Chapter 3. Accessing Red Hat Gluster Storage using Microsoft Azure

Red Hat Gluster Storage is designed to provide a flexible file services layer for users and applications in a way that can be easily scaled to adjust to your workloads. Deployment flexibility is a key strength of Red Hat Gluster Storage. Gluster can be deployed to virtual or physical servers in on-premise environments, private clouds, and public clouds, including Microsoft Azure.
This chapter enables you to deploy a Red Hat Gluster Storage environment in Microsoft Azure. The procedures in this chapter uses ASM mode and ASM cross-platform CLI command for deployment..
Integration Architecture

The architecture of Microsoft Azure itself shapes the way solutions are designed. Microsoft Azure offers a cloud service that can function either as a platform-as-a-service (PaaS) or infrastructure-as-a-service (IaaS) environment. For Gluster Storage, the cloud service should be an IaaS layer that provides a logical container to deploy virtual instances to. Within the IaaS container, Microsoft Azure provides network services like DNS and DHCP, which makes managing the virtual instances similar to managing a physical deployment.

integration Architecture

Figure 3.1. integration Architecture

A cloud service is defined by a name, which is a prefix applied to the cloudapp.net domain. Access to instances inside the cloud service is done by specifying the cloud service name and TCP port (endpoint). Most typically, this is SSH access. For example, you may have 30 virtual instances running inside a cloud service, so accessing them individually is done by exposing a different endpoint for each instance: 50,001 links to port 22 on instance A, and 50,002 links to port 22 on instance B.
A virtual network allows greater control and connectivity for instances inside a cloud service. Virtual networks can be configured to function purely within the Microsoft Azure infrastructure or can be used to connect on-premise networks to cloud services through site-to-site VPN connections.
The last key architecture element is the storage account. A storage account provides access to storage services within Microsoft Azure. The account provides a unique namespace for data and supports a number of access protocols, including blob, table, queue, and file. Data can be stored physically either on SSD (premium) or HDD (standard).
The workflow described in this chapter creates Red Hat Gluster Storage cluster.
Microsoft Azure and Red Hat Gluster Storage workflow

Figure 3.2. Microsoft Azure and Red Hat Gluster Storage workflow

Important

The following features of Red Hat Gluster Storage Server is not supported on Microsoft Azure:
- Red Hat Gluster Storage Console and Nagios Monitoring
- NFS-Ganesha and CIFS High Availability

3.1. Image Profile and Sizing

Microsoft Azure offers various virtual machine configurations to choose from, based on the projected workload. The example configuration assumes a Standard Tier/A2 instance.
As a guide, the tasks performed within this chapter are based on the Standard Tier/A2 instance size:

Note

A minimum of two cores is required for each instance of Red Hat Gluster Storage.
In addition to the operating system disk, Microsoft Azure also allocates every instance a resource disk. This is a non-persistent (ephemeral) disk, provided at runtime to the instance from the local storage on the physical host the instance is running on. The resource disk is visible at /mnt/resource and is configured by the Windows Azure Linux Agent to provide swap space and temporary storage for applications.
For each instance type, the Microsoft Azure portal shows a clear indication of the CPU core count and RAM, but it does not show the number of configurable disks that each instance supports. The number of configurable data disks ranges between 1 and 32, dependent upon the instance type.
Since Red Hat Gluster Storage is a storage platform, there are some additional planning considerations when sizing instances:
  • A virtual disk has a maximum size of 1023 GB. Larger disk sizes can be accommodated by aggregating multiple 1023 GB disks together.
  • Once a disk has been defined, its size cannot be changed easily. Because capacity costs in Microsoft Azure Standard Storage are based on use, not allocated space, it is recommended that all disks assigned to a Red Hat Gluster Storage node are 1023 GB.
  • Although attributes like CPU, RAM, and disk count can be easily changed after an instance is created, networking characteristics cannot. When planning your configuration, consider the network topology and connectivity you need before the instance are created. Microsoft Azure instance supports multiple network cards and multiple virtual networks, but these types of advanced networking features are only configurable using the Windows Powershell.