
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x.store(2, Relaxed);
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let r2 = spawn(move || x.load(Relaxed)).join().unwrap();
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assert_eq!(r2, 2);
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}
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// The following two tests are taken from Repairing Sequential Consistency in C/C++11
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// by Lahav et al.
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// https://plv.mpi-sws.org/scfix/paper.pdf
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// Test case SB
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fn test_sc_store_buffering() {
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let x = static_atomic(0);
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let y = static_atomic(0);
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let j1 = spawn(move || {
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x.store(1, SeqCst);
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y.load(SeqCst)
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});
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let j2 = spawn(move || {
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y.store(1, SeqCst);
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x.load(SeqCst)
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});
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let a = j1.join().unwrap();
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let b = j2.join().unwrap();
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assert_ne!((a, b), (0, 0));
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}
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fn test_single_thread() {
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let x = AtomicUsize::new(42);
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assert_eq!(x.load(Relaxed), 42);
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x.store(43, Relaxed);
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assert_eq!(x.load(Relaxed), 43);
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}
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pub fn main() {
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for _ in 0..50 {
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test_single_thread();
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test_mixed_access();
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test_load_buffering_acq_rel();
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test_message_passing();
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test_wrc();
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test_corr();
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test_sc_store_buffering();
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}
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}
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