//! Test for cycle recover spread across two threads. //! See `../cycles.rs` for a complete listing of cycle tests, //! both intra and cross thread. use crate::setup::{Knobs, ParDatabaseImpl}; use salsa::ParallelDatabase; // Recover cycle test: // // The pattern is as follows. // // Thread A Thread B // -------- -------- // a1 b1 // | wait for stage 1 (blocks) // signal stage 1 | // wait for stage 2 (blocks) (unblocked) // | | // | b2 // | b3 // | a1 (blocks -> stage 2) // (unblocked) | // a2 (cycle detected) | // b3 recovers // b2 resumes // b1 panics because bug #[test] fn parallel_cycle_mid_recovers() { let db = ParDatabaseImpl::default(); db.knobs().signal_on_will_block.set(2); let thread_a = std::thread::spawn({ let db = db.snapshot(); move || db.a1(1) }); let thread_b = std::thread::spawn({ let db = db.snapshot(); move || db.b1(1) }); // We expect that the recovery function yields // `1 * 20 + 2`, which is returned (and forwarded) // to b1, and from there to a2 and a1. assert_eq!(thread_a.join().unwrap(), 22); assert_eq!(thread_b.join().unwrap(), 22); } #[salsa::query_group(ParallelCycleMidRecovers)] pub(crate) trait TestDatabase: Knobs { fn a1(&self, key: i32) -> i32; fn a2(&self, key: i32) -> i32; #[salsa::cycle(recover_b1)] fn b1(&self, key: i32) -> i32; fn b2(&self, key: i32) -> i32; #[salsa::cycle(recover_b3)] fn b3(&self, key: i32) -> i32; } fn recover_b1(_db: &dyn TestDatabase, _cycle: &salsa::Cycle, key: &i32) -> i32 { tracing::debug!("recover_b1"); key * 20 + 2 } fn recover_b3(_db: &dyn TestDatabase, _cycle: &salsa::Cycle, key: &i32) -> i32 { tracing::debug!("recover_b1"); key * 200 + 2 } fn a1(db: &dyn TestDatabase, key: i32) -> i32 { // tell thread b we have started db.signal(1); // wait for thread b to block on a1 db.wait_for(2); db.a2(key) } fn a2(db: &dyn TestDatabase, key: i32) -> i32 { // create the cycle db.b1(key) } fn b1(db: &dyn TestDatabase, key: i32) -> i32 { // wait for thread a to have started db.wait_for(1); db.b2(key); 0 } fn b2(db: &dyn TestDatabase, key: i32) -> i32 { // will encounter a cycle but recover db.b3(key); db.b1(key); // hasn't recovered yet 0 } fn b3(db: &dyn TestDatabase, key: i32) -> i32 { // will block on thread a, signaling stage 2 db.a1(key) }