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main.go
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main.go
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package main
import (
"bytes"
"crypto/sha1"
"encoding/csv"
"flag"
"fmt"
"github.com/aws/aws-sdk-go-v2/aws"
"github.com/aws/aws-sdk-go-v2/aws/external"
"github.com/aws/aws-sdk-go-v2/service/s3"
"github.com/schollz/progressbar/v2"
"io"
"io/ioutil"
"net/http"
"os"
"sort"
"strings"
"time"
)
// represents the duration from making an S3 GetObject request to getting the first byte and last byte
type latency struct {
FirstByte time.Duration
LastByte time.Duration
}
// summary statistics used to summarize first byte and last byte latencies
type stat int
const (
min stat = iota + 1
max
avg
p25
p50
p75
p90
p99
)
// a benchmark record for one object size and thread count
type benchmark struct {
objectSize uint64
threads int
firstByte map[stat]float64
lastByte map[stat]float64
dataPoints []latency
}
// absolute limits
const maxPayload = 18
const maxThreads = 64
// default settings
const defaultRegion = "us-west-2"
const bucketNamePrefix = "s3-benchmark"
// the hostname or EC2 instance id
var hostname = getHostname()
// the EC2 instance region if available
var region = getRegion()
// the endpoint URL if applicable
var endpoint string
// the EC2 instance type if available
var instanceType = getInstanceType()
// the script will automatically create an S3 bucket to use for the test, and it tries to get a unique bucket name
// by generating a sha hash of the hostname
var bucketName = fmt.Sprintf("%s-%x", bucketNamePrefix, sha1.Sum([]byte(hostname)))
// the min and max object sizes to test - 1 = 1 KB, and the size doubles with every increment
var payloadsMin int
var payloadsMax int
// the min and max thread count to use in the test
var threadsMin int
var threadsMax int
// the number of samples to collect for each benchmark record
var samples int
// a test mode to find out when EC2 network throttling kicks in
var throttlingMode bool
// flag to cleanup the s3 bucket and exit the program
var cleanupOnly bool
// if not empty, the results of the test get uploaded to S3 using this key prefix
var csvResults string
// flag to create the s3 bucket
var createBucket bool
// the S3 SDK client
var s3Client *s3.S3
// program entry point
func main() {
// parse the program arguments and set the global variables
parseFlags()
// set up the S3 SDK
setupS3Client()
// if given the flag to cleanup only, then run the cleanup and exit the program
if cleanupOnly {
cleanup()
return
}
// create the S3 bucket and upload the test data
setup()
// run the test against the uploaded data
runBenchmark()
// remove the objects uploaded to S3 for this test (but doesn't remove the bucket)
cleanup()
}
func parseFlags() {
threadsMinArg := flag.Int("threads-min", 8, "The minimum number of threads to use when fetching objects from S3.")
threadsMaxArg := flag.Int("threads-max", 16, "The maximum number of threads to use when fetching objects from S3.")
payloadsMinArg := flag.Int("payloads-min", 1, "The minimum object size to test, with 1 = 1 KB, and every increment is a double of the previous value.")
payloadsMaxArg := flag.Int("payloads-max", 10, "The maximum object size to test, with 1 = 1 KB, and every increment is a double of the previous value.")
samplesArg := flag.Int("samples", 1000, "The number of samples to collect for each test of a single object size and thread count.")
bucketNameArg := flag.String("bucket-name", "", "Cleans up all the S3 artifacts used by the benchmarks.")
regionArg := flag.String("region", "", "Sets the AWS region to use for the S3 bucket. Only applies if the bucket doesn't already exist.")
endpointArg := flag.String("endpoint", "", "Sets the S3 endpoint to use. Only applies to non-AWS, S3-compatible stores.")
fullArg := flag.Bool("full", false, "Runs the full exhaustive test, and overrides the threads and payload arguments.")
throttlingModeArg := flag.Bool("throttling-mode", false, "Runs a continuous test to find out when EC2 network throttling kicks in.")
cleanupArg := flag.Bool("cleanup", false, "Cleans all the objects uploaded to S3 for this test.")
csvResultsArg := flag.String("upload-csv", "", "Uploads the test results to S3 as a CSV file.")
