发送消息的缓冲区机制
kafka默认会创建⼀个消息缓冲区,⽤来存放要发送的消息,缓冲区是32m
props.put(ProducerConfig.BUFFER_MEMORY_CONFIG, 33554432);
kafka本地线程会去缓冲区中⼀次拉16k的数据,发送到broker
props.put(ProducerConfig.BATCH_SIZE_CONFIG, 16384);
如果线程拉不到16k的数据,间隔10ms也会将已拉到的数据发到broker
props.put(ProducerConfig.LINGER_MS_CONFIG, 10);
CountDownLatch
当CountDownLatch变为0时,才能结束进程,否则等待子线程将数字减为0
package com.example.kafka;
import org.apache.kafka.clients.producer.*;
import org.apache.kafka.common.serialization.StringSerializer;
import java.util.Properties;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.TimeUnit;
public class MySimpleProducer {
private final static String TOPIC_NAME = "test";
public static void main(String[] args) throws ExecutionException,
InterruptedException {
//1.设置参数
Properties props = new Properties();
props.put(ProducerConfig.BOOTSTRAP_SERVERS_CONFIG,
"81.68.232.188:9092,81.68.232.188:9093,81.68.232.188:9094");
//把发送的key从字符串序列化为字节数组
props.put(ProducerConfig.KEY_SERIALIZER_CLASS_CONFIG,
StringSerializer.class.getName());
//把发送消息value从字符串序列化为字节数组
props.put(ProducerConfig.VALUE_SERIALIZER_CLASS_CONFIG,
StringSerializer.class.getName());
//kafka默认会创建⼀个消息缓冲区,⽤来存放要发送的消息,缓冲区是32m
props.put(ProducerConfig.BUFFER_MEMORY_CONFIG, 33554432);
//kafka本地线程会去缓冲区中⼀次拉16k的数据,发送到broker
props.put(ProducerConfig.BATCH_SIZE_CONFIG, 16384);
//如果线程拉不到16k的数据,间隔10ms也会将已拉到的数据发到broker
props.put(ProducerConfig.LINGER_MS_CONFIG, 10);
/*
ack = 0 kafka-cluster不需要任何的broker收到消息,就⽴即返回ack给⽣产者,最容易丢消息的,效率是最⾼的
ack=1(默认): 多副本之间的leader已经收到消息,并把消息写⼊到本地的log中,才会返回ack给⽣产者,性能和安全性是最均衡的
ack=-1/all。⾥⾯有默认的配置min.insync.replicas=2(默认为1,推荐配置⼤于等于2),此时就需要leader和⼀个follower同步完后,
才会返回ack给⽣产者(此时集群中有2个broker已完成数据的接收),这种⽅式最安全,但性能最差。
*/
props.put(ProducerConfig.ACKS_CONFIG, "1");
/*
发送失败会重试,默认重试间隔100ms,重试能保证消息发送的可靠性,但是也可能造成消息重复发送,
⽐如⽹络抖动,所以需要在接收者那边做好消息接收的幂等性处理
*/
props.put(ProducerConfig.RETRIES_CONFIG, 3);
//重试间隔设置
props.put(ProducerConfig.RETRY_BACKOFF_MS_CONFIG, 300);
//2.创建⽣产消息的客户端,传⼊参数
Producer<String, String> producer = new KafkaProducer<>(props);
// //3.创建消息
// //key:作⽤是决定了往哪个分区上发,value:具体要发送的消息内容
// ProducerRecord<String, String> producerRecord = new ProducerRecord<>
// (TOPIC_NAME, 1, "key1", "hello, kafka");
//
// //4.同步发送消息,得到消息发送的元数据并输出
// RecordMetadata metadata = producer.send(producerRecord).get();
// System.out.println("同步⽅式发送消息结果:" + "topic-" +
// metadata.topic() + "|partition-" + metadata.partition()
// + "|offset-" + metadata.offset());
//
// Thread.sleep(10000);
int msgNum = 5;
final CountDownLatch countDownLatch = new CountDownLatch(msgNum);
for (int i = 0; i < 5; i++) {
//key:作⽤是决定了往哪个分区上发,value:具体要发送的消息内容
ProducerRecord<String, String> producerRecord = new ProducerRecord<>
(TOPIC_NAME, "key-" + i, "hello, kafka");
//5.异步发送消息
producer.send(producerRecord, new Callback() {
public void onCompletion(RecordMetadata metadata, Exception exception) {
if (exception != null) {
System.err.println("发送消息失败:" +
exception.getStackTrace());
}
if (metadata != null) {
System.out.println("异步⽅式发送消息结果:" + "topic-" +
metadata.topic() + "|partition-" + metadata.partition()
+ "|offset-" + metadata.offset());
}
countDownLatch.countDown();
}
});
}
countDownLatch.await(5, TimeUnit.SECONDS);
producer.close();
}
}
