benchmark/worker/benchmark_client.go - third_party/grpc/grpc-go - Git at Google

 /*
  *
  * Copyright 2016 gRPC authors.
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  */

 package main

 import (
 	"flag"
 	"math"
 	"runtime"
 	"sync"
 	"syscall"
 	"time"

 	"golang.org/x/net/context"
 	"google.golang.org/grpc"
 	"google.golang.org/grpc/benchmark"
 	testpb "google.golang.org/grpc/benchmark/grpc_testing"
 	"google.golang.org/grpc/benchmark/stats"
 	"google.golang.org/grpc/codes"
 	"google.golang.org/grpc/credentials"
 	"google.golang.org/grpc/grpclog"
 	"google.golang.org/grpc/status"
 	"google.golang.org/grpc/testdata"
 )

 var caFile = flag.String("ca_file", "", "The file containing the CA root cert file")

 type lockingHistogram struct {
 	mu        sync.Mutex
 	histogram *stats.Histogram
 }

 func (h *lockingHistogram) add(value int64) {
 	h.mu.Lock()
 	defer h.mu.Unlock()
 	h.histogram.Add(value)
 }

 // swap sets h.histogram to new, and returns its old value.
 func (h *lockingHistogram) swap(new *stats.Histogram) *stats.Histogram {
 	h.mu.Lock()
 	defer h.mu.Unlock()
 	old := h.histogram
 	h.histogram = new
 	return old
 }

 func (h *lockingHistogram) mergeInto(merged *stats.Histogram) {
 	h.mu.Lock()
 	defer h.mu.Unlock()
 	merged.Merge(h.histogram)
 }

 type benchmarkClient struct {
 	closeConns        func()
 	stop              chan bool
 	lastResetTime     time.Time
 	histogramOptions  stats.HistogramOptions
 	lockingHistograms []lockingHistogram
 	rusageLastReset   *syscall.Rusage
 }

 func printClientConfig(config *testpb.ClientConfig) {
 	// Some config options are ignored:
 	// - client type:
 	//     will always create sync client
 	// - async client threads.
 	// - core list
 	grpclog.Printf(" * client type: %v (ignored, always creates sync client)", config.ClientType)
 	grpclog.Printf(" * async client threads: %v (ignored)", config.AsyncClientThreads)
 	// TODO: use cores specified by CoreList when setting list of cores is supported in go.
 	grpclog.Printf(" * core list: %v (ignored)", config.CoreList)

 	grpclog.Printf(" - security params: %v", config.SecurityParams)
 	grpclog.Printf(" - core limit: %v", config.CoreLimit)
 	grpclog.Printf(" - payload config: %v", config.PayloadConfig)
 	grpclog.Printf(" - rpcs per chann: %v", config.OutstandingRpcsPerChannel)
 	grpclog.Printf(" - channel number: %v", config.ClientChannels)
 	grpclog.Printf(" - load params: %v", config.LoadParams)
 	grpclog.Printf(" - rpc type: %v", config.RpcType)
 	grpclog.Printf(" - histogram params: %v", config.HistogramParams)
 	grpclog.Printf(" - server targets: %v", config.ServerTargets)
 }

 func setupClientEnv(config *testpb.ClientConfig) {
 	// Use all cpu cores available on machine by default.
 	// TODO: Revisit this for the optimal default setup.
 	if config.CoreLimit > 0 {
 		runtime.GOMAXPROCS(int(config.CoreLimit))
 	} else {
 		runtime.GOMAXPROCS(runtime.NumCPU())
 	}
 }

 // createConns creates connections according to given config.
 // It returns the connections and corresponding function to close them.
 // It returns non-nil error if there is anything wrong.
 func createConns(config *testpb.ClientConfig) ([]*grpc.ClientConn, func(), error) {
 	var opts []grpc.DialOption

 	// Sanity check for client type.
 	switch config.ClientType {
 	case testpb.ClientType_SYNC_CLIENT:
 	case testpb.ClientType_ASYNC_CLIENT:
 	default:
 		return nil, nil, status.Errorf(codes.InvalidArgument, "unknow client type: %v", config.ClientType)
 	}

