spark 2.1.1
一 启动命令
启动spark thrift命令
$SPARK_HOME/sbin/start-thriftserver.sh
然后会执行
org.apache.spark.deploy.SparkSubmit --class org.apache.spark.sql.hive.thriftserver.HiveThriftServer2
二 启动过程及代码分析
hive thrift代码详见:https://www.cnblogs.com/barneywill/p/10185168.html
HiveThriftServer2是spark thrift核心类,继承自Hive的HiveServer2
org.apache.spark.sql.hive.thriftserver.HiveThriftServer2 extends org.apache.hive.service.server.HiveServer2
启动过程:
HiveThriftServer2.main
SparkSQLEnv.init (sparkConf sparkSession sparkContext sqlContext)
HiveThriftServer2.init
addService(ThriftBinaryCLIService)
HiveThriftServer2.start
ThriftBinaryCLIService.run
TServer.serve
类结构:【接口或父类->子类】
TServer->TThreadPoolServer
TProcessorFactory->SQLPlainProcessorFactory
TProcessor->TSetIpAddressProcessor
ThriftCLIService->ThriftBinaryCLIService
CLIService->SparkSQLCLIService (核心子类)
服务初始化过程:
CLIService.init
SparkSQLCLIService.init
addService(SparkSQLSessionManager)
initCompositeService
SparkSQLSessionManager.init
addService(SparkSQLOperationManager)
initCompositeService
SparkSQLOperationManager.init
三 DDL执行过程
ddl执行过程需要和hive metastore交互
从执行计划开始:
spark-sql> explain create table test_table(id string);
== Physical Plan ==
ExecutedCommand
+- CreateTableCommand CatalogTable(
Table: `test_table`
Created: Wed Dec 19 18:04:15 CST 2018
Last Access: Thu Jan 01 07:59:59 CST 1970
Type: MANAGED
Schema: [StructField(id,StringType,true)]
Provider: hive
Storage(InputFormat: org.apache.hadoop.mapred.TextInputFormat, OutputFormat: org.apache.hadoop.hive.ql.io.HiveIgnoreKeyTextOutputFormat)), false
Time taken: 0.28 seconds, Fetched 1 row(s)
从执行计划里可以找到具体的Command,这里是CreateTableCommand
org.apache.spark.sql.execution.command.tables
case class CreateTableCommand(table: CatalogTable, ifNotExists: Boolean) extends RunnableCommand { override def run(sparkSession: SparkSession): Seq[Row] = { sparkSession.sessionState.catalog.createTable(table, ifNotExists) Seq.empty[Row] } }
这里可以看到是直接将请求分发给sparkSession.sessionState.catalog
org.apache.spark.sql.internal.SessionState
/** * Internal catalog for managing table and database states. */ lazy val catalog = new SessionCatalog( sparkSession.sharedState.externalCatalog, sparkSession.sharedState.globalTempViewManager, functionResourceLoader, functionRegistry, conf, newHadoopConf())
取的是sparkSession.sharedState.externalCatalog
org.apache.spark.sql.internal.SharedState
/** * A catalog that interacts with external systems. */ val externalCatalog: ExternalCatalog = SharedState.reflect[ExternalCatalog, SparkConf, Configuration]( SharedState.externalCatalogClassName(sparkContext.conf), sparkContext.conf, sparkContext.hadoopConfiguration) ... private val HIVE_EXTERNAL_CATALOG_CLASS_NAME = "org.apache.spark.sql.hive.HiveExternalCatalog" private def externalCatalogClassName(conf: SparkConf): String = { conf.get(CATALOG_IMPLEMENTATION) match { case "hive" => HIVE_EXTERNAL_CATALOG_CLASS_NAME case "in-memory" => classOf[InMemoryCatalog].getCanonicalName } }
这里可以看到是通过externalCatalogClassName反射实例化的,代码里硬编码使用的是org.apache.spark.sql.hive.HiveExternalCatalog
org.apache.spark.sql.hive.HiveExternalCatalog
/** * A Hive client used to interact with the metastore. */ val client: HiveClient = { HiveUtils.newClientForMetadata(conf, hadoopConf) } private def withClient[T](body: => T): T = synchronized { try { body } catch { case NonFatal(exception) if isClientException(exception) => val e = exception match { // Since we are using shim, the exceptions thrown by the underlying method of // Method.invoke() are wrapped by InvocationTargetException case i: InvocationTargetException => i.getCause case o => o } throw new AnalysisException( e.getClass.getCanonicalName + ": " + e.getMessage, cause = Some(e)) } } override def createDatabase( dbDefinition: CatalogDatabase, ignoreIfExists: Boolean): Unit = withClient { client.createDatabase(dbDefinition, ignoreIfExists) }
