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Current Directory: /opt/golang/1.22.0/src/internal/trace/v2
/opt/golang/1.22.0/src/internal/trace/v2/
Viewing File: /opt/golang/1.22.0/src/internal/trace/v2/trace_test.go
// Copyright 2023 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 trace_test import ( "bufio" "bytes" "fmt" "internal/testenv" "internal/trace/v2" "internal/trace/v2/testtrace" "io" "os" "path/filepath" "runtime" "strings" "testing" ) func TestTraceAnnotations(t *testing.T) { testTraceProg(t, "annotations.go", func(t *testing.T, tb, _ []byte, _ bool) { type evDesc struct { kind trace.EventKind task trace.TaskID args []string } want := []evDesc{ {trace.EventTaskBegin, trace.TaskID(1), []string{"task0"}}, {trace.EventRegionBegin, trace.TaskID(1), []string{"region0"}}, {trace.EventRegionBegin, trace.TaskID(1), []string{"region1"}}, {trace.EventLog, trace.TaskID(1), []string{"key0", "0123456789abcdef"}}, {trace.EventRegionEnd, trace.TaskID(1), []string{"region1"}}, {trace.EventRegionEnd, trace.TaskID(1), []string{"region0"}}, {trace.EventTaskEnd, trace.TaskID(1), []string{"task0"}}, // Currently, pre-existing region is not recorded to avoid allocations. {trace.EventRegionBegin, trace.BackgroundTask, []string{"post-existing region"}}, } r, err := trace.NewReader(bytes.NewReader(tb)) if err != nil { t.Error(err) } for { ev, err := r.ReadEvent() if err == io.EOF { break } if err != nil { t.Fatal(err) } for i, wantEv := range want { if wantEv.kind != ev.Kind() { continue } match := false switch ev.Kind() { case trace.EventTaskBegin, trace.EventTaskEnd: task := ev.Task() match = task.ID == wantEv.task && task.Type == wantEv.args[0] case trace.EventRegionBegin, trace.EventRegionEnd: reg := ev.Region() match = reg.Task == wantEv.task && reg.Type == wantEv.args[0] case trace.EventLog: log := ev.Log() match = log.Task == wantEv.task && log.Category == wantEv.args[0] && log.Message == wantEv.args[1] } if match { want[i] = want[len(want)-1] want = want[:len(want)-1] break } } } if len(want) != 0 { for _, ev := range want { t.Errorf("no match for %s TaskID=%d Args=%#v", ev.kind, ev.task, ev.args) } } }) } func TestTraceAnnotationsStress(t *testing.T) { testTraceProg(t, "annotations-stress.go", nil) } func TestTraceCgoCallback(t *testing.T) { testenv.MustHaveCGO(t) switch runtime.GOOS { case "plan9", "windows": t.Skipf("cgo callback test requires pthreads and is not supported on %s", runtime.GOOS) } testTraceProg(t, "cgo-callback.go", nil) } func TestTraceCPUProfile(t *testing.T) { testTraceProg(t, "cpu-profile.go", func(t *testing.T, tb, stderr []byte, _ bool) { // Parse stderr which has a CPU profile summary, if everything went well. // (If it didn't, we shouldn't even make it here.) scanner := bufio.NewScanner(bytes.NewReader(stderr)) pprofSamples := 0 pprofStacks := make(map[string]int) for scanner.Scan() { var stack string var samples int _, err := fmt.Sscanf(scanner.Text(), "%s\t%d", &stack, &samples) if err != nil { t.Fatalf("failed to parse CPU profile summary in stderr: %s\n\tfull:\n%s", scanner.Text(), stderr) } pprofStacks[stack] = samples pprofSamples += samples } if err := scanner.Err(); err != nil { t.Fatalf("failed to parse CPU profile summary in stderr: %v", err) } if pprofSamples == 0 { t.Skip("CPU profile did not include any samples while tracing was active") } // Examine the execution tracer's view of the CPU profile samples. Filter it // to only include samples from the single test goroutine. Use the goroutine // ID that was recorded in the events: that should reflect getg().m.curg, // same as the profiler's labels (even when the M is using its g0 stack). totalTraceSamples := 0 traceSamples := 0 traceStacks := make(map[string]int) r, err := trace.NewReader(bytes.NewReader(tb)) if err != nil { t.Error(err) } var hogRegion *trace.Event var hogRegionClosed bool for { ev, err := r.ReadEvent() if err == io.EOF { break } if err != nil { t.Fatal(err) } if ev.Kind() == trace.EventRegionBegin && ev.Region().Type == "cpuHogger" { hogRegion = &ev } if ev.Kind() == trace.EventStackSample { totalTraceSamples++ if hogRegion != nil && ev.Goroutine() == hogRegion.Goroutine() { traceSamples++ var fns []string ev.Stack().Frames(func(frame trace.StackFrame) bool { if frame.Func != "runtime.goexit" { fns = append(fns, fmt.Sprintf("%s:%d", frame.Func, frame.Line)) } return true }) stack := strings.Join(fns, "|") traceStacks[stack]++ } } if ev.Kind() == trace.EventRegionEnd && ev.Region().Type == "cpuHogger" { hogRegionClosed = true } } if hogRegion == nil { t.Fatalf("execution trace did not identify cpuHogger goroutine") } else if !hogRegionClosed { t.Fatalf("execution trace did not close cpuHogger region") } // The execution trace may drop CPU profile samples if the profiling buffer // overflows. Based on the size of profBufWordCount, that takes a bit over // 1900 CPU samples or 19 thread-seconds at a 100 Hz sample rate. If we've // hit that case, then we definitely have at least one full buffer's worth // of CPU samples, so we'll call that success. overflowed := totalTraceSamples >= 1900 if traceSamples < pprofSamples { t.Logf("execution trace did not include all CPU profile samples; %d in profile, %d in trace", pprofSamples, traceSamples) if !overflowed { t.Fail() } } for stack, traceSamples := range traceStacks { pprofSamples := pprofStacks[stack] delete(pprofStacks, stack) if traceSamples < pprofSamples { t.Logf("execution trace did not include all CPU profile samples for stack %q; %d in profile, %d in trace", stack, pprofSamples, traceSamples) if !overflowed { t.Fail() } } } for stack, pprofSamples := range pprofStacks { t.Logf("CPU profile included %d samples at stack %q not present in execution trace", pprofSamples, stack) if !overflowed { t.Fail() } } if t.Failed() { t.Logf("execution trace CPU samples:") for stack, samples := range traceStacks { t.Logf("%d: %q", samples, stack) } t.Logf("CPU profile:\n%s", stderr) } }) } func TestTraceFutileWakeup(t *testing.T) { testTraceProg(t, "futile-wakeup.go", func(t *testing.T, tb, _ []byte, _ bool) { // Check to make sure that no goroutine in the "special" trace region // ends up blocking, unblocking, then immediately blocking again. // // The goroutines are careful to call runtime.Gosched in between blocking, // so there should never be a clean block/unblock on the goroutine unless // the runtime was generating extraneous events. const ( entered = iota blocked runnable running ) gs := make(map[trace.GoID]int) seenSpecialGoroutines := false r, err := trace.NewReader(bytes.NewReader(tb)) if err != nil { t.Error(err) } for { ev, err := r.ReadEvent() if err == io.EOF { break } if err != nil { t.Fatal(err) } // Only track goroutines in the special region we control, so runtime // goroutines don't interfere (it's totally valid in traces for a // goroutine to block, run, and block again; that's not what we care about). if ev.Kind() == trace.EventRegionBegin && ev.Region().Type == "special" { seenSpecialGoroutines = true gs[ev.Goroutine()] = entered } if ev.Kind() == trace.EventRegionEnd && ev.Region().Type == "special" { delete(gs, ev.Goroutine()) } // Track state transitions for goroutines we care about. // // The goroutines we care about will advance through the state machine // of entered -> blocked -> runnable -> running. If in the running state // we block, then we have a futile wakeup. Because of the runtime.Gosched // on these specially marked goroutines, we should end up back in runnable // first. If at any point we go to a different state, switch back to entered // and wait for the next time the goroutine blocks. if ev.Kind() != trace.EventStateTransition { continue } st := ev.StateTransition() if st.Resource.Kind != trace.ResourceGoroutine { continue } id := st.Resource.Goroutine() state, ok := gs[id] if !ok { continue } _, new := st.Goroutine() switch state { case entered: if new == trace.GoWaiting { state = blocked } else { state = entered } case blocked: if new == trace.GoRunnable { state = runnable } else { state = entered } case runnable: if new == trace.GoRunning { state = running } else { state = entered } case running: if new == trace.GoWaiting { t.Fatalf("found futile wakeup on goroutine %d", id) } else { state = entered } } gs[id] = state } if !seenSpecialGoroutines { t.Fatal("did not see a goroutine