Write I/O Performance & High Availability in a scale-out Distributed File System

Following on from my recent post titled “Data Locality & Why is important for vSphere DRS clusters” I would like to discuss at a high level how Write I/O works in the Nutanix Distributed File System, how the solution ensures high availability in the event of a node failure and what impact a failure has on performance.

Lets start with a typical Write operation.

The below diagram shows a three (3) node Nutanix cluster with a Guest VM starting to perform write I/O, this is represented in a simplistic manor by the three (3) Diamonds (Red, Yellow and Purple)

NutanixWriteIOstart

The write I/O is written to the local SSD tier (as is every Write in a Nutanix environment) as shown below.

NutanixWriteDataWrittenLocal

Before acknowledging the write the Nutanix Controller VM (CVM) then replicates a copy of the data across the Nutanix Distributed File System.

The below diagram illustrates what this looks like in a three node cluster.

NutanixWriteSyncToOtherNodes

Once the data in successfully written to other nodes within the cluster, the Write acknowledgement is given. This ensures data is consistent and always protected.

In a Nutanix cluster, as Controllers (Nutanix CVMs) are scaled linearly with the ESXi hosts, Write I/O is then spread over more controllers, reducing the chance of contention in the environment at both a storage controller and network layer as each controller shares 2 x 10Gb connections per node.

In the event of a node failure, in a vSphere cluster, HA will restart the failed VM/s onto a surviving node in the cluster.

The VM will start-up and operate as normal and where data is not local to the node (as discussed in detail in my post  “Data Locality & Why is important for vSphere DRS clusters“) the data will initially be accessed over 10Gb before being replicated locally for future reads.

NutanixHAAfterWithDataAccess

All future writes for the VM/s which have been restarted by HA on different nodes will perform at a similar rate (if not the same rate) as they did before the failure depending on how many nodes are in the cluster. Where the Network is not a bottleneck, there should be minimal/no difference in write performance after a node failure.

The Nutanix cluster will also detect a node has failed, and ensure two copies of all data are available, and in the above example where only one copy of the data exists, the cluster will replicate the required data to ensure High Availability (“Replication Factor” of 2) is maintained.

As this replication is done across multiple controllers and nodes, it is much faster and lower impact than a traditional RAID rebuild which most of us will be familiar with.

The end state of this process looks like this.

NutanixHAEndState

So in conclusion using a “scale-out” storage controller solution like Nutanix ensures consistent high write performance even immediately following a node failure by eliminating the requirement for RAID style rebuilds which are disk intensive and can lead to “Double Disk Failures” and data loss.

The replication of data being distributed across all nodes in the cluster ensures minimal impact to each Nutanix controller, ESXi host and the network while ensuring the data is re-protected as soon as possible.

Related Articles

1. Data Locality & Why is important for vSphere DRS clusters

 

Example Architectural Decision – Host Isolation Response for a Nutanix Environment

Problem Statement

What are the most suitable HA / host isolation response when using Nutanix?

Assumptions

1. vSphere 5.0 or greater
2. Two x 10GB Network interfaces are shared for Nutanix Storage Traffic and Virtual Machine Traffic

Motivation

1. Minimize the chance of a false positive isolation response
2. Ensure in the event the storage is unavailable that virtual machines are promptly shutdown to enable HA to recover the VMs in a timely manner (where other hosts are unaffected by isolation) and to prevent a “split brain” scenario
3. Ensure maximum availability

Architectural Decision

Turn off the default isolation address and configure the below specified isolation addresses, which check connectivity to multiple Nutanix Controller VMs (CVMs) on the IP Storage VLAN.