createBucketArg := flag.Bool("create-bucket", true, "Create the bucket")
// parse the arguments and set all the global variables accordingly
flag.Parse()
if *bucketNameArg != "" {
bucketName = *bucketNameArg
}
if *regionArg != "" {
region = *regionArg
}
if *endpointArg != "" {
endpoint = *endpointArg
}
payloadsMin = *payloadsMinArg
payloadsMax = *payloadsMaxArg
threadsMin = *threadsMinArg
threadsMax = *threadsMaxArg
samples = *samplesArg
cleanupOnly = *cleanupArg
csvResults = *csvResultsArg
createBucket = *createBucketArg
if payloadsMin > payloadsMax {
payloadsMin = payloadsMax
}
if threadsMin > threadsMax {
threadsMin = threadsMax
}
if *fullArg {
// if running the full exhaustive test, the threads and payload arguments get overridden with these
threadsMin = 1
threadsMax = 48
payloadsMin = 1 // 1 KB
payloadsMax = 16 // 32 MB
}
if *throttlingModeArg {
// if running the network throttling test, the threads and payload arguments get overridden with these
threadsMin = 36
threadsMax = 36
payloadsMin = 15 // 16 MB
payloadsMax = 15 // 16 MB
throttlingMode = *throttlingModeArg
}
}
func setupS3Client() {
// gets the AWS credentials from the default file or from the EC2 instance profile
cfg, err := external.LoadDefaultAWSConfig()
if err != nil {
panic("Unable to load AWS SDK config: " + err.Error())
}
// set the SDK region to either the one from the program arguments or else to the same region as the EC2 instance
cfg.Region = region
// set the endpoint in the configuration
if endpoint != "" {
cfg.EndpointResolver = aws.ResolveWithEndpointURL(endpoint)
}
// set a 3-minute timeout for all S3 calls, including downloading the body
cfg.HTTPClient = &http.Client{
Timeout: time.Second * 180,
}
// crete the S3 client
s3Client = s3.New(cfg)
// custom endpoints don't generally work with the bucket in the host prefix
if endpoint != "" {
s3Client.ForcePathStyle = true
}
}
func setup() {
fmt.Print("\n--- \033[1;32mSETUP\033[0m --------------------------------------------------------------------------------------------------------------------\n\n")
if createBucket {
// try to create the S3 bucket
createBucketReq := s3Client.CreateBucketRequest(&s3.CreateBucketInput{
Bucket: aws.String(bucketName),
CreateBucketConfiguration: &s3.CreateBucketConfiguration{
LocationConstraint: s3.NormalizeBucketLocation(s3.BucketLocationConstraint(region)),
},
})
// AWS S3 has this peculiar issue in which if you want to create bucket in us-east-1 region, you should NOT specify
// any location constraint. https://github.com/boto/boto3/issues/125
if strings.ToLower(region) == "us-east-1" {
createBucketReq = s3Client.CreateBucketRequest(&s3.CreateBucketInput{
Bucket: aws.String(bucketName),
})
}
_, err := createBucketReq.Send()
// if the error is because the bucket already exists, ignore the error
if err != nil && !strings.Contains(err.Error(), "BucketAlreadyOwnedByYou:") {
panic("Failed to create S3 bucket: " + err.Error())
}
}
// an object size iterator that starts from 1 KB and doubles the size on every iteration
generatePayload := payloadSizeGenerator()
// loop over every payload size
for p := 1; p <= payloadsMax; p++ {
// get an object size from the iterator
objectSize := generatePayload()
// ignore payloads smaller than the min argument
if p < payloadsMin {
continue
}
fmt.Printf("Uploading \033[1;33m%-s\033[0m objects\n", byteFormat(float64(objectSize)))
// create a progress bar
bar := progressbar.NewOptions(threadsMax-1, progressbar.OptionSetRenderBlankState(true))
// create an object for every thread, so that different threads don't download the same object
for t := 1; t <= threadsMax; t++ {
// increment the progress bar for each object
_ = bar.Add(1)
// generate an S3 key from the sha hash of the hostname, thread index, and object size
key := generateS3Key(hostname, t, objectSize)