in a the region 'special'") } }) } func TestTraceGCStress(t *testing.T) { testTraceProg(t, "gc-stress.go", nil) } func TestTraceGOMAXPROCS(t *testing.T) { testTraceProg(t, "gomaxprocs.go", nil) } func TestTraceStacks(t *testing.T) { testTraceProg(t, "stacks.go", func(t *testing.T, tb, _ []byte, stress bool) { type frame struct { fn string line int } type evDesc struct { kind trace.EventKind match string frames []frame } // mainLine is the line number of `func main()` in testprog/stacks.go. const mainLine = 21 want := []evDesc{ {trace.EventStateTransition, "Goroutine Running->Runnable", []frame{ {"main.main", mainLine + 82}, }}, {trace.EventStateTransition, "Goroutine NotExist->Runnable", []frame{ {"main.main", mainLine + 11}, }}, {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"runtime.block", 0}, {"main.main.func1", 0}, }}, {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"runtime.chansend1", 0}, {"main.main.func2", 0}, }}, {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"runtime.chanrecv1", 0}, {"main.main.func3", 0}, }}, {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"runtime.chanrecv1", 0}, {"main.main.func4", 0}, }}, {trace.EventStateTransition, "Goroutine Waiting->Runnable", []frame{ {"runtime.chansend1", 0}, {"main.main", mainLine + 84}, }}, {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"runtime.chansend1", 0}, {"main.main.func5", 0}, }}, {trace.EventStateTransition, "Goroutine Waiting->Runnable", []frame{ {"runtime.chanrecv1", 0}, {"main.main", mainLine + 85}, }}, {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"runtime.selectgo", 0}, {"main.main.func6", 0}, }}, {trace.EventStateTransition, "Goroutine Waiting->Runnable", []frame{ {"runtime.selectgo", 0}, {"main.main", mainLine + 86}, }}, {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"sync.(*Mutex).Lock", 0}, {"main.main.func7", 0}, }}, {trace.EventStateTransition, "Goroutine Waiting->Runnable", []frame{ {"sync.(*Mutex).Unlock", 0}, {"main.main", 0}, }}, {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"sync.(*WaitGroup).Wait", 0}, {"main.main.func8", 0}, }}, {trace.EventStateTransition, "Goroutine Waiting->Runnable", []frame{ {"sync.(*WaitGroup).Add", 0}, {"sync.(*WaitGroup).Done", 0}, {"main.main", mainLine + 91}, }}, {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"sync.(*Cond).Wait", 0}, {"main.main.func9", 0}, }}, {trace.EventStateTransition, "Goroutine Waiting->Runnable", []frame{ {"sync.(*Cond).Signal", 0}, {"main.main", 0}, }}, {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"time.Sleep", 0}, {"main.main", 0}, }}, {trace.EventMetric, "/sched/gomaxprocs:threads", []frame{ {"runtime.startTheWorld", 0}, // this is when the current gomaxprocs is logged. {"runtime.startTheWorldGC", 0}, {"runtime.GOMAXPROCS", 0}, {"main.main", 0}, }}, } if !stress { // Only check for this stack if !stress because traceAdvance alone could // allocate enough memory to trigger a GC if called frequently enough. // This might cause the runtime.GC call we're trying to match against to // coalesce with an active GC triggered this by traceAdvance. In that case // we won't have an EventRangeBegin event that matches the stace trace we're // looking for, since runtime.GC will not have triggered the GC. gcEv := evDesc{trace.EventRangeBegin, "GC concurrent mark phase", []frame{ {"runtime.GC", 0}, {"main.main", 0}, }} want = append(want, gcEv) } if runtime.GOOS != "windows" && runtime.GOOS != "plan9" { want = append(want, []evDesc{ {trace.EventStateTransition, "Goroutine Running->Waiting", []frame{ {"internal/poll.(*FD).Accept", 0}, {"net.(*netFD).accept", 0}, {"net.(*TCPListener).accept", 0}, {"net.(*TCPListener).Accept", 0}, {"main.main.func10", 0}, }}, {trace.EventStateTransition, "Goroutine Running->Syscall", []frame{ {"syscall.read", 0}, {"syscall.Read", 0}, {"internal/poll.ignoringEINTRIO", 0}, {"internal/poll.(*FD).Read", 0}, {"os.(*File).read", 0}, {"os.