这个类里执行任何ddl方法都会执行withClient,而withClient有synchronized,执行过程是直接把请求分发给client,下面看client是什么
org.apache.spark.sql.hive.client.IsolatedClientLoader
/** The isolated client interface to Hive. */ private[hive] def createClient(): HiveClient = { if (!isolationOn) { return new HiveClientImpl(version, sparkConf, hadoopConf, config, baseClassLoader, this) } // Pre-reflective instantiation setup. logDebug("Initializing the logger to avoid disaster...") val origLoader = Thread.currentThread().getContextClassLoader Thread.currentThread.setContextClassLoader(classLoader) try { classLoader .loadClass(classOf[HiveClientImpl].getName) .getConstructors.head .newInstance(version, sparkConf, hadoopConf, config, classLoader, this) .asInstanceOf[HiveClient] } catch {
可见client直接用的是org.apache.spark.sql.hive.client.HiveClientImpl
org.apache.spark.sql.hive.client.HiveClientImpl
def withHiveState[A](f: => A): A = retryLocked { val original = Thread.currentThread().getContextClassLoader // Set the thread local metastore client to the client associated with this HiveClientImpl. Hive.set(client) // The classloader in clientLoader could be changed after addJar, always use the latest // classloader state.getConf.setClassLoader(clientLoader.classLoader) // setCurrentSessionState will use the classLoader associated // with the HiveConf in `state` to override the context class loader of the current // thread. shim.setCurrentSessionState(state) val ret = try f finally { Thread.currentThread().setContextClassLoader(original) HiveCatalogMetrics.incrementHiveClientCalls(1) } ret } private def retryLocked[A](f: => A): A = clientLoader.synchronized { ... override def createDatabase( database: CatalogDatabase, ignoreIfExists: Boolean): Unit = withHiveState { client.createDatabase( new HiveDatabase( database.name, database.description, database.locationUri, Option(database.properties).map(_.asJava).orNull), ignoreIfExists) }
这个类执行任何ddl方法都会执行withHiveState,withHiveState会执行retryLocked,retryLocked上有synchronized;而且这里也是直接将请求分发给client,这里的client是hive的类org.apache.hadoop.hive.ql.metadata.Hive
四 DML执行过程
dml执行过程最后会执行到spark.sql
sql执行过程:
CLIService.executeStatement (返回OperationHandle)
SessionManager.getSession
SessionManager.openSession
SparkSQLSessionManager.openSession
SparkSQLOperationManager.sessionToContexts.set (openSession时:session和sqlContext建立映射)
HiveSession.executeStatement
HiveSessionImpl.executeStatementInternal
OperationManager.newExecuteStatementOperation
SparkSQLOperationManager.newExecuteStatementOperation
SparkSQLOperationManager.sessionToContexts.get (通过session取到sqlContext)
ExecuteStatementOperation.run
SparkExecuteStatementOperation.run
SparkExecuteStatementOperation.execute
SQLContext.sql (熟悉的spark sql)
可见从SparkSQLCLIService初始化开始,逐个将各个类的实现类改为spark的子类比如:
org.apache.spark.sql.hive.thriftserver.SparkSQLSessionManager extends org.apache.hive.service.cli.session.SessionManager
org.apache.spark.sql.hive.thriftserver.server.SparkSQLOperationManager extends org.apache.hive.service.cli.operation.OperationManager
org.apache.spark.sql.hive.thriftserver.SparkExecuteStatementOperation extends org.apache.hive.service.cli.operation.ExecuteStatementOperation
从而实现底层实现的替换;
hive的HiveServer2为什么这么容易的被扩展,详见spark代码的sql/hive-thriftserver,这里应该是将hive1.2代码做了很多修改,以后升级就不那么容易了;
至于spark为什么要花这么大力气扩展HiveServer2而不是重新实现,可能是为了保持接口一致,这样有利于原来使用hive thrift的用户平滑的迁移到spark thrift,因为唯一的改动就是切换url,实际上,相同sql下的spark thrift和hive thrift表现还是有很多不同的。