Testing and validatingSpark programs
Now mostly
“works”*
*See developer for details. Does not imply warranty. :p Does not apply to libraries
Who am I?● My name is Holden Karau● Prefered pronouns are she/her● I’m a Software Engineer● currently IBM and previously Alpine, Databricks, Google, Foursquare &
Amazon● co-author of Learning Spark & Fast Data processing with Spark● @holdenkarau● Slide share http://www.slideshare.net/hkarau ● Linkedin https://www.linkedin.com/in/holdenkarau ● Spark Videos http://bit.ly/holdenSparkVideos
What is going to be covered:● What I think I might know about you● A bit about why you should test & validate your programs● “Normal” unit testing● Testing at scale(ish)● Considerations for Streaming & SQL (DataFrames & Datasets)● Validation - how to make simple validation rules & our current limitations● Cute & scary pictures
○ I promise at least one panda and one cat○ Yes they are mostly the same pandas & cats as always - try and spot the new ones :p
Andrew
Who I think you wonderful humans are?● Nice* people● Like silly pictures● Familiar with Apache Spark
○ If not, buy one of my books or watch Paco’s awesome video
● Familiar with one of Scala, Java, or Python○ If you know R well I’d love to chat though
● Want to make better software○ (or models, or w/e)
So why should you test?● Makes you a better person● Avoid making your users angry● Save $s
○ AWS is expensive○ I’ve heard raising money is hard right now, test locally for savings
● Waiting for our jobs to fail is a pretty long dev cycle● This is really just to guilt trip you & give you flashbacks to your QA internships
So why should you validate?● You want to know when you're aboard the failboat● Halt deployment, roll-back● Our code will most likely fail
○ Sometimes data sources fail in new & exciting ways (see Mongo)○ That jerk on that other floor changed the meaning of a field :(○ Our tests won’t catch all of the corner cases that the real world finds
● We should try and minimize the impact○ Avoid making potentially embarrassing recommendations○ Save having to be woken up at 3am to do a roll-back○ Specifying a few simple invariants isn’t all that hard
So why should you test & validate:
Results from: Testing with Spark survey http://bit.ly/holdenTestingSpark
So why should you test & validate - cont
Results from: Testing with Spark survey http://bit.ly/holdenTestingSpark
Why don’t we test?● It’s hard
○ Faking data, setting up integration tests, urgh w/e
● Our tests can get too slow● It takes a lot of time
○ and people always want everything done yesterday○ or I just want to go home see my partner○ etc.
Why don’t we validate?● We already tested our code● What could go wrong?
Cat photo from http://galato901.deviantart.com/art/Cat-on-Work-Break-173043455
Testing libraries:● Spark unit testing
○ spark-testing-base - https://github.com/holdenk/spark-testing-base ○ sscheck - https://github.com/juanrh/sscheck
● Integration testing○ spark-integration-tests (Spark internals) - https://github.com/databricks/spark-integration-tests
● Performance○ spark-perf (also for Spark internals) - https://github.com/databricks/spark-perf
● Spark job validation○ spark-validator - https://github.com/holdenk/spark-validator
Photo by Mike Mozart
A simple unit test with spark-testing-baseclass SampleRDDTest extends FunSuite with SharedSparkContext { test("really simple transformation") { val input = List("hi", "hi holden", "bye") val expected = List(List("hi"), List("hi", "holden"), List("bye")) assert(SampleRDD.tokenize(sc.parallelize(input)).collect().toList === expected) }}
Ok but what about problems @ scale● Maybe our program works fine on our local sized input● If we are using Spark our actual workload is probably huge● How do we test workloads too large for a single machine?
○ we can’t just use parallelize and collect
Qfamily
Distributed “set” operations to the rescue*● Pretty close - already built into Spark● Doesn’t do so well with floating points :(
○ damn floating points keep showing up everywhere :p
● Doesn’t really handle duplicates very well ○ {“coffee”, “coffee”, “panda”} != {“panda”, “coffee”} but with set operations...
