func BenchmarkXxhash32Cgo(b *testing.B) { var bv uint32 for i := 0; i < b.N; i++ { bv = C.Checksum32(in) } benchVal32 = bv }
func testEquality(t *testing.T, v []byte) { ch64, ch32 := cxx.Checksum64(v), cxx.Checksum32(v) if h := N.Checksum64(v); ch64 != h { t.Fatalf("Checksum64 doesn't match, len = %d, expected 0x%X, got 0x%X", len(v), ch64, h) } if h := N.Checksum32(v); ch32 != h { t.Fatalf("Checksum32 doesn't match, len = %d, expected 0x%X, got 0x%X", len(v), ch32, h) } h64 := N.New64() h64.Write(v) if h := h64.Sum64(); ch64 != h { t.Fatalf("Sum64() doesn't match, len = %d, expected 0x%X, got 0x%X", len(v), ch64, h) } h32 := N.New32() h32.Write(v) if h := h32.Sum32(); ch32 != h { t.Fatalf("Sum32() doesn't match, len = %d, expected 0x%X, got 0x%X", len(v), ch32, h) } }
func TestHash32CgoShort(t *testing.T) { r := C.Checksum32(in) if r != expected32 { t.Errorf("expected 0x%x, got 0x%x.", expected32, r) } }
func main() { flag.Parse() tidy.Configure().LogFromLevelSpecifiedByEnvironment().To(tidy.Console).MustBuildDefault() app := cli.NewApp() app.Name = "edgy command line interface" app.Commands = []cli.Command{ cli.Command{ Name: "publish", Flags: []cli.Flag{ cli.StringFlag{ Name: "hosts", Value: "localhost:5050", EnvVar: "EDGY_HOSTS", }, cli.StringFlag{ Name: "topic", Value: "", }, cli.StringFlag{ Name: "key", Value: "", }, cli.StringFlag{ Name: "payload", Value: "", }, }, Action: func(ctx *cli.Context) { hosts := ctx.String("hosts") topic := ctx.String("topic") key := ctx.String("key") payload := ctx.String("payload") if len(hosts) == 0 { fmt.Fprintf(os.Stderr, "missing hosts") return } if len(topic) == 0 { fmt.Fprintf(os.Stderr, "missing topic") return } if len(key) == 0 { fmt.Fprintf(os.Stderr, "missing partition key") return } if len(payload) == 0 { fmt.Fprintf(os.Stderr, "missing payload") return } if payload == "-" { stdin, err := ioutil.ReadAll(os.Stdin) if err != nil { fmt.Fprintf(os.Stderr, "failed to read payload from stdin") return } if len(stdin) == 0 { fmt.Fprintf(os.Stderr, "empty payload from stdin") return } payload = string(stdin) } builder, err := client.NewCluster().FromHosts(hosts) if err != nil { fmt.Printf("cannot build cluster: %v\n", err.Error()) return } cluster, err := builder.Build() if err != nil { fmt.Printf("cannot build cluster: %v\n", err.Error()) return } producer, err := client.NewProducer(cluster, client.ProducerConfig{ QueueTime: 0, QueueSize: 1, }) if err != nil { println("failed to create producer: " + err.Error()) return } if err := producer.Append(topic, int(xxhash.Checksum32([]byte(key))), []byte(payload)).Wait(); err != nil { println("failed: " + err.Error()) } }, }, cli.Command{ Name: "writebench", Flags: []cli.Flag{ cli.StringFlag{ Name: "hosts", Value: "localhost:5050", EnvVar: "EDGY_HOSTS", }, cli.StringFlag{ Name: "topic", Value: "writebench", }, cli.IntFlag{ Name: "num", Value: 1e6, }, cli.IntFlag{ Name: "size", Value: 50, }, cli.IntFlag{ Name: "queue.size", Value: 1000, }, cli.DurationFlag{ Name: "queue.time", Value: 50 * time.Millisecond, }, }, Action: func(ctx *cli.Context) { hosts := ctx.String("hosts") num := ctx.Int("num") topic := ctx.String("topic") size := ctx.Int("size") queueSize := ctx.Int("queue.size") queueTime := ctx.Duration("queue.time") builder, err := client.NewCluster().FromHosts(hosts) if err != nil { fmt.Printf("cannot