mirror of
https://github.com/ceph/ceph-csi.git
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500 lines
16 KiB
Go
500 lines
16 KiB
Go
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/*
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*
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* Copyright 2017 gRPC authors.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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*/
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/*
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Package main provides benchmark with setting flags.
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An example to run some benchmarks with profiling enabled:
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go run benchmark/benchmain/main.go -benchtime=10s -workloads=all \
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-compression=on -maxConcurrentCalls=1 -trace=off \
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-reqSizeBytes=1,1048576 -respSizeBytes=1,1048576 -networkMode=Local \
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-cpuProfile=cpuProf -memProfile=memProf -memProfileRate=10000 -resultFile=result
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As a suggestion, when creating a branch, you can run this benchmark and save the result
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file "-resultFile=basePerf", and later when you at the middle of the work or finish the
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work, you can get the benchmark result and compare it with the base anytime.
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Assume there are two result files names as "basePerf" and "curPerf" created by adding
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-resultFile=basePerf and -resultFile=curPerf.
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To format the curPerf, run:
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go run benchmark/benchresult/main.go curPerf
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To observe how the performance changes based on a base result, run:
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go run benchmark/benchresult/main.go basePerf curPerf
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*/
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package main
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import (
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"encoding/gob"
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"errors"
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"flag"
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"fmt"
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"io"
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"io/ioutil"
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"log"
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"net"
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"os"
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"reflect"
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"runtime"
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"runtime/pprof"
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"strconv"
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"strings"
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"sync"
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"sync/atomic"
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"testing"
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"time"
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"golang.org/x/net/context"
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"google.golang.org/grpc"
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bm "google.golang.org/grpc/benchmark"
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testpb "google.golang.org/grpc/benchmark/grpc_testing"
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"google.golang.org/grpc/benchmark/latency"
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"google.golang.org/grpc/benchmark/stats"
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"google.golang.org/grpc/grpclog"
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)
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const (
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modeOn = "on"
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modeOff = "off"
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modeBoth = "both"
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)
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var allCompressionModes = []string{modeOn, modeOff, modeBoth}
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var allTraceModes = []string{modeOn, modeOff, modeBoth}
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const (
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workloadsUnary = "unary"
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workloadsStreaming = "streaming"
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workloadsAll = "all"
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)
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var allWorkloads = []string{workloadsUnary, workloadsStreaming, workloadsAll}
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var (
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runMode = []bool{true, true} // {runUnary, runStream}
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// When set the latency to 0 (no delay), the result is slower than the real result with no delay
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// because latency simulation section has extra operations
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ltc = []time.Duration{0, 40 * time.Millisecond} // if non-positive, no delay.
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kbps = []int{0, 10240} // if non-positive, infinite
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mtu = []int{0} // if non-positive, infinite
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maxConcurrentCalls = []int{1, 8, 64, 512}
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reqSizeBytes = []int{1, 1024, 1024 * 1024}
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respSizeBytes = []int{1, 1024, 1024 * 1024}
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enableTrace []bool
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benchtime time.Duration
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memProfile, cpuProfile string
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memProfileRate int
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enableCompressor []bool
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networkMode string
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benchmarkResultFile string
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networks = map[string]latency.Network{
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"Local": latency.Local,
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"LAN": latency.LAN,
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"WAN": latency.WAN,
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"Longhaul": latency.Longhaul,
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}
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)
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func unaryBenchmark(startTimer func(), stopTimer func(int32), benchFeatures stats.Features, benchtime time.Duration, s *stats.Stats) {
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caller, close := makeFuncUnary(benchFeatures)
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defer close()
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runBenchmark(caller, startTimer, stopTimer, benchFeatures, benchtime, s)
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}
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func streamBenchmark(startTimer func(), stopTimer func(int32), benchFeatures stats.Features, benchtime time.Duration, s *stats.Stats) {
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caller, close := makeFuncStream(benchFeatures)
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defer close()
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runBenchmark(caller, startTimer, stopTimer, benchFeatures, benchtime, s)
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}
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func makeFuncUnary(benchFeatures stats.Features) (func(int), func()) {
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nw := &latency.Network{Kbps: benchFeatures.Kbps, Latency: benchFeatures.Latency, MTU: benchFeatures.Mtu}
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opts := []grpc.DialOption{}
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sopts := []grpc.ServerOption{}
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if benchFeatures.EnableCompressor {
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sopts = append(sopts,
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grpc.RPCCompressor(nopCompressor{}),
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grpc.RPCDecompressor(nopDecompressor{}),
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)
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opts = append(opts,
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grpc.WithCompressor(nopCompressor{}),
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grpc.WithDecompressor(nopDecompressor{}),
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)
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}
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sopts = append(sopts, grpc.MaxConcurrentStreams(uint32(benchFeatures.MaxConcurrentCalls+1)))
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opts = append(opts, grpc.WithDialer(func(address string, timeout time.Duration) (net.Conn, error) {
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return nw.TimeoutDialer(net.DialTimeout)("tcp", address, timeout)
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}))
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opts = append(opts, grpc.WithInsecure())
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target, stopper := bm.StartServer(bm.ServerInfo{Addr: "localhost:0", Type: "protobuf", Network: nw}, sopts...)
