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// Copyright 2011 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.
// +build !nacl
package pprof_test
import (
"bytes"
"fmt"
"math/big"
"os/exec"
"regexp"
"runtime"
. "runtime/pprof"
"strings"
"sync"
"testing"
"time"
"unsafe"
)
func cpuHogger(f func()) {
// We only need to get one 100 Hz clock tick, so we've got
// a 25x safety buffer.
// But do at least 500 iterations (which should take about 100ms),
// otherwise TestCPUProfileMultithreaded can fail if only one
// thread is scheduled during the 250ms period.
t0 := time.Now()
for i := 0; i < 500 || time.Since(t0) < 250*time.Millisecond; i++ {
f()
}
}
var (
salt1 = 0
salt2 = 0
)
// The actual CPU hogging function.
// Must not call other functions nor access heap/globals in the loop,
// otherwise under race detector the samples will be in the race runtime.
func cpuHog1() {
foo := salt1
for i := 0; i < 1e5; i++ {
if foo > 0 {
foo *= foo
} else {
foo *= foo + 1
}
}
salt1 = foo
}
func cpuHog2() {
foo := salt2
for i := 0; i < 1e5; i++ {
if foo > 0 {
foo *= foo
} else {
foo *= foo + 2
}
}
salt2 = foo
}
func TestCPUProfile(t *testing.T) {
testCPUProfile(t, []string{"pprof_test.cpuHog1"}, func() {
cpuHogger(cpuHog1)
})
}
func TestCPUProfileMultithreaded(t *testing.T) {
defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(2))
testCPUProfile(t, []string{"pprof_test.cpuHog1", "pprof_test.cpuHog2"}, func() {
c := make(chan int)
go func() {
cpuHogger(cpuHog1)
c <- 1
}()
cpuHogger(cpuHog2)
<-c
})
}
func parseProfile(t *testing.T, bytes []byte, f func(uintptr, []uintptr)) {
// Convert []byte to []uintptr.
l := len(bytes) / int(unsafe.Sizeof(uintptr(0)))
val := *(*[]uintptr)(unsafe.Pointer(&bytes))
val = val[:l]
// 5 for the header, 2 for the per-sample header on at least one sample, 3 for the trailer.
if l < 5+2+3 {
t.Logf("profile too short: %#x", val)
if badOS[runtime.GOOS] {
t.Skipf("ignoring failure on %s; see golang.org/issue/6047", runtime.GOOS)
return
}
t.FailNow()
}
hd, val, tl := val[:5], val[5:l-3], val[l-3:]
if hd[0] != 0 || hd[1] != 3 || hd[2] != 0 || hd[3] != 1e6/100 || hd[4] != 0 {
t.Fatalf("unexpected header %#x", hd)
}
if tl[0] != 0 || tl[1] != 1 || tl[2] != 0 {
t.Fatalf("malformed end-of-data marker %#x", tl)
}
for len(val) > 0 {
if len(val) < 2 || val[0] < 1 || val[1] < 1 || uintptr(len(val)) < 2+val[1] {
t.Fatalf("malformed profile. leftover: %#x", val)
}
f(val[0], val[2:2+val[1]])
val = val[2+val[1]:]
}
}
func testCPUProfile(t *testing.T, need []string, f func()) {
switch runtime.GOOS {
case "darwin":
out, err := exec.Command("uname", "-a").CombinedOutput()
if err != nil {
t.Fatal(err)
}
vers := string(out)
t.Logf("uname -a: %v", vers)
case "plan9":
// unimplemented
return
}
var prof bytes.Buffer
if err := StartCPUProfile(&prof); err != nil {
t.Fatal(err)
}
f()
StopCPUProfile()
// Check that profile is well formed and contains need.
have := make([]uintptr, len(need))
parseProfile(t, prof.Bytes(), func(count uintptr, stk []uintptr) {
for _, pc := range stk {
f := runtime.FuncForPC(pc)
if f == nil {
continue
}
t.Log(f.Name(), count)
for i, name := range need {
if strings.Contains(f.Name(), name) {
have[i] += count
}
}
}
})
if len(need) == 0 {
return
}
var total uintptr
for i, name := range need {
total += have[i]
t.Logf("%s: %d\n", name, have[i])
}
ok := true
if total == 0 {
t.Logf("no CPU profile samples collected")
ok = false
}
// We'd like to check a reasonable minimum, like
// total / len(have) / smallconstant, but this test is
// pretty flaky (see bug 7095). So we'll just test to
// make sure we got at least one sample.
