// 172.31.22.222:2181,172.31.21.206:2181,172.31.17.130:2181
func NewConsumer(group string, topics, zk []string, strategy kafkalib.WorkerStrategy) (*Consumer, error) {
consumer := &Consumer{
topics: topics,
}
coordinatorConfig := kafkalib.NewZookeeperConfig()
coordinatorConfig.ZookeeperConnect = zk
coordinatorConfig.Root = "/kafka"
coordinator := kafkalib.NewZookeeperCoordinator(coordinatorConfig)
consumerConfig := kafkalib.DefaultConsumerConfig()
consumerConfig.Groupid = group
consumerConfig.Coordinator = coordinator
consumerConfig.Strategy = strategy
consumerConfig.AutoOffsetReset = kafkalib.SmallestOffset
consumerConfig.OffsetCommitInterval = 1 * time.Minute
consumerConfig.OffsetsCommitMaxRetries = 5
consumerConfig.MaxWorkerRetries = 5
consumerConfig.WorkerFailureCallback = func(wm *kafkalib.WorkerManager) kafkalib.FailedDecision {
kafkalib.Error(consumer, "Failed to write . Shutting down...")
return kafkalib.DoNotCommitOffsetAndStop
}
consumerConfig.WorkerFailedAttemptCallback = func(task *kafkalib.Task, result kafkalib.WorkerResult) kafkalib.FailedDecision {
kafkalib.Errorf(consumer, "Failed to write %s to the database after %d retries", task.Id().String(), task.Retries)
return kafkalib.DoNotCommitOffsetAndContinue
}
consumer.config = consumerConfig
consumer.consumer = kafkalib.NewConsumer(consumerConfig)
return consumer, nil
}
func startNewConsumer(config kafkaClient.ConsumerConfig, topic string) *kafkaClient.Consumer {
config.Strategy = GetStrategy(config.Consumerid)
config.WorkerFailureCallback = FailedCallback
config.WorkerFailedAttemptCallback = FailedAttemptCallback
consumer := kafkaClient.NewConsumer(&config)
topics := map[string]int{topic: config.NumConsumerFetchers}
go func() {
consumer.StartStatic(topics)
}()
return consumer
}
func main() {
parseArgs()
go_kafka_client.Logger = go_kafka_client.NewDefaultLogger(go_kafka_client.ErrorLevel)
kafkaProducer = producer.NewKafkaProducer(writeTopic, []string{broker})
//Coordinator settings
zookeeperConfig := go_kafka_client.NewZookeeperConfig()
zookeeperConfig.ZookeeperConnect = []string{zookeeper}
//Actual consumer settings
consumerConfig := go_kafka_client.DefaultConsumerConfig()
consumerConfig.AutoOffsetReset = go_kafka_client.SmallestOffset
consumerConfig.Coordinator = go_kafka_client.NewZookeeperCoordinator(zookeeperConfig)
consumerConfig.Groupid = group
consumerConfig.NumWorkers = 1
consumerConfig.NumConsumerFetchers = 1
consumerConfig.KeyDecoder = go_kafka_client.NewKafkaAvroDecoder(schemaRepo)
consumerConfig.ValueDecoder = consumerConfig.KeyDecoder
consumerConfig.Strategy = func(worker *go_kafka_client.Worker, message *go_kafka_client.Message, taskId go_kafka_client.TaskId) go_kafka_client.WorkerResult {
time.Sleep(2 * time.Second)
record, ok := message.DecodedValue.(*avro.GenericRecord)
if !ok {
panic("Not a *GenericError, but expected one")
}
fmt.Printf("golang > received %s\n", fmt.Sprintf("{\"counter\": %d, \"name\": \"%s\", \"uuid\": \"%s\"}", record.Get("counter"), record.Get("name"), record.Get("uuid")))
modify(record)
encoded, err := encoder.Encode(record)
if err != nil {
panic(err)
}
if err := kafkaProducer.SendBytesSync(encoded); err != nil {
panic(err)
}
return go_kafka_client.NewSuccessfulResult(taskId)
