func main() {
flag.Parse()
if *cpuprofile != "" {
f, err := os.Create(*cpuprofile)
if err != nil {
log.Fatal(err)
}
pprof.StartCPUProfile(f)
defer pprof.StopCPUProfile()
}
rand.Seed(time.Now().Unix())
// numprocs, numprocsdef := 0, 0
hw_threads := runtime.NumCPU()
// if *threads < hw_threads {
// hw_threads = *threads
// }
// numprocsdef =
runtime.GOMAXPROCS(hw_threads)
// numprocsdef = runtime.GOMAXPROCS(4)
numprocs := runtime.GOMAXPROCS(0)
if *server {
distr.StartServer(clientType)
return
}
log.Printf("====================================================\n")
hostname, _ := os.Hostname()
log.Printf("Starting go load generator with %d HW threads at %s \n", numprocs, hostname)
duration, err := time.ParseDuration(*p_duration)
if err != nil {
panic(err)
}
// log.Printf("Hitting %s at %d reqs/s by %d clients during %v.", *p_addr, *p_rate, *threads, duration)
parameters := core.TestParameters{Addr: *p_addr, Rate: float64(*p_rate), Duration: duration, Clients: *threads, SaveSamples: (*dataOutput != ""), SampleFile: *dataOutput}
var globalResult result.Result
if *commander {
serverfilecontents, err := ioutil.ReadFile(*serverfile)
if err != nil {
panic(err)
}
lines := strings.Split(string(serverfilecontents), "\n")
var servers []string
for _, line := range lines {
if strings.TrimSpace(line) != "" {
servers = append(servers, line)
}
}
log.Printf("Using serverfile %s with contents (%d) %v\n", *serverfile, len(servers), servers)
globalResult = distr.StartCommander(parameters, servers, clientType)
} else {
globalResult = core.StartTest(parameters, clientType)
result.PrintResult(globalResult, *threads)
if parameters.SaveSamples {
result.SaveToFile(&globalResult, parameters.SampleFile)
}
}
// if totalResponses > 0
// log.Printf("TOTAL %d responses in %v, Rate: %v, avgLatency: %v\n", totalResponses, duration, float64(totalResponses)/duration.Seconds(), time.Duration(avgLatency))
}
func StartCommander(p core.TestParameters, servers []string, cc core.ClientConstructor) result.Result {
// servers := []string{"192.168.7.1:9988","192.168.9.1:9988", "192.168.10.1:9988", "192.168.11.1:9988"}//,"192.168.8.1:9988",
// servers = servers[0:4]
if p.Clients-4 <= 0 || p.Rate-1000 <= 0 {
res := core.StartTest(p, cc)
result.PrintResult(res, p.Clients)
return res
}
localParams := p
localParams.Clients, localParams.Rate = min(4, p.Clients), math.Min(float64(1000), p.Rate)
p.Clients, p.Rate = (p.Clients-localParams.Clients)/len(servers), (p.Rate-localParams.Rate)/float64(len(servers))
log.Printf("Params to send: %v\n", p)
//TODO : divide P properlu if #servers > 1
var serverReady, serverStart sync.WaitGroup
serverReady.Add(len(servers))
serverStart.Add(1)
returnChannel := make(chan result.ResultSummary)
for i, address := range servers {
time.Sleep(time.Duration(30 * 1000000))
log.Println("spawning", address)
if localParams.Clients == 1 && i == len(servers)-1 && i > 0 {
p.Clients = p.Clients + 1
}
go serverHandler(address, p, &serverReady, &serverStart, returnChannel)
}
// wg.Add(localParams.Clients)
// ready.Add(localParams.Clients)
// start.Add(1)
log.Printf("localParams %v\n", localParams)
globalResult, localSync := core.SpawnWorkers(cc, localParams)
localSync.WaitReady() // ready.Wait()
serverReady.Wait()
serverStart.Done()
time.Sleep(time.Duration(100 * 1000)) //Sleep 50 µs ~ 1/2 RTT
//start.Done()
// wg.Wait()
localSync.Go()
localSync.WaitDone()
rate := globalResult.AverageThroughput()
clients := localParams.Clients
errors := globalResult.N_errors
log.Printf("LOCAL: %f (%d) \n", rate, globalResult.N_latencySamples)
for range servers {
summary := <-returnChannel
rate += summary.AverageThroughput
clients += summary.Clients
errors += summary.N_errors
}
// printResult(*globalResult, localParams.Clients)
// fmt.Println()
fmt.Print(clients, "\t")
globalResult.Sort()
tails := []float64{0.5, 0.9, 0.99}
fmt.Printf("%.1f\t%d", rate, result.Microseconds(globalResult.AverageLatency()))
for _, v := range tails {
fmt.Printf("\t%d", result.Microseconds(globalResult.Percentile(v)))
}
fmt.Printf("\t%d\n", errors)
return *globalResult
}
