use crate::setup::{Knobs, ParDatabase, ParDatabaseImpl, WithValue}; use salsa::ParallelDatabase; use std::panic::{self, AssertUnwindSafe}; /// Test where two threads are executing sum. We show that they can /// both be executing sum in parallel by having thread1 wait for /// thread2 to send a signal before it leaves (similarly, thread2 /// waits for thread1 to send a signal before it enters). #[test] fn true_parallel_different_keys() { let mut db = ParDatabaseImpl::default(); db.set_input('a', 100); db.set_input('b', 10); db.set_input('c', 1); // Thread 1 will signal stage 1 when it enters and wait for stage 2. let thread1 = std::thread::spawn({ let db = db.snapshot(); move || { let v = db .knobs() .sum_signal_on_entry .with_value(1, || db.knobs().sum_wait_for_on_exit.with_value(2, || db.sum("a"))); v } }); // Thread 2 will wait_for stage 1 when it enters and signal stage 2 // when it leaves. let thread2 = std::thread::spawn({ let db = db.snapshot(); move || { let v = db .knobs() .sum_wait_for_on_entry .with_value(1, || db.knobs().sum_signal_on_exit.with_value(2, || db.sum("b"))); v } }); assert_eq!(thread1.join().unwrap(), 100); assert_eq!(thread2.join().unwrap(), 10); } /// Add a test that tries to trigger a conflict, where we fetch /// `sum("abc")` from two threads simultaneously, and of them /// therefore has to block. #[test] fn true_parallel_same_keys() { let mut db = ParDatabaseImpl::default(); db.set_input('a', 100); db.set_input('b', 10); db.set_input('c', 1); // Thread 1 will wait_for a barrier in the start of `sum` let thread1 = std::thread::spawn({ let db = db.snapshot(); move || { let v = db .knobs() .sum_signal_on_entry .with_value(1, || db.knobs().sum_wait_for_on_entry.with_value(2, || db.sum("abc"))); v } }); // Thread 2 will wait until Thread 1 has entered sum and then -- // once it has set itself to block -- signal Thread 1 to // continue. This way, we test out the mechanism of one thread // blocking on another. let thread2 = std::thread::spawn({ let db = db.snapshot(); move || { db.knobs().signal.wait_for(1); db.knobs().signal_on_will_block.set(2); db.sum("abc") } }); assert_eq!(thread1.join().unwrap(), 111); assert_eq!(thread2.join().unwrap(), 111); } /// Add a test that tries to trigger a conflict, where we fetch `sum("a")` /// from two threads simultaneously. After `thread2` begins blocking, /// we force `thread1` to panic and should see that propagate to `thread2`. #[test] fn true_parallel_propagate_panic() { let mut db = ParDatabaseImpl::default(); db.set_input('a', 1); // `thread1` will wait_for a barrier in the start of `sum`. Once it can // continue, it will panic. let thread1 = std::thread::spawn({ let db = db.snapshot(); move || { let v = db.knobs().sum_signal_on_entry.with_value(1, || { db.knobs() .sum_wait_for_on_entry .with_value(2, || db.knobs().sum_should_panic.with_value(true, || db.sum("a"))) }); v } }); // `thread2` will wait until `thread1` has entered sum and then -- once it // has set itself to block -- signal `thread1` to continue. let thread2 = std::thread::spawn({ let db = db.snapshot(); move || { db.knobs().signal.wait_for(1); db.knobs().signal_on_will_block.set(2); db.sum("a") } }); let result1 = panic::catch_unwind(AssertUnwindSafe(|| thread1.join().unwrap())); let result2 = panic::catch_unwind(AssertUnwindSafe(|| thread2.join().unwrap())); assert!(result1.is_err()); assert!(result2.is_err()); }