}
consumerConfig.WorkerFailureCallback = func(_ *go_kafka_client.WorkerManager) go_kafka_client.FailedDecision {
return go_kafka_client.CommitOffsetAndContinue
}
consumerConfig.WorkerFailedAttemptCallback = func(_ *go_kafka_client.Task, _ go_kafka_client.WorkerResult) go_kafka_client.FailedDecision {
return go_kafka_client.CommitOffsetAndContinue
}
kafkaConsumer = go_kafka_client.NewConsumer(consumerConfig)
pingPongLoop()
}
func startNewConsumer(config kafkaClient.ConsumerConfig, topic string, channel chan *api.Message) *kafkaClient.Consumer {
// wait explicitly for topic to be created by the producer
waitForTopicToBeReady(config, topic)
config.Strategy = handleMessage(config.Consumerid, channel)
config.WorkerFailureCallback = failedCallback
config.WorkerFailedAttemptCallback = failedAttemptCallback
//config.NumConsumerFetchers = 2
consumer := kafkaClient.NewConsumer(&config)
topics := map[string]int{topic: config.NumConsumerFetchers}
go func() {
consumer.StartStatic(topics)
}()
return consumer
}
func main() {
parseAndValidateArgs()
ctrlc := make(chan os.Signal, 1)
signal.Notify(ctrlc, os.Interrupt)
producerConfig := kafka.DefaultProducerConfig()
producerConfig.BrokerList = strings.Split(*brokerList, ",")
zkConfig := kafka.NewZookeeperConfig()
zkConfig.ZookeeperConnect = strings.Split(*zookeeper, ",")
coordinator := kafka.NewZookeeperCoordinator(zkConfig)
config := kafka.DefaultConsumerConfig()
config.Debug = true
config.Groupid = "perf-mirror"
config.AutoOffsetReset = "smallest"
config.Coordinator = coordinator
config.WorkerFailedAttemptCallback = FailedAttemptCallback
config.WorkerFailureCallback = FailedCallback
if *siesta {
config.LowLevelClient = kafka.NewSiestaClient(config)
}
if protobuf {
setupProtoConfig(config)
} else {
producerConfig.ValueEncoder = kafka.NewKafkaAvroEncoder(*schemaRegistry)
setupAvroConfig(config)
}
producer = kafka.NewSaramaProducer(producerConfig)
consumer := kafka.NewConsumer(config)
go consumer.StartStatic(map[string]int{*consumeTopic: 1})
<-ctrlc
fmt.Println("Shutdown triggered, closing consumer")
<-consumer.Close()
producer.Close()
}
func createConsumer(group string, workerStrategy go_kafka_client.WorkerStrategy) *go_kafka_client.Consumer {
//Coordinator settings
zookeeperConfig := go_kafka_client.NewZookeeperConfig()
zookeeperConfig.ZookeeperConnect = []string{zookeeper}
//Actual consumer settings
consumerConfig := go_kafka_client.DefaultConsumerConfig()
consumerConfig.Coordinator = go_kafka_client.NewZookeeperCoordinator(zookeeperConfig)
consumerConfig.Groupid = group
consumerConfig.NumWorkers = 1
consumerConfig.NumConsumerFetchers = 1
consumerConfig.FetchBatchSize = 1
consumerConfig.FetchBatchTimeout = 1 * time.Second
consumerConfig.Strategy = workerStrategy
consumerConfig.AutoOffsetReset = go_kafka_client.SmallestOffset
consumerConfig.WorkerFailureCallback = func(*go_kafka_client.WorkerManager) go_kafka_client.FailedDecision {
return go_kafka_client.CommitOffsetAndContinue
}
consumerConfig.WorkerFailedAttemptCallback = func(*go_kafka_client.Task, go_kafka_client.WorkerResult) go_kafka_client.FailedDecision {
return go_kafka_client.CommitOffsetAndContinue
}
return go_kafka_client.NewConsumer(consumerConfig)
