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https://github.com/golang/go
synced 2024-11-15 01:20:28 -07:00
runtime: improve runtime-internal mutex profile tests
Have the test use the same clock (cputicks) as the profiler, and use the test's own measurements as hard bounds on the magnitude to expect in the profile. Compare the depiction of two users of the same lock: one where the critical section is fast, one where it is slow. Confirm that the profile shows the slow critical section as a large source of delay (with #66999 fixed), rather than showing the fast critical section as a large recipient of delay. For #64253 For #66999 Change-Id: I784c8beedc39de564dc8cee42060a5d5ce55de39 Reviewed-on: https://go-review.googlesource.com/c/go/+/586237 Auto-Submit: Rhys Hiltner <rhys.hiltner@gmail.com> Reviewed-by: Carlos Amedee <carlos@golang.org> LUCI-TryBot-Result: Go LUCI <golang-scoped@luci-project-accounts.iam.gserviceaccount.com> Reviewed-by: Michael Pratt <mpratt@google.com>
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@ -39,6 +39,8 @@ var Atoi32 = atoi32
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var ParseByteCount = parseByteCount
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var Nanotime = nanotime
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var Cputicks = cputicks
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var CyclesPerSecond = pprof_cyclesPerSecond
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var NetpollBreak = netpollBreak
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var Usleep = usleep
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@ -1008,9 +1008,9 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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return metricGrowth, profileGrowth, p
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}
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testcase := func(strictTiming bool, acceptStacks [][]string, workers int, fn func() bool) func(t *testing.T) (metricGrowth, profileGrowth float64, n, value int64) {
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return func(t *testing.T) (metricGrowth, profileGrowth float64, n, value int64) {
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metricGrowth, profileGrowth, p := measureDelta(t, func() {
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testcase := func(strictTiming bool, acceptStacks [][]string, workers int, fn func() bool) func(t *testing.T) (metricGrowth float64, profileGrowth []int64, n, value int64) {
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return func(t *testing.T) (metricGrowth float64, profileGrowth []int64, n, value int64) {
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metricGrowth, totalProfileGrowth, p := measureDelta(t, func() {
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var started, stopped sync.WaitGroup
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started.Add(workers)
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stopped.Add(workers)
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@ -1030,7 +1030,7 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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stopped.Wait()
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})
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if profileGrowth == 0 {
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if totalProfileGrowth == 0 {
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t.Errorf("no increase in mutex profile")
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}
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if metricGrowth == 0 && strictTiming {
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@ -1043,7 +1043,7 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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// together. It doesn't work as well for user-space contention, where the
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// involved goroutines are not _Grunnable the whole time and so need to pass
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// through the scheduler.
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t.Logf("lock contention growth in runtime/pprof's view (%fs)", profileGrowth)
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t.Logf("lock contention growth in runtime/pprof's view (%fs)", totalProfileGrowth)
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t.Logf("lock contention growth in runtime/metrics' view (%fs)", metricGrowth)
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acceptStacks = append([][]string(nil), acceptStacks...)