 	// Check and set security options.
 	if config.SecurityParams != nil {
 		if *caFile == "" {
 			*caFile = testdata.Path("ca.pem")
 		}
 		creds, err := credentials.NewClientTLSFromFile(*caFile, config.SecurityParams.ServerHostOverride)
 		if err != nil {
 			return nil, nil, status.Errorf(codes.InvalidArgument, "failed to create TLS credentials %v", err)
 		}
 		opts = append(opts, grpc.WithTransportCredentials(creds))
 	} else {
 		opts = append(opts, grpc.WithInsecure())
 	}

 	// Use byteBufCodec if it is required.
 	if config.PayloadConfig != nil {
 		switch config.PayloadConfig.Payload.(type) {
 		case *testpb.PayloadConfig_BytebufParams:
 			opts = append(opts, grpc.WithCodec(byteBufCodec{}))
 		case *testpb.PayloadConfig_SimpleParams:
 		default:
 			return nil, nil, status.Errorf(codes.InvalidArgument, "unknow payload config: %v", config.PayloadConfig)
 		}
 	}

 	// Create connections.
 	connCount := int(config.ClientChannels)
 	conns := make([]*grpc.ClientConn, connCount, connCount)
 	for connIndex := 0; connIndex < connCount; connIndex++ {
 		conns[connIndex] = benchmark.NewClientConn(config.ServerTargets[connIndex%len(config.ServerTargets)], opts...)
 	}

 	return conns, func() {
 		for _, conn := range conns {
 			conn.Close()
 		}
 	}, nil
 }

 func performRPCs(config *testpb.ClientConfig, conns []*grpc.ClientConn, bc *benchmarkClient) error {
 	// Read payload size and type from config.
 	var (
 		payloadReqSize, payloadRespSize int
 		payloadType                     string
 	)
 	if config.PayloadConfig != nil {
 		switch c := config.PayloadConfig.Payload.(type) {
 		case *testpb.PayloadConfig_BytebufParams:
 			payloadReqSize = int(c.BytebufParams.ReqSize)
 			payloadRespSize = int(c.BytebufParams.RespSize)
 			payloadType = "bytebuf"
 		case *testpb.PayloadConfig_SimpleParams:
 			payloadReqSize = int(c.SimpleParams.ReqSize)
 			payloadRespSize = int(c.SimpleParams.RespSize)
 			payloadType = "protobuf"
 		default:
 			return status.Errorf(codes.InvalidArgument, "unknow payload config: %v", config.PayloadConfig)
 		}
 	}

 	// TODO add open loop distribution.
 	switch config.LoadParams.Load.(type) {
 	case *testpb.LoadParams_ClosedLoop:
 	case *testpb.LoadParams_Poisson:
 		return status.Errorf(codes.Unimplemented, "unsupported load params: %v", config.LoadParams)
 	default:
 		return status.Errorf(codes.InvalidArgument, "unknown load params: %v", config.LoadParams)
 	}

 	rpcCountPerConn := int(config.OutstandingRpcsPerChannel)

 	switch config.RpcType {
 	case testpb.RpcType_UNARY:
 		bc.doCloseLoopUnary(conns, rpcCountPerConn, payloadReqSize, payloadRespSize)
 		// TODO open loop.
 	case testpb.RpcType_STREAMING:
 		bc.doCloseLoopStreaming(conns, rpcCountPerConn, payloadReqSize, payloadRespSize, payloadType)
 		// TODO open loop.
 	default:
 		return status.Errorf(codes.InvalidArgument, "unknown rpc type: %v", config.RpcType)
 	}

 	return nil
 }

 func startBenchmarkClient(config *testpb.ClientConfig) (*benchmarkClient, error) {
 	printClientConfig(config)

