// Copyright 2013 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 ( "flag" . "runtime" "testing" "time" "unsafe" ) func TestMemStats(t *testing.T) { t.Skip("skipping test with gccgo") // Make sure there's at least one forced GC. GC() // Test that MemStats has sane values. st := new(MemStats) ReadMemStats(st) // Everything except HeapReleased, HeapIdle, and NumGC, // because they indeed can be 0. if st.Alloc == 0 || st.TotalAlloc == 0 || st.Sys == 0 || st.Lookups == 0 || st.Mallocs == 0 || st.Frees == 0 || st.HeapAlloc == 0 || st.HeapSys == 0 || st.HeapInuse == 0 || st.HeapObjects == 0 || st.StackInuse == 0 || st.StackSys == 0 || st.MSpanInuse == 0 || st.MSpanSys == 0 || st.MCacheInuse == 0 || st.MCacheSys == 0 || st.BuckHashSys == 0 || st.GCSys == 0 || st.OtherSys == 0 || st.NextGC == 0 || st.NumForcedGC == 0 { t.Fatalf("Zero value: %+v", *st) } if st.Alloc > 1e10 || st.TotalAlloc > 1e11 || st.Sys > 1e10 || st.Lookups > 1e10 || st.Mallocs > 1e10 || st.Frees > 1e10 || st.HeapAlloc > 1e10 || st.HeapSys > 1e10 || st.HeapIdle > 1e10 || st.HeapInuse > 1e10 || st.HeapObjects > 1e10 || st.StackInuse > 1e10 || st.StackSys > 1e10 || st.MSpanInuse > 1e10 || st.MSpanSys > 1e10 || st.MCacheInuse > 1e10 || st.MCacheSys > 1e10 || st.BuckHashSys > 1e10 || st.GCSys > 1e10 || st.OtherSys > 1e10 || st.NextGC > 1e10 || st.NumGC > 1e9 || st.NumForcedGC > 1e9 || st.PauseTotalNs > 1e11 { t.Fatalf("Insanely high value (overflow?): %+v", *st) } if st.Sys != st.HeapSys+st.StackSys+st.MSpanSys+st.MCacheSys+ st.BuckHashSys+st.GCSys+st.OtherSys { t.Fatalf("Bad sys value: %+v", *st) } if st.HeapIdle+st.HeapInuse != st.HeapSys { t.Fatalf("HeapIdle(%d) + HeapInuse(%d) should be equal to HeapSys(%d), but isn't.", st.HeapIdle, st.HeapInuse, st.HeapSys) } if lpe := st.PauseEnd[int(st.NumGC+255)%len(st.PauseEnd)]; st.LastGC != lpe { t.Fatalf("LastGC(%d) != last PauseEnd(%d)", st.LastGC, lpe) } var pauseTotal uint64 for _, pause := range st.PauseNs { pauseTotal += pause } if int(st.NumGC) < len(st.PauseNs) { // We have all pauses, so this should be exact. if st.PauseTotalNs != pauseTotal { t.Fatalf("PauseTotalNs(%d) != sum PauseNs(%d)", st.PauseTotalNs, pauseTotal) } for i := int(st.NumGC); i < len(st.PauseNs); i++ { if st.PauseNs[i] != 0 { t.Fatalf("Non-zero PauseNs[%d]: %+v", i, st) } if st.PauseEnd[i] != 0 { t.Fatalf("Non-zero PauseEnd[%d]: %+v", i, st) } } } else { if st.PauseTotalNs < pauseTotal { t.Fatalf("PauseTotalNs(%d) < sum PauseNs(%d)", st.PauseTotalNs, pauseTotal) } } if st.NumForcedGC > st.NumGC { t.Fatalf("NumForcedGC(%d) > NumGC(%d)", st.NumForcedGC, st.NumGC) } } func TestStringConcatenationAllocs(t *testing.T) { t.Skip("skipping test with gccgo") n := testing.AllocsPerRun(1e3, func() { b := make([]byte, 10) for i := 0; i < 10; i++ { b[i] = byte(i) + '0' } s := "foo" + string(b) if want := "foo0123456789"; s != want { t.Fatalf("want %v, got %v", want, s) } }) // Only string concatenation allocates. if n != 1 { t.Fatalf("want 1 allocation, got %v", n) } } func TestTinyAlloc(t *testing.T) { const N = 16 var v [N]unsafe.Pointer for i := range v { v[i] = unsafe.Pointer(new(byte)) } chunks := make(map[uintptr]bool, N) for _, p := range v { chunks[uintptr(p)&^7] = true } if len(chunks) == N { t.Fatal("no bytes allocated within the same 8-byte chunk") } } var mallocSink uintptr func BenchmarkMalloc8(b *testing.B) { var x uintptr for i := 0; i < b.N; i++ { p := new(int64) x ^= uintptr(unsafe.Pointer(p)) } mallocSink = x } func BenchmarkMalloc16(b *testing.B) { var x uintptr for i := 0; i < b.N; i++ { p := new([2]int64) x ^= uintptr(unsafe.Pointer(p)) } mallocSink = x } func BenchmarkMallocTypeInfo8(b *testing.B) { var x uintptr for i := 0; i < b.N; i++ { p := new(struct { p [8 / unsafe.Sizeof(uintptr(0))]*int }) x ^= uintptr(unsafe.Pointer(p)) } mallocSink = x } func BenchmarkMallocTypeInfo16(b *testing.B) { var x uintptr for i := 0; i < b.N; i++ { p := new(struct { p [16 / unsafe.Sizeof(uintptr(0))]*int }) x ^= uintptr(unsafe.Pointer(p)) } mallocSink = x } var n = flag.Int("n", 1000, "number of goroutines") func BenchmarkGoroutineSelect(b *testing.B) { quit := make(chan struct{}) read := func(ch chan struct{}) { for { select { case _, ok := <-ch: if !ok { return } case <-quit: return } } } benchHelper(b, *n, read) } func BenchmarkGoroutineBlocking(b *testing.B) { read := func(ch chan struct{}) { for { if _, ok := <-ch; !ok { return } } } benchHelper(b, *n, read) } func BenchmarkGoroutineForRange(b *testing.B) { read := func(ch chan struct{}) { for _ = range ch { } } benchHelper(b, *n, read) } func benchHelper(b *testing.B, n int, read func(chan struct{})) { m := make([]chan struct{}, n) for i := range m { m[i] = make(chan struct{}, 1) go read(m[i]) } b.StopTimer() b.ResetTimer() GC() for i := 0; i < b.N; i++ { for _, ch := range m { if ch != nil { ch <- struct{}{} } } time.Sleep(10 * time.Millisecond) b.StartTimer() GC() b.StopTimer() } for _, ch := range m { close(ch) } time.Sleep(10 * time.Millisecond) } func BenchmarkGoroutineIdle(b *testing.B) { quit := make(chan struct{}) fn := func() { <-quit } for i := 0; i < *n; i++ { go fn() } GC() b.ResetTimer() for i := 0; i < b.N; i++ { GC() } b.StopTimer() close(quit) time.Sleep(10 * time.Millisecond) }