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@ -1063,7 +1063,7 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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}
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var stks [][]string
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values := make([][2]int64, len(acceptStacks))
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values := make([][2]int64, len(acceptStacks)+1)
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for _, s := range p.Sample {
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var have []string
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for _, loc := range s.Location {
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@ -1072,16 +1072,26 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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}
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}
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stks = append(stks, have)
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found := false
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for i, stk := range acceptStacks {
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if slices.Equal(have, stk) {
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values[i][0] += s.Value[0]
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values[i][1] += s.Value[1]
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found = true
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break
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}
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}
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if !found {
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values[len(values)-1][0] += s.Value[0]
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values[len(values)-1][1] += s.Value[1]
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}
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}
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profileGrowth = make([]int64, len(acceptStacks)+1)
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profileGrowth[len(profileGrowth)-1] = values[len(values)-1][1]
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for i, stk := range acceptStacks {
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n += values[i][0]
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value += values[i][1]
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profileGrowth[i] = values[i][1]
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t.Logf("stack %v has samples totaling n=%d value=%d", stk, values[i][0], values[i][1])
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}
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if n == 0 && value == 0 {
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@ -1103,8 +1113,14 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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t.Run("runtime.lock", func(t *testing.T) {
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mus := make([]runtime.Mutex, 100)
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var needContention atomic.Int64
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delay := 100 * time.Microsecond // large relative to system noise, for comparison between clocks
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delayMicros := delay.Microseconds()
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baseDelay := 100 * time.Microsecond // large relative to system noise, for comparison between clocks
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fastDelayMicros := baseDelay.Microseconds()
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slowDelayMicros := baseDelay.Microseconds() * 4
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const (
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fastRole = 0
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slowRole = 1
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)
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// The goroutine that acquires the lock will only proceed when it
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// detects that its partner is contended for the lock. That will lead to
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@ -1120,6 +1136,13 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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t.Skipf("contention on runtime-internal locks requires GOMAXPROCS >= %d", workers)
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}
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minTicks := make([][]int64, workers) // lower bound, known-contended time, measured by cputicks
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maxTicks := make([][]int64, workers) // upper bound, total lock() duration, measured by cputicks
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for i := range minTicks {
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minTicks[i] = make([]int64, len(mus))
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maxTicks[i] = make([]int64, len(mus))
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}
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var id atomic.Int32
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fn := func() bool {
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n := int(needContention.Load())
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if n < 0 {
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@ -1127,27 +1150,55 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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}
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mu := &mus[n]
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runtime.Lock(mu)
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for int(needContention.Load()) == n {
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if runtime.MutexContended(mu) {
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// make them wait a little while
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for start := runtime.Nanotime(); (runtime.Nanotime()-start)/1000 < delayMicros; {
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runtime.Usleep(uint32(delayMicros))
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}
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break
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}
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// Each worker has a role: to have a fast or slow critical section.
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// Rotate the role assignments as we step through the mutex slice so
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// we don't end up with one M always claiming the same kind of work.
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id := int(id.Add(1))
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role := (id + n) % workers
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marker, delayMicros := fastMarkerFrame, fastDelayMicros
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if role == slowRole {
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marker, delayMicros = slowMarkerFrame, slowDelayMicros
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}
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runtime.Unlock(mu)
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needContention.Store(int64(n - 1))
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marker(func() {
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t0 := runtime.Cputicks()
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runtime.Lock(mu)
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maxTicks[role][n] = runtime.Cputicks() - t0
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minTicks[role][n] = 0
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for int(needContention.Load()) == n {
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if runtime.MutexContended(mu) {
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t1 := runtime.Cputicks()
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// make them wait a little while
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for start := runtime.Nanotime(); (runtime.Nanotime()-start)/1000 < delayMicros; {
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runtime.Usleep(uint32(1 + delayMicros/8))
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}
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minTicks[role][n] = runtime.Cputicks() - t1
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break
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}
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}
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runtime.Unlock(mu)
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needContention.Store(int64(n - 1))
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})
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return true
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}
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stks := [][]string{{
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"runtime.unlock",
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"runtime_test." + name + ".func4.1",
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"runtime_test.(*contentionWorker).run",
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}}
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stks := make([][]string, 2)
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for i := range stks {
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marker := "runtime_test.fastMarkerFrame"
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if i == slowRole {
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marker = "runtime_test.slowMarkerFrame"
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}
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stks[i] = []string{
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"runtime.unlock",