 	// Set running environment like how many cores to use.
 	setupClientEnv(config)

 	conns, closeConns, err := createConns(config)
 	if err != nil {
 		return nil, err
 	}

 	rusage := new(syscall.Rusage)
 	syscall.Getrusage(syscall.RUSAGE_SELF, rusage)

 	rpcCountPerConn := int(config.OutstandingRpcsPerChannel)
 	bc := &benchmarkClient{
 		histogramOptions: stats.HistogramOptions{
 			NumBuckets:     int(math.Log(config.HistogramParams.MaxPossible)/math.Log(1+config.HistogramParams.Resolution)) + 1,
 			GrowthFactor:   config.HistogramParams.Resolution,
 			BaseBucketSize: (1 + config.HistogramParams.Resolution),
 			MinValue:       0,
 		},
 		lockingHistograms: make([]lockingHistogram, rpcCountPerConn*len(conns), rpcCountPerConn*len(conns)),

 		stop:            make(chan bool),
 		lastResetTime:   time.Now(),
 		closeConns:      closeConns,
 		rusageLastReset: rusage,
 	}

 	if err = performRPCs(config, conns, bc); err != nil {
 		// Close all connections if performRPCs failed.
 		closeConns()
 		return nil, err
 	}

 	return bc, nil
 }

 func (bc *benchmarkClient) doCloseLoopUnary(conns []*grpc.ClientConn, rpcCountPerConn int, reqSize int, respSize int) {
 	for ic, conn := range conns {
 		client := testpb.NewBenchmarkServiceClient(conn)
 		// For each connection, create rpcCountPerConn goroutines to do rpc.
 		for j := 0; j < rpcCountPerConn; j++ {
 			// Create histogram for each goroutine.
 			idx := ic*rpcCountPerConn + j
 			bc.lockingHistograms[idx].histogram = stats.NewHistogram(bc.histogramOptions)
 			// Start goroutine on the created mutex and histogram.
 			go func(idx int) {
 				// TODO: do warm up if necessary.
 				// Now relying on worker client to reserve time to do warm up.
 				// The worker client needs to wait for some time after client is created,
 				// before starting benchmark.
 				done := make(chan bool)
 				for {
 					go func() {
 						start := time.Now()
 						if err := benchmark.DoUnaryCall(client, reqSize, respSize); err != nil {
 							select {
 							case <-bc.stop:
 							case done <- false:
 							}
 							return
 						}
 						elapse := time.Since(start)
 						bc.lockingHistograms[idx].add(int64(elapse))
 						select {
 						case <-bc.stop:
 						case done <- true:
 						}
 					}()
 					select {
 					case <-bc.stop:
 						return
 					case <-done:
 					}
 				}
 			}(idx)
 		}
 	}
 }

 func (bc *benchmarkClient) doCloseLoopStreaming(conns []*grpc.ClientConn, rpcCountPerConn int, reqSize int, respSize int, payloadType string) {
 	var doRPC func(testpb.BenchmarkService_StreamingCallClient, int, int) error
 	if payloadType == "bytebuf" {
 		doRPC = benchmark.DoByteBufStreamingRoundTrip
 	} else {
 		doRPC = benchmark.DoStreamingRoundTrip
 	}
 	for ic, conn := range conns {
 		// For each connection, create rpcCountPerConn goroutines to do rpc.
 		for j := 0; j < rpcCountPerConn; j++ {
 			c := testpb.NewBenchmarkServiceClient(conn)
 			stream, err := c.StreamingCall(context.Background())
 			if err != nil {
 				grpclog.Fatalf("%v.StreamingCall(_) = _, %v", c, err)
 			}
 			// Create histogram for each goroutine.
 			idx := ic*rpcCountPerConn + j
 			bc.lockingHistograms[idx].histogram = stats.NewHistogram(bc.histogramOptions)
 			// Start goroutine on the created mutex and histogram.
 			go func(idx int) {
 				// TODO: do warm up if necessary.
 				// Now relying on worker client to reserve time to do warm up.
 				// The worker client needs to wait for some time after client is created,
 				// before starting benchmark.
 				for {
 					start := time.Now()
 					if err := doRPC(stream, reqSize, respSize); err != nil {
 						return
 					}
 					elapse := time.Since(start)
 					bc.lockingHistograms[idx].add(int64(elapse))
 					select {
 					case <-bc.stop:
 						return
 					default:
 					}
 				}
 			}(idx)
 		}
 	}
 }

