Spark

http://spark.apache.org/

''Apache Spark™ is a fast and general engine for large-scale data processing. Write applications quickly in Java, Scala, Python, R.  Spark offers over 80 high-level operators that make it easy to build parallel apps. And you can use it interactively from the Scala, Python and R shells. Spark powers a stack of libraries including SQL and DataFrames, MLlib for machine learning, GraphX, and Spark Streaming. You can combine these libraries seamlessly in the same application. ''

=Liens=
 * http://spark-packages.org/

=Livres= code https://github.com/sryza/aas
 * Advanced Analytics with Spark : Patterns for Learning from Data at Scale, http://shop.oreilly.com/product/0636920035091.do

code https://github.com/databricks/learning-spark
 * Learning Spark : Lightning-Fast Big Data Analysis, http://shop.oreilly.com/product/0636920028512.do

code https://github.com/mahmoudparsian/data-algorithms-book
 * Data Algorithms : Recipes for Scaling Up with Hadoop and Spark, http://shop.oreilly.com/product/0636920033950.do

=Cours=
 * Cours RCP216 du CNAM http://cedric.cnam.fr/vertigo/Cours/RCP216/coursIntroduction.html

=Installation=

depuis un Mac
wget http://wwwftp.ciril.fr/pub/apache/spark/spark-1.6.0/spark-1.6.0-bin-hadoop2.6.tgz tar xvf spark-1.6.0-bin-hadoop2.6.tgz cd spark-1.6.0-bin-hadoop2.6 export SPARK_HOME=$(pwd) more README.md

Remarque: $SPARK_HOME/bin/spark-shell et $SPARK_HOME/bin/pyspark démarrent une console web Spark UI http://localhost:4040/jobs/

Avec Docker
Suivre https://hub.docker.com/r/sequenceiq/spark/

=Programmation interactive en Scala= $SPARK_HOME/bin/spark-shell

Browse the Spark UI http://localhost:4040/jobs/



=Programmation interactive en Python= $SPARK_HOME/bin/pyspark >>> sc.parallelize(range(1000)).count

>>> exit

=Lancement d'exemples= $SPARK_HOME/bin/run-example SparkPi

$SPARK_HOME/bin/run-example mllib.LinearRegression --numIterations 1000 data/mllib/sample_linear_regression_data.txt

MASTER=spark://localhost:7077 $SPARK_HOME/bin/run-example SparkPi

$SPARK_HOME/dev/run-tests

Spark Streaming
Changer le niveau de logging (WARN) dans $SPARK_HOME/conf/log4j.properties

A partir des exemples
Dans un terminal 1, lancer l'exemple $SPARK_HOME/bin/run-example streaming.MQTTWordCount tcp://test.mosquitto.org:1883 "test/spark/wordcount/#"

Dans un terminal 2, lancer les commandes Bash while true do while read line do              mosquitto_pub -h test.mosquitto.org -t test/spark/wordcount/readme -m "$line" echo "$line" done <$SPARK_HOME/README.md   done

Remarque: il faut préalablement installer mosquitto_pub via brew install mosquitto (pour MacOS X) ou sudo apt-get install mosquitto-clients (sur Debian)

En mode interactif
Télécharger les dépendances wget https://repo.eclipse.org/content/repositories/paho-releases/org/eclipse/paho/org.eclipse.paho.client.mqttv3/1.0.2/org.eclipse.paho.client.mqttv3-1.0.2.jar wget http://central.maven.org/maven2/org/apache/spark/spark-streaming-mqtt_2.11/1.6.0/spark-streaming-mqtt_2.11-1.6.0.jar

Lancer le shell de Spark $SPARK_HOME/bin/spark-shell --jars org.eclipse.paho.client.mqttv3-1.0.2.jar,spark-streaming-mqtt_2.11-1.6.0.jar

Entrer dans la console le script suivant:

Sauvergarder le script ci-dessus dans mqttcount.scala et lancer la commande suivante $SPARK_HOME/bin/spark-shell --jars org.eclipse.paho.client.mqttv3-1.0.2.jar,spark-streaming-mqtt_2.11-1.6.0.jar --name MQTTCountScript -i mqttcount.scala

Pour continuer: un exemple orienté capteurs avec Apache Kafka, Akka, Apache Cassandra, Spark : https://github.com/killrweather/killrweather

=Déploiement d'un cluster Spark sur Amazon EC2=

Voir http://spark.apache.org/docs/latest/ec2-scripts.html

$SPARK_HOME/ec2/spark-ec2 --help

Récupérer et positionner les crédentials AWS

export AWS_ACCESS_KEY_ID=XXXX export AWS_SECRET_ACCESS_KEY=XXXX

export IDENTITY_FILE=/.ssh/awskey.pem export KEY_PAIR=awskey export REGION=eu-west-1 export ZONE=eu-west-1a export SLAVES=4 export INSTANCE_TYPE=t2.micro

