import kafka.common.TopicAndPartition
import kafka.message.MessageAndMetadata
import kafka.serializer.StringDecoder
import kafka.utils.{ZKGroupTopicDirs, ZkUtils}
import org.I0Itec.zkclient.ZkClient
import org.apache.spark.SparkConf
import org.apache.spark.rdd.RDD
import org.apache.spark.streaming.dstream.{DStream, InputDStream}
import org.apache.spark.streaming.kafka.{HasOffsetRanges, KafkaUtils, OffsetRange}
import org.apache.spark.streaming.{Duration, StreamingContext}
/**
* Created by zx on 2017/7/31.
*/
object KafkaDirectWordCountV2 {
def main(args: Array[String]): Unit = {
//指定组名
val group = "g001"
//创建SparkConf
val conf = new SparkConf().setAppName("KafkaDirectWordCount").setMaster("local[2]")
//创建SparkStreaming,并设置间隔时间
val ssc = new StreamingContext(conf, Duration(5000))
//指定消费的 topic 名字
val topic = "wwcc"
//指定kafka的broker地址(sparkStream的Task直连到kafka的分区上,用更加底层的API消费,效率更高)
val brokerList = "node-4:9092,node-5:9092,node-6:9092"
//指定zk的地址,后期更新消费的偏移量时使用(以后可以使用Redis、MySQL来记录偏移量)
val zkQuorum = "node-1:2181,node-2:2181,node-3:2181"
//创建 stream 时使用的 topic 名字集合,SparkStreaming可同时消费多个topic
val topics: Set[String] = Set(topic)
//创建一个 ZKGroupTopicDirs 对象,其实是指定往zk中写入数据的目录,用于保存偏移量
val topicDirs = new ZKGroupTopicDirs(group, topic)
//获取 zookeeper 中的路径 "/g001/offsets/wordcount/"
val zkTopicPath = s"${topicDirs.consumerOffsetDir}"
//准备kafka的参数
val kafkaParams = Map(
"metadata.broker.list" -> brokerList,
"group.id" -> group,
//从头开始读取数据
"auto.offset.reset" -> kafka.api.OffsetRequest.SmallestTimeString
)
//zookeeper 的host 和 ip,创建一个 client,用于跟新偏移量量的
//是zookeeper的客户端,可以从zk中读取偏移量数据,并更新偏移量
val zkClient = new ZkClient(zkQuorum)
//查询该路径下是否字节点(默认有字节点为我们自己保存不同 partition 时生成的)
// /g001/offsets/wordcount/0/10001"
// /g001/offsets/wordcount/1/30001"
// /g001/offsets/wordcount/2/10001"
//zkTopicPath -> /g001/offsets/wordcount/
val children = zkClient.countChildren(zkTopicPath)
var kafkaStream: InputDStream[(String, String)] = null
//如果 zookeeper 中有保存 offset,我们会利用这个 offset 作为 kafkaStream 的起始位置
var fromOffsets: Map[TopicAndPartition, Long] = Map()
//如果保存过 offset
if (children > 0) {
for (i <- 0 until children) {
// /g001/offsets/wordcount/0/10001
// /g001/offsets/wordcount/0
val partitionOffset = zkClient.readData[String](s"$zkTopicPath/${i}")
// wordcount/0
val tp = TopicAndPartition(topic, i)
//将不同 partition 对应的 offset 增加到 fromOffsets 中
// wordcount/0 -> 10001
fromOffsets += (tp -> partitionOffset.toLong)
}
//Key: kafka的key values: "hello tom hello jerry"
//这个会将 kafka 的消息进行 transform,最终 kafak 的数据都会变成 (kafka的key, message) 这样的 tuple
val messageHandler = (mmd: MessageAndMetadata[String, String]) => (mmd.key(), mmd.message())
//通过KafkaUtils创建直连的DStream(fromOffsets参数的作用是:按照前面计算好了的偏移量继续消费数据)
//[String, String, StringDecoder, StringDecoder, (String, String)]
// key value key的解码方式 value的解码方式
kafkaStream = KafkaUtils.createDirectStream[String, String, StringDecoder, StringDecoder, (String, String)](ssc, kafkaParams, fromOffsets, messageHandler)
} else {
//如果未保存,根据 kafkaParam 的配置使用最新(largest)或者最旧的(smallest) offset
kafkaStream = KafkaUtils.createDirectStream[String, String, StringDecoder, StringDecoder](ssc, kafkaParams, topics)
}
//偏移量的范围
var offsetRanges = Array[OffsetRange]()
//直连方式只有在KafkaDStream的RDD中才能获取偏移量,那么就不能到调用DStream的Transformation
//所以只能子在kafkaStream调用foreachRDD,获取RDD的偏移量,然后就是对RDD进行操作了
//依次迭代KafkaDStream中的KafkaRDD
kafkaStream.foreachRDD { kafkaRDD =>
//只有KafkaRDD可以强转成HasOffsetRanges,并获取到偏移量
offsetRanges = kafkaRDD.asInstanceOf[HasOffsetRanges].offsetRanges
val lines: RDD[String] = kafkaRDD.map(_._2)
//对RDD进行操作,触发Action
lines.foreachPartition(partition =>
partition.foreach(x => {
println(x)
})
)
for (o <- offsetRanges) {
// /g001/offsets/wordcount/0
val zkPath = s"${topicDirs.consumerOffsetDir}/${o.partition}"
//将该 partition 的 offset 保存到 zookeeper
// /g001/offsets/wordcount/0/20000
ZkUtils.updatePersistentPath(zkClient, zkPath, o.untilOffset.toString)
}
}
ssc.start()
ssc.awaitTermination()
}
}spark streaming整合kafka-直连的方式
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转载自blog.csdn.net/hanyong4719/article/details/83443890
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