 // getStats returns the stats for benchmark client.
 // It resets lastResetTime and all histograms if argument reset is true.
 func (bc *benchmarkClient) getStats(reset bool) *testpb.ClientStats {
 	var wallTimeElapsed, uTimeElapsed, sTimeElapsed float64
 	mergedHistogram := stats.NewHistogram(bc.histogramOptions)
 	latestRusage := new(syscall.Rusage)

 	if reset {
 		// Merging histogram may take some time.
 		// Put all histograms aside and merge later.
 		toMerge := make([]*stats.Histogram, len(bc.lockingHistograms), len(bc.lockingHistograms))
 		for i := range bc.lockingHistograms {
 			toMerge[i] = bc.lockingHistograms[i].swap(stats.NewHistogram(bc.histogramOptions))
 		}

 		for i := 0; i < len(toMerge); i++ {
 			mergedHistogram.Merge(toMerge[i])
 		}

 		wallTimeElapsed = time.Since(bc.lastResetTime).Seconds()
 		syscall.Getrusage(syscall.RUSAGE_SELF, latestRusage)
 		uTimeElapsed, sTimeElapsed = cpuTimeDiff(bc.rusageLastReset, latestRusage)

 		bc.rusageLastReset = latestRusage
 		bc.lastResetTime = time.Now()
 	} else {
 		// Merge only, not reset.
 		for i := range bc.lockingHistograms {
 			bc.lockingHistograms[i].mergeInto(mergedHistogram)
 		}

 		wallTimeElapsed = time.Since(bc.lastResetTime).Seconds()
 		syscall.Getrusage(syscall.RUSAGE_SELF, latestRusage)
 		uTimeElapsed, sTimeElapsed = cpuTimeDiff(bc.rusageLastReset, latestRusage)
 	}

 	b := make([]uint32, len(mergedHistogram.Buckets), len(mergedHistogram.Buckets))
 	for i, v := range mergedHistogram.Buckets {
 		b[i] = uint32(v.Count)
 	}
 	return &testpb.ClientStats{
 		Latencies: &testpb.HistogramData{
 			Bucket:       b,
 			MinSeen:      float64(mergedHistogram.Min),
 			MaxSeen:      float64(mergedHistogram.Max),
 			Sum:          float64(mergedHistogram.Sum),
 			SumOfSquares: float64(mergedHistogram.SumOfSquares),
 			Count:        float64(mergedHistogram.Count),
 		},
 		TimeElapsed: wallTimeElapsed,
 		TimeUser:    uTimeElapsed,
 		TimeSystem:  sTimeElapsed,
 	}
 }

 func (bc *benchmarkClient) shutdown() {
 	close(bc.stop)
 	bc.closeConns()
 }
	/*
	*
	* Copyright 2016 gRPC authors.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	*/

	package main

	import (
	"flag"
	"math"
	"runtime"
	"sync"
	"syscall"
	"time"

	"golang.org/x/net/context"
	"google.golang.org/grpc"
	"google.golang.org/grpc/benchmark"
	testpb "google.golang.org/grpc/benchmark/grpc_testing"
	"google.golang.org/grpc/benchmark/stats"
	"google.golang.org/grpc/codes"
	"google.golang.org/grpc/credentials"
	"google.golang.org/grpc/grpclog"
	"google.golang.org/grpc/status"
	"google.golang.org/grpc/testdata"
	)

	var caFile = flag.String("ca_file", "", "The file containing the CA root cert file")

	type lockingHistogram struct {
	mu sync.Mutex
	histogram *stats.Histogram
	}

	func (h *lockingHistogram) add(value int64) {
	h.mu.Lock()
	defer h.mu.Unlock()
	h.histogram.Add(value)
	}

