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  • Spark源码阅读之存储体系--存储体系概述与shuffle服务

    一、概述

    根据《深入理解Spark:核心思想与源码分析》一书,结合最新的spark源代码master分支进行源码阅读,对新版本的代码加上自己的一些理解,如有错误,希望指出。

    1.块管理器BlockManager的实现

    块管理器是Spark存储体系的核心组件,Driver Application和Executor都会创建BlockManager,源代码位置在core/org.apache.spark.storage,部分代码如下。

    private[spark] val externalShuffleServiceEnabled =
        conf.getBoolean("spark.shuffle.service.enabled", false)
    
      val diskBlockManager = {
        // Only perform cleanup if an external service is not serving our shuffle files.
        val deleteFilesOnStop =
          !externalShuffleServiceEnabled || executorId == SparkContext.DRIVER_IDENTIFIER
        new DiskBlockManager(conf, deleteFilesOnStop)
      }
    
      // Visible for testing
      private[storage] val blockInfoManager = new BlockInfoManager
    
      private val futureExecutionContext = ExecutionContext.fromExecutorService(
        ThreadUtils.newDaemonCachedThreadPool("block-manager-future", 128))
    
      // Actual storage of where blocks are kept
      private[spark] val memoryStore =
        new MemoryStore(conf, blockInfoManager, serializerManager, memoryManager, this)
      private[spark] val diskStore = new DiskStore(conf, diskBlockManager, securityManager)
      memoryManager.setMemoryStore(memoryStore)
    
      // Note: depending on the memory manager, `maxMemory` may actually vary over time.
      // However, since we use this only for reporting and logging, what we actually want here is
      // the absolute maximum value that `maxMemory` can ever possibly reach. We may need
      // to revisit whether reporting this value as the "max" is intuitive to the user.
      private val maxOnHeapMemory = memoryManager.maxOnHeapStorageMemory
      private val maxOffHeapMemory = memoryManager.maxOffHeapStorageMemory
    
      // Port used by the external shuffle service. In Yarn mode, this may be already be
      // set through the Hadoop configuration as the server is launched in the Yarn NM.
      private val externalShuffleServicePort = {
        val tmpPort = Utils.getSparkOrYarnConfig(conf, "spark.shuffle.service.port", "7337").toInt
        if (tmpPort == 0) {
          // for testing, we set "spark.shuffle.service.port" to 0 in the yarn config, so yarn finds
          // an open port.  But we still need to tell our spark apps the right port to use.  So
          // only if the yarn config has the port set to 0, we prefer the value in the spark config
          conf.get("spark.shuffle.service.port").toInt
        } else {
          tmpPort
        }
      }
    
      var blockManagerId: BlockManagerId = _
    
      // Address of the server that serves this executor's shuffle files. This is either an external
      // service, or just our own Executor's BlockManager.
      private[spark] var shuffleServerId: BlockManagerId = _
    
      // Client to read other executors' shuffle files. This is either an external service, or just the
      // standard BlockTransferService to directly connect to other Executors.
      private[spark] val shuffleClient = if (externalShuffleServiceEnabled) {
        val transConf = SparkTransportConf.fromSparkConf(conf, "shuffle", numUsableCores)
        new ExternalShuffleClient(transConf, securityManager,
          securityManager.isAuthenticationEnabled(), conf.get(config.SHUFFLE_REGISTRATION_TIMEOUT))
      } else {
        blockTransferService
      }
    
      // Max number of failures before this block manager refreshes the block locations from the driver
      private val maxFailuresBeforeLocationRefresh =
        conf.getInt("spark.block.failures.beforeLocationRefresh", 5)
    
      private val slaveEndpoint = rpcEnv.setupEndpoint(
        "BlockManagerEndpoint" + BlockManager.ID_GENERATOR.next,
        new BlockManagerSlaveEndpoint(rpcEnv, this, mapOutputTracker))
    
      // Pending re-registration action being executed asynchronously or null if none is pending.
      // Accesses should synchronize on asyncReregisterLock.
      private var asyncReregisterTask: Future[Unit] = null
      private val asyncReregisterLock = new Object
    
