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// Copyright 2019 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package runtime_test import ( "fmt" . "runtime" "sync" "sync/atomic" "testing" ) // TestSemaHandoff checks that when semrelease+handoff is // requested, the G that releases the semaphore yields its // P directly to the first waiter in line. // See issue 33747 for discussion. func TestSemaHandoff(t *testing.T) { const iter = 10000 ok := 0 for i := 0; i < iter; i++ { if testSemaHandoff() { ok++ } } // As long as two thirds of handoffs are direct, we // consider the test successful. The scheduler is // nondeterministic, so this test checks that we get the // desired outcome in a significant majority of cases. // The actual ratio of direct handoffs is much higher // (>90%) but we use a lower threshold to minimize the // chances that unrelated changes in the runtime will // cause the test to fail or become flaky. if ok < iter*2/3 { t.Fatal("direct handoff < 2/3:", ok, iter) } } func TestSemaHandoff1(t *testing.T) { if GOMAXPROCS(-1) <= 1 { t.Skip("GOMAXPROCS <= 1") } defer GOMAXPROCS(GOMAXPROCS(-1)) GOMAXPROCS(1) TestSemaHandoff(t) } func TestSemaHandoff2(t *testing.T) { if GOMAXPROCS(-1) <= 2 { t.Skip("GOMAXPROCS <= 2") } defer GOMAXPROCS(GOMAXPROCS(-1)) GOMAXPROCS(2) TestSemaHandoff(t) } func testSemaHandoff() bool { var sema, res uint32 done := make(chan struct{}) // We're testing that the current goroutine is able to yield its time slice // to another goroutine. Stop the current goroutine from migrating to // another CPU where it can win the race (and appear to have not yielded) by // keeping the CPUs slightly busy. var wg sync.WaitGroup for i := 0; i < GOMAXPROCS(-1); i++ { wg.Add(1) go func() { defer wg.Done() for { select { case <-done: return default: } Gosched() } }() } wg.Add(1) go func() { defer wg.Done() Semacquire(&sema) atomic.CompareAndSwapUint32(&res, 0, 1) Semrelease1(&sema, true, 0) close(done) }() for SemNwait(&sema) == 0 { Gosched() // wait for goroutine to block in Semacquire } // The crux of the test: we release the semaphore with handoff // and immediately perform a CAS both here and in the waiter; we // want the CAS in the waiter to execute first. Semrelease1(&sema, true, 0) atomic.CompareAndSwapUint32(&res, 0, 2) wg.Wait() // wait for goroutines to finish to avoid data races return res == 1 // did the waiter run first? } func BenchmarkSemTable(b *testing.B) { for _, n := range []int{1000, 2000, 4000, 8000} { b.Run(fmt.Sprintf("OneAddrCollision/n=%d", n), func(b *testing.B) { tab := Escape(new(SemTable)) u := make([]uint32, SemTableSize+1) b.ResetTimer() for j := 0; j < b.N; j++ { // Simulate two locks colliding on the same semaRoot. // // Specifically enqueue all the waiters for the first lock, // then all the waiters for the second lock. // // Then, dequeue all the waiters from the first lock, then // the second. // // Each enqueue/dequeue operation should be O(1), because // there are exactly 2 locks. This could be O(n) if all // the waiters for both locks are on the same list, as it // once was. for i := 0; i < n; i++ { if i < n/2 { tab.Enqueue(&u[0]) } else { tab.Enqueue(&u[SemTableSize]) } } for i := 0; i < n; i++ { var ok bool if i < n/2 { ok = tab.Dequeue(&u[0]) } else { ok = tab.Dequeue(&u[SemTableSize]) } if !ok { b.Fatal("failed to dequeue") } } } }) b.Run(fmt.Sprintf("ManyAddrCollision/n=%d", n), func(b *testing.B) { tab := Escape(new(SemTable)) u := make([]uint32, n*SemTableSize) b.ResetTimer() for j := 0; j < b.N; j++ { // Simulate n locks colliding on the same semaRoot. // // Each enqueue/dequeue operation should be O(log n), because // each semaRoot is a tree. This could be O(n) if it was // some simpler data structure. for i := 0; i < n; i++ { tab.Enqueue(&u[i*SemTableSize]) } for i := 0; i < n; i++ { if !tab.Dequeue(&u[i*SemTableSize]) { b.Fatal("failed to dequeue") } } } }) } }