// do a HeadObject request to avoid uploading the object if it already exists from a previous test run
headReq := s3Client.HeadObjectRequest(&s3.HeadObjectInput{
Bucket: aws.String(bucketName),
Key: aws.String(key),
})
_, err := headReq.Send()
// if no error, then the object exists, so skip this one
if err == nil {
continue
}
// if other error, exit
if err != nil && !strings.Contains(err.Error(), "NotFound:") {
panic("Failed to head S3 object: " + err.Error())
}
// generate empty payload
payload := make([]byte, objectSize)
// do a PutObject request to create the object
putReq := s3Client.PutObjectRequest(&s3.PutObjectInput{
Bucket: aws.String(bucketName),
Key: aws.String(key),
Body: bytes.NewReader(payload),
})
_, err = putReq.Send()
// if the put fails, exit
if err != nil {
panic("Failed to put S3 object: " + err.Error())
}
}
fmt.Print("\n")
}
}
func runBenchmark() {
fmt.Print("\n--- \033[1;32mBENCHMARK\033[0m ----------------------------------------------------------------------------------------------------------------\n\n")
// array of csv records used to upload the results to S3 when the test is finished
var csvRecords [][]string
// an object size iterator that starts from 1 KB and doubles the size on every iteration
generatePayload := payloadSizeGenerator()
// loop over every payload size
for p := 1; p <= payloadsMax; p++ {
// get an object size from the iterator
payload := generatePayload()
// ignore payloads smaller than the min argument
if p < payloadsMin {
continue
}
// print the header for the benchmark of this object size
printHeader(payload)
// run a test per thread count and object size combination
for t := threadsMin; t <= threadsMax; t++ {
// if throttling mode, loop forever
for n := 1; true; n++ {
csvRecords = execTest(t, payload, n, csvRecords)
if !throttlingMode {
break
}
}
}
fmt.Print("+---------+----------------+------------------------------------------------+------------------------------------------------+\n\n")
}
// if the csv option is true, upload the csv results to S3
if csvResults != "" {
b := &bytes.Buffer{}
w := csv.NewWriter(b)
_ = w.WriteAll(csvRecords)
// create the s3 key based on the prefix argument and instance type
key := "results/" + csvResults + "-" + instanceType
// do the PutObject request
putReq := s3Client.PutObjectRequest(&s3.PutObjectInput{
Bucket: aws.String(bucketName),
Key: &key,
Body: bytes.NewReader(b.Bytes()),
})
_, err := putReq.Send()
// if the request fails, exit
if err != nil {
panic("Failed to put object: " + err.Error())
}
fmt.Printf("CSV results uploaded to \033[1;33ms3://%s/%s\033[0m\n", bucketName, key)
}
}
func execTest(threadCount int, payloadSize uint64, runNumber int, csvRecords [][]string) [][]string {
// this overrides the sample count on small hosts that can get overwhelmed by a large throughput
samples := getTargetSampleCount(threadCount, samples)
// a channel to submit the test tasks
testTasks := make(chan int, threadCount)
// a channel to receive results from the test tasks back on the main thread
results := make(chan latency, samples)
// create the workers for all the threads in this test
for w := 1; w <= threadCount; w++ {
go func(o int, tasks <-chan int, results chan<- latency) {
for range tasks {
// generate an S3 key from the sha hash of the hostname, thread index, and object size
key := generateS3Key(hostname, o, payloadSize)
// start the timer to measure the first byte and last byte latencies
latencyTimer := time.Now()
// do the GetObject request
req := s3Client.GetObjectRequest(&s3.GetObjectInput{
Bucket: aws.String(bucketName),
Key: aws.String(key),
})
resp, err := req.Send()
// if a request fails, exit
if err != nil {
panic("Failed to get object: " + err.Error())
}
// measure the first byte latency
firstByte := time.Now().Sub(latencyTimer)
// create a buffer to copy the S3 object body to