      // Field related to peer block managers that are necessary for block replication
      @volatile private var cachedPeers: Seq[BlockManagerId] = _
      private val peerFetchLock = new Object
      private var lastPeerFetchTime = 0L
    
      private var blockReplicationPolicy: BlockReplicationPolicy = _
    View Code

    上面代码中声明的BlockInfoManager用于管理BlockManager缓存BlockId及对应的BlockInfo,BlockInfoManager提供一些列的同步读写策略。BlockManager由以下部分组成。

    1)shuffle客户端shuffleClient;

    2)BlockManagerMaster,对存在于所有Executor上的BlockManager进行统一管理;

    3)磁盘块管理器DiskBlockManager;

    4)内存存储MemoryStore;

    5)磁盘存储DiskStore;

    BlockManager要生效必须要初始化,初始化代码如下,

    def initialize(appId: String): Unit = {
        blockTransferService.init(this)
        shuffleClient.init(appId)
    
        blockReplicationPolicy = {
          val priorityClass = conf.get(
            "spark.storage.replication.policy", classOf[RandomBlockReplicationPolicy].getName)
          val clazz = Utils.classForName(priorityClass)
          val ret = clazz.newInstance.asInstanceOf[BlockReplicationPolicy]
          logInfo(s"Using $priorityClass for block replication policy")
          ret
        }
    
        val id =
          BlockManagerId(executorId, blockTransferService.hostName, blockTransferService.port, None)
    
        val idFromMaster = master.registerBlockManager(
          id,
          maxOnHeapMemory,
          maxOffHeapMemory,
          slaveEndpoint)
    
        blockManagerId = if (idFromMaster != null) idFromMaster else id
    
        shuffleServerId = if (externalShuffleServiceEnabled) {
          logInfo(s"external shuffle service port = $externalShuffleServicePort")
          BlockManagerId(executorId, blockTransferService.hostName, externalShuffleServicePort)
        } else {
          blockManagerId
        }
    
        // Register Executors' configuration with the local shuffle service, if one should exist.
        if (externalShuffleServiceEnabled && !blockManagerId.isDriver) {
          registerWithExternalShuffleServer()
        }
    
        logInfo(s"Initialized BlockManager: $blockManagerId")
      }
    View Code

    1)BlockTransferService和shuffle客户端shuffleClient的初始化,ShuffleClien默认是BlockTransferService,当有外部的ShuffleService时,则调用外部的ExternalShuffleClient。

    2)创建id为本地BlockManagerId,向BlockManagerMaster注册此id,获取从BlockManagerMaster的idFromMaster,如果idFromMaster为空则BlockManagerId为刚才创建的id,否则使用BlockManagerMaster注册到的idFromMaster。

    3)ShuffleServerId的创建,当有外部的ShuffleService时,创建新的BlockManagerId作为ShuffleServerId。

    4)当有外部的ShuffleService并且当前BlockMaId不是Driver端,则需要向ShuffleClient注册ShuffleServerId

    2.Spark存储体系架构

    1)1表示Executor的BlockManager与Driver的BlockManager进行消息通信,例如注册BlockManager、更新Block信息、获取Block所在的BlockManager、删除Executor等

    2)2表示对BlockManager的读操作如get、doGetLocal等和写操作doPut、puSingle等

    3)3表示当MemoryStore的内存不足时,写入DiskStore,而DiskStore实际依赖于DiskBlockManager

    4)4表示通过访问远端节点的Executor的BlockManager中的TransportServer提供RPC服务下载或者上传Block

    5)5表示远端节点的Executor的BlockManager访问本地Executor的BlockManager中的TransportServer提供的RPC服务下载或者上传Block。

