Vagrant currently supports VirtualBox 4.0.x, 4.1.x and 4.2.x
Using Vagrant's Multi-VM environment makes launching several VMs to form a cluster painless and it's easy to quickly start playing with the various database clusters and our Severalnines's ClusterControl in a contained environment.
NOTE: The vagrant box file's size is 390MB and can take some time to download. (Mar/14): ClusterControl 1.2.5, MySQL Cluster 7.3, Percona XtraDB Cluster 5.6, Codership 5.6, MongoDB 2.4.x (May/13): MySQL Cluster 7.2.12, Codership Galera 5.5.29(Source distribution, wsrep_23.7.3.r3853), Percona XtraDB Cluster 5.5.30-30.2(Percona Server (GPL), Release 30.2, wsrep_23.7.4.r3843), Mongodb 2.4.x
This vagrant box comes with a set of Severalnines's database cluster deployment scripts to bootstrap the following:
3 node Galera Cluster for MySQL (Codership and Percona builds).
4 node MySQL Cluster. 2 SQL nodes, 2 MGM nodes and 2 Data nodes.
1 sharded MongoDB Cluster with config servers and routers on 3 hosts.
sysbench is a popular system peformance benchmark tool and has a database OLTP benchmark module which is popular among MySQL users. We are going to use it to create the default OLTP schema that is used and run a light test.
The purpose is not to really bench our newly deployed Galera cluster but to get some test data that we can pull out from our web servers that we setup previously.
In the next following posts we’ll deploy a multi-master synchronous MySQL Galera Cluster with Amazon’s VPC service. We’re going to create a public facing subnet for app/web servers and a private subnet for our database cluster.
The deployment will look similar to the below diagram.
Amazon’s VPC provides a secure environment where you can chose to isolate parts of your servers by having complete control of how to deploy your virtual networking infrastructure much like your own datacenter.
The steps that we’ll go through are as following:
Create a VPC with Public and Private subnets
Define Security Groups (add rules later)
Launch one instance for ClusterControl
Launch three EBS optimized instances for the Galera/database nodes
Format and mount an EBS volume (or RAID set) for each Galera nodes
Create a Galera Configuration with Severalnines Galera Configurator
Deploy and bootstrap Galera Cluster
Add an internal load balancer
Add a MySQL user for the internal load balancer
Add web server instances
Add an external load balancer
Test the VPC database cluster setup
At the end we have the following instances available on the public subnet (Note your IP addresses would be different):
1 Elastic External Load Balancer, Elastic IP 188.8.131.52
2 Web servers: IP 10.0.0.28, Elastic IP 184.108.40.206 and IP 10.0.0.38, Elastic IP 220.127.116.11
1 ClusterControl server: IP 10.0.0.53, Elastic IP 18.104.22.168
and on the private subnet:
1 Elastic Internal Load Balancer, IP 10.0.1.17
Galera Node 1, IP 10.0.1.13
Galera Node 2, IP 10.0.1.16
Galera Node 3, IP 10.0.1.26
In this example going forward we only deploy one private subnet however if you require a more fault tolerant setup you can for example create two private subnets for the database cluster one in each Availability Zone (AZ) which can protect you from single location failures within a single Amazon region.
There are a number issues that needs to be handled properly with a Galera cluster across two regions and/or AZs (which practically is two data centers). This will be addressed in a future post.