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README.md update AMI 2017-07-07 22:31:22 -07:00

README.md

Provision a Nomad cluster on AWS with Packer & Terraform

Use this to easily provision a Nomad sandbox environment on AWS with Packer and Terraform. Consul and Vault are also installed (colocated for convenience). The intention is to allow easy exploration of Nomad and its integrations with the HashiCorp stack. This is not meant to be a production ready environment. A demonstration of Nomad's Apache Spark integration is included.

Setup

Clone this repo and (optionally) use Vagrant to bootstrap a local staging environment:

$ git clone git@github.com:hashicorp/nomad.git
$ cd terraform/aws
$ vagrant up && vagrant ssh

The Vagrant staging environment pre-installs Packer, Terraform, and Docker.

Pre-requisites

You will need the following:

Set environment variables for your AWS credentials:

$ export AWS_ACCESS_KEY_ID=[ACCESS_KEY_ID]
$ export AWS_SECRET_ACCESS_KEY=[SECRET_ACCESS_KEY]

Provision a cluster

cd to an environment subdirectory:

$ cd env/us-east

Update terraform.tfvars with your SSH key name:

region                  = "us-east-1"
ami                     = "ami-76787e60"
instance_type           = "t2.medium"
key_name                = "KEY_NAME"
server_count            = "3"
client_count            = "4"

Note that a pre-provisioned, publicly available AMI is used by default (for the us-east-1 region). To provision your own customized AMI with Packer, follow the instructions here. You will need to replace the AMI ID in terraform.tfvars with your own. You can also modify the region, instance_type, server_count, and client_count. At least one client and one server are required.

Provision the cluster:

$ terraform get
$ terraform plan
$ terraform apply

Access the cluster

SSH to one of the servers using its public IP:

$ ssh -i /path/to/key ubuntu@PUBLIC_IP

Note that the AWS security group is configured by default to allow all traffic over port 22. This is not recommended for production deployments.

Run a few basic commands to verify that Consul and Nomad are up and running properly:

$ consul members
$ nomad server-members
$ nomad node-status

Optionally, initialize and unseal Vault:

$ vault init -key-shares=1 -key-threshold=1
$ vault unseal
$ export VAULT_TOKEN=[INITIAL_ROOT_TOKEN]

The vault init command above creates a single Vault unseal key for convenience. For a production environment, it is recommended that you create at least five unseal key shares and securely distribute them to independent operators. The vault init command defaults to five key shares and a key threshold of three. If you provisioned more than one server, the others will become standby nodes (but should still be unsealed). You can query the active and standby nodes independently:

$ dig active.vault.service.consul
$ dig active.vault.service.consul SRV
$ dig standby.vault.service.consul

Getting started with Nomad & the HashiCorp stack

See:

Apache Spark integration

Nomad is well-suited for analytical workloads, given its performance characteristics and first-class support for batch scheduling. Apache Spark is a popular data processing engine/framework that has been architected to use third-party schedulers. The Nomad ecosystem includes a fork that natively integrates Nomad with Spark. A detailed walkthrough of the integration is included here.