    二、shuffle服务与客户端

    1.Block的RPC服务

    当map任务与reduce任务处于不同的节点时,reduce任务需要从远端节点下载map任务的中间件输出,因此NettyBlockRpcServer提供打开,即下载Block文件的功能;一些情况下,为了容错,需要将Block的数据备份到其他节点上,所以NettyBlockRpcServer还提供了上传Block文件的RPC服务,实现见代码,代码位置:core/org.apache.spark.network.netty。

    class NettyBlockRpcServer(
        appId: String,
        serializer: Serializer,
        blockManager: BlockDataManager)
      extends RpcHandler with Logging {
    
      private val streamManager = new OneForOneStreamManager()
    
      override def receive(
          client: TransportClient,
          rpcMessage: ByteBuffer,
          responseContext: RpcResponseCallback): Unit = {
        val message = BlockTransferMessage.Decoder.fromByteBuffer(rpcMessage)
        logTrace(s"Received request: $message")
    
        message match {
          case openBlocks: OpenBlocks =>
            val blocksNum = openBlocks.blockIds.length
            val blocks = for (i <- (0 until blocksNum).view)
              yield blockManager.getBlockData(BlockId.apply(openBlocks.blockIds(i)))
            val streamId = streamManager.registerStream(appId, blocks.iterator.asJava)
            logTrace(s"Registered streamId $streamId with $blocksNum buffers")
            responseContext.onSuccess(new StreamHandle(streamId, blocksNum).toByteBuffer)
    
          case uploadBlock: UploadBlock =>
            // StorageLevel and ClassTag are serialized as bytes using our JavaSerializer.
            val (level: StorageLevel, classTag: ClassTag[_]) = {
              serializer
                .newInstance()
                .deserialize(ByteBuffer.wrap(uploadBlock.metadata))
                .asInstanceOf[(StorageLevel, ClassTag[_])]
            }
            val data = new NioManagedBuffer(ByteBuffer.wrap(uploadBlock.blockData))
            val blockId = BlockId(uploadBlock.blockId)
            blockManager.putBlockData(blockId, data, level, classTag)
            responseContext.onSuccess(ByteBuffer.allocate(0))
        }
      }
    
      override def getStreamManager(): StreamManager = streamManager
    }
    View Code

     2.构造传输上下文TransportContext

    代码位置,common/network-common/org.apache.spark.network

      public TransportContext(
          TransportConf conf,
          RpcHandler rpcHandler,
          boolean closeIdleConnections) {
        this.conf = conf;
        this.rpcHandler = rpcHandler;
        this.closeIdleConnections = closeIdleConnections;
      }
    View Code

    TransportContext既可以创建Netty服务,也可以创建Netty访问客户端,组成部分如下。

    1)TransportConf:主要控制Netty框架提供的shuffle的I/O交互的客户端和服务端线程数量等

    2)RpcHandler:负责shuffle的I/O服务端在接收到客户端的RPC请求后,提供打开Block或者上传Block的RPC处理,此处实现为NettyBlockRpcServer

    3)是否关闭闲置连接

    3.RPC客户端工厂TransportClientFactory

     public TransportClientFactory createClientFactory(List<TransportClientBootstrap> bootstraps) {
        return new TransportClientFactory(this, bootstraps);
      }
    View Code

    以下分析TransportClientFactory代码。

    public TransportClientFactory(
          TransportContext context,
          List<TransportClientBootstrap> clientBootstraps) {
        this.context = Preconditions.checkNotNull(context);
        this.conf = context.getConf();
        this.clientBootstraps = Lists.newArrayList(Preconditions.checkNotNull(clientBootstraps));
        this.connectionPool = new ConcurrentHashMap<>();
        this.numConnectionsPerPeer = conf.numConnectionsPerPeer();
        this.rand = new Random();
    
        IOMode ioMode = IOMode.valueOf(conf.ioMode());
        this.socketChannelClass = NettyUtils.getClientChannelClass(ioMode);
        this.workerGroup = NettyUtils.createEventLoop(
            ioMode,
            conf.clientThreads(),
            conf.getModuleName() + "-client");
        this.pooledAllocator = NettyUtils.createPooledByteBufAllocator(
          conf.preferDirectBufs(), false /* allowCache */, conf.clientThreads());
      }
    View Code

