src/tools/miri/tests/genmc/fail/simple/2w2w_weak.rs - rust - Git at Google

 //@compile-flags: -Zmiri-genmc -Zmiri-disable-stacked-borrows
 //@revisions: sc3_rel1 release4 relaxed4

 // The pass tests "2w2w_3sc_1rel.rs", "2w2w_4rel" and "2w2w_4sc" and the fail test "2w2w_weak.rs" are related.
 //
 // This test has multiple variants using different memory orderings.
 // When using any combination of orderings except using all 4 `SeqCst`, the memory model allows the program to result in (X, Y) == (1, 1).
 // The "pass" variants only check that we get the expected number of executions (3 for all SC, 4 otherwise),
 // and a valid outcome every execution, but do not check that we get all allowed results.
 // This "fail" variant ensures we can explore the execution resulting in (1, 1), with an incorrect assumption that the result (1, 1) is impossible.
 //
 // Miri without GenMC is unable to produce this program execution and thus detect the incorrect assumption, even with `-Zmiri-many-seeds`.
 //
 // To get good coverage, we test the combination with the strongest orderings allowing this result (3 `SeqCst`, 1 `Release`),
 // the weakest orderings (4 `Relaxed`), and one in between (4 `Release`).

 #![no_main]

 #[path = "../../../utils/genmc.rs"]
 mod genmc;

 use std::sync::atomic::AtomicU64;
 use std::sync::atomic::Ordering::{self, *};

 use crate::genmc::{join_pthreads, spawn_pthread_closure};

 static X: AtomicU64 = AtomicU64::new(0);
 static Y: AtomicU64 = AtomicU64::new(0);

 // Strongest orderings allowing result (1, 1).
 #[cfg(seqcst_rel)]
 const STORE_ORD_3: Ordering = SeqCst;
 #[cfg(seqcst_rel)]
 const STORE_ORD_1: Ordering = Release;

 // 4 * `Release`.
 #[cfg(acqrel)]
 const STORE_ORD_3: Ordering = Release;
 #[cfg(acqrel)]
 const STORE_ORD_1: Ordering = Release;

 // Weakest orderings (4 * `Relaxed`).
 #[cfg(not(any(acqrel, seqcst_rel)))]
 const STORE_ORD_3: Ordering = Relaxed;
 #[cfg(not(any(acqrel, seqcst_rel)))]
 const STORE_ORD_1: Ordering = Relaxed;

 #[unsafe(no_mangle)]
 fn miri_start(_argc: isize, _argv: *const *const u8) -> isize {
     unsafe {
         let ids = [
             spawn_pthread_closure(|| {
                 X.store(1, STORE_ORD_3);
                 Y.store(2, STORE_ORD_3);
             }),
             spawn_pthread_closure(|| {
                 Y.store(1, STORE_ORD_1);
                 X.store(2, STORE_ORD_3);
             }),
         ];
         // Join so we can read the final values.
         join_pthreads(ids);

         // We incorrectly assume that the result (1, 1) as unreachable.
         let result = (X.load(Relaxed), Y.load(Relaxed));
         if result == (1, 1) {
             std::process::abort(); //~ ERROR: abnormal termination
         }

         0
     }
 }
	//@compile-flags: -Zmiri-genmc -Zmiri-disable-stacked-borrows
	//@revisions: sc3_rel1 release4 relaxed4

	// The pass tests "2w2w_3sc_1rel.rs", "2w2w_4rel" and "2w2w_4sc" and the fail test "2w2w_weak.rs" are related.
	//
	// This test has multiple variants using different memory orderings.
	// When using any combination of orderings except using all 4 `SeqCst`, the memory model allows the program to result in (X, Y) == (1, 1).
	// The "pass" variants only check that we get the expected number of executions (3 for all SC, 4 otherwise),
	// and a valid outcome every execution, but do not check that we get all allowed results.
	// This "fail" variant ensures we can explore the execution resulting in (1, 1), with an incorrect assumption that the result (1, 1) is impossible.
	//
	// Miri without GenMC is unable to produce this program execution and thus detect the incorrect assumption, even with `-Zmiri-many-seeds`.
	//
	// To get good coverage, we test the combination with the strongest orderings allowing this result (3 `SeqCst`, 1 `Release`),
	// the weakest orderings (4 `Relaxed`), and one in between (4 `Release`).

	#![no_main]

	#[path = "../../../utils/genmc.rs"]
	mod genmc;

	use std::sync::atomic::AtomicU64;
	use std::sync::atomic::Ordering::{self, *};

	use crate::genmc::{join_pthreads, spawn_pthread_closure};

	static X: AtomicU64 = AtomicU64::new(0);
	static Y: AtomicU64 = AtomicU64::new(0);

	// Strongest orderings allowing result (1, 1).
	#[cfg(seqcst_rel)]
	const STORE_ORD_3: Ordering = SeqCst;
	#[cfg(seqcst_rel)]
	const STORE_ORD_1: Ordering = Release;

	// 4 * `Release`.
	#[cfg(acqrel)]
	const STORE_ORD_3: Ordering = Release;
	#[cfg(acqrel)]
	const STORE_ORD_1: Ordering = Release;

	// Weakest orderings (4 * `Relaxed`).
	#[cfg(not(any(acqrel, seqcst_rel)))]
	const STORE_ORD_3: Ordering = Relaxed;
	#[cfg(not(any(acqrel, seqcst_rel)))]
	const STORE_ORD_1: Ordering = Relaxed;

	#[unsafe(no_mangle)]
	fn miri_start(_argc: isize, _argv: const const u8) -> isize {
	unsafe {
	let ids = [
	spawn_pthread_closure(\|\| {
	X.store(1, STORE_ORD_3);
	Y.store(2, STORE_ORD_3);
	}),
	spawn_pthread_closure(\|\| {
	Y.store(1, STORE_ORD_1);
	X.store(2, STORE_ORD_3);
	}),
	];
	// Join so we can read the final values.
	join_pthreads(ids);

	// We incorrectly assume that the result (1, 1) as unreachable.
	let result = (X.load(Relaxed), Y.load(Relaxed));
	if result == (1, 1) {
	std::process::abort(); //~ ERROR: abnormal termination
	}

	0
	}
	}