(*File).Read", 0}, {"main.main.func11", 0}, }}, }...) } stackMatches := func(stk trace.Stack, frames []frame) bool { i := 0 match := true stk.Frames(func(f trace.StackFrame) bool { if f.Func != frames[i].fn { match = false return false } if line := uint64(frames[i].line); line != 0 && line != f.Line { match = false return false } i++ return true }) return match } r, err := trace.NewReader(bytes.NewReader(tb)) if err != nil { t.Error(err) } for { ev, err := r.ReadEvent() if err == io.EOF { break } if err != nil { t.Fatal(err) } for i, wantEv := range want { if wantEv.kind != ev.Kind() { continue } match := false switch ev.Kind() { case trace.EventStateTransition: st := ev.StateTransition() str := "" switch st.Resource.Kind { case trace.ResourceGoroutine: old, new := st.Goroutine() str = fmt.Sprintf("%s %s->%s", st.Resource.Kind, old, new) } match = str == wantEv.match case trace.EventRangeBegin: rng := ev.Range() match = rng.Name == wantEv.match case trace.EventMetric: metric := ev.Metric() match = metric.Name == wantEv.match } match = match && stackMatches(ev.Stack(), wantEv.frames) if match { want[i] = want[len(want)-1] want = want[:len(want)-1] break } } } if len(want) != 0 { for _, ev := range want { t.Errorf("no match for %s Match=%s Stack=%#v", ev.kind, ev.match, ev.frames) } } }) } func TestTraceStress(t *testing.T) { switch runtime.GOOS { case "js", "wasip1": t.Skip("no os.Pipe on " + runtime.GOOS) } testTraceProg(t, "stress.go", nil) } func TestTraceStressStartStop(t *testing.T) { switch runtime.GOOS { case "js", "wasip1": t.Skip("no os.Pipe on " + runtime.GOOS) } testTraceProg(t, "stress-start-stop.go", nil) } func TestTraceManyStartStop(t *testing.T) { testTraceProg(t, "many-start-stop.go", nil) } func TestTraceWaitOnPipe(t *testing.T) { switch runtime.GOOS { case "dragonfly", "freebsd", "linux", "netbsd", "openbsd", "solaris": testTraceProg(t, "wait-on-pipe.go", nil) return } t.Skip("no applicable syscall.Pipe on " + runtime.GOOS) } func testTraceProg(t *testing.T, progName string, extra func(t *testing.T, trace, stderr []byte, stress bool)) { testenv.MustHaveGoRun(t) // Check if we're on a builder. onBuilder := testenv.Builder() != "" onOldBuilder := !strings.Contains(testenv.Builder(), "gotip") && !strings.Contains(testenv.Builder(), "go1") testPath := filepath.Join("./testdata/testprog", progName) testName := progName runTest := func(t *testing.T, stress bool) { // Run the program and capture the trace, which is always written to stdout. cmd := testenv.Command(t, testenv.GoToolPath(t), "run", testPath) cmd.Env = append(os.Environ(), "GOEXPERIMENT=exectracer2") if stress { // Advance a generation constantly. cmd.Env = append(cmd.Env, "GODEBUG=traceadvanceperiod=0") } // Capture stdout and stderr. // // The protoocol for these programs is that stdout contains the trace data // and stderr is an expectation in string format. var traceBuf, errBuf bytes.Buffer cmd.Stdout = &traceBuf cmd.Stderr = &errBuf // Run the program. if err := cmd.Run(); err != nil { if errBuf.Len() != 0 { t.Logf("stderr: %s", string(errBuf.Bytes())) } t.Fatal(err) } tb := traceBuf.Bytes() // Test the trace and the parser. testReader(t, bytes.NewReader(tb), testtrace.ExpectSuccess()) // Run some extra validation. if !t.Failed() && extra != nil { extra(t, tb, errBuf.Bytes(), stress) } // Dump some more information on failure. if t.Failed() && onBuilder { // Dump directly to the test log on the builder, since this // data is critical for debugging and this is the only way // we can currently make sure it's retained. t.Log("found bad trace; dumping to test log...") s := dumpTraceToText(t, tb) if onOldBuilder && len(s) > 1<<20+512<<10 { // The old build infrastructure truncates logs at ~2 MiB. // Let's assume we're the only failure and give ourselves // up to 1.5 MiB to dump the trace. // // TODO(mknyszek): Remove this when we've migrated off of // the old infrastructure. t.Logf("text trace too large to dump (%d bytes)", len(s)) } else { t.Log(s) } } else if t.Failed() || *dumpTraces { // We asked to dump the trace or failed. Write the trace to a file. t.Logf("wrote trace to file: %s", dumpTraceToFile(t, testName, stress, tb)) } } t.Run("Default", func(t *testing.T) { runTest(t, false) }) t.Run("Stress", func(t *testing.T) { if testing.Short() { t.Skip("skipping trace reader stress tests in short mode") } runTest(t, true) }) }
webs 1.0 - Enhanced UI