	// swap sets h.histogram to new, and returns its old value.
	func (h lockingHistogram) swap(new stats.Histogram) *stats.Histogram {
	h.mu.Lock()
	defer h.mu.Unlock()
	old := h.histogram
	h.histogram = new
	return old
	}

	func (h lockingHistogram) mergeInto(merged stats.Histogram) {
	h.mu.Lock()
	defer h.mu.Unlock()
	merged.Merge(h.histogram)
	}

	type benchmarkClient struct {
	closeConns func()
	stop chan bool
	lastResetTime time.Time
	histogramOptions stats.HistogramOptions
	lockingHistograms []lockingHistogram
	rusageLastReset *syscall.Rusage
	}

	func printClientConfig(config *testpb.ClientConfig) {
	// Some config options are ignored:
	// - client type:
	// will always create sync client
	// - async client threads.
	// - core list
	grpclog.Printf(" * client type: %v (ignored, always creates sync client)", config.ClientType)
	grpclog.Printf(" * async client threads: %v (ignored)", config.AsyncClientThreads)
	// TODO: use cores specified by CoreList when setting list of cores is supported in go.
	grpclog.Printf(" * core list: %v (ignored)", config.CoreList)

	grpclog.Printf(" - security params: %v", config.SecurityParams)
	grpclog.Printf(" - core limit: %v", config.CoreLimit)
	grpclog.Printf(" - payload config: %v", config.PayloadConfig)
	grpclog.Printf(" - rpcs per chann: %v", config.OutstandingRpcsPerChannel)
	grpclog.Printf(" - channel number: %v", config.ClientChannels)
	grpclog.Printf(" - load params: %v", config.LoadParams)
	grpclog.Printf(" - rpc type: %v", config.RpcType)
	grpclog.Printf(" - histogram params: %v", config.HistogramParams)
	grpclog.Printf(" - server targets: %v", config.ServerTargets)
	}

	func setupClientEnv(config *testpb.ClientConfig) {
	// Use all cpu cores available on machine by default.
	// TODO: Revisit this for the optimal default setup.
	if config.CoreLimit > 0 {
	runtime.GOMAXPROCS(int(config.CoreLimit))
	} else {
	runtime.GOMAXPROCS(runtime.NumCPU())
	}
	}

	// createConns creates connections according to given config.
	// It returns the connections and corresponding function to close them.
	// It returns non-nil error if there is anything wrong.
	func createConns(config testpb.ClientConfig) ([]grpc.ClientConn, func(), error) {
	var opts []grpc.DialOption

	// Sanity check for client type.
	switch config.ClientType {
	case testpb.ClientType_SYNC_CLIENT:
	case testpb.ClientType_ASYNC_CLIENT:
	default:
	return nil, nil, status.Errorf(codes.InvalidArgument, "unknow client type: %v", config.ClientType)
	}

	// Check and set security options.
	if config.SecurityParams != nil {
	if *caFile == "" {
	*caFile = testdata.Path("ca.pem")
	}
	creds, err := credentials.NewClientTLSFromFile(*caFile, config.SecurityParams.ServerHostOverride)
	if err != nil {
	return nil, nil, status.Errorf(codes.InvalidArgument, "failed to create TLS credentials %v", err)
	}
	opts = append(opts, grpc.WithTransportCredentials(creds))
	} else {
	opts = append(opts, grpc.WithInsecure())
	}

	// Use byteBufCodec if it is required.
	if config.PayloadConfig != nil {
	switch config.PayloadConfig.Payload.(type) {
	case *testpb.PayloadConfig_BytebufParams:
	opts = append(opts, grpc.WithCodec(byteBufCodec{}))
	case *testpb.PayloadConfig_SimpleParams:
	default:
	return nil, nil, status.Errorf(codes.InvalidArgument, "unknow payload config: %v", config.PayloadConfig)
	}
	}

	// Create connections.
	connCount := int(config.ClientChannels)
	conns := make([]*grpc.ClientConn, connCount, connCount)
	for connIndex := 0; connIndex < connCount; connIndex++ {
	conns[connIndex] = benchmark.NewClientConn(config.ServerTargets[connIndex%len(config.ServerTargets)], opts...)
	}

	return conns, func() {
	for _, conn := range conns {
	conn.Close()
	}
	}, nil
	}

	func performRPCs(config testpb.ClientConfig, conns []grpc.ClientConn, bc *benchmarkClient) error {
	// Read payload size and type from config.
	var (
	payloadReqSize, payloadRespSize int
	payloadType string
	)
	if config.PayloadConfig != nil {
	switch c := config.PayloadConfig.Payload.(type) {
	case *testpb.PayloadConfig_BytebufParams:
	payloadReqSize = int(c.BytebufParams.ReqSize)
	payloadRespSize = int(c.BytebufParams.RespSize)
	payloadType = "bytebuf"
	case *testpb.PayloadConfig_SimpleParams:
	payloadReqSize = int(c.SimpleParams.ReqSize)
	payloadRespSize = int(c.SimpleParams.RespSize)
	payloadType = "protobuf"
	default:
	return status.Errorf(codes.InvalidArgument, "unknow payload config: %v", config.PayloadConfig)
	}
	}