var buf = make([]byte, payloadSize)
// read the s3 object body into the buffer
size := 0
for {
n, err := resp.Body.Read(buf)
size += n
if err == io.EOF {
break
}
// if the streaming fails, exit
if err != nil {
panic("Error reading object body: " + err.Error())
}
}
_ = resp.Body.Close()
// measure the last byte latency
lastByte := time.Now().Sub(latencyTimer)
// add the latency result to the results channel
results <- latency{FirstByte: firstByte, LastByte: lastByte}
}
}(w, testTasks, results)
}
// start the timer for this benchmark
benchmarkTimer := time.Now()
// submit all the test tasks
for j := 1; j <= samples; j++ {
testTasks <- j
}
// close the channel
close(testTasks)
// construct a new benchmark record
benchmarkRecord := benchmark{
firstByte: make(map[stat]float64),
lastByte: make(map[stat]float64),
}
sumFirstByte := int64(0)
sumLastByte := int64(0)
benchmarkRecord.threads = threadCount
// wait for all the results to come and collect the individual datapoints
for s := 1; s <= samples; s++ {
timing := <-results
benchmarkRecord.dataPoints = append(benchmarkRecord.dataPoints, timing)
sumFirstByte += timing.FirstByte.Nanoseconds()
sumLastByte += timing.LastByte.Nanoseconds()
benchmarkRecord.objectSize += payloadSize
}
// stop the timer for this benchmark
totalTime := time.Now().Sub(benchmarkTimer)
// calculate the summary statistics for the first byte latencies
sort.Sort(ByFirstByte(benchmarkRecord.dataPoints))
benchmarkRecord.firstByte[avg] = (float64(sumFirstByte) / float64(samples)) / 1000000
benchmarkRecord.firstByte[min] = float64(benchmarkRecord.dataPoints[0].FirstByte.Nanoseconds()) / 1000000
benchmarkRecord.firstByte[max] = float64(benchmarkRecord.dataPoints[len(benchmarkRecord.dataPoints)-1].FirstByte.Nanoseconds()) / 1000000
benchmarkRecord.firstByte[p25] = float64(benchmarkRecord.dataPoints[int(float64(samples)*float64(0.25))-1].FirstByte.Nanoseconds()) / 1000000
benchmarkRecord.firstByte[p50] = float64(benchmarkRecord.dataPoints[int(float64(samples)*float64(0.5))-1].FirstByte.Nanoseconds()) / 1000000
benchmarkRecord.firstByte[p75] = float64(benchmarkRecord.dataPoints[int(float64(samples)*float64(0.75))-1].FirstByte.Nanoseconds()) / 1000000
benchmarkRecord.firstByte[p90] = float64(benchmarkRecord.dataPoints[int(float64(samples)*float64(0.90))-1].FirstByte.Nanoseconds()) / 1000000
benchmarkRecord.firstByte[p99] = float64(benchmarkRecord.dataPoints[int(float64(samples)*float64(0.99))-1].FirstByte.Nanoseconds()) / 1000000
// calculate the summary statistics for the last byte latencies
sort.Sort(ByLastByte(benchmarkRecord.dataPoints))
benchmarkRecord.lastByte[avg] = (float64(sumLastByte) / float64(samples)) / 1000000
benchmarkRecord.lastByte[min] = float64(benchmarkRecord.dataPoints[0].LastByte.Nanoseconds()) / 1000000
benchmarkRecord.lastByte[max] = float64(benchmarkRecord.dataPoints[len(benchmarkRecord.dataPoints)-1].LastByte.Nanoseconds()) / 1000000
benchmarkRecord.lastByte[p25] = float64(benchmarkRecord.dataPoints[int(float64(samples)*float64(0.25))-1].LastByte.Nanoseconds()) / 1000000
benchmarkRecord.lastByte[p50] = float64(benchmarkRecord.dataPoints[int(float64(samples)*float64(0.5))-1].LastByte.Nanoseconds()) / 1000000
benchmarkRecord.lastByte[p75] = float64(benchmarkRecord.dataPoints[int(float64(samples)*float64(0.75))-1].LastByte.Nanoseconds()) / 1000000
benchmarkRecord.lastByte[p90] = float64(benchmarkRecord.dataPoints[int(float64(samples)*float64(0.90))-1].LastByte.Nanoseconds()) / 1000000
benchmarkRecord.lastByte[p99] = float64(benchmarkRecord.dataPoints[int(float64(samples)*float64(0.99))-1].LastByte.Nanoseconds()) / 1000000
// calculate the throughput rate
rate := (float64(benchmarkRecord.objectSize)) / (totalTime.Seconds()) / 1024 / 1024
// determine what to put in the first column of the results