Création du cluster et démarrage
$SPARK_HOME/ec2/spark-ec2 --key-pair=$KEY_PAIR --identity-file=$IDENTITY_FILE \ --region=$REGION --zone=$ZONE \ --slaves=$SLAVES --instance-type=$INSTANCE_TYPE \ launch my-spark-cluster
 * 1) launch the cluster

$SPARK_HOME/ec2/spark-ec2 --key-pair=$KEY_PAIR --identity-file=$IDENTITY_FILE \ --region=$REGION --zone=$ZONE \ get-master my-spark-cluster
 * 1) get the master

export MASTER=$($SPARK_HOME/ec2/spark-ec2 --key-pair=$KEY_PAIR --identity-file=$IDENTITY_FILE   --region=$REGION --zone=$ZONE     get-master my-spark-cluster | tail -n 1)

open http://$MASTER:8080 python -mwebbrowser http://$MASTER:8080
 * 1) browse the Spark UI

open http://$MASTER:5080/ganglia python -mwebbrowser http://$MASTER:5080/ganglia
 * 1) browse the Ganglia UI

Depuis le master
Se logger sur le master $SPARK_HOME/ec2/spark-ec2 --key-pair=$KEY_PAIR --identity-file=$IDENTITY_FILE \ --region=$REGION --zone=$ZONE \ login my-spark-cluster
 * 1) login on the master

Lancer le script (préalablement copié avec ses dépendances) $SPARK_HOME/bin/spark-shell --jars org.eclipse.paho.client.mqttv3-1.0.2.jar,spark-streaming-mqtt_2.11-1.6.0.jar --name MQTTCountScript --files mqttcount.txt

Depuis un hôte distant
A COMPLETER $SPARK_HOME/bin/spark-shell --jars org.eclipse.paho.client.mqttv3-1.0.2.jar,spark-streaming-mqtt_2.11-1.6.0.jar --name MQTTCountScript  --master spark://$MASTER:7077

Arrêt du cluster
$SPARK_HOME/ec2/spark-ec2 --key-pair=$KEY_PAIR --identity-file=$IDENTITY_FILE \ --region=$REGION --zone=$ZONE \ stop my-spark-cluster
 * 1) stop the cluster

Redémarrage du cluster
$SPARK_HOME/ec2/spark-ec2 --key-pair=$KEY_PAIR --identity-file=$IDENTITY_FILE \ --region=$REGION --zone=$ZONE \ start my-spark-cluster
 * 1) (re)start the cluster

Redémarrage des workers
$SPARK_HOME/ec2/spark-ec2 --key-pair=$KEY_PAIR --identity-file=$IDENTITY_FILE \ --region=$REGION --zone=$ZONE \ reboot-slaves my-spark-cluster
 * 1) reboot the slaves

Terminaison et destruction du cluster
$SPARK_HOME/ec2/spark-ec2 --key-pair=$KEY_PAIR --identity-file=$IDENTITY_FILE \ --region=$REGION --zone=$ZONE \ --delete-groups \ destroy my-spark-cluster
 * 1) destroy (terminate) the cluster