	// TODO add open loop distribution.
	switch config.LoadParams.Load.(type) {
	case *testpb.LoadParams_ClosedLoop:
	case *testpb.LoadParams_Poisson:
	return status.Errorf(codes.Unimplemented, "unsupported load params: %v", config.LoadParams)
	default:
	return status.Errorf(codes.InvalidArgument, "unknown load params: %v", config.LoadParams)
	}

	rpcCountPerConn := int(config.OutstandingRpcsPerChannel)

	switch config.RpcType {
	case testpb.RpcType_UNARY:
	bc.doCloseLoopUnary(conns, rpcCountPerConn, payloadReqSize, payloadRespSize)
	// TODO open loop.
	case testpb.RpcType_STREAMING:
	bc.doCloseLoopStreaming(conns, rpcCountPerConn, payloadReqSize, payloadRespSize, payloadType)
	// TODO open loop.
	default:
	return status.Errorf(codes.InvalidArgument, "unknown rpc type: %v", config.RpcType)
	}

	return nil
	}

	func startBenchmarkClient(config testpb.ClientConfig) (benchmarkClient, error) {
	printClientConfig(config)

	// Set running environment like how many cores to use.
	setupClientEnv(config)

	conns, closeConns, err := createConns(config)
	if err != nil {
	return nil, err
	}

	rusage := new(syscall.Rusage)
	syscall.Getrusage(syscall.RUSAGE_SELF, rusage)

	rpcCountPerConn := int(config.OutstandingRpcsPerChannel)
	bc := &benchmarkClient{
	histogramOptions: stats.HistogramOptions{
	NumBuckets: int(math.Log(config.HistogramParams.MaxPossible)/math.Log(1+config.HistogramParams.Resolution)) + 1,
	GrowthFactor: config.HistogramParams.Resolution,
	BaseBucketSize: (1 + config.HistogramParams.Resolution),
	MinValue: 0,
	},
	lockingHistograms: make([]lockingHistogram, rpcCountPerConnlen(conns), rpcCountPerConnlen(conns)),

	stop: make(chan bool),
	lastResetTime: time.Now(),
	closeConns: closeConns,
	rusageLastReset: rusage,
	}

	if err = performRPCs(config, conns, bc); err != nil {
	// Close all connections if performRPCs failed.
	closeConns()
	return nil, err
	}

	return bc, nil
	}

	func (bc benchmarkClient) doCloseLoopUnary(conns []grpc.ClientConn, rpcCountPerConn int, reqSize int, respSize int) {
	for ic, conn := range conns {
	client := testpb.NewBenchmarkServiceClient(conn)
	// For each connection, create rpcCountPerConn goroutines to do rpc.
	for j := 0; j < rpcCountPerConn; j++ {
	// Create histogram for each goroutine.
	idx := ic*rpcCountPerConn + j
	bc.lockingHistograms[idx].histogram = stats.NewHistogram(bc.histogramOptions)
	// Start goroutine on the created mutex and histogram.
	go func(idx int) {
	// TODO: do warm up if necessary.
	// Now relying on worker client to reserve time to do warm up.
	// The worker client needs to wait for some time after client is created,
	// before starting benchmark.
	done := make(chan bool)
	for {
	go func() {
	start := time.Now()
	if err := benchmark.DoUnaryCall(client, reqSize, respSize); err != nil {
	select {
	case <-bc.stop:
	case done <- false:
	}
	return
	}
	elapse := time.Since(start)
	bc.lockingHistograms[idx].add(int64(elapse))
	select {
	case <-bc.stop:
	case done <- true:
	}
	}()
	select {
	case <-bc.stop:
	return
	case <-done:
	}
	}
	}(idx)
	}
	}
	}

