Please note: spark-ec2 is no longer under active development and the project has been archived. All the existing code, PRs and issues are still accessible but are now read-only. If you're looking for a similar tool that is under active development, we recommend you take a look at Flintrock.
spark-ec2
allows you
to launch, manage and shut down
Apache Spark [1] clusters
on Amazon EC2. It automatically sets up Apache Spark and
HDFS
on the cluster for you. This guide describes
how to use spark-ec2
to launch clusters, how to run jobs on them, and how
to shut them down. It assumes you've already signed up for an EC2 account
on the Amazon Web Services site.
spark-ec2
is designed to manage multiple named clusters. You can
launch a new cluster (telling the script its size and giving it a name),
shutdown an existing cluster, or log into a cluster. Each cluster is
identified by placing its machines into EC2 security groups whose names
are derived from the name of the cluster. For example, a cluster named
test
will contain a master node in a security group called
test-master
, and a number of slave nodes in a security group called
test-slaves
. The spark-ec2
script will create these security groups
for you based on the cluster name you request. You can also use them to
identify machines belonging to each cluster in the Amazon EC2 Console.
[1] Apache, Apache Spark, and Spark are trademarks of the Apache Software Foundation.
- Create an Amazon EC2 key pair for yourself. This can be done by
logging into your Amazon Web Services account through the AWS
console, clicking Key Pairs on the
left sidebar, and creating and downloading a key. Make sure that you
set the permissions for the private key file to
600
(i.e. only you can read and write it) so thatssh
will work. - Whenever you want to use the
spark-ec2
script, set the environment variablesAWS_ACCESS_KEY_ID
andAWS_SECRET_ACCESS_KEY
to your Amazon EC2 access key ID and secret access key. These can be obtained from the AWS homepage by clicking Account > Security Credentials > Access Credentials.
-
Go into the
ec2
directory in the release of Apache Spark you downloaded. -
Run
./spark-ec2 -k <keypair> -i <key-file> -s <num-slaves> launch <cluster-name>
, where<keypair>
is the name of your EC2 key pair (that you gave it when you created it),<key-file>
is the private key file for your key pair,<num-slaves>
is the number of slave nodes to launch (try 1 at first), and<cluster-name>
is the name to give to your cluster.For example:
export AWS_SECRET_ACCESS_KEY=AaBbCcDdEeFGgHhIiJjKkLlMmNnOoPpQqRrSsTtU export AWS_ACCESS_KEY_ID=ABCDEFG1234567890123 ./spark-ec2 --key-pair=awskey --identity-file=awskey.pem --region=us-west-1 --zone=us-west-1a launch my-spark-cluster
-
After everything launches, check that the cluster scheduler is up and sees all the slaves by going to its web UI, which will be printed at the end of the script (typically
http://<master-hostname>:8080
).
You can also run ./spark-ec2 --help
to see more usage options. The
following options are worth pointing out:
--instance-type=<instance-type>
can be used to specify an EC2 instance type to use. For now, the script only supports 64-bit instance types, and the default type ism3.large
(which has 2 cores and 7.5 GB RAM). Refer to the Amazon pages about EC2 instance types and EC2 pricing for information about other instance types.--region=<ec2-region>
specifies an EC2 region in which to launch instances. The default region isus-east-1
.--zone=<ec2-zone>
can be used to specify an EC2 availability zone to launch instances in. Sometimes, you will get an error because there is not enough capacity in one zone, and you should try to launch in another.--ebs-vol-size=<GB>
will attach an EBS volume with a given amount of space to each node so that you can have a persistent HDFS cluster on your nodes across cluster restarts (see below).--spot-price=<price>
will launch the worker nodes as Spot Instances, bidding for the given maximum price (in dollars).--spark-version=<version>
will pre-load the cluster with the specified version of Spark. The<version>
can be a version number (e.g. "0.7.3") or a specific git hash. By default, a recent version will be used.--spark-git-repo=<repository url>
will let you run a custom version of Spark that is built from the given git repository. By default, the Apache Github mirror will be used. When using a custom Spark version,--spark-version
must be set to git commit hash, such as 317e114, instead of a version number.- If one of your launches fails due to e.g. not having the right
permissions on your private key file, you can run
launch
with the--resume
option to restart the setup process on an existing cluster.
-
Run
./spark-ec2 -k <keypair> -i <key-file> -s <num-slaves> --vpc-id=<vpc-id> --subnet-id=<subnet-id> launch <cluster-name>
, where<keypair>
is the name of your EC2 key pair (that you gave it when you created it),<key-file>
is the private key file for your key pair,<num-slaves>
is the number of slave nodes to launch (try 1 at first),<vpc-id>
is the name of your VPC,<subnet-id>
is the name of your subnet, and<cluster-name>
is the name to give to your cluster.For example:
export AWS_SECRET_ACCESS_KEY=AaBbCcDdEeFGgHhIiJjKkLlMmNnOoPpQqRrSsTtU export AWS_ACCESS_KEY_ID=ABCDEFG1234567890123 ./spark-ec2 --key-pair=awskey --identity-file=awskey.pem --region=us-west-1 --zone=us-west-1a --vpc-id=vpc-a28d24c7 --subnet-id=subnet-4eb27b39 --spark-version=1.1.0 launch my-spark-cluster
- Go into the
ec2
directory in the release of Spark you downloaded. - Run
./spark-ec2 -k <keypair> -i <key-file> login <cluster-name>
to SSH into the cluster, where<keypair>
and<key-file>
are as above. (This is just for convenience; you could also use the EC2 console.) - To deploy code or data within your cluster, you can log in and use the
provided script
~/spark-ec2/copy-dir
, which, given a directory path, RSYNCs it to the same location on all the slaves. - If your application needs to access large datasets, the fastest way to do
that is to load them from Amazon S3 or an Amazon EBS device into an
instance of the Hadoop Distributed File System (HDFS) on your nodes.
