【Spark八十六】Spark Streaming之DStream vs. InputDStream

 

1. DStream的类说明文档:

 

/**
 * A Discretized Stream (DStream), the basic abstraction in Spark Streaming, is a continuous
 * sequence of RDDs (of the same type) representing a continuous stream of data (see
 * org.apache.spark.rdd.RDD in the Spark core documentation for more details on RDDs).
 * DStreams can either be created from live data (such as, data from TCP sockets, Kafka, Flume,
 * etc.) using a [[org.apache.spark.streaming.StreamingContext]] or it can be generated by
 * transforming existing DStreams using operations such as `map`,
 * `window` and `reduceByKeyAndWindow`. While a Spark Streaming program is running, each DStream
 * periodically generates a RDD, either from live data or by transforming the RDD generated by a
 * parent DStream.
 *
 * This class contains the basic operations available on all DStreams, such as `map`, `filter` and
 * `window`. In addition, [[org.apache.spark.streaming.dstream.PairDStreamFunctions]] contains
 * operations available only on DStreams of key-value pairs, such as `groupByKeyAndWindow` and
 * `join`. These operations are automatically available on any DStream of pairs
 * (e.g., DStream[(Int, Int)] through implicit conversions.
 *
 * DStreams internally is characterized by a few basic properties:
 *  - A list of other DStreams that the DStream depends on
 *  - A time interval at which the DStream generates an RDD
 *  - A function that is used to generate an RDD after each time interval
 */

 

从上面可以看出来,

1. DStream每隔一段时间仅产生一个RDD

2. DStream如同RDD,也有依赖关系,比如通过转换算子,把一个DStream转换成另外一个DStream

3. DStream需要有一个方法,在指定的时间间隔到达后,用于创建RDD。这个方法同RDD计算它包含的数据行一样,是compute方法

  /** Method that generates a RDD for the given time */
  def compute (validTime: Time): Option[RDD[T]]

 

2. DStream的实现类ReceiverInputDStream实现的compute方法

 

 /**
   * Generates RDDs with blocks received by the receiver of this stream. */
 ///根据在一个时间范围内获取到的数据创建RDD(这些接收到的数据由BlockManager管理)
  override def compute(validTime: Time): Option[RDD[T]] = {
    val blockRDD = {
      ////如果时间不在要计算的范围内,则返回空RDD(具体是BlockRDD)
      if (validTime < graph.startTime) {
        // If this is called for any time before the start time of the context,
        // then this returns an empty RDD. This may happen when recovering from a
        // driver failure without any write ahead log to recover pre-failure data.
        new BlockRDD[T](ssc.sc, Array.empty)
      } else {
        // Otherwise, ask the tracker for all the blocks that have been allocated to this stream
        // for this batch
        //根据validTime获取Block信息,validTime和Block的对应关系放在一个Map中,因此,validTime是Block的索引,
        //因此可以把validTime看成是一个块创建的时间点(此后,一个时间间隔的数据都写入这个块中)
        //id is an unique identifier for the receiver input stream.
        val blockInfos =
          ssc.scheduler.receiverTracker.getBlocksOfBatch(validTime).get(id).getOrElse(Seq.empty)
        //对blockInfos中的每个元素(ReceivedBlockInfo)调用blockStoreResult中
        val blockStoreResults = blockInfos.map { _.blockStoreResult }
        val blockIds = blockStoreResults.map { _.blockId.asInstanceOf[BlockId] }.toArray

        // Check whether all the results are of the same type
        val resultTypes = blockStoreResults.map { _.getClass }.distinct
        if (resultTypes.size > 1) {
          logWarning("Multiple result types in block information, WAL information will be ignored.")
        }

        // If all the results are of type WriteAheadLogBasedStoreResult, then create
        // WriteAheadLogBackedBlockRDD else create simple BlockRDD.
        if (resultTypes.size == 1 && resultTypes.head == classOf[WriteAheadLogBasedStoreResult]) {
          val logSegments = blockStoreResults.map {
            _.asInstanceOf[WriteAheadLogBasedStoreResult].segment
          }.toArray
          // Since storeInBlockManager = false, the storage level does not matter.
          new WriteAheadLogBackedBlockRDD[T](ssc.sparkContext,
            blockIds, logSegments, storeInBlockManager = false, StorageLevel.MEMORY_ONLY_SER)
        } else {
          ///构造BlockRDD的参数是blockIds,也就是这个RDD包含的数据存放在BlockManager中,可以由blockId读取指定的块
          new BlockRDD[T](ssc.sc, blockIds)
        }
      }
    }
    Some(blockRDD)
  }

 

3. InputDStream的类说明文档

/**
 * This is the abstract base class for all input streams. This class provides methods
 * start() and stop() which is called by Spark Streaming system to start and stop receiving data.
 * Input streams that can generate RDDs from new data by running a service/thread only on
 * the driver node (that is, without running a receiver on worker nodes), can be
 * implemented by directly inheriting this InputDStream. For example,
 * FileInputDStream, a subclass of InputDStream, monitors a HDFS directory from the driver for
 * new files and generates RDDs with the new files. For implementing input streams
 * that requires running a receiver on the worker nodes, use
 * [[org.apache.spark.streaming.dstream.ReceiverInputDStream]] as the parent class.
 *
 * @param ssc_ Streaming context that will execute this input stream
 */

 

InputDStream定义了接收和停止接收数据的方法(start和stop),InputDStream的直接实现者不需要定义专门的Receiver,它在Driver上即可完成生成RDD的任务。

比如FileInputDStream即是这样一个InputDStream,它监听本地或者HDFS上的新文件,然后生成RDD。

问题:如此说来,FileInputDStream是一个没有实现分布式的数据接收器?

 

4. ReceiverInputDStream

 

/**
 * Abstract class for defining any [[org.apache.spark.streaming.dstream.InputDStream]]
 * that has to start a receiver on worker nodes to receive external data.
 * Specific implementations of ReceiverInputDStream must
 * define `the getReceiver()` function that gets the receiver object of type
 * [[org.apache.spark.streaming.receiver.Receiver]] that will be sent
 * to the workers to receive data.
 * @param ssc_ Streaming context that will execute this input stream
 * @tparam T Class type of the object of this stream
 */

 

 ReceiverInputDStream的实现者需要实现getReceiver来回去数据接收器,这些Reciver将运行在所有的Worker节点上。

 

5. 总结

从上面的分析中,DStream是InputDStream的父类,而InputDStream是ReceiverInputDStream的父类。

DStream相对于InputDStream,更像是个RDD,即只是一个包含接收数据的一系列的集合,即DStream是一个数据集。

InputDStream在此基础之上需要实现启动接收和停止接收的逻辑,也就是,InputDStream更像是自来水管的水龙头开关,而DStream是流出来的自来水。

ReceiverInputStream将接收数据的逻辑进行分布式接收

 

 

 

 

 

 

 

 

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