# # Licensed to the Apache Software Foundation (ASF) under one or more # contributor license agreements. See the NOTICE file distributed with # this work for additional information regarding copyright ownership. # The ASF licenses this file to You under the Apache License, Version 2.0 # (the "License"); you may not use this file except in compliance with # the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # import os import sys from py4j.java_collections import ListConverter from py4j.java_gateway import java_import, JavaObject from pyspark import RDD, SparkConf from pyspark.serializers import UTF8Deserializer, CloudPickleSerializer from pyspark.context import SparkContext from pyspark.storagelevel import StorageLevel from pyspark.streaming.dstream import DStream from pyspark.streaming.util import TransformFunction, TransformFunctionSerializer __all__ = ["StreamingContext"] def _daemonize_callback_server(): """ Hack Py4J to daemonize callback server The thread of callback server has daemon=False, it will block the driver from exiting if it's not shutdown. The following code replace `start()` of CallbackServer with a new version, which set daemon=True for this thread. Also, it will update the port number (0) with real port """ # TODO: create a patch for Py4J import socket import py4j.java_gateway logger = py4j.java_gateway.logger from py4j.java_gateway import Py4JNetworkError from threading import Thread def start(self): """Starts the CallbackServer. This method should be called by the client instead of run().""" self.server_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM) self.server_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) try: self.server_socket.bind((self.address, self.port)) if not self.port: # update port with real port self.port = self.server_socket.getsockname()[1] except Exception as e: msg = 'An error occurred while trying to start the callback server: %s' % e logger.exception(msg) raise Py4JNetworkError(msg) # Maybe thread needs to be cleanup up? self.thread = Thread(target=self.run) self.thread.daemon = True self.thread.start() py4j.java_gateway.CallbackServer.start = start class StreamingContext(object): """ Main entry point for Spark Streaming functionality. A StreamingContext represents the connection to a Spark cluster, and can be used to create L{DStream} various input sources. It can be from an existing L{SparkContext}. After creating and transforming DStreams, the streaming computation can be started and stopped using `context.start()` and `context.stop()`, respectively. `context.awaitTransformation()` allows the current thread to wait for the termination of the context by `stop()` or by an exception. """ _transformerSerializer = None def __init__(self, sparkContext, batchDuration=None, jssc=None): """ Create a new StreamingContext. @param sparkContext: L{SparkContext} object. @param batchDuration: the time interval (in seconds) at which streaming data will be divided into batches """ self._sc = sparkContext self._jvm = self._sc._jvm self._jssc = jssc or self._initialize_context(self._sc, batchDuration) def _initialize_context(self, sc, duration): self._ensure_initialized() return self._jvm.JavaStreamingContext(sc._jsc, self._jduration(duration)) def _jduration(self, seconds): """ Create Duration object given number of seconds """ return self._jvm.Duration(int(seconds * 1000)) @classmethod def _ensure_initialized(cls): SparkContext._ensure_initialized() gw = SparkContext._gateway java_import(gw.jvm, "org.apache.spark.streaming.*") java_import(gw.jvm, "org.apache.spark.streaming.api.java.*") java_import(gw.jvm, "org.apache.spark.streaming.api.python.*") # start callback server # getattr will fallback to JVM, so we cannot test by hasattr() if "_callback_server" not in gw.__dict__: _daemonize_callback_server() # use random port gw._start_callback_server(0) # gateway with real port gw._python_proxy_port = gw._callback_server.port # get the GatewayServer object in JVM by ID jgws = JavaObject("GATEWAY_SERVER", gw._gateway_client) # update the port of CallbackClient with real port gw.jvm.PythonDStream.updatePythonGatewayPort(jgws, gw._python_proxy_port) # register serializer for TransformFunction # it happens before creating SparkContext when loading from checkpointing cls._transformerSerializer = TransformFunctionSerializer( SparkContext._active_spark_context, CloudPickleSerializer(), gw) @classmethod def getOrCreate(cls, checkpointPath, setupFunc): """ Either recreate a StreamingContext from checkpoint data or create a new StreamingContext. If checkpoint data exists in the provided `checkpointPath`, then StreamingContext will be recreated from the checkpoint data. If the data does not exist, then the provided setupFunc will be used to create a JavaStreamingContext. @param checkpointPath Checkpoint directory used in an earlier JavaStreamingContext program @param setupFunc Function to create a new JavaStreamingContext and setup DStreams """ # TODO: support checkpoint in HDFS if not os.path.exists(checkpointPath) or not os.listdir(checkpointPath): ssc = setupFunc() ssc.checkpoint(checkpointPath) return ssc cls._ensure_initialized() gw = SparkContext._gateway try: jssc = gw.jvm.JavaStreamingContext(checkpointPath) except Exception: print >>sys.stderr, "failed to load StreamingContext from checkpoint" raise jsc = jssc.sparkContext() conf = SparkConf(_jconf=jsc.getConf()) sc = SparkContext(conf=conf, gateway=gw, jsc=jsc) # update ctx in serializer