build cluster: %v\n", err.Error()) return } cluster, err := builder.Build() if err != nil { fmt.Printf("cannot build cluster: %v\n", err.Error()) return } producer, err := client.NewProducer(cluster, client.ProducerConfig{ QueueTime: queueTime, QueueSize: queueSize, }) if err != nil { println("failed to create producer: " + err.Error()) return } work := sync.WaitGroup{} work.Add(num) started := time.Now() payload := randombytes.Make(size) for n := 0; n < num; n++ { result := producer.Append(topic, n, payload) go func(result client.AppendResult) { result.Wait() work.Done() }(result) } elapsed := time.Now().Sub(started) msgsPerSecond := float64(num) / elapsed.Seconds() totalMb := float64(num*size) / (1e6) fmt.Printf("run time: %v\n", elapsed) fmt.Printf("total msgs: %v\n", num) fmt.Printf("msgs/s: %v\n", msgsPerSecond) fmt.Printf("total transfered: %v\n", totalMb) fmt.Printf("MB/s: %v\n", totalMb/elapsed.Seconds()) fmt.Printf("done!") }, }, cli.Command{ Name: "latency-single", Flags: []cli.Flag{ cli.StringFlag{ Name: "hosts", Value: "localhost:5050", EnvVar: "EDGY_HOSTS", }, cli.StringFlag{ Name: "topic", Value: "latencybench", }, cli.StringFlag{ Name: "payload", Value: "foobar", }, cli.IntFlag{ Name: "queue.size", Value: 1, }, cli.DurationFlag{ Name: "queue.time", Value: 0, }, cli.DurationFlag{ Name: "timeout", Value: 10 * time.Second, }, }, Action: func(ctx *cli.Context) { hosts := ctx.String("hosts") topic := ctx.String("topic") queueSize := ctx.Int("queue.size") queueTime := ctx.Duration("queue.time") timeout := ctx.Duration("timeout") histogram := hdrhistogram.New(0, time.Minute.Nanoseconds(), 5) builder, err := client.NewCluster().FromHosts(hosts) if err != nil { fmt.Printf("cannot build cluster: %v\n", err.Error()) return } cluster, err := builder.Build() if err != nil { fmt.Printf("cannot build cluster: %v\n", err.Error()) return } producer, err := client.NewProducer(cluster, client.ProducerConfig{ QueueTime: queueTime, QueueSize: queueSize, }) if err != nil { println("failed to create producer: " + err.Error()) return } consumer, err := cluster.Consume(true, topic) statsTimer := time.NewTicker(time.Second) for { timeoutChannel := time.After(timeout) id := []byte(uuid.New()) appendedAt := time.Now() producer.Append(topic, 0, id) select { case messages := <-consumer.Messages(): for _, rawMessage := range messages.Messages.Messages() { if bytes.Equal(id, rawMessage[storage.HEADER_LENGTH:]) { latency := time.Since(appendedAt) println(latency.String()) histogram.RecordValue(latency.Nanoseconds() / 1e6) continue } } case <-statsTimer.C: fmt.Printf("p95: %vms\n", histogram.ValueAtQuantile(95)) fmt.Printf("p50: %vms\n", histogram.ValueAtQuantile(50)) fmt.Printf("mean: %vms\n", histogram.Mean()) fmt.Printf("min: %vms\n", histogram.Min()) fmt.Printf("max: %vms\n", histogram.Max()) fmt.Printf("count: %v\n", histogram.TotalCount()) case <-timeoutChannel: println("timeout") } } }, }, cli.Command{ Name: "latency-stream", Flags: []cli.Flag{ cli.StringFlag{ Name: "hosts", Value: "localhost:5050", EnvVar: "EDGY_HOSTS", }, cli.StringFlag{ Name: "topic", Value: "latencybench", }, cli.StringFlag{ Name: "payload", Value: "foobar", }, cli.IntFlag{ Name: "queue.size", Value: 1000, }, cli.DurationFlag{ Name: "queue.time", Value: 50 * time.Millisecond, }, }, Action: func(ctx *cli.Context) { hosts := ctx.String("hosts") topic := ctx.String("topic") queueSize := ctx.Int("queue.size") queueTime := ctx.Duration("queue.time") builder, err := client.NewCluster().FromHosts(hosts) if err != nil { fmt.Printf("cannot build cluster: %v\n", err.Error()) return } cluster, err := builder.Build() if err != nil { fmt.Printf("cannot build cluster: %v\n", err.Error()) return } producer, err := client.NewProducer(cluster, client.ProducerConfig{ QueueTime: queueTime, QueueSize: queueSize, }) if err != nil { println("failed to create producer: " + err.Error()) return } consumer, err := cluster.Consume(true, topic) go func() { for { payload, _ := time.Now().UTC().MarshalBinary() producer.Append(topic, 0, payload) } }() timeInMessage := new(time.Time) timer := time.NewTicker(1 * time.Second) histogram := hdrhistogram.New(0, time.Minute.Nanoseconds(), 5) for { select { case messages := <-consumer.Messages(): for _, rawMessage := range messages.Messages.Messages() { payload := rawMessage[storage.HEADER_LENGTH:] if err := timeInMessage.UnmarshalBinary(payload); err != nil { fmt.Printf("skipping message: %v\n", err.Error()) continue } histogram.RecordValue(time.Since(*timeInMessage).Nanoseconds() / 1e6) } case <-timer.C: fmt.Printf("p95: %vms\n", histogram.ValueAtQuantile(0.95)) fmt.Printf("p50: %vms\n", histogram.ValueAtQuantile(0.50)) fmt.Printf("mean: %vms\n", histogram.Mean()) fmt.Printf("min: %vms\n", histogram.Min()) fmt.Printf("max: %vms\n", histogram.Max()) fmt.Printf("count: %v\n", histogram.TotalCount()) } } }, }, cli.Command{ Name: "consume", Flags: []cli.Flag{ cli.StringFlag{ Name: "hosts", Value: "localhost:5050", EnvVar: "EDGY_HOSTS", }, cli.StringFlag{ Name: "topics", Value: "writebench", }, cli.BoolFlag{ Name: "devnull", }, cli.BoolFlag{ Name: "continuous", }, }, Action: func(ctx *cli.Context) { hosts := ctx.String("hosts") topics := ctx.String("topics") devnull := ctx.Bool("devnull") continuous := ctx.Bool("continuous") builder, err := client.NewCluster().FromHosts(hosts) if err != nil { fmt.Printf("cannot build cluster: %v\n", err.Error()) return } cluster, err := builder.Build() if err != nil { fmt.Printf("cannot build cluster: %v\n", err.Error()) return } consumer, err := cluster.Consume(continuous, strings.Split(topics, ",")...) if err != nil { println(err) return } var messageCounter, byteCounter int64 startedAt := time.Now() for message := range consumer.Messages() { if !devnull { for _, rawMessage := range message.Messages.Messages() { value := string(rawMessage[storage.HEADER_LENGTH:]) fmt.Fprintln(os.Stdout, value) } } messageCounter += int64(message.Messages.MessageCount()) byteCounter += message.Messages.DataLen64() } elapsed := time.Since(startedAt) msgsPerSecond := float64(messageCounter) / elapsed.Seconds() totalMb := float64(byteCounter) / (1e6) fmt.Fprintf(os.Stderr, "run time: %v\n", elapsed) fmt.Fprintf(os.Stderr, "total msgs: %v\n", messageCounter) fmt.Fprintf(os.Stderr, "msgs/s: %f\n", msgsPerSecond) fmt.Fprintf(os.Stderr, "total transfered: %vmb\n", totalMb) fmt.Fprintf(os.Stderr, "MB/s: %v\n", totalMb/elapsed.Seconds()) fmt.Fprintf(os.Stderr, "done!") }, }, } app.Run(os.Args) }
func BenchmarkXxhash32Cgo(b *testing.B) { for i := 0; i < b.N; i++ { C.Checksum32(in) } }
func BenchmarkXXChecksum32Cgo(b *testing.B) { var bv uint32 for i := 0; i < b.N; i++ { bv += CGO.Checksum32(in) } }