c := benchmarkRecord.threads
if throttlingMode {
c = runNumber
}
// print the results to stdout
fmt.Printf("| %7d | \033[1;31m%9.1f MB/s\033[0m |%5.0f %5.0f %5.0f %5.0f %5.0f %5.0f %5.0f %5.0f |%5.0f %5.0f %5.0f %5.0f %5.0f %5.0f %5.0f %5.0f |\n",
c, rate,
benchmarkRecord.firstByte[avg], benchmarkRecord.firstByte[min], benchmarkRecord.firstByte[p25], benchmarkRecord.firstByte[p50], benchmarkRecord.firstByte[p75], benchmarkRecord.firstByte[p90], benchmarkRecord.firstByte[p99], benchmarkRecord.firstByte[max],
benchmarkRecord.lastByte[avg], benchmarkRecord.lastByte[min], benchmarkRecord.lastByte[p25], benchmarkRecord.lastByte[p50], benchmarkRecord.lastByte[p75], benchmarkRecord.lastByte[p90], benchmarkRecord.lastByte[p99], benchmarkRecord.lastByte[max])
// add the results to the csv array
csvRecords = append(csvRecords, []string{
fmt.Sprintf("%s", hostname),
fmt.Sprintf("%s", instanceType),
fmt.Sprintf("%d", payloadSize),
fmt.Sprintf("%d", benchmarkRecord.threads),
fmt.Sprintf("%.3f", rate),
fmt.Sprintf("%.1f", benchmarkRecord.firstByte[avg]),
fmt.Sprintf("%.1f", benchmarkRecord.firstByte[min]),
fmt.Sprintf("%.1f", benchmarkRecord.firstByte[p25]),
fmt.Sprintf("%.1f", benchmarkRecord.firstByte[p50]),
fmt.Sprintf("%.1f", benchmarkRecord.firstByte[p75]),
fmt.Sprintf("%.1f", benchmarkRecord.firstByte[p90]),
fmt.Sprintf("%.1f", benchmarkRecord.firstByte[p99]),
fmt.Sprintf("%.1f", benchmarkRecord.firstByte[max]),
fmt.Sprintf("%.2f", benchmarkRecord.lastByte[avg]),
fmt.Sprintf("%.2f", benchmarkRecord.lastByte[min]),
fmt.Sprintf("%.1f", benchmarkRecord.lastByte[p25]),
fmt.Sprintf("%.1f", benchmarkRecord.lastByte[p50]),
fmt.Sprintf("%.1f", benchmarkRecord.lastByte[p75]),
fmt.Sprintf("%.1f", benchmarkRecord.lastByte[p90]),
fmt.Sprintf("%.1f", benchmarkRecord.lastByte[p99]),
fmt.Sprintf("%.1f", benchmarkRecord.lastByte[max]),
})
return csvRecords
}
// prints the table header for the test results
func printHeader(objectSize uint64) {
// instance type string used to render results to stdout
instanceTypeString := ""
if instanceType != "" {
instanceTypeString = " (" + instanceType + ")"
}
// print the table header
fmt.Printf("Download performance with \033[1;33m%-s\033[0m objects%s\n", byteFormat(float64(objectSize)), instanceTypeString)
fmt.Println(" +-------------------------------------------------------------------------------------------------+")
fmt.Println(" | Time to First Byte (ms) | Time to Last Byte (ms) |")
fmt.Println("+---------+----------------+------------------------------------------------+------------------------------------------------+")
if !throttlingMode {
fmt.Println("| Threads | Throughput | avg min p25 p50 p75 p90 p99 max | avg min p25 p50 p75 p90 p99 max |")
} else {
fmt.Println("| # | Throughput | avg min p25 p50 p75 p90 p99 max | avg min p25 p50 p75 p90 p99 max |")
}
fmt.Println("+---------+----------------+------------------------------------------------+------------------------------------------------+")
}
// generates an S3 key from the sha hash of the hostname, thread index, and object size
func generateS3Key(host string, threadIndex int, payloadSize uint64) string {
keyHash := sha1.Sum([]byte(fmt.Sprintf("%s-%03d-%012d", host, threadIndex, payloadSize)))
key := fmt.Sprintf("%x", keyHash)
return key
}
// cleans up the objects uploaded to S3 for this test (but doesn't remove the bucket)
func cleanup() {
fmt.Print("\n--- \033[1;32mCLEANUP\033[0m ------------------------------------------------------------------------------------------------------------------\n\n")
fmt.Printf("Deleting any objects uploaded from %s\n", hostname)
// create a progress bar
bar := progressbar.NewOptions(maxPayload*maxThreads-1, progressbar.OptionSetRenderBlankState(true))
// an object size iterator that starts from 1 KB and doubles the size on every iteration