}
func (this *EventFetcher) createConsumer() *kafka.Consumer {
coordinatorConfig := kafka.NewZookeeperConfig()
coordinatorConfig.ZookeeperConnect = []string{this.config.ZkConnect}
coordinator := kafka.NewZookeeperCoordinator(coordinatorConfig)
consumerConfig := kafka.DefaultConsumerConfig()
consumerConfig.AutoOffsetReset = kafka.LargestOffset
consumerConfig.Coordinator = coordinator
consumerConfig.Groupid = "event-dashboard"
consumerConfig.ValueDecoder = kafka.NewKafkaAvroDecoder(this.config.SchemaRegistryUrl)
consumerConfig.WorkerFailureCallback = func(_ *kafka.WorkerManager) kafka.FailedDecision {
return kafka.CommitOffsetAndContinue
}
consumerConfig.WorkerFailedAttemptCallback = func(_ *kafka.Task, _ kafka.WorkerResult) kafka.FailedDecision {
return kafka.CommitOffsetAndContinue
}
consumerConfig.Strategy = func(_ *kafka.Worker, msg *kafka.Message, taskId kafka.TaskId) kafka.WorkerResult {
if record, ok := msg.DecodedValue.(*avro.GenericRecord); ok {
this.events <- &Event{
Topic: record.Get("topic").(string),
ConsumerId: record.Get("consumerid").(string),
Partition: record.Get("partition").(string),
EventName: record.Get("eventname").(string),
Second: record.Get("second").(int64),
Operation: record.Get("operation").(string),
Value: record.Get("value").(int64),
Cnt: record.Get("cnt").(int64),
}
} else {
return kafka.NewProcessingFailedResult(taskId)
}
return kafka.NewSuccessfulResult(taskId)
}
return kafka.NewConsumer(consumerConfig)
}
func main() {
parseAndValidateArgs()
ctrlc := make(chan os.Signal, 1)
signal.Notify(ctrlc, os.Interrupt)
zkConfig := kafka.NewZookeeperConfig()
zkConfig.ZookeeperConnect = strings.Split(*zookeeper, ",")
coordinator := kafka.NewZookeeperCoordinator(zkConfig)
config := kafka.DefaultConsumerConfig()
config.Groupid = "perf-consumer"
config.AutoOffsetReset = "smallest"
config.Coordinator = coordinator
config.WorkerFailedAttemptCallback = FailedAttemptCallback
config.WorkerFailureCallback = FailedCallback
if *siesta {
config.LowLevelClient = kafka.NewSiestaClient(config)
}
if protobuf {
setupLogLineProtoConfig(config)
} else {
setupAvroConfig(config)
}
consumer := kafka.NewConsumer(config)
go consumer.StartStatic(map[string]int{*topic: 2})
go func() {
latencies := make([]metrics.Histogram, 0)
endToEnd := metrics.NewRegisteredHistogram(fmt.Sprint("Latency-end-to-end"), metrics.DefaultRegistry, metrics.NewUniformSample(10000))
go func() {
for {
time.Sleep(1 * time.Second)
for i, meter := range latencies {
fmt.Printf("Step %d: %f\n", i+1, meter.Mean())
}
fmt.Printf("End-to-end: %f\n", endToEnd.Mean())
fmt.Println()
}
}()
initialized := false
for timing := range timings {
if !initialized {
for i := 1; i < len(timing); i++ {
latencies = append(latencies, metrics.NewRegisteredHistogram(fmt.Sprintf("Latency-step-%d", i), metrics.DefaultRegistry, metrics.NewUniformSample(10000)))
}
initialized = true
}
if len(timing)-1 != len(latencies) {
fmt.Println("Got wrong latencies, skipping..")
continue
}
for i := 1; i < len(timing); i++ {
latencies[i-1].Update(int64(timing[i] - timing[i-1]))
}
endToEnd.Update(int64(timing[len(timing)-1] - timing[0]))
}
}()
<-ctrlc
fmt.Println("Shutdown triggered, closing consumer")
<-consumer.Close()
close(timings)
}