min := uintptr(1)
for i, name := range need {
if have[i] < min {
t.Logf("%s has %d samples out of %d, want at least %d, ideally %d", name, have[i], total, min, total/uintptr(len(have)))
ok = false
}
}
if !ok {
if badOS[runtime.GOOS] {
t.Skipf("ignoring failure on %s; see golang.org/issue/6047", runtime.GOOS)
return
}
t.FailNow()
}
}
func TestCPUProfileWithFork(t *testing.T) {
// Fork can hang if preempted with signals frequently enough (see issue 5517).
// Ensure that we do not do this.
heap := 1 << 30
if testing.Short() {
heap = 100 << 20
}
// This makes fork slower.
garbage := make([]byte, heap)
// Need to touch the slice, otherwise it won't be paged in.
done := make(chan bool)
go func() {
for i := range garbage {
garbage[i] = 42
}
done <- true
}()
<-done
var prof bytes.Buffer
if err := StartCPUProfile(&prof); err != nil {
t.Fatal(err)
}
defer StopCPUProfile()
for i := 0; i < 10; i++ {
exec.Command("go").CombinedOutput()
}
}
// Test that profiler does not observe runtime.gogo as "user" goroutine execution.
// If it did, it would see inconsistent state and would either record an incorrect stack
// or crash because the stack was malformed.
func TestGoroutineSwitch(t *testing.T) {
// How much to try. These defaults take about 1 seconds
// on a 2012 MacBook Pro. The ones in short mode take
// about 0.1 seconds.
tries := 10
count := 1000000
if testing.Short() {
tries = 1
}
for try := 0; try < tries; try++ {
var prof bytes.Buffer
if err := StartCPUProfile(&prof); err != nil {
t.Fatal(err)
}
for i := 0; i < count; i++ {
runtime.Gosched()
}
StopCPUProfile()
// Read profile to look for entries for runtime.gogo with an attempt at a traceback.
// The special entry
parseProfile(t, prof.Bytes(), func(count uintptr, stk []uintptr) {
// An entry with two frames with 'System' in its top frame
// exists to record a PC without a traceback. Those are okay.
if len(stk) == 2 {
f := runtime.FuncForPC(stk[1])
if f != nil && (f.Name() == "System" || f.Name() == "ExternalCode" || f.Name() == "GC") {
return
}
}
// Otherwise, should not see runtime.gogo.
// The place we'd see it would be the inner most frame.
f := runtime.FuncForPC(stk[0])
if f != nil && f.Name() == "runtime.gogo" {
var buf bytes.Buffer
for _, pc := range stk {
f := runtime.FuncForPC(pc)
if f == nil {
fmt.Fprintf(&buf, "%#x ?:0\n", pc)
} else {
file, line := f.FileLine(pc)
fmt.Fprintf(&buf, "%#x %s:%d\n", pc, file, line)
}
}
t.Fatalf("found profile entry for runtime.gogo:\n%s", buf.String())
}
})
}
}
// Test that profiling of division operations is okay, especially on ARM. See issue 6681.
func TestMathBigDivide(t *testing.T) {
testCPUProfile(t, nil, func() {
t := time.After(5 * time.Second)
pi := new(big.Int)
for {
for i := 0; i < 100; i++ {
n := big.NewInt(2646693125139304345)
d := big.NewInt(842468587426513207)
pi.Div(n, d)
}
select {
case <-t:
return
default:
}
}
})
}
// Operating systems that are expected to fail the tests. See issue 6047.