	func (bc benchmarkClient) doCloseLoopStreaming(conns []grpc.ClientConn, rpcCountPerConn int, reqSize int, respSize int, payloadType string) {
	var doRPC func(testpb.BenchmarkService_StreamingCallClient, int, int) error
	if payloadType == "bytebuf" {
	doRPC = benchmark.DoByteBufStreamingRoundTrip
	} else {
	doRPC = benchmark.DoStreamingRoundTrip
	}
	for ic, conn := range conns {
	// For each connection, create rpcCountPerConn goroutines to do rpc.
	for j := 0; j < rpcCountPerConn; j++ {
	c := testpb.NewBenchmarkServiceClient(conn)
	stream, err := c.StreamingCall(context.Background())
	if err != nil {
	grpclog.Fatalf("%v.StreamingCall(_) = _, %v", c, err)
	}
	// Create histogram for each goroutine.
	idx := ic*rpcCountPerConn + j
	bc.lockingHistograms[idx].histogram = stats.NewHistogram(bc.histogramOptions)
	// Start goroutine on the created mutex and histogram.
	go func(idx int) {
	// TODO: do warm up if necessary.
	// Now relying on worker client to reserve time to do warm up.
	// The worker client needs to wait for some time after client is created,
	// before starting benchmark.
	for {
	start := time.Now()
	if err := doRPC(stream, reqSize, respSize); err != nil {
	return
	}
	elapse := time.Since(start)
	bc.lockingHistograms[idx].add(int64(elapse))
	select {
	case <-bc.stop:
	return
	default:
	}
	}
	}(idx)
	}
	}
	}

	// getStats returns the stats for benchmark client.
	// It resets lastResetTime and all histograms if argument reset is true.
	func (bc benchmarkClient) getStats(reset bool) testpb.ClientStats {
	var wallTimeElapsed, uTimeElapsed, sTimeElapsed float64
	mergedHistogram := stats.NewHistogram(bc.histogramOptions)
	latestRusage := new(syscall.Rusage)

	if reset {
	// Merging histogram may take some time.
	// Put all histograms aside and merge later.
	toMerge := make([]*stats.Histogram, len(bc.lockingHistograms), len(bc.lockingHistograms))
	for i := range bc.lockingHistograms {
	toMerge[i] = bc.lockingHistograms[i].swap(stats.NewHistogram(bc.histogramOptions))
	}

	for i := 0; i < len(toMerge); i++ {
	mergedHistogram.Merge(toMerge[i])
	}

	wallTimeElapsed = time.Since(bc.lastResetTime).Seconds()
	syscall.Getrusage(syscall.RUSAGE_SELF, latestRusage)
	uTimeElapsed, sTimeElapsed = cpuTimeDiff(bc.rusageLastReset, latestRusage)

	bc.rusageLastReset = latestRusage
	bc.lastResetTime = time.Now()
	} else {
	// Merge only, not reset.
	for i := range bc.lockingHistograms {
	bc.lockingHistograms[i].mergeInto(mergedHistogram)
	}

	wallTimeElapsed = time.Since(bc.lastResetTime).Seconds()
	syscall.Getrusage(syscall.RUSAGE_SELF, latestRusage)
	uTimeElapsed, sTimeElapsed = cpuTimeDiff(bc.rusageLastReset, latestRusage)
	}

	b := make([]uint32, len(mergedHistogram.Buckets), len(mergedHistogram.Buckets))
	for i, v := range mergedHistogram.Buckets {
	b[i] = uint32(v.Count)
	}
	return &testpb.ClientStats{
	Latencies: &testpb.HistogramData{
	Bucket: b,
	MinSeen: float64(mergedHistogram.Min),
	MaxSeen: float64(mergedHistogram.Max),
	Sum: float64(mergedHistogram.Sum),
	SumOfSquares: float64(mergedHistogram.SumOfSquares),
	Count: float64(mergedHistogram.Count),
	},
	TimeElapsed: wallTimeElapsed,
	TimeUser: uTimeElapsed,
	TimeSystem: sTimeElapsed,
	}
	}

	func (bc *benchmarkClient) shutdown() {
	close(bc.stop)
	bc.closeConns()
	}