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"runtime_test." + name + ".func4.1.1",
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marker,
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"runtime_test." + name + ".func4.1",
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"runtime_test.(*contentionWorker).run",
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}
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}
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t.Run("sample-1", func(t *testing.T) {
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old := runtime.SetMutexProfileFraction(1)
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@ -1156,7 +1207,7 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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needContention.Store(int64(len(mus) - 1))
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metricGrowth, profileGrowth, n, _ := testcase(true, stks, workers, fn)(t)
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if have, want := metricGrowth, delay.Seconds()*float64(len(mus)); have < want {
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if have, want := metricGrowth, baseDelay.Seconds()*float64(len(mus)); have < want {
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// The test imposes a delay with usleep, verified with calls to
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// nanotime. Compare against the runtime/metrics package's view
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// (based on nanotime) rather than runtime/pprof's view (based
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@ -1167,10 +1218,68 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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t.Errorf("mutex profile reported contention count different from the known true count (%d != %d)", have, want)
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}
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var slowMinTicks, fastMinTicks int64
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for role, ticks := range minTicks {
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for _, delta := range ticks {
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if role == slowRole {
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slowMinTicks += delta
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} else {
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fastMinTicks += delta
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}
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}
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}
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var slowMaxTicks, fastMaxTicks int64
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for role, ticks := range maxTicks {
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for _, delta := range ticks {
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if role == slowRole {
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slowMaxTicks += delta
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} else {
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fastMaxTicks += delta
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}
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}
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}
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cpuGHz := float64(runtime.CyclesPerSecond()) / 1e9
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for _, set := range []struct {
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name string
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profTime int64
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minTime int64
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maxTime int64
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}{
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{
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name: "slow",
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profTime: profileGrowth[slowRole],
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minTime: int64(float64(slowMinTicks) / cpuGHz),
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maxTime: int64(float64(fastMaxTicks) / cpuGHz),
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},
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{
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name: "fast",
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profTime: profileGrowth[fastRole],
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minTime: int64(float64(fastMinTicks) / cpuGHz),
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maxTime: int64(float64(slowMaxTicks) / cpuGHz),
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},
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} {
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t.Logf("profile's view of delays due to %q critical section: %dns", set.name, set.profTime)
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t.Logf("test's view of known-contended time within %q critical section: %dns", set.name, set.minTime)
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t.Logf("test's view of lock duration before critical sections other than %q: %dns", set.name, set.maxTime)
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if set.profTime < set.minTime {
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t.Errorf("profile undercounted %q critical section", set.name)
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}
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if set.profTime > set.maxTime {
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t.Errorf("profile overcounted %q critical section", set.name)
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}
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}
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var totalProfileGrowth float64
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for _, growth := range profileGrowth {
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totalProfileGrowth += float64(growth) * time.Nanosecond.Seconds()
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}
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const slop = 1.5 // account for nanotime vs cputicks
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t.Run("compare timers", func(t *testing.T) {
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testenv.SkipFlaky(t, 64253)
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if profileGrowth > slop*metricGrowth || metricGrowth > slop*profileGrowth {
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if totalProfileGrowth > slop*metricGrowth || metricGrowth > slop*totalProfileGrowth {
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t.Errorf("views differ by more than %fx", slop)
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}
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})
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@ -1191,7 +1300,7 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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// 1e-9 chance of that, which is an acceptably low flakiness rate.
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const samplingSlop = 2.5
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if have, want := metricGrowth, delay.Seconds()*float64(len(mus)); samplingSlop*have < want {
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if have, want := metricGrowth, baseDelay.Seconds()*float64(len(mus)); samplingSlop*have < want {
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// The test imposes a delay with usleep, verified with calls to
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// nanotime. Compare against the runtime/metrics package's view
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// (based on nanotime) rather than runtime/pprof's view (based
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@ -1202,8 +1311,13 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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t.Errorf("mutex profile reported contention count too different from the expected count (%d far from %d)", have, want)
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}
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var totalProfileGrowth float64
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for _, growth := range profileGrowth {
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totalProfileGrowth += float64(growth) * time.Nanosecond.Seconds()
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}
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const timerSlop = 1.5 * samplingSlop // account for nanotime vs cputicks, plus the two views' independent sampling
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if profileGrowth > timerSlop*metricGrowth || metricGrowth > timerSlop*profileGrowth {
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if totalProfileGrowth > timerSlop*metricGrowth || metricGrowth > timerSlop*totalProfileGrowth {
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t.Errorf("views differ by more than %fx", timerSlop)
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}
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})
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@ -1270,6 +1384,9 @@ func TestRuntimeLockMetricsAndProfile(t *testing.T) {
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})
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}
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func slowMarkerFrame(fn func()) { fn() }
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func fastMarkerFrame(fn func()) { fn() }
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// contentionWorker provides cleaner call stacks for lock contention profile tests
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type contentionWorker struct {
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before func()
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