generatePayload := payloadSizeGenerator()
// loop over every payload size
for p := 1; p <= maxPayload; p++ {
// get an object size from the iterator
payloadSize := generatePayload()
// loop over each possible thread to clean up objects from any previous test execution
for t := 1; t <= maxThreads; t++ {
// increment the progress bar
_ = bar.Add(1)
// generate an S3 key from the sha hash of the hostname, thread index, and object size
key := generateS3Key(hostname, t, payloadSize)
// make a DeleteObject request
headReq := s3Client.DeleteObjectRequest(&s3.DeleteObjectInput{
Bucket: aws.String(bucketName),
Key: aws.String(key),
})
_, err := headReq.Send()
// if the object doesn't exist, ignore the error
if err != nil && !strings.HasPrefix(err.Error(), "NotFound: Not Found") {
panic("Failed to delete object: " + err.Error())
}
}
}
fmt.Print("\n\n")
}
// gets the hostname or the EC2 instance ID
func getHostname() string {
instanceId := getInstanceId()
if instanceId != "" {
return instanceId
}
hostname, err := os.Hostname()
if err != nil {
panic(err)
}
return hostname
}
// formats bytes to KB or MB
func byteFormat(bytes float64) string {
if bytes >= 1024*1024 {
return fmt.Sprintf("%.f MB", bytes/1024/1024)
}
return fmt.Sprintf("%.f KB", bytes/1024)
}
// gets the EC2 region from the instance metadata
func getRegion() string {
httpClient := &http.Client{
Timeout: time.Second,
}
link := "http://169.254.169.254/latest/meta-data/placement/availability-zone"
response, err := httpClient.Get(link)
if err != nil {
return defaultRegion
}
content, _ := ioutil.ReadAll(response.Body)
_ = response.Body.Close()
az := string(content)
return az[:len(az)-1]
}
// gets the EC2 instance type from the instance metadata
func getInstanceType() string {
httpClient := &http.Client{
Timeout: time.Second,
}
link := "http://169.254.169.254/latest/meta-data/instance-type"
response, err := httpClient.Get(link)
if err != nil {
return ""
}
content, _ := ioutil.ReadAll(response.Body)
_ = response.Body.Close()
return string(content)
}
// gets the EC2 instance ID from the instance metadata
func getInstanceId() string {
httpClient := &http.Client{
Timeout: time.Second,
}
link := "http://169.254.169.254/latest/meta-data/instance-id"
response, err := httpClient.Get(link)
if err != nil {
return ""
}
content, _ := ioutil.ReadAll(response.Body)
_ = response.Body.Close()
return string(content)
}
// returns an object size iterator, starting from 1 KB and double in size by each iteration
func payloadSizeGenerator() func() uint64 {
nextPayloadSize := uint64(1024)
return func() uint64 {
thisPayloadSize := nextPayloadSize
nextPayloadSize *= 2
return thisPayloadSize
}
}
// adjust the sample count for small instances and for low thread counts (so that the test doesn't take forever)
func getTargetSampleCount(threads int, tasks int) int {
if instanceType == "" {
return minimumOf(50, tasks)
}
if !strings.Contains(instanceType, "xlarge") && !strings.Contains(instanceType, "metal") {
return minimumOf(50, tasks)
}
if threads <= 4 {
return minimumOf(100, tasks)
}
if threads <= 8 {
return minimumOf(250, tasks)
}
if threads <= 16 {
return minimumOf(500, tasks)
}
return tasks
}
// go doesn't seem to have a min function in the std lib!
func minimumOf(x, y int) int {
if x < y {
return x
}
return y
}
// comparator to sort by first byte latency
type ByFirstByte []latency
func (a ByFirstByte) Len() int { return len(a) }
func (a ByFirstByte) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a ByFirstByte) Less(i, j int) bool { return a[i].FirstByte < a[j].FirstByte }
// comparator to sort by last byte latency
type ByLastByte []latency
func (a ByLastByte) Len() int { return len(a) }
func (a ByLastByte) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a ByLastByte) Less(i, j int) bool { return a[i].LastByte < a[j].LastByte }