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bench.go
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bench.go
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package main
import (
"fmt"
"runtime"
"sort"
"strings"
"sync"
"time"
"github.com/astaxie/bat/httplib"
)
type result struct {
err error
statusCode int
duration time.Duration
contentLength int64
}
func RunBench(b *httplib.BeegoHttpRequest) {
runtime.GOMAXPROCS(runtime.NumCPU())
start := time.Now()
results := make(chan *result, benchN)
var wg sync.WaitGroup
wg.Add(benchN)
jobs := make(chan int, benchN)
for i := 0; i < benchC; i++ {
go func() {
worker(&wg, jobs, results, b)
}()
}
for i := 0; i < benchN; i++ {
jobs <- i
}
close(jobs)
wg.Wait()
printReport(benchN, results, "", time.Now().Sub(start))
close(results)
}
func worker(wg *sync.WaitGroup, ch chan int, results chan *result, b *httplib.BeegoHttpRequest) {
for _ = range ch {
s := time.Now()
code := 0
size := int64(0)
resp, err := b.SendOut()
if err == nil {
size = resp.ContentLength
code = resp.StatusCode
resp.Body.Close()
}
wg.Done()
results <- &result{
statusCode: code,
duration: time.Now().Sub(s),
err: err,
contentLength: size,
}
}
}
const (
barChar = "∎"
)
type report struct {
avgTotal float64
fastest float64
slowest float64
average float64
rps float64
results chan *result
total time.Duration
errorDist map[string]int
statusCodeDist map[int]int
lats []float64
sizeTotal int64
output string
}
func printReport(size int, results chan *result, output string, total time.Duration) {
r := &report{
output: output,
results: results,
total: total,
statusCodeDist: make(map[int]int),
errorDist: make(map[string]int),
}
r.finalize()
}
func (r *report) finalize() {
for {
select {
case res := <-r.results:
if res.err != nil {
r.errorDist[res.err.Error()]++
} else {
r.lats = append(r.lats, res.duration.Seconds())
r.avgTotal += res.duration.Seconds()
r.statusCodeDist[res.statusCode]++
if res.contentLength > 0 {
r.sizeTotal += res.contentLength
}
}
default:
r.rps = float64(len(r.lats)) / r.total.Seconds()
r.average = r.avgTotal / float64(len(r.lats))
r.print()
return
}
}
}
func (r *report) print() {
sort.Float64s(r.lats)
if r.output == "csv" {
r.printCSV()
return
}
if len(r.lats) > 0 {
r.fastest = r.lats[0]
r.slowest = r.lats[len(r.lats)-1]
fmt.Printf("\nSummary:\n")
fmt.Printf(" Total:\t%4.4f secs.\n", r.total.Seconds())
fmt.Printf(" Slowest:\t%4.4f secs.\n", r.slowest)
fmt.Printf(" Fastest:\t%4.4f secs.\n", r.fastest)
fmt.Printf(" Average:\t%4.4f secs.\n", r.average)
fmt.Printf(" Requests/sec:\t%4.4f\n", r.rps)
if r.sizeTotal > 0 {
fmt.Printf(" Total Data Received:\t%d bytes.\n", r.sizeTotal)
fmt.Printf(" Response Size per Request:\t%d bytes.\n", r.sizeTotal/int64(len(r.lats)))
}
r.printStatusCodes()
r.printHistogram()
r.printLatencies()
}
if len(r.errorDist) > 0 {
r.printErrors()
}
}
func (r *report) printCSV() {
for i, val := range r.lats {
fmt.Printf("%v,%4.4f\n", i+1, val)
}
}
// Prints percentile latencies.
func (r *report) printLatencies() {
pctls := []int{10, 25, 50, 75, 90, 95, 99}
data := make([]float64, len(pctls))
j := 0
for i := 0; i < len(r.lats) && j < len(pctls); i++ {
current := i * 100 / len(r.lats)
if current >= pctls[j] {
data[j] = r.lats[i]
j++
}
}
fmt.Printf("\nLatency distribution:\n")
for i := 0; i < len(pctls); i++ {
if data[i] > 0 {
fmt.Printf(" %v%% in %4.4f secs.\n", pctls[i], data[i])
}
}
}
func (r *report) printHistogram() {
bc := 10
buckets := make([]float64, bc+1)
counts := make([]int, bc+1)
bs := (r.slowest - r.fastest) / float64(bc)
for i := 0; i < bc; i++ {
buckets[i] = r.fastest + bs*float64(i)
}
buckets[bc] = r.slowest
var bi int
var max int
for i := 0; i < len(r.lats); {
if r.lats[i] <= buckets[bi] {
i++
counts[bi]++
if max < counts[bi] {
max = counts[bi]
}
} else if bi < len(buckets)-1 {
bi++
}
}
fmt.Printf("\nResponse time histogram:\n")
for i := 0; i < len(buckets); i++ {
// Normalize bar lengths.
var barLen int
if max > 0 {
barLen = counts[i] * 40 / max
}
fmt.Printf(" %4.3f [%v]\t|%v\n", buckets[i], counts[i], strings.Repeat(barChar, barLen))
}
}
// Prints status code distribution.
func (r *report) printStatusCodes() {
fmt.Printf("\nStatus code distribution:\n")
for code, num := range r.statusCodeDist {
fmt.Printf(" [%d]\t%d responses\n", code, num)
}
}
func (r *report) printErrors() {
fmt.Printf("\nError distribution:\n")
for err, num := range r.errorDist {
fmt.Printf(" [%d]\t%s\n", num, err)
}
}