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conn := bm.NewClientConn(target, opts...)
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tc := testpb.NewBenchmarkServiceClient(conn)
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return func(int) {
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unaryCaller(tc, benchFeatures.ReqSizeBytes, benchFeatures.RespSizeBytes)
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}, func() {
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conn.Close()
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stopper()
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}
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}
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func makeFuncStream(benchFeatures stats.Features) (func(int), func()) {
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nw := &latency.Network{Kbps: benchFeatures.Kbps, Latency: benchFeatures.Latency, MTU: benchFeatures.Mtu}
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opts := []grpc.DialOption{}
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sopts := []grpc.ServerOption{}
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if benchFeatures.EnableCompressor {
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sopts = append(sopts,
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grpc.RPCCompressor(grpc.NewGZIPCompressor()),
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grpc.RPCDecompressor(grpc.NewGZIPDecompressor()),
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)
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opts = append(opts,
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grpc.WithCompressor(grpc.NewGZIPCompressor()),
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grpc.WithDecompressor(grpc.NewGZIPDecompressor()),
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)
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}
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sopts = append(sopts, grpc.MaxConcurrentStreams(uint32(benchFeatures.MaxConcurrentCalls+1)))
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opts = append(opts, grpc.WithDialer(func(address string, timeout time.Duration) (net.Conn, error) {
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return nw.TimeoutDialer(net.DialTimeout)("tcp", address, timeout)
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}))
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opts = append(opts, grpc.WithInsecure())
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target, stopper := bm.StartServer(bm.ServerInfo{Addr: "localhost:0", Type: "protobuf", Network: nw}, sopts...)
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conn := bm.NewClientConn(target, opts...)
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tc := testpb.NewBenchmarkServiceClient(conn)
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streams := make([]testpb.BenchmarkService_StreamingCallClient, benchFeatures.MaxConcurrentCalls)
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for i := 0; i < benchFeatures.MaxConcurrentCalls; i++ {
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stream, err := tc.StreamingCall(context.Background())
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if err != nil {
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grpclog.Fatalf("%v.StreamingCall(_) = _, %v", tc, err)
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}
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streams[i] = stream
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}
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return func(pos int) {
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streamCaller(streams[pos], benchFeatures.ReqSizeBytes, benchFeatures.RespSizeBytes)
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}, func() {
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conn.Close()
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stopper()
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}
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}
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func unaryCaller(client testpb.BenchmarkServiceClient, reqSize, respSize int) {
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if err := bm.DoUnaryCall(client, reqSize, respSize); err != nil {
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grpclog.Fatalf("DoUnaryCall failed: %v", err)
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}
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}
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func streamCaller(stream testpb.BenchmarkService_StreamingCallClient, reqSize, respSize int) {
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if err := bm.DoStreamingRoundTrip(stream, reqSize, respSize); err != nil {
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grpclog.Fatalf("DoStreamingRoundTrip failed: %v", err)
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}
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}
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func runBenchmark(caller func(int), startTimer func(), stopTimer func(int32), benchFeatures stats.Features, benchtime time.Duration, s *stats.Stats) {
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// Warm up connection.