Matti Mattila
Or use RDDComparisions: def compareWithOrderSamePartitioner[T: ClassTag](expected: RDD
[T], result: RDD[T]): Option[(T, T)] = {
expected.zip(result).filter{case (x, y) => x != y}.take(1).
headOption
}
Matti Mattila
Or use RDDComparisions:def compare[T: ClassTag](expected: RDD[T], result: RDD[T]): Option
[(T, Int, Int)] = {
val expectedKeyed = expected.map(x => (x, 1)).reduceByKey(_ +
_)
val resultKeyed = result.map(x => (x, 1)).reduceByKey(_ + _)
expectedKeyed.cogroup(resultKeyed).filter{case (_, (i1, i2))
=>
i1.isEmpty || i2.isEmpty || i1.head != i2.head}.take(1).
headOption.
map{case (v, (i1, i2)) => (v, i1.headOption.getOrElse(0),
i2.headOption.getOrElse(0))}
}
Matti Mattila
But where do we get the data for those tests?● If you have production data you can sample you are lucky!
○ If possible you can try and save in the same format
● If our data is a bunch of Vectors or Doubles Spark’s got tools :)● Coming up with good test data can take a long time
Lori Rielly
QuickCheck / ScalaCheck● QuickCheck generates tests data under a set of constraints● Scala version is ScalaCheck - supported by the two unit testing libraries for
Spark● sscheck
○ Awesome people*, supports generating DStreams too!
● spark-testing-base○ Also Awesome people*, generates more pathological (e.g. empty partitions etc.) RDDs
*I assume
PROtara hunt
With spark-testing-basetest("map should not change number of elements") { forAll(RDDGenerator.genRDD[String](sc)){ rdd => rdd.map(_.length).count() == rdd.count() }}
With spark-testing-base & a million entriestest("map should not change number of elements") { implicit val generatorDrivenConfig = PropertyCheckConfig(minSize = 0, maxSize = 1000000) forAll(RDDGenerator.genRDD[String](sc)){ rdd => rdd.map(_.length).count() == rdd.count() }}
Testing streaming….
Photo by Steve Jurvetson
// Setup our Stream:
class TestInputStream[T: ClassTag](@transient var sc:
SparkContext,
ssc_ : StreamingContext, input: Seq[Seq[T]], numPartitions: Int)
extends FriendlyInputDStream[T](ssc_) {
def start() {}
def stop() {}
def compute(validTime: Time): Option[RDD[T]] = {
logInfo("Computing RDD for time " + validTime)
val index = ((validTime - ourZeroTime) / slideDuration - 1).
toInt
val selectedInput = if (index < input.size) input(index) else
Seq[T]()
// lets us test cases where RDDs are not created
if (selectedInput == null) {
return None
}
val rdd = sc.makeRDD(selectedInput, numPartitions)
logInfo("Created RDD " + rdd.id + " with " + selectedInput)
Some(rdd)
}
}
Artisanal Stream Testing Codetrait StreamingSuiteBase extends FunSuite with BeforeAndAfterAll with Logging with SharedSparkContext {
// Name of the framework for Spark context def framework: String = this.getClass.getSimpleName
// Master for Spark context def master: String = "local[4]"
// Batch duration def batchDuration: Duration = Seconds(1)
// Directory where the checkpoint data will be saved lazy val checkpointDir = { val dir = Utils.createTempDir() logDebug(s"checkpointDir: $dir") dir.toString }
// Default after function for any streaming test suite. Override this // if you want to add your stuff to "after" (i.e., don't call after { } ) override def afterAll() { System.clearProperty("spark.streaming.clock") super.afterAll() }
Photo by Steve Jurvetson
and continued….
