二百五十九、Java——采集Kafka数据，解析成一条条数据，写入另一Kafka中（一般JSON）

一、目的

由于部分数据类型频率为1s，从而数据规模特别大，因此完整的JSON放在Hive中解析起来，尤其是在单机环境下，效率特别慢，无法满足业务需求。

而Flume的拦截器并不能很好的转换数据，因为只能采用Java方式，从Kafka的主题A中采集数据，并解析字段，然后写入到放在Kafka主题B中

二 、原始数据格式

JSON格式比较正常，对象中包含数组

{
    "deviceNo": "39",
    "sourceDeviceType": null,
    "sn": null,
    "model": null,
    "createTime": "2024-09-03 14:10:00",
    "data": {
        "cycle": 300,
        "evaluationList": [{
            "laneNo": 1,
            "laneType": null,
            "volume": 3,
            "queueLenMax": 11.43,
            "sampleNum": 0,
            "stopAvg": 0.54,
            "delayAvg": 0.0,
            "passRate": 0.0,
            "travelDist": 140.0,
            "travelTimeAvg": 0.0
        },
        {
            "laneNo": 2,
            "laneType": null,
            "volume": 7,
            "queueLenMax": 23.18,
            "sampleNum": 0,
            "stopAvg": 0.47,
            "delayAvg": 10.57,
            "passRate": 0.0,
            "travelDist": 140.0,
            "travelTimeAvg": 0.0
        },
        {
            "laneNo": 3,
            "laneType": null,
            "volume": 9,
            "queueLenMax": 11.54,
            "sampleNum": 0,
            "stopAvg": 0.18,
            "delayAvg": 9.67,
            "passRate": 0.0,
            "travelDist": 140.0,
            "travelTimeAvg": 0.0
        },
        {
            "laneNo": 4,
            "laneType": null,
            "volume": 6,
            "queueLenMax": 11.36,
            "sampleNum": 0,
            "stopAvg": 0.27,
            "delayAvg": 6.83,
            "passRate": 0.0,
            "travelDist": 140.0,
            "travelTimeAvg": 0.0
        }]
    }
}

三、Java代码

package com.kgc;import com.fasterxml.jackson.databind.JsonNode;
import com.fasterxml.jackson.databind.ObjectMapper;
import org.apache.kafka.clients.consumer.ConsumerConfig;
import org.apache.kafka.clients.consumer.ConsumerRecord;
import org.apache.kafka.clients.consumer.ConsumerRecords;
import org.apache.kafka.clients.consumer.KafkaConsumer;
import org.apache.kafka.clients.producer.KafkaProducer;
import org.apache.kafka.clients.producer.ProducerConfig;
import org.apache.kafka.clients.producer.ProducerRecord;
import org.apache.kafka.clients.producer.RecordMetadata;
import org.apache.kafka.common.serialization.StringDeserializer;
import org.apache.kafka.common.serialization.StringSerializer;
import java.time.Duration;
import java.util.Collections;
import java.util.Properties;public class KafkaKafkaEvaluation {// 添加 Kafka Producer 配置private static Properties producerProps() {Properties props = new Properties();props.put(ProducerConfig.BOOTSTRAP_SERVERS_CONFIG, "192.168.0.70:9092");props.put(ProducerConfig.KEY_SERIALIZER_CLASS_CONFIG, StringSerializer.class);props.put(ProducerConfig.VALUE_SERIALIZER_CLASS_CONFIG, StringSerializer.class);props.put(ProducerConfig.ACKS_CONFIG, "-1");props.put(ProducerConfig.RETRIES_CONFIG, "3");props.put(ProducerConfig.BATCH_SIZE_CONFIG, "16384");props.put(ProducerConfig.LINGER_MS_CONFIG, "1");props.put(ProducerConfig.BUFFER_MEMORY_CONFIG, "33554432");return props;}public static void main(String[] args) {Properties prop = new Properties();prop.put(ConsumerConfig.BOOTSTRAP_SERVERS_CONFIG, "192.168.0.70:9092");prop.put(ConsumerConfig.KEY_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);prop.put(ConsumerConfig.VALUE_DESERIALIZER_CLASS_CONFIG, StringDeserializer.class);prop.put(ConsumerConfig.ENABLE_AUTO_COMMIT_CONFIG, "false");prop.put(ConsumerConfig.AUTO_COMMIT_INTERVAL_MS_CONFIG, "1000");prop.put(ConsumerConfig.AUTO_OFFSET_RESET_CONFIG, "earliest");// 每一个消费，都要定义不同的Group_IDprop.put(ConsumerConfig.GROUP_ID_CONFIG, "evaluation_group");KafkaConsumer<String, String> consumer = new KafkaConsumer<>(prop);consumer.subscribe(Collections.singleton("topic_internal_data_evaluation"));ObjectMapper mapper = new ObjectMapper();// 初始化 Kafka ProducerKafkaProducer<String, String> producer = new KafkaProducer<>(producerProps());while (true) {ConsumerRecords<String, String> records = consumer.poll(Duration.ofMillis(1000));for (ConsumerRecord<String, String> record : records) {try {JsonNode rootNode = mapper.readTree(record.value());System.out.println("原始数据"+rootNode);String device_no = rootNode.get("deviceNo").asText();String source_device_type = rootNode.get("sourceDeviceType").asText();String sn = rootNode.get("sn").asText();String model = rootNode.get("model").asText();String create_time = rootNode.get("createTime").asText();String cycle = rootNode.get("data").get("cycle").asText();JsonNode evaluationList = rootNode.get("data").get("evaluationList");for (JsonNode evaluationItem : evaluationList) {String lane_no = evaluationItem.get("laneNo").asText();String lane_type = evaluationItem.get("laneType").asText();String volume = evaluationItem.get("volume").asText();String queue_len_max = evaluationItem.get("queueLenMax").asText();String sample_num = evaluationItem.get("sampleNum").asText();String stop_avg = evaluationItem.get("stopAvg").asText();String delay_avg = evaluationItem.get("delayAvg").asText();String pass_rate = evaluationItem.get("passRate").asText();String travel_dist = evaluationItem.get("travelDist").asText();String travel_time_avg = evaluationItem.get("travelTimeAvg").asText();String outputLine = String.format("%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s",device_no, source_device_type, sn, model, create_time, cycle,lane_no, lane_type,volume,queue_len_max,sample_num,stop_avg,delay_avg,pass_rate,travel_dist,travel_time_avg);// 发送数据到 KafkaProducerRecord<String, String> producerRecord = new ProducerRecord<>("topic_db_data_evaluation", record.key(), outputLine);producer.send(producerRecord, (RecordMetadata metadata, Exception e) -> {if (e != null) {e.printStackTrace();} else {System.out.println("The offset of the record we just sent is: " + metadata.offset());}});}} catch (Exception e) {e.printStackTrace();}}consumer.commitAsync();}}}