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for i := 0; i < 10; i++ {
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caller(0)
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}
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// Run benchmark.
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startTimer()
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var (
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mu sync.Mutex
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wg sync.WaitGroup
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)
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wg.Add(benchFeatures.MaxConcurrentCalls)
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bmEnd := time.Now().Add(benchtime)
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var count int32
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for i := 0; i < benchFeatures.MaxConcurrentCalls; i++ {
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go func(pos int) {
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for {
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t := time.Now()
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if t.After(bmEnd) {
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break
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}
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start := time.Now()
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caller(pos)
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elapse := time.Since(start)
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atomic.AddInt32(&count, 1)
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mu.Lock()
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s.Add(elapse)
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mu.Unlock()
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}
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wg.Done()
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}(i)
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}
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wg.Wait()
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stopTimer(count)
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}
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// Initiate main function to get settings of features.
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func init() {
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var (
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workloads, traceMode, compressorMode, readLatency string
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readKbps, readMtu, readMaxConcurrentCalls intSliceType
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readReqSizeBytes, readRespSizeBytes intSliceType
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)
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flag.StringVar(&workloads, "workloads", workloadsAll,
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fmt.Sprintf("Workloads to execute - One of: %v", strings.Join(allWorkloads, ", ")))
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flag.StringVar(&traceMode, "trace", modeOff,
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fmt.Sprintf("Trace mode - One of: %v", strings.Join(allTraceModes, ", ")))
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flag.StringVar(&readLatency, "latency", "", "Simulated one-way network latency - may be a comma-separated list")
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flag.DurationVar(&benchtime, "benchtime", time.Second, "Configures the amount of time to run each benchmark")
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flag.Var(&readKbps, "kbps", "Simulated network throughput (in kbps) - may be a comma-separated list")
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flag.Var(&readMtu, "mtu", "Simulated network MTU (Maximum Transmission Unit) - may be a comma-separated list")
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flag.Var(&readMaxConcurrentCalls, "maxConcurrentCalls", "Number of concurrent RPCs during benchmarks")
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flag.Var(&readReqSizeBytes, "reqSizeBytes", "Request size in bytes - may be a comma-separated list")
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flag.Var(&readRespSizeBytes, "respSizeBytes", "Response size in bytes - may be a comma-separated list")
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flag.StringVar(&memProfile, "memProfile", "", "Enables memory profiling output to the filename provided.")
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flag.IntVar(&memProfileRate, "memProfileRate", 512*1024, "Configures the memory profiling rate. \n"+
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"memProfile should be set before setting profile rate. To include every allocated block in the profile, "+
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"set MemProfileRate to 1. To turn off profiling entirely, set MemProfileRate to 0. 512 * 1024 by default.")
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flag.StringVar(&cpuProfile, "cpuProfile", "", "Enables CPU profiling output to the filename provided")
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flag.StringVar(&compressorMode, "compression", modeOff,
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fmt.Sprintf("Compression mode - One of: %v", strings.Join(allCompressionModes, ", ")))
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flag.StringVar(&benchmarkResultFile, "resultFile", "", "Save the benchmark result into a binary file")
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flag.StringVar(&networkMode, "networkMode", "", "Network mode includes LAN, WAN, Local and Longhaul")
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flag.Parse()
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if flag.NArg() != 0 {
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log.Fatal("Error: unparsed arguments: ", flag.Args())
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}
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switch workloads {
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case workloadsUnary:
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runMode[0] = true
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runMode[1] = false
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case workloadsStreaming:
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runMode[0] = false
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runMode[1] = true
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case workloadsAll:
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runMode[0] = true
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runMode[1] = true
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default:
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log.Fatalf("Unknown workloads setting: %v (want one of: %v)",
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workloads, strings.Join(allWorkloads, ", "))
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}
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enableCompressor = setMode(compressorMode)
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enableTrace = setMode(traceMode)
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// Time input formats as (time + unit).
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readTimeFromInput(<c, readLatency)
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readIntFromIntSlice(&kbps, readKbps)
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readIntFromIntSlice(&mtu, readMtu)
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readIntFromIntSlice(&maxConcurrentCalls, readMaxConcurrentCalls)
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readIntFromIntSlice(&reqSizeBytes, readReqSizeBytes)
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readIntFromIntSlice(&respSizeBytes, readRespSizeBytes)
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// Re-write latency, kpbs and mtu if network mode is set.