The
spark-ec2
script already sets up a HDFS instance for you. It's installed in/root/ephemeral-hdfs
, and can be accessed using thebin/hadoop
script in that directory. Note that the data in this HDFS goes away when you stop and restart a machine. - There is also a persistent HDFS instance in
/root/persistent-hdfs
that will keep data across cluster restarts. Typically each node has relatively little space of persistent data (about 3 GB), but you can use the--ebs-vol-size
option tospark-ec2
to attach a persistent EBS volume to each node for storing the persistent HDFS. - Finally, if you get errors while running your application, look at the slave's logs
for that application inside of the scheduler work directory (/root/spark/work). You can
also view the status of the cluster using the web UI:
http://<master-hostname>:8080
.
You can edit /root/spark/conf/spark-env.sh
on each machine to set Spark configuration options, such
as JVM options. This file needs to be copied to every machine to reflect the change. The easiest way to
do this is to use a script we provide called copy-dir
. First edit your spark-env.sh
file on the master,
then run ~/spark-ec2/copy-dir /root/spark/conf
to RSYNC it to all the workers.
The configuration guide describes the available configuration options.
Note that there is no way to recover data on EC2 nodes after shutting them down! Make sure you have copied everything important off the nodes before stopping them.
- Go into the
ec2
directory in the release of Spark you downloaded. - Run
./spark-ec2 destroy <cluster-name>
.
The spark-ec2
script also supports pausing a cluster. In this case,
the VMs are stopped but not terminated, so they
lose all data on ephemeral disks but keep the data in their
root partitions and their persistent-hdfs
. Stopped machines will not
cost you any EC2 cycles, but will continue to cost money for EBS
storage.
- To stop one of your clusters, go into the
ec2
directory and run./spark-ec2 --region=<ec2-region> stop <cluster-name>
. - To restart it later, run
./spark-ec2 -i <key-file> --region=<ec2-region> start <cluster-name>
. - To ultimately destroy the cluster and stop consuming EBS space, run
./spark-ec2 --region=<ec2-region> destroy <cluster-name>
as described in the previous section.
- Support for "cluster compute" nodes is limited -- there's no way to specify a
locality group. However, you can launch slave nodes in your
<clusterName>-slaves
group manually and then usespark-ec2 launch --resume
to start a cluster with them.
If you have a patch or suggestion for one of these limitations, feel free to contribute it!
Spark's file interface allows it to process data in Amazon S3 using the same URI formats that are supported for Hadoop. You can specify a path in S3 as input through a URI of the form s3n://<bucket>/path
. To provide AWS credentials for S3 access, launch the Spark cluster with the option --copy-aws-credentials
. Full instructions on S3 access using the Hadoop input libraries can be found on the Hadoop S3 page.
In addition to using a single input file, you can also use a directory of files as input by simply giving the path to the directory.
This repository contains the set of scripts used to setup a Spark cluster on EC2. These scripts are intended to be used by the default Spark AMI and is not expected to work on other AMIs. If you wish to start a cluster using Spark, please refer to http://spark-project.org/docs/latest/ec2-scripts.html
The Spark cluster setup is guided by the values set in ec2-variables.sh
.setup.sh
first performs basic operations like enabling ssh across machines, mounting ephemeral
drives and also creates files named /root/spark-ec2/masters
, and /root/spark-ec2/slaves
.
Following that every module listed in MODULES
is initialized.
To add a new module, you will need to do the following:
-
Create a directory with the module's name.
-
Optionally add a file named
init.sh
. This is called before templates are configured and can be used to install any pre-requisites. -
Add any files that need to be configured based on the cluster setup to
templates/
. The path of the file determines where the configured file will be copied to. Right now the set of variables that can be used in a template are:{{master_list}} {{active_master}} {{slave_list}} {{zoo_list}} {{cluster_url}} {{hdfs_data_dirs}} {{mapred_local_dirs}} {{spark_local_dirs}} {{spark_worker_mem}} {{spark_worker_instances}} {{spark_worker_cores}} {{spark_master_opts}}
You can add new variables by modifying deploy_templates.py
.
-
Add a file named
setup.sh
to launch any services on the master/slaves. This is called after the templates have been configured. You can use the environment variables$SLAVES
to get a list of slave hostnames and/root/spark-ec2/copy-dir
to sync a directory across machines. -
Modify
spark_ec2.py
to add your module to the list of enabled modules.