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1. NOTES

Updates on 09/26/2020

  • Retested with:

    • Terraform version: 0.13.3
    • Ansible version: 2.9.13
  • Updates

    • Terraform syntax changes for version 0.12 and later.
    • Modify "genansinv.sh" to reflect terraform.state format change.
    • Ansible updates that are aligned with changes made in dseansible respository.
    • Use a separate and dedicated OpsCenter server (instead of using the first DSE metrics cluster node)

Updates on 08/08/2021

  • Retested with:

    • Terraform 1.0.3
    • Ansible version: 2.11.3
  • Updates

    • Add Terraform support for custom VPC and subnets


Previously I came up with a framework (https://github.com/yabinmeng/dseansible) to automate the creation of a multi-DC DSE cluster using Ansible playbook. That framework however doesn't provision the underlying infrastcture and it relies on the number of the node instances required by the DSE cluster topology to be in place in advance.

In this repository, I will add the missing part to automate provisioning the required hardware infrastructure on AWS using HashiCorp's terraform script. The type and number of AWS EC2 instances are determined by th target DSE cluster topology.

The scripts in this repository have 3 major parts:

  1. Terraform scripts to launch the required AWS resources (EC2 instances, security groups, etc.) based on the target DSE cluster toplogy.
  2. Ansible playbooks to install and configure DSE and OpsCenter on the provisioned AWS EC2 instances.
  3. Linux bash scripts to
    1. generate the ansible host inventory file (required by the ansible playbooks) out of the terraform state output
    2. lauch the terraform scripts and ansible playbooks

Among them, the ansible part follows exactly the same framework as in my previous repository. Please check that repository for more details. In this repository, I will focus mainly on the remaining two parts and touch a bit on the ansible part with the new playbook that wasn't in the previous repository.

2. Terraform Introduction and Cluster Topology

Terraform is a great tool to plan, create, and manage infrastructure as code. Through a mechanism called providers, it offers an agonstic way to manage various infrastructure resources (e.g. physical machines, VMs, networks, containers, etc.) from different underlying platforms such as AWS, Azure, OpenStack, and so on. In this respository, I focus on using Terraform to launch AWS resources due to its popularity and 1-year free-tier access. For more information about Terraform itself, please check HashiCorp's document space for Terraform at https://www.terraform.io/docs/.

The infrastructure resources to be lauched is ultimately determined by the target DSE cluster topology. In this repository, a cluster topology like below is used for explanation purpose:

By this topology, there are the following components:

  • One DSE cluster is a multi-DC (2 DC in the example) DSE cluster dedicated for application usage.
  • Another DSE cluster is a single-DC DSE cluster dedicated for monitoring purpose through DataStax OpsCenter.
  • One single instance that hosts OpsCenter server.

Currently, the number of nodes per DC is configurable through Terraform variables. The number of DCs per cluster is fixed at 2 for application cluster and 1 for the monitoring cluster. However, it can be easily expanded to other settings depending on your unique application needs.

The reason of setting up a different monitoring cluster other than the application cluster is to follow the field best practice of physically separating the storage of monitoring metrics data in a different DSE cluster in order to avoid the hardware resource contentions that could happen when manaing the metrics data and application data together.

3. Use Terraform to Launch Infrastructure Resources

NOTE: a linux bash script, runterra.sh, is provided to automate the execution the terraform scripts.

3.1. Pre-requisites

In order to run the terraform script sucessfully, the following procedures need to be executed in advance:

  1. Install Terraform software on the computer to run the script
  2. Install and configure AWS CLI properly. Make sure you have an AWS account that have the enough privilege to create and configure AWS resources.
  3. Create a SSH key-pair. The script automatically uploads the public key to AWS (to create an AWS key pair resource), so the launched AWS EC2 instances can be connected through SSH. The names of the SSH key-pair, by default, should be “id_rsa_aws and id_rsa_aws.pub”. If you choose other names, please make sure to update the Terraform configuration variable accordingly.

3.2. Provision AWS Resources

3.2.1. Custom VPC and Subnet

All the provisioned AWS resources are created under a custom VPC called vpc_dse. If a different custom VPC name is needed, please change it in vpc.tf file, as below:

resource "aws_vpc" "vpc_dse" {
   cidr_block           = var.vpc_cidr_str_vpc
   enable_dns_hostnames = true

   tags = {
     Name = "${var.tag_identifier}-vpc_dse"  
   }
}

There are 4 subnets created under the VPC. The associated IP range of the subnets are listed below:

Subnet IP Range
Subnet for OpsCenter server 191.100.0.0/24
Subnet for DSE metrics cluster 191.100.10.0/24
Subnet for DSE application cluster (DC1) 191.100.20.0/24
Sunbet for DSE application Cluster (DC2) 191.100.30.0/24

If you want to change the IP range of the subnets, you can change the following variables:

## CIDR for VPC and subnets
variable "vpc_cidr_str_vpc" {
   default = "191.100.0.0/16"
}
variable "vpc_cidr_str_opsc" {
   default = "191.100.0.0/24"
}
variable "vpc_cidr_str_cassmetr" {
   default = "191.100.10.0/24"
}
variable "vpc_cidr_str_cassapp" {
   default = "191.100.20.0/24"
}
variable "vpc_cidr_str_solrspark" {
   default = "191.100.30.0/24"
}