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if network, ok := networks[networkMode]; ok {
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ltc = []time.Duration{network.Latency}
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kbps = []int{network.Kbps}
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mtu = []int{network.MTU}
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}
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}
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func setMode(name string) []bool {
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switch name {
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case modeOn:
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return []bool{true}
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case modeOff:
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return []bool{false}
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case modeBoth:
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return []bool{false, true}
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default:
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log.Fatalf("Unknown %s setting: %v (want one of: %v)",
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name, name, strings.Join(allCompressionModes, ", "))
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return []bool{}
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}
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}
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type intSliceType []int
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func (intSlice *intSliceType) String() string {
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return fmt.Sprintf("%v", *intSlice)
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}
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func (intSlice *intSliceType) Set(value string) error {
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if len(*intSlice) > 0 {
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return errors.New("interval flag already set")
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}
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for _, num := range strings.Split(value, ",") {
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next, err := strconv.Atoi(num)
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if err != nil {
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return err
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}
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*intSlice = append(*intSlice, next)
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}
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return nil
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}
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func readIntFromIntSlice(values *[]int, replace intSliceType) {
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// If not set replace in the flag, just return to run the default settings.
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if len(replace) == 0 {
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return
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}
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*values = replace
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}
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func readTimeFromInput(values *[]time.Duration, replace string) {
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if strings.Compare(replace, "") != 0 {
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*values = []time.Duration{}
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for _, ltc := range strings.Split(replace, ",") {
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duration, err := time.ParseDuration(ltc)
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if err != nil {
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log.Fatal(err.Error())
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}
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*values = append(*values, duration)
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}
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}
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}
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func main() {
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before()
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featuresPos := make([]int, 8)
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// 0:enableTracing 1:ltc 2:kbps 3:mtu 4:maxC 5:reqSize 6:respSize
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featuresNum := []int{len(enableTrace), len(ltc), len(kbps), len(mtu),
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len(maxConcurrentCalls), len(reqSizeBytes), len(respSizeBytes), len(enableCompressor)}
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initalPos := make([]int, len(featuresPos))
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s := stats.NewStats(10)
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s.SortLatency()
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var memStats runtime.MemStats
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var results testing.BenchmarkResult
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var startAllocs, startBytes uint64