SparkContext._active_spark_context = sc cls._transformerSerializer.ctx = sc return StreamingContext(sc, None, jssc) @property def sparkContext(self): """ Return SparkContext which is associated with this StreamingContext. """ return self._sc def start(self): """ Start the execution of the streams. """ self._jssc.start() def awaitTermination(self, timeout=None): """ Wait for the execution to stop. @param timeout: time to wait in seconds """ if timeout is None: self._jssc.awaitTermination() else: self._jssc.awaitTermination(int(timeout * 1000)) def stop(self, stopSparkContext=True, stopGraceFully=False): """ Stop the execution of the streams, with option of ensuring all received data has been processed. @param stopSparkContext: Stop the associated SparkContext or not @param stopGracefully: Stop gracefully by waiting for the processing of all received data to be completed """ self._jssc.stop(stopSparkContext, stopGraceFully) if stopSparkContext: self._sc.stop() def remember(self, duration): """ Set each DStreams in this context to remember RDDs it generated in the last given duration. DStreams remember RDDs only for a limited duration of time and releases them for garbage collection. This method allows the developer to specify how to long to remember the RDDs (if the developer wishes to query old data outside the DStream computation). @param duration: Minimum duration (in seconds) that each DStream should remember its RDDs """ self._jssc.remember(self._jduration(duration)) def checkpoint(self, directory): """ Sets the context to periodically checkpoint the DStream operations for master fault-tolerance. The graph will be checkpointed every batch interval. @param directory: HDFS-compatible directory where the checkpoint data will be reliably stored """ self._jssc.checkpoint(directory) def socketTextStream(self, hostname, port, storageLevel=StorageLevel.MEMORY_AND_DISK_SER_2): """ Create an input from TCP source hostname:port. Data is received using a TCP socket and receive byte is interpreted as UTF8 encoded ``\\n`` delimited lines. @param hostname: Hostname to connect to for receiving data @param port: Port to connect to for receiving data @param storageLevel: Storage level to use for storing the received objects """ jlevel = self._sc._getJavaStorageLevel(storageLevel) return DStream(self._jssc.socketTextStream(hostname, port, jlevel), self, UTF8Deserializer()) def textFileStream(self, directory): """ Create an input stream that monitors a Hadoop-compatible file system for new files and reads them as text files. Files must be wrriten to the monitored directory by "moving" them from another location within the same file system. File names starting with . are ignored. """ return DStream(self._jssc.textFileStream(directory), self, UTF8Deserializer()) def _check_serializers(self, rdds): # make sure they have same serializer if len(set(rdd._jrdd_deserializer for rdd in rdds)) > 1: for i in range(len(rdds)): # reset them to sc.serializer rdds[i] = rdds[i]._reserialize() def queueStream(self, rdds, oneAtATime=True, default=None): """ Create an input stream from an queue of RDDs or list. In each batch, it will process either one or all of the RDDs returned by the queue. NOTE: changes to the queue after the stream is created will not be recognized. @param rdds: Queue of RDDs @param oneAtATime: pick one rdd each time or pick all of them once. @param default: The default rdd if no more in rdds """ if default and not isinstance(default, RDD): default = self._sc.parallelize(default) if not rdds and default: rdds = [rdds] if rdds and not isinstance(rdds[0], RDD): rdds = [self._sc.parallelize(input) for input in rdds] self._check_serializers(rdds) jrdds = ListConverter().convert([r._jrdd for r in rdds], SparkContext._gateway._gateway_client) queue = self._jvm.PythonDStream.toRDDQueue(jrdds) if default: default = default._reserialize(rdds[0]._jrdd_deserializer) jdstream = self._jssc.queueStream(queue, oneAtATime, default._jrdd) else: jdstream = self._jssc.queueStream(queue, oneAtATime) return DStream(jdstream, self, rdds[0]._jrdd_deserializer) def transform(self, dstreams, transformFunc): """ Create a new DStream in which each RDD is generated by applying a function on RDDs of the DStreams. The order of the JavaRDDs in the transform function parameter will be the same as the order of corresponding DStreams in the list. """ jdstreams = ListConverter().convert([d._jdstream for d in dstreams], SparkContext._gateway._gateway_client) # change the final serializer to sc.serializer func = TransformFunction(self._sc, lambda t, *rdds: transformFunc(rdds).map(lambda x: x), *[d._jrdd_deserializer for d in dstreams]) jfunc = self._jvm.TransformFunction(func) jdstream = self._jssc.transform(jdstreams, jfunc) return DStream(jdstream, self, self._sc.serializer) def union(self, *dstreams): """ Create a unified DStream from multiple DStreams of the same type and same slide duration. """ if not dstreams: raise ValueError("should have at least one DStream to union") if len(dstreams) == 1: return dstreams[0] if len(set(s._jrdd_deserializer for s in dstreams)) > 1: raise ValueError("All DStreams should have same serializer") if len(set(s._slideDuration for s in dstreams)) > 1: raise ValueError("All DStreams should have same slide duration") first = dstreams[0] jrest = ListConverter().convert([d._jdstream for d in dstreams[1:]], SparkContext._gateway._gateway_client) return DStream(self._jssc.union(first._jdstream, jrest), self, first._jrdd_deserializer)