// 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 debug_test import ( "runtime" . "runtime/debug" "testing" "time" ) func TestReadGCStats(t *testing.T) { defer SetGCPercent(SetGCPercent(-1)) var stats GCStats var mstats runtime.MemStats var min, max time.Duration // First ReadGCStats will allocate, second should not, // especially if we follow up with an explicit garbage collection. stats.PauseQuantiles = make([]time.Duration, 10) ReadGCStats(&stats) runtime.GC() // Assume these will return same data: no GC during ReadGCStats. ReadGCStats(&stats) runtime.ReadMemStats(&mstats) if stats.NumGC != int64(mstats.NumGC) { t.Errorf("stats.NumGC = %d, but mstats.NumGC = %d", stats.NumGC, mstats.NumGC) } if stats.PauseTotal != time.Duration(mstats.PauseTotalNs) { t.Errorf("stats.PauseTotal = %d, but mstats.PauseTotalNs = %d", stats.PauseTotal, mstats.PauseTotalNs) } if stats.LastGC.UnixNano() != int64(mstats.LastGC) { t.Errorf("stats.LastGC.UnixNano = %d, but mstats.LastGC = %d", stats.LastGC.UnixNano(), mstats.LastGC) } n := int(mstats.NumGC) if n > len(mstats.PauseNs) { n = len(mstats.PauseNs) } if len(stats.Pause) != n { t.Errorf("len(stats.Pause) = %d, want %d", len(stats.Pause), n) } else { off := (int(mstats.NumGC) + len(mstats.PauseNs) - 1) % len(mstats.PauseNs) for i := 0; i < n; i++ { dt := stats.Pause[i] if dt != time.Duration(mstats.PauseNs[off]) { t.Errorf("stats.Pause[%d] = %d, want %d", i, dt, mstats.PauseNs[off]) } if max < dt { max = dt } if min > dt || i == 0 { min = dt } off = (off + len(mstats.PauseNs) - 1) % len(mstats.PauseNs) } } q := stats.PauseQuantiles nq := len(q) if q[0] != min || q[nq-1] != max { t.Errorf("stats.PauseQuantiles = [%d, ..., %d], want [%d, ..., %d]", q[0], q[nq-1], min, max) } for i := 0; i < nq-1; i++ { if q[i] > q[i+1] { t.Errorf("stats.PauseQuantiles[%d]=%d > stats.PauseQuantiles[%d]=%d", i, q[i], i+1, q[i+1]) } } // compare memory stats with gc stats: if len(stats.PauseEnd) != n { t.Fatalf("len(stats.PauseEnd) = %d, want %d", len(stats.PauseEnd), n) } off := (int(mstats.NumGC) + len(mstats.PauseEnd) - 1) % len(mstats.PauseEnd) for i := 0; i < n; i++ { dt := stats.PauseEnd[i] if dt.UnixNano() != int64(mstats.PauseEnd[off]) { t.Errorf("stats.PauseEnd[%d] = %d, want %d", i, dt.UnixNano(), mstats.PauseEnd[off]) } off = (off + len(mstats.PauseEnd) - 1) % len(mstats.PauseEnd) } } var big = make([]byte, 1<<20) func TestFreeOSMemory(t *testing.T) { var ms1, ms2 runtime.MemStats if big == nil { t.Skip("test is not reliable when run multiple times") } big = nil runtime.GC() runtime.ReadMemStats(&ms1) FreeOSMemory() runtime.ReadMemStats(&ms2) if ms1.HeapReleased >= ms2.HeapReleased { t.Errorf("released before=%d; released after=%d; did not go up", ms1.HeapReleased, ms2.HeapReleased) } } func TestSetGCPercent(t *testing.T) { // Test that the variable is being set and returned correctly. // Assume the percentage itself is implemented fine during GC, // which is harder to test. old := SetGCPercent(123) new := SetGCPercent(old) if new != 123 { t.Errorf("SetGCPercent(123); SetGCPercent(x) = %d, want 123", new) } } func TestSetMaxThreadsOvf(t *testing.T) { // Verify that a big threads count will not overflow the int32 // maxmcount variable, causing a panic (see Issue 16076). // // This can only happen when ints are 64 bits, since on platforms // with 32 bit ints SetMaxThreads (which takes an int parameter) // cannot be given anything that will overflow an int32. // // Call SetMaxThreads with 1<<31, but only on 64 bit systems. nt := SetMaxThreads(1 << (30 + ^uint(0)>>63)) SetMaxThreads(nt) // restore previous value }