3.2.2. EC2 Count and Type

The number and type of AWS EC2 instances are determined at DataCenter (DC) level through terraform variable mappings, with each DC has its own instance type and count as determined by the target DSE cluster topology. The example for the example cluster topology is as below:

variable "instance_count" {
   type = map
   default = {
      opsc_srv    = 1
      dse_metrics = 3
      dse_app_dc1 = 3
      dse_app_dc2 = 3
   }
}

variable "instance_type" {
   type = map
   default = {
      opsc_srv   =  "t2.2xlarge"  
      // t2.2xlarge is the minimal DSE requirement
      dse_metrics = "t2.2xlarge"
      dse_app_dc1 = "t2.2xlarge"
      dse_app_dc2 = "t2.2xlarge"
   }
}

When provisioning the required AWS EC2 instances for a specific DC, the type and count is determined through a map search as in the example below:

#
# EC2 instances for DSE application cluster, dc1
# 
resource "aws_instance" "dse_app_dc1" {
   ... ...
   instance_type   = lookup(var.instance_type, var.dse_app_dc1_type)
   count           = lookup(var.instance_count, var.dse_app_dc1_type)
   ... ...
}

3.2.3. AWS Key-Pair

The script also creates an AWS key-pair resource that can be associated with the EC2 instances. The AWS key-pair resource is created from a locally generated SSH public key and the corresponding private key can be used to log into the EC2 instances.

resource "aws_key_pair" "dse_terra_ssh" {
    key_name = var.keyname
    public_key = file("${var.ssh_key_localpath}/${var.ssh_key_filename}.pub")

    tags = {
        Name         = "${var.tag_identifier}-dse_terra_ssh"
        Environment  = var.env 
   }
}

resource "aws_instance" "dse_app_dc1" {
   ... ...
   key_name          = aws_key_pair.dse_terra_ssh.key_name
   ... ... 
}

3.2.4. Security Group

In order for the DSE cluster and OpsCenter to work properly, certain ports on the ec2 instances have to be open, as per the following DataStax documents:

The script does so by creating the following AWS security group resources:

  1. sg_ssh: allows SSH access from public
  2. sg_opsc_web: allows web Access from public, such as for OpsCenter Web UI
  3. sg_opsc_node: allows OpsCenter related communication, such as between OpsCenter server and datastax-agent
  4. sg_dse_node: allows DSE node specific communication

The code snippet below describes how a security group resource is defined and associated with EC2 instances.

resource "aws_security_group" "sg_ssh" {
   name = "sg_ssh"

   ingress {
      from_port = 22
      to_port = 22
      protocol = "tcp"
      cidr_blocks = ["0.0.0.0/0"]
   }

   egress {
      from_port = 0
      to_port = 0
      protocol = "-1"
      cidr_blocks = ["0.0.0.0/0"]
   }
}

... ... // other security group definitions

resource "aws_instance" "dse_app_dc1" {
   ... ...
   vpc_security_group_ids = [aws_security_group.sg_internal_only.id,aws_security_group.sg_ssh.id,aws_security_group.sg_dse_node.id]
   ... ...
}

3.2.5. User Data

One of the key requirements to run DSE cluster is to enable NTP service. The script achieves this through EC2 instance user data. which is provided through a terraform template file.

data "template_file" "user_data" {
   template = <<-EOF
              #!/bin/bash
              apt-get update -y
              apt-get install python-minimal -y
              apt-get install ntp -y
              apt-get install ntpstat -y
              ntpq -pcrv
              EOF
}

resource "aws_instance" "dse_app_dc1" {
   ... ...
   user_data = data.template_file.user_data.rendered
   ... ...
}

Other than NTP service, python (minimal version) is also installed in order for Ansible to work properly. Please note that Java, as another essential software required by DSE and OpsCenter software, is currently installed through Ansible and therefore not listed here as part of the User Data installation.

4. Generate Ansible Inventory File Automatically

After the infrastructure instances have been provisioned, we need to install and configure DSE and OpsCenter and these instances accordingly, which is through the Ansible framework that I presented before at here. One key item in the Ansible framework is the Ansible inventory file which determines key DSE node characteristics such as node IP, seed node, VNode, workload type, and so on.

Now since we have provisioned the instances using terraform script, it is possible to generate the Ansible inventory file programmatically from terraform output state. Basically the idea is as below:

  1. Generate terraform output state in a text file:
  terraform show terraform/terraform.tfstate > $TFSTATE_FILE
  1. Scan the terraform output state text file to generate a file that contains each instance's target DC tag, public IP, and private IP.

  2. The same IP list information can also be used to generate the required Ansible inventory file. In the script, the first node in any DSE DC is automatically picked as the seed node.

A linux script file, genansinv.sh, is providied for this purpose. The script has 3 input parameters, either through input arguments or script variables. These parameters will impact the target DSE cluster topology information (as presented in the Ansible inventory file) a bit. Please adjust accordingly for your own case.

  1. Script input argument: number of seed nodes per DC, default at 1
  genansinv.sh [<number_of_seeds_per_dc>]
  1. Script variable: the name of the application DSE cluster:
  DSE_APPCLUSTER_NAME="MyAppCluster"
  1. Script variable: the name of the OpsCenter monitoring cluster:
   DSE_OPSCCLUSTER_NAME="OpscCluster"

A template of the generated Ansible inventory file looks like this.

5. Extended Ansible Framework for DSE and OpsCenter Installation and Configuration

Compared with the previous Ansible framework of installing and configuring DSE clusters, the version in this repository has extended features (through new Ansible playbooks):

  1. dse_install.yml: installs and configures a multi-DC DSE cluster. This is the same functionality as the previous version.
  2. opsc_install.yml: installs OpsCenter server, datastax-agents, and configures accordingly to allow proper communication between OpsCenter server and datastax-agents.
  3. osparm_change.yml: configures OS/Kernel parameters on each node where DSE is installed, as per Recommended production settings from DataStax documentation.

For operational simplicity, a linux script file, runansi.sh, is provided to execute these Ansible playbooks.

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