/** * Create an input stream for the provided input sequence. This is done using * TestInputStream as queueStream's are not checkpointable. */ def createTestInputStream[T: ClassTag](sc: SparkContext, ssc_ : TestStreamingContext, input: Seq[Seq[T]]): TestInputStream[T] = { new TestInputStream(sc, ssc_, input, numInputPartitions) }
// Default before function for any streaming test suite. Override this // if you want to add your stuff to "before" (i.e., don't call before { } ) override def beforeAll() { if (useManualClock) { logInfo("Using manual clock") conf.set("spark.streaming.clock", "org.apache.spark.streaming.util.TestManualClock") // We can specify our own clock } else { logInfo("Using real clock") conf.set("spark.streaming.clock", "org.apache.spark.streaming.util.SystemClock") } super.beforeAll() }
/** * Run a block of code with the given StreamingContext and automatically * stop the context when the block completes or when an exception is thrown. */ def withOutputAndStreamingContext[R](outputStreamSSC: (TestOutputStream[R], TestStreamingContext)) (block: (TestOutputStream[R], TestStreamingContext) => Unit): Unit = { val outputStream = outputStreamSSC._1 val ssc = outputStreamSSC._2 try { block(outputStream, ssc) } finally { try { ssc.stop(stopSparkContext = false) } catch { case e: Exception => logError("Error stopping StreamingContext", e) } } }
}
and now for the clock/* * Allows us access to a manual clock. Note that the manual clock changed between 1.1.1 and 1.3 */class TestManualClock(var time: Long) extends Clock { def this() = this(0L)
def getTime(): Long = getTimeMillis() // Compat def currentTime(): Long = getTimeMillis() // Compat def getTimeMillis(): Long = synchronized { time }
def setTime(timeToSet: Long): Unit = synchronized { time = timeToSet notifyAll() }
def advance(timeToAdd: Long): Unit = synchronized { time += timeToAdd notifyAll() }
def addToTime(timeToAdd: Long): Unit = advance(timeToAdd) // Compat
/** * @param targetTime block until the clock time is set or advanced to at least this time * @return current time reported by the clock when waiting finishes */ def waitTillTime(targetTime: Long): Long = synchronized { while (time < targetTime) { wait(100) } getTimeMillis() }
}
Testing streaming the happy panda way● Creating test data is hard
○ ssc.queueStream works - unless you need checkpoints (1.4.1+)
● Collecting the data locally is ugly○ foreachRDD & a var
● figuring out when your test is “done”
Let’s abstract all that away into testOperation
A simple (non-scalable) stream test:test("really simple transformation") { val input = List(List("hi"), List("hi holden"), List("bye")) val expected = List(List("hi"), List("hi", "holden"), List("bye")) testOperation[String, String](input, tokenize _, expected, useSet = true)}
Photo by An eye for my mind
What about DataFrames?● We can do the same as we did for RDD’s (.rdd)● Inside of Spark validation looks like:
def checkAnswer(df: DataFrame, expectedAnswer: Seq[Row])
● Sadly it’s not in a published package & local only● instead we expose:
def equalDataFrames(expected: DataFrame, result: DataFrame) {def approxEqualDataFrames(e: DataFrame, r: DataFrame, tol: Double) {
yoppy
…. and Datasets● We can do the same as we did for RDD’s (.rdd)● Inside of Spark validation looks like:
def checkAnswer(df: Dataset[T], expectedAnswer: T*)
● Sadly it’s not in a published package & local only● instead we expose:
def equalDatasets(expected: Dataset[U], result: Dataset[V]) {def approxEqualDatasets(e: Dataset[U], r: Dataset[V], tol: Double) {
This is what it looks like: test("dataframe should be equal to its self") { val sqlCtx = sqlContext import sqlCtx.implicits._// Yah I know this is ugly val input = sc.parallelize(inputList).toDF equalDataFrames(input, input) }
*This may or may not be easier.
Or with a generator based on Schema*: test("assert rows' types like schema type") {
val schema = StructType(List(StructField("name", StringType)))
val rowGen: Gen[Row] = DataframeGenerator.getRowGenerator
(schema)
val property =
forAll(rowGen) {
row => row.get(0).isInstanceOf[String]
}
check(property)
}
*For simple schemas, complex types in future versions
thelittleone417
Which has “built-in” large support :)
Other options for generating data:● mapPartitions + Random + custom code● RandomRDDs in mllib
○ Uniform, Normal, Possion, Exponential, Gamma, logNormal & Vector versions○ Different type: implement the RandomDataGenerator interface
RandomRDDsval zipRDD = RandomRDDs.exponentialRDD(sc, mean = 1000, size =
rows).map(_.toInt.toString)
val valuesRDD = RandomRDDs.normalVectorRDD(sc, numRows = rows,
numCols = numCols).repartition(zipRDD.partitions.size)
val keyRDD = sc.parallelize(1L.to(rows), zipRDD.getNumPartitions)
keyRDD.zipPartitions(zipRDD, valuesRDD){
(i1, i2, i3) =>
new Iterator[(Long, String, Vector)] {
...
Photo by allison
Let’s talk about local mode● It’s way better than you would expect*● It does its best to try and catch serialization errors● It’s still not the same as running on a “real” cluster● Especially since if we were just local mode, parallelize and collect might be
fine
Photo by: Bev Sykes
Options beyond local mode:● Just point at your existing cluster (set master)● Start one with your shell scripts & change the master
○ Really easy way to plug into existing integration testing
● spark-docker - hack in our own tests● YarnMiniCluster
○ https://github.
com/apache/spark/blob/master/yarn/src/test/scala/org/apache/spark/deploy/yarn/BaseYarnClusterSuite.scala
○ In Spark Testing Base extend SharedMiniCluster■ Not recommended until after SPARK-10812 (e.g. 1.5.2+ or 1.6+)
Photo by Richard Masoner
On to validation
So how do we validate our jobs?● Spark has it own counters
○ Per-stage bytes r/w, shuffle r/w, record r/w. execution time, etc.