    1)clientBootstraps:用于缓存客户端列表

    2)connectionPool:用户缓存客户端连接

    3)numConnectionsPerPeer:节点之间取数据的连接数,可以使用属性spark.shuffle.io.numConnectionsPerPeer来配置,默认为1

    4)SocketChannelClass:客户端channel被创建时使用的类,可以使用属性spark.shuffle.io.mode来配置

    5)workerGroup:根据Netty的规范,客户端只有worker组,所以此处创建workerGroup,实际是NioEventLoopGroup

    6)pooledAllocator:汇集ByteBuf但对本地线程缓存禁用的分配器。

    4.Netty服务器TransportServer

    TransportServer提供了Netty实现的服务器端,用于提供RPC服务,如上传、下载等,代码如下。

     public TransportServer createServer(
          String host, int port, List<TransportServerBootstrap> bootstraps) {
        return new TransportServer(this, host, port, rpcHandler, bootstraps);
      }
    View Code

    TransportServer构造器如下

    public TransportServer(
          TransportContext context,
          String hostToBind,
          int portToBind,
          RpcHandler appRpcHandler,
          List<TransportServerBootstrap> bootstraps) {
        this.context = context;
        this.conf = context.getConf();
        this.appRpcHandler = appRpcHandler;
        this.bootstraps = Lists.newArrayList(Preconditions.checkNotNull(bootstraps));
    
        try {
          init(hostToBind, portToBind);
        } catch (RuntimeException e) {
          JavaUtils.closeQuietly(this);
          throw e;
        }
      }
    View Code

    init方法对TransportServer进行初始化,通过使用Netty框架的EventLoopGroup、ServerBootstrap等API创建shuffle的I/O交互的服务端,主要代码见清单。

      private void init(String hostToBind, int portToBind) {
    
        IOMode ioMode = IOMode.valueOf(conf.ioMode());
        EventLoopGroup bossGroup =
          NettyUtils.createEventLoop(ioMode, conf.serverThreads(), conf.getModuleName() + "-server");
        EventLoopGroup workerGroup = bossGroup;
    
        PooledByteBufAllocator allocator = NettyUtils.createPooledByteBufAllocator(
          conf.preferDirectBufs(), true /* allowCache */, conf.serverThreads());
    
        bootstrap = new ServerBootstrap()
          .group(bossGroup, workerGroup)
          .channel(NettyUtils.getServerChannelClass(ioMode))
          .option(ChannelOption.ALLOCATOR, allocator)
          .childOption(ChannelOption.ALLOCATOR, allocator);
    
        if (conf.backLog() > 0) {
          bootstrap.option(ChannelOption.SO_BACKLOG, conf.backLog());
        }
    
        if (conf.receiveBuf() > 0) {
          bootstrap.childOption(ChannelOption.SO_RCVBUF, conf.receiveBuf());
        }
    
        if (conf.sendBuf() > 0) {
          bootstrap.childOption(ChannelOption.SO_SNDBUF, conf.sendBuf());
        }
    
        bootstrap.childHandler(new ChannelInitializer<SocketChannel>() {
          @Override
          protected void initChannel(SocketChannel ch) throws Exception {
            RpcHandler rpcHandler = appRpcHandler;
            for (TransportServerBootstrap bootstrap : bootstraps) {
              rpcHandler = bootstrap.doBootstrap(ch, rpcHandler);
            }
            context.initializePipeline(ch, rpcHandler);
          }
        });
    
        InetSocketAddress address = hostToBind == null ?
            new InetSocketAddress(portToBind): new InetSocketAddress(hostToBind, portToBind);
        channelFuture = bootstrap.bind(address);
        channelFuture.syncUninterruptibly();
    
        port = ((InetSocketAddress) channelFuture.channel().localAddress()).getPort();
        logger.debug("Shuffle server started on port: {}", port);
      }
    View Code