Configure the following Isolation addresses

das.isolationaddress1 : NDFS Cluster IP Address

Configure Host Isolation Response to: Power Off

For Nutanix Controller VMs override the cluster setting and configure Host Isolation Response to “Leave Powered On”

Justification

1. The ESXi Management traffic along with the Virtual machine traffic and inter-Nutanix node storage traffic is running over 2 x 10GB connections. Using the ESXi management gateway (default isolation address) to check for isolation is not suitable as the management network can be offline without impacting the IP storage or data networks. This situation could lead to false positives isolation responses.
2. The isolation addresses chosen tests IP storage connectivity over the converged 10Gb network and in the event this is unavailable, there is no point testing further connectivity as Virtual machines cannot function without their storage
3. In the event the Nutanix cluster IP address cannot be reached by ICMP the Node will not be able to properly function. As such, triggering isolation response and powering off the VMs based on this criteria is logical as the VMs will not be able to function under these conditions.
4. In the event the NDFS Cluster IP address does not respond to ICMP on the Management interfaces it is likely there has been an isolation event OR a catastrophic failure in the environment, either to the network, or the storage controllers themselves, in which case the safest option is to Power Off the VMs.
5. In the event the isolation response is triggered and the isolation does not impact all hosts within the cluster, the VMs can be restarted by HA onto a surviving host and resume functioning
6. Using the Nutanix Controller VM (CVM) IP address (192.168.5.2) for the Isolation address is not suitable as this address exists on each ESXi hosts and as such it is not a good candidate for isolation detection as the host will always be able to find this address even when the network is offline due to the CVM being local to the host
7. The Nutanix Controller VM accesses local storage and can continue to run locally even in an isolation event. When the isolated event is over, the CVM will then regain connectivity to the other CVMs in the Nutanix cluster.
8. Shutting down the CVM would only increase the recovery time once the isolation even is over and has no added benefits.

Implications

1. In the event the host cannot reach any of the isolation addresses, virtual machines will be powered off.
2. Initial cluster setup would require the vSphere administrator to override the Cluster settings for each Controller VM. Note: This is a one time task (Set & Forget)

Alternatives

1. Set Host isolation response to “Leave Powered On”
2. Do not use Datastore heartbeating
3. Use the default isolation address
4. Leave the CVM on the default cluster setting and “Shutdown” on isolation

Related Articles

1. VMware Host Isolation Response in a Nutanix Environment #NoSAN

2. Storage DRS and Nutanix – To use, or not to use, that is the question?

3. VMware HA and IP Storage

VMware Host Isolation Response in a Nutanix Environment #NoSAN

I was recently discussing the Nutanix solution with a friend of mine and fellow VCDX, Michael Webster (@vcdxnz001) and he asked what the recommended Host Isolation Response is for Nutanix.

At this stage I must advise there is no formal recommendation, but an Official vSphere on Nutanix Best Practice guide is in the works and will be released asap.

Back to my conversation with Michael, Being that Nutanix is an IP Storage solution, my initial feeling is that Host isolation Response should be set to “Shutdown”, but I didn’t go into any more detail with Michael, so I thought it best to post a quick explanation.

This post also assumes basic knowledge of vSphere as well as the Nutanix platform, for those of you who are not familiar with Nutanix please review the following links prior to reading the remainder of this post.

About Nutanix | How Nutanix Works | 8 Strategies for a Modern Datacenter

So back on topic, in other posts I have written for IP Storage, such as (Example Architectural Decision – Host Isolation Response for IP Storage) I have concluded that “Shutdown” was the most suitable setting and recommended specifying isolation addresses of the NAS controllers.

But as Nutanix changes the game and has one virtual storage controller per ESXi host, so does this change the recommendation?

In short, No, but for those who are interested, here is why.

If we leave the default isolation address, (being the default gateway for ESXi Management), in the event the gateway is down, it will trigger an isolation response even if the rest of the network is operating fine, thus an unnecessary outage would occur.

If we configure das.isolationaddress1 & 2 with the Management IP address of any two Nutanix Controller VMs (192.168.1.x , 192.168.1.y in my below diagram) then an isolation response will only be triggered if both Nutanix Controller VMs (CVMs) are not responding, in which case, the VMs should be Shutdown as the Nutanix cluster may not be function properly with two Controllers offline concurrently as its configured by default for N+1 (or replication factor of “2” in Nutanix speak).

The below is a high level example of the above configuration.

NutanixHostIsolation

Related Articles

1. Example Architectural Decision – Host Isolation Response for a Nutanix Environment

2. Storage DRS and Nutanix – To use, or not to use, that is the question?

3. VMware HA and IP Storage