● We can add counters for things we care about○ invalid records, users with no recommendations, etc.
○ Accumulators have some challenges (see SPARK-12469 for progress) but are an interesting option
● We can write rules for if the values are expected○ Simple rules (X > J)
■ The number of records should be greater than 0○ Historic rules (X > Avg(last(10, J)))
■ We need to keep track of our previous values - but this can be great for debugging & performance investigation too.
Photo by:Paul Schadler
Validation● For now checking file sizes & execution time seem like the most common best
practice (from survey)● spark-validator is still in early stages and not ready for production use but
interesting proof of concept● Doesn’t need to be done in your Spark job (can be done in your scripting
language of choice with whatever job control system you are using)● Sometimes your rules will miss-fire and you’ll need to manually approve a job
- that is ok!
Photo by:Paul Schadler
Validating records read matches our expectations:val vc = new ValidationConf(tempPath, "1", true, List[ValidationRule]( new AbsoluteSparkCounterValidationRule("recordsRead", Some(30), Some(1000))) )val sqlCtx = new SQLContext(sc)val v = Validation(sc, sqlCtx, vc)//Do work here....assert(v.validate(5) === true)}
Photo by Dvortygirl
Related talks & blog posts● Testing Spark Best Practices (Spark Summit 2014)● Every Day I’m Shuffling (Strata 2015) & slides● Spark and Spark Streaming Unit Testing● Making Spark Unit Testing With Spark Testing Base● Testing strategy for Apache Spark jobs
Becky Lai
Related packages
● spark-testing-base: https://github.com/holdenk/spark-testing-base ● sscheck: https://github.com/juanrh/sscheck ● spark-validator: https://github.com/holdenk/spark-validator *ALPHA*
● spark-perf - https://github.com/databricks/spark-perf
● spark-integration-tests - https://github.com/databricks/spark-integration-tests
● scalacheck - https://www.scalacheck.org/
Becky Lai
And including spark-testing-base:sbt:
"com.holdenkarau" %% "spark-testing-base" % "1.6.1_0.3.2"
maven:
<dependency>
<groupId>com.holdenkarau</groupId>
<artifactId>spark-testing-base</artifactId>
<version>${spark.version}_0.3.2</version>
<scope>test</scope>
</dependency>
Vladimir Pustovit
“Future Work”● Better ScalaCheck integration (ala sscheck)● Testing details in my next Spark book● Whatever* you all want
○ Testing with Spark survey: http://bit.ly/holdenTestingSpark
Semi-likely:
● integration testing (for now see @cfriegly’s Spark + Docker setup):○ https://github.com/fluxcapacitor/pipeline
Pretty unlikely:
● Integrating into Apache Spark ( SPARK-12433 )*That I feel like doing, or you feel like making a pull request for.
Photo by bullet101
Learning Spark
Fast Data Processing with Spark(Out of Date)
Fast Data Processing with Spark (2nd edition)
Advanced Analytics with Spark
Learning Spark
Fast Data Processing with Spark(Out of Date)
Fast Data Processing with Spark (2nd edition)
Advanced Analytics with Spark
Coming soon: Spark in Action
Early ReleaseHigh Performance Spark
And the next book…..
First four chapters are available in “Early Release”*:● Buy from O’Reilly - http://bit.ly/highPerfSparkGet notified when updated & finished:● http://www.highperformancespark.com ● https://twitter.com/highperfspark
* Early Release means extra mistakes, but also a chance to help us make a more awesome book. Also “should” means we were a bit late with the deadline for the conference so maybe a few days after...
And some upcoming talks & office hours
● Office hours tomorrow at 1:50 PM● April
○ Local workshops in the city (Spark SQL) & south bay (Intro to Spark)○ More office hours (TBD)
● May○ Apache Con Big Data (Vancouver)
● June○ Spark Summit SF & Strata London○ Datapalooza Tokyo & Scala Days Berlin
● July○ Data Day Seattle
Cat wave photo by Quinn Dombrowski
k thnx bye!
If you want to fill out survey: http://bit.ly/holdenTestingSpark
Will use update results in & tweet eventually at @holdenkarau
Office hours:Tomorrow @ O’Reilly booth 1:50pm