    1)ioMode:NIO或者EPOLL

    2) ChannelOption.ALLOCATOR:在Netty 4中实现了一个新的ByteBuf内存池,它是一个纯Java版本的 jemalloc (Facebook也在用)。现在,Netty不会再因为用零填充缓冲区而浪费内存带宽了。不过,由于它不依赖于GC,开发人员需要小心内存泄漏。如果忘记在处理程序中释放缓冲区,那么内存使用率会无限地增长。Netty默认不使用内存池,需要在创建客户端或者服务端的时候进行指定,使用内存池之后,内存的申请和释放必须成对出现,即retain()和release()要成对出现,否则会导致内存泄露。

    3)RpcHandler处理接收到的数据逻辑

    5.获取远程shuffle文件

    NettyBlockTransferService的fetchBlocks方法用于获取远程的shuffle文件,实际是使用NettyBlockTransferService中创建的Netty服务。

    override def fetchBlocks(
          host: String,
          port: Int,
          execId: String,
          blockIds: Array[String],
          listener: BlockFetchingListener,
          tempShuffleFileManager: TempShuffleFileManager): Unit = {
        logTrace(s"Fetch blocks from $host:$port (executor id $execId)")
        try {
          val blockFetchStarter = new RetryingBlockFetcher.BlockFetchStarter {
            override def createAndStart(blockIds: Array[String], listener: BlockFetchingListener) {
              val client = clientFactory.createClient(host, port)
              new OneForOneBlockFetcher(client, appId, execId, blockIds, listener,
                transportConf, tempShuffleFileManager).start()
            }
          }
    
          val maxRetries = transportConf.maxIORetries()
          if (maxRetries > 0) {
            // Note this Fetcher will correctly handle maxRetries == 0; we avoid it just in case there's
            // a bug in this code. We should remove the if statement once we're sure of the stability.
            new RetryingBlockFetcher(transportConf, blockFetchStarter, blockIds, listener).start()
          } else {
            blockFetchStarter.createAndStart(blockIds, listener)
          }
        } catch {
          case e: Exception =>
            logError("Exception while beginning fetchBlocks", e)
            blockIds.foreach(listener.onBlockFetchFailure(_, e))
        }
      }
    View Code

    6.上传shuffle文件

    NettyBlockTransferService的uploadBlock方法用于上传shuffle文件到远程的Executor,实际也是用NettyBlockTransferService中创建的Netty服务,步骤如下。

    override def uploadBlock(
          hostname: String,
          port: Int,
          execId: String,
          blockId: BlockId,
          blockData: ManagedBuffer,
          level: StorageLevel,
          classTag: ClassTag[_]): Future[Unit] = {
        val result = Promise[Unit]()
        val client = clientFactory.createClient(hostname, port)
    
        // StorageLevel and ClassTag are serialized as bytes using our JavaSerializer.
        // Everything else is encoded using our binary protocol.
        val metadata = JavaUtils.bufferToArray(serializer.newInstance().serialize((level, classTag)))
    
        // Convert or copy nio buffer into array in order to serialize it.
        val array = JavaUtils.bufferToArray(blockData.nioByteBuffer())
    
        client.sendRpc(new UploadBlock(appId, execId, blockId.toString, metadata, array).toByteBuffer,
          new RpcResponseCallback {
            override def onSuccess(response: ByteBuffer): Unit = {
              logTrace(s"Successfully uploaded block $blockId")
              result.success((): Unit)
            }
            override def onFailure(e: Throwable): Unit = {
              logError(s"Error while uploading block $blockId", e)
              result.failure(e)
            }
          })
    
        result.future
      }
    View Code

    1)创建Netty服务的客户端,客户端连接的hostname和port正是BlockManager的hostname和port

    2)将Block的存储级别StorageLevel和类标签序列化

    3)将Block的ByteBuffer转化为数据,便于序列化

    4)将appId、execId、blockId、metadata、转化为数组的Block封装为UploadBlock,并将其序列化为字节数组

    5)最终调用Netty客户端的sendRpc方法将字节数组上传,回掉函数RpcResponseCallback根据RPC的结果更改上传状态。

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  • 原文地址:https://www.cnblogs.com/ChouYarn/p/7169472.html
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