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var startTime time.Time
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start := true
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var startTimer = func() {
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runtime.ReadMemStats(&memStats)
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startAllocs = memStats.Mallocs
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startBytes = memStats.TotalAlloc
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startTime = time.Now()
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}
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var stopTimer = func(count int32) {
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runtime.ReadMemStats(&memStats)
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results = testing.BenchmarkResult{N: int(count), T: time.Now().Sub(startTime),
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Bytes: 0, MemAllocs: memStats.Mallocs - startAllocs, MemBytes: memStats.TotalAlloc - startBytes}
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}
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sharedPos := make([]bool, len(featuresPos))
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for i := 0; i < len(featuresPos); i++ {
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if featuresNum[i] <= 1 {
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sharedPos[i] = true
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}
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}
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// Run benchmarks
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resultSlice := []stats.BenchResults{}
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for !reflect.DeepEqual(featuresPos, initalPos) || start {
|
||
|
start = false
|
||
|
benchFeature := stats.Features{
|
||
|
NetworkMode: networkMode,
|
||
|
EnableTrace: enableTrace[featuresPos[0]],
|
||
|
Latency: ltc[featuresPos[1]],
|
||
|
Kbps: kbps[featuresPos[2]],
|
||
|
Mtu: mtu[featuresPos[3]],
|
||
|
MaxConcurrentCalls: maxConcurrentCalls[featuresPos[4]],
|
||
|
ReqSizeBytes: reqSizeBytes[featuresPos[5]],
|
||
|
RespSizeBytes: respSizeBytes[featuresPos[6]],
|
||
|
EnableCompressor: enableCompressor[featuresPos[7]],
|
||
|
}
|
||
|
|
||
|
grpc.EnableTracing = enableTrace[featuresPos[0]]
|
||
|
if runMode[0] {
|
||
|
unaryBenchmark(startTimer, stopTimer, benchFeature, benchtime, s)
|
||
|
s.SetBenchmarkResult("Unary", benchFeature, results.N,
|
||
|
results.AllocedBytesPerOp(), results.AllocsPerOp(), sharedPos)
|
||
|
fmt.Println(s.BenchString())
|
||
|
fmt.Println(s.String())
|
||
|
resultSlice = append(resultSlice, s.GetBenchmarkResults())
|
||
|
s.Clear()
|
||
|
}
|
||
|
if runMode[1] {
|
||
|
streamBenchmark(startTimer, stopTimer, benchFeature, benchtime, s)
|
||
|
s.SetBenchmarkResult("Stream", benchFeature, results.N,
|
||
|
results.AllocedBytesPerOp(), results.AllocsPerOp(), sharedPos)
|
||
|
fmt.Println(s.BenchString())
|
||
|
fmt.Println(s.String())
|
||
|
resultSlice = append(resultSlice, s.GetBenchmarkResults())
|
||
|
s.Clear()
|
||
|
}
|
||
|
bm.AddOne(featuresPos, featuresNum)
|
||
|
}
|
||
|
after(resultSlice)
|
||
|
}
|
||
|
|
||
|
func before() {
|
||
|
if memProfile != "" {
|
||
|
runtime.MemProfileRate = memProfileRate
|
||
|
}
|
||
|
if cpuProfile != "" {
|
||
|
f, err := os.Create(cpuProfile)
|
||
|
if err != nil {
|
||
|
fmt.Fprintf(os.Stderr, "testing: %s\n", err)
|
||
|
return
|
||
|
}
|
||
|
if err := pprof.StartCPUProfile(f); err != nil {
|
||
|
fmt.Fprintf(os.Stderr, "testing: can't start cpu profile: %s\n", err)
|
||
|
f.Close()
|
||
|
return
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
|
||
|
func after(data []stats.BenchResults) {
|
||
|
if cpuProfile != "" {
|
||
|
pprof.StopCPUProfile() // flushes profile to disk
|
||
|
}
|
||
|
if memProfile != "" {
|
||
|
f, err := os.Create(memProfile)
|
||
|
if err != nil {
|
||
|
fmt.Fprintf(os.Stderr, "testing: %s\n", err)
|
||
|
os.Exit(2)
|
||
|
}
|
||
|
runtime.GC() // materialize all statistics
|
||
|
if err = pprof.WriteHeapProfile(f); err != nil {
|
||
|
fmt.Fprintf(os.Stderr, "testing: can't write heap profile %s: %s\n", memProfile, err)
|
||
|
os.Exit(2)
|
||
|
}
|
||
|
f.Close()
|
||
|
}
|
||
|
if benchmarkResultFile != "" {
|
||
|
f, err := os.Create(benchmarkResultFile)
|
||
|
if err != nil {
|
||
|
log.Fatalf("testing: can't write benchmark result %s: %s\n", benchmarkResultFile, err)
|
||
|
}
|
||
|
dataEncoder := gob.NewEncoder(f)
|
||
|
dataEncoder.Encode(data)
|
||
|
f.Close()
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// nopCompressor is a compressor that just copies data.
|
||
|
type nopCompressor struct{}
|
||
|
|
||
|
func (nopCompressor) Do(w io.Writer, p []byte) error {
|
||
|
n, err := w.Write(p)
|
||
|
if err != nil {
|
||
|
return err
|
||
|
}
|
||
|
if n != len(p) {
|
||
|
return fmt.Errorf("nopCompressor.Write: wrote %v bytes; want %v", n, len(p))
|
||
|
}
|
||
|
return nil
|
||
|
}
|
||
|
|
||
|
func (nopCompressor) Type() string { return "nop" }
|
||
|
|
||
|
// nopDecompressor is a decompressor that just copies data.
|
||
|
type nopDecompressor struct{}
|
||
|
|
||
|
func (nopDecompressor) Do(r io.Reader) ([]byte, error) { return ioutil.ReadAll(r) }
|
||
|
func (nopDecompressor) Type() string { return "nop" }
|