- package main
-
- import (
- "flag"
- "fmt"
- "os"
- "strings"
- "text/tabwriter"
- "time"
-
- "github.com/go-kit/kit/log/term"
- metrics "github.com/rcrowley/go-metrics"
-
- tmtypes "github.com/tendermint/tendermint/types"
- "github.com/tendermint/tmlibs/log"
- "github.com/tendermint/tools/tm-monitor/monitor"
- )
-
- var version = "0.2.1"
-
- var logger = log.NewNopLogger()
-
- type statistics struct {
- BlockTimeSample metrics.Histogram
- TxThroughputSample metrics.Histogram
- BlockLatency metrics.Histogram
- }
-
- func main() {
- var duration, txsRate, connections int
- var verbose bool
-
- flag.IntVar(&connections, "c", 1, "Connections to keep open per endpoint")
- flag.IntVar(&duration, "T", 10, "Exit after the specified amount of time in seconds")
- flag.IntVar(&txsRate, "r", 1000, "Txs per second to send in a connection")
- flag.BoolVar(&verbose, "v", false, "Verbose output")
-
- flag.Usage = func() {
- fmt.Println(`Tendermint blockchain benchmarking tool.
-
- Usage:
- tm-bench [-c 1] [-T 10] [-r 1000] [endpoints]
-
- Examples:
- tm-bench localhost:46657`)
- fmt.Println("Flags:")
- flag.PrintDefaults()
- }
-
- flag.Parse()
-
- if flag.NArg() == 0 {
- flag.Usage()
- os.Exit(1)
- }
-
- if verbose {
- // Color errors red
- colorFn := func(keyvals ...interface{}) term.FgBgColor {
- for i := 1; i < len(keyvals); i += 2 {
- if _, ok := keyvals[i].(error); ok {
- return term.FgBgColor{Fg: term.White, Bg: term.Red}
- }
- }
- return term.FgBgColor{}
- }
- logger = log.NewTMLoggerWithColorFn(log.NewSyncWriter(os.Stdout), colorFn)
- }
-
- fmt.Printf("Running %ds test @ %s\n", duration, flag.Arg(0))
-
- endpoints := strings.Split(flag.Arg(0), ",")
-
- blockCh := make(chan tmtypes.Header, 100)
- blockLatencyCh := make(chan float64, 100)
-
- nodes := startNodes(endpoints, blockCh, blockLatencyCh)
-
- transacters := startTransacters(endpoints, connections, txsRate)
-
- stats := &statistics{
- BlockTimeSample: metrics.NewHistogram(metrics.NewUniformSample(1000)),
- TxThroughputSample: metrics.NewHistogram(metrics.NewUniformSample(1000)),
- BlockLatency: metrics.NewHistogram(metrics.NewUniformSample(1000)),
- }
-
- lastBlockHeight := -1
-
- durationTimer := time.After(time.Duration(duration) * time.Second)
- ticker := time.NewTicker(1 * time.Second)
- var blocks, txs int
- for {
- select {
- case b := <-blockCh:
- if lastBlockHeight < b.Height {
- blocks++
- txs += b.NumTxs
- lastBlockHeight = b.Height
- }
- case l := <-blockLatencyCh:
- stats.BlockLatency.Update(int64(l))
- case <-ticker.C:
- stats.BlockTimeSample.Update(int64(blocks))
- stats.TxThroughputSample.Update(int64(txs))
- blocks = 0
- txs = 0
- case <-durationTimer:
- for _, t := range transacters {
- t.Stop()
- }
-
- printStatistics(stats)
-
- for _, n := range nodes {
- n.Stop()
- }
- return
- }
- }
- }
-
- func startNodes(endpoints []string, blockCh chan<- tmtypes.Header, blockLatencyCh chan<- float64) []*monitor.Node {
- nodes := make([]*monitor.Node, len(endpoints))
-
- for i, e := range endpoints {
- n := monitor.NewNode(e)
- n.SetLogger(logger.With("node", e))
- n.SendBlocksTo(blockCh)
- n.SendBlockLatenciesTo(blockLatencyCh)
- if err := n.Start(); err != nil {
- fmt.Println(err)
- os.Exit(1)
- }
- nodes[i] = n
- }
-
- return nodes
- }
-
- func startTransacters(endpoints []string, connections int, txsRate int) []*transacter {
- transacters := make([]*transacter, len(endpoints))
-
- for i, e := range endpoints {
- t := newTransacter(e, connections, txsRate)
- t.SetLogger(logger)
- if err := t.Start(); err != nil {
- fmt.Println(err)
- os.Exit(1)
- }
- transacters[i] = t
- }
-
- return transacters
- }
-
- func printStatistics(stats *statistics) {
- w := tabwriter.NewWriter(os.Stdout, 0, 0, 5, ' ', 0)
- fmt.Fprintln(w, "Stats\tAvg\tStdev\tMax\t")
- fmt.Fprintln(w, fmt.Sprintf("Block latency\t%.2fms\t%.2fms\t%dms\t",
- stats.BlockLatency.Mean()/1000000.0,
- stats.BlockLatency.StdDev()/1000000.0,
- stats.BlockLatency.Max()/1000000))
- fmt.Fprintln(w, fmt.Sprintf("Blocks/sec\t%.3f\t%.3f\t%d\t",
- stats.BlockTimeSample.Mean(),
- stats.BlockTimeSample.StdDev(),
- stats.BlockTimeSample.Max()))
- fmt.Fprintln(w, fmt.Sprintf("Txs/sec\t%.0f\t%.0f\t%d\t",
- stats.TxThroughputSample.Mean(),
- stats.TxThroughputSample.StdDev(),
- stats.TxThroughputSample.Max()))
- w.Flush()
- }
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