1、服务器IP都是   192.168.0.70

2、消费Kafka主题（数据源）：topic_internal_data_evaluation

3、生产Kafka主题（目标源）：topic_db_data_evaluation

4、注意：字段顺序与ODS层表结构字段顺序一致！！！

四、开启Kafka主题topic_db_data_evaluation消费者

[root@localhost bin]# ./kafka-console-consumer.sh --bootstrap-server 192.168.0.70:9092  --topic topic_db_data_evaluation  --from-beginning

五、运行测试

1、启动项目

2、消费者输出数据

然后再用Flume采集写入HDFS就行了，不过ODS层表结构需要转变

六、ODS层新表结构

create external table  if not exists  hurys_dc_ods.ods_evaluation(device_no           string        COMMENT '设备编号',source_device_type  string        COMMENT '设备类型',sn                  string        COMMENT '设备序列号 ',model               string        COMMENT '设备型号',create_time         timestamp     COMMENT '创建时间',cycle               int           COMMENT '评价数据周期',lane_no             int           COMMENT '车道编号',lane_type           int           COMMENT '车道类型 0:渠化1:来向2:出口3:去向4:左弯待转区5:直行待行区6:右转专用道99:未定义车道',volume              int           COMMENT '车道内过停止线流量（辆）',queue_len_max       float         COMMENT '车道内最大排队长度（m）',sample_num          int           COMMENT '评价数据计算样本量',stop_avg            float         COMMENT '车道内平均停车次数（次）',delay_avg           float         COMMENT '车道内平均延误时间（s）',pass_rate           float         COMMENT '车道内一次通过率',travel_dist         float         COMMENT '车道内检测行程距离（m）',travel_time_avg     float         COMMENT '车道内平均行程时间'
)
comment '评价数据外部表——静态分区'
partitioned by (day string)
row format delimited fields terminated by ','
stored as SequenceFile
;

七、Flume采集配置文件

八、运行Flume任务，检查HDFS文件、以及ODS表数据

--刷新表分区
msck repair table ods_evaluation;
--查看表分区
show partitions hurys_dc_ods.ods_evaluation;
--查看表数据
select * from hurys_dc_ods.ods_evaluation
where day='2024-09-03';

搞定，这样就不需要在Hive中解析JSON数据了！！！