var badOS = map[string]bool{
"darwin": true,
"netbsd": true,
"plan9": true,
}
func TestBlockProfile(t *testing.T) {
t.Skip("lots of details are different for gccgo; FIXME")
type TestCase struct {
name string
f func()
re string
}
tests := [...]TestCase{
{"chan recv", blockChanRecv, `
[0-9]+ [0-9]+ @ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+
# 0x[0-9,a-f]+ runtime\.chanrecv1\+0x[0-9,a-f]+ .*/src/runtime/chan.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.blockChanRecv\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.TestBlockProfile\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
`},
{"chan send", blockChanSend, `
[0-9]+ [0-9]+ @ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+
# 0x[0-9,a-f]+ runtime\.chansend1\+0x[0-9,a-f]+ .*/src/runtime/chan.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.blockChanSend\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.TestBlockProfile\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
`},
{"chan close", blockChanClose, `
[0-9]+ [0-9]+ @ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+
# 0x[0-9,a-f]+ runtime\.chanrecv1\+0x[0-9,a-f]+ .*/src/runtime/chan.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.blockChanClose\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.TestBlockProfile\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
`},
{"select recv async", blockSelectRecvAsync, `
[0-9]+ [0-9]+ @ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+
# 0x[0-9,a-f]+ runtime\.selectgo\+0x[0-9,a-f]+ .*/src/runtime/select.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.blockSelectRecvAsync\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.TestBlockProfile\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
`},
{"select send sync", blockSelectSendSync, `
[0-9]+ [0-9]+ @ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+
# 0x[0-9,a-f]+ runtime\.selectgo\+0x[0-9,a-f]+ .*/src/runtime/select.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.blockSelectSendSync\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.TestBlockProfile\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
`},
{"mutex", blockMutex, `
[0-9]+ [0-9]+ @ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+
# 0x[0-9,a-f]+ sync\.\(\*Mutex\)\.Lock\+0x[0-9,a-f]+ .*/src/sync/mutex\.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.blockMutex\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.TestBlockProfile\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
`},
{"cond", blockCond, `
[0-9]+ [0-9]+ @ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+ 0x[0-9,a-f]+
# 0x[0-9,a-f]+ sync\.\(\*Cond\)\.Wait\+0x[0-9,a-f]+ .*/src/sync/cond\.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.blockCond\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
# 0x[0-9,a-f]+ runtime/pprof_test\.TestBlockProfile\+0x[0-9,a-f]+ .*/src/runtime/pprof/pprof_test.go:[0-9]+
`},
}
runtime.SetBlockProfileRate(1)
defer runtime.SetBlockProfileRate(0)
for _, test := range tests {
test.f()
}
var w bytes.Buffer
Lookup("block").WriteTo(&w, 1)
prof := w.String()
if !strings.HasPrefix(prof, "--- contention:\ncycles/second=") {
t.Fatalf("Bad profile header:\n%v", prof)
}
for _, test := range tests {
if !regexp.MustCompile(test.re).MatchString(prof) {
t.Fatalf("Bad %v entry, expect:\n%v\ngot:\n%v", test.name, test.re, prof)
}
}
}
const blockDelay = 10 * time.Millisecond
func blockChanRecv() {
c := make(chan bool)
go func() {
time.Sleep(blockDelay)
c <- true
}()
<-c
}
func blockChanSend() {
c := make(chan bool)
go func() {
time.Sleep(blockDelay)
<-c
}()
c <- true
}
func blockChanClose() {
c := make(chan bool)
go func() {
time.Sleep(blockDelay)
close(c)
}()
<-c
}
func blockSelectRecvAsync() {
c := make(chan bool, 1)
c2 := make(chan bool, 1)
go func() {
time.Sleep(blockDelay)
c <- true
}()
select {
case <-c:
case <-c2:
}
}
func blockSelectSendSync() {
c := make(chan bool)
c2 := make(chan bool)
go func() {
time.Sleep(blockDelay)
<-c
}()
select {
case c <- true:
case c2 <- true:
}
}
func blockMutex() {
var mu sync.Mutex
mu.Lock()
go func() {
time.Sleep(blockDelay)
mu.Unlock()
}()
mu.Lock()
}
func blockCond() {
var mu sync.Mutex
c := sync.NewCond(&mu)
mu.Lock()
go func() {
time.Sleep(blockDelay)
mu.Lock()
c.Signal()
mu.Unlock()
}()
c.Wait()
mu.Unlock()
}
|