Options de la commande
-s SLAVES, --slaves=SLAVES Number of slaves to launch (default: 1) -w WAIT, --wait=WAIT DEPRECATED (no longer necessary) - Seconds to wait for nodes to start -k KEY_PAIR, --key-pair=KEY_PAIR Key pair to use on instances -i IDENTITY_FILE, --identity-file=IDENTITY_FILE SSH private key file to use for logging into instances -p PROFILE, --profile=PROFILE If you have multiple profiles (AWS or boto config), you can configure additional, named profiles by using this option (default: none) -t INSTANCE_TYPE, --instance-type=INSTANCE_TYPE Type of instance to launch (default: m1.large). WARNING: must be 64-bit; small instances won't work -m MASTER_INSTANCE_TYPE, --master-instance-type=MASTER_INSTANCE_TYPE Master instance type (leave empty for same as                       instance-type) -r REGION, --region=REGION EC2 region used to launch instances in, or to find them in (default: us-east-1) -z ZONE, --zone=ZONE Availability zone to launch instances in, or 'all' to                        spread slaves across multiple (an additional $0.01/Gb                        for bandwidthbetween zones applies) (default: a single                        zone chosen at random) -a AMI, --ami=AMI    Amazon Machine Image ID to use -v SPARK_VERSION, --spark-version=SPARK_VERSION Version of Spark to use: 'X.Y.Z' or a specific git hash (default: 1.6.0) --spark-git-repo=SPARK_GIT_REPO Github repo from which to checkout supplied commit hash (default: https://github.com/apache/spark) --spark-ec2-git-repo=SPARK_EC2_GIT_REPO Github repo from which to checkout spark-ec2 (default:                       https://github.com/amplab/spark-ec2) --spark-ec2-git-branch=SPARK_EC2_GIT_BRANCH Github repo branch of spark-ec2 to use (default:                       branch-1.5) --deploy-root-dir=DEPLOY_ROOT_DIR A directory to copy into / on the first master. Must be absolute. Note that a trailing slash is handled as                       per rsync: If you omit it, the last directory of the --deploy-root-dir path will be created in / before copying its contents. If you append the trailing slash, the directory is not created and its contents are copied directly into /. (default: none). --hadoop-major-version=HADOOP_MAJOR_VERSION Major version of Hadoop. Valid options are 1 (Hadoop                       1.0.4), 2 (CDH 4.2.0), yarn (Hadoop 2.4.0) (default:                        1) -D [ADDRESS:]PORT    Use SSH dynamic port forwarding to create a SOCKS proxy at the given local address (for use with login) --resume             Resume installation on a previously launched cluster (for debugging) --ebs-vol-size=SIZE  Size (in GB) of each EBS volume. --ebs-vol-type=EBS_VOL_TYPE EBS volume type (e.g. 'gp2', 'standard'). --ebs-vol-num=EBS_VOL_NUM Number of EBS volumes to attach to each node as                       /vol[x]. The volumes will be deleted when the instances terminate. Only possible on EBS-backed AMIs. EBS volumes are only attached if --ebs-vol-size > 0. Only support up to 8 EBS volumes. --placement-group=PLACEMENT_GROUP Which placement group to try and launch instances into. Assumes placement group is already created. --swap=SWAP          Swap space to set up per node, in MB (default: 1024) --spot-price=PRICE   If specified, launch slaves as spot instances with the given maximum price (in dollars) --ganglia            Setup Ganglia monitoring on cluster (default: True). NOTE: the Ganglia page will be publicly accessible --no-ganglia         Disable Ganglia monitoring for the cluster -u USER, --user=USER The SSH user you want to connect as (default: root) --delete-groups      When destroying a cluster, delete the security groups that were created --use-existing-master Launch fresh slaves, but use an existing stopped master if possible --worker-instances=WORKER_INSTANCES Number of instances per worker: variable SPARK_WORKER_INSTANCES. Not used if YARN is used as                       Hadoop major version (default: 1) --master-opts=MASTER_OPTS Extra options to give to master through SPARK_MASTER_OPTS variable (e.g                       -Dspark.worker.timeout=180) --user-data=USER_DATA Path to a user-data file (most AMIs interpret this as                       an initialization script) --authorized-address=AUTHORIZED_ADDRESS Address to authorize on created security groups (default: 0.0.0.0/0) --additional-security-group=ADDITIONAL_SECURITY_GROUP Additional security group to place the machines in --additional-tags=ADDITIONAL_TAGS Additional tags to set on the machines; tags are comma-separated, while name and value are colon separated; ex: "Task:MySparkProject,Env:production" --copy-aws-credentials Add AWS credentials to hadoop configuration to allow Spark to access S3 --subnet-id=SUBNET_ID VPC subnet to launch instances in --vpc-id=VPC_ID       VPC to launch instances in  --private-ips         Use private IPs for instances rather than public if                        VPC/subnet requires that. --instance-initiated-shutdown-behavior=INSTANCE_INITIATED_SHUTDOWN_BEHAVIOR Whether instances should terminate when shut down or                       just stop --instance-profile-name=INSTANCE_PROFILE_NAME IAM profile name to launch instances under

=Programmation=
 * DataFrame

=Packages= http://spark-packages.org/

spark-avro Integration utilities for using Spark with Apache Avro data

kafka-spark-consumer Receiver Based Low Level Kafka-Spark Consumer with builtin Back-Pressure Controller

spark-perf Performance tests for Spark

deep-spark Connecting Apache Spark with different data stores

spark-mongodb MongoDB data source for Spark SQL

spark-es ElasticSearch integration for Apache Spark

elasticsearch-hadoop Official integration between Apache Spark and Elasticsearch real-time search and analytics

magellan Geo Spatial Data Analytics on Spark

SparkTwitterAnalysis An Apache Spark standalone application using the Spark API in Scala. The application uses Simple Build(SBT) for building the project.

spark-druid-olap Spark Druid Package

SpatialSpark Big Spatial Data Processing using Spark

killrweather KillrWeather is a reference application (in progress) showing how to easily leverage and integrate Apache Spark, Apache Cassandra, and Apache Kafka for fast, streaming computations on time series data in asynchronous Akka event-driven environments.

spark-kafka Low level integration of Spark and Kafka

docker-spark Docker container for spark standalone cluster.

spark-streamingsql Manipulate Apache Spark Streaming by SQL

twitter-stream-ml Machine Learning over Twitter's stream. Using Apache Spark, Web Server and Lightning Graph server.