Yellow Bricks

by Duncan Epping

Does vSAN Data Protection work with vSAN Stretched Clusters and can snapshots be stretched?

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I have written a few articles about vSAN Data Protection now, and my last article featured a nice vSAN DP demo. A very good question was asked in the comment section, and it was about vSAN Stretched Clusters. Basically, the question was whether Snapshots are also stretched across locations. This is a great question, as there are a couple of things which are probably worth explaining again.

vSAN Data Protection relies on the snapshot capability which was introduced with vSAN ESA. This snapshot capability in vSAN ESA is significantly different than with vSAN OSA or with VMFS. With vSAN OSA and VMFS when you create a snapshot a new object (vSAN) or file (VMFS) is created. With vSAN ESA this is no longer the case as we don’t create additional files or objects, but we create a copy of the metadata structure instead. This is why vSAN ESA snapshots perform much better than vSAN OSA or VMFS snapshots do, as we no longer need to traverse multiple files or objects to read data. We can simply use the same object, and leverage the metadata structure to keep track of what has changed.

Now, with vSAN, as most of you hopefully know, object (and it’s components) are placed across the cluster based on what is specified within the storage policy that is associated with the object or VM. In other words, if the policy states FTT=1 and RAID-1, then you will see 2 copies of the data. If the policy states the data needs to be stretched across locations, and within each location be protected with RAID-5, then you will see a RAID-1 configuration across sites and a RAID-5 configuration within each site. As vSAN ESA snapshots are an integral part of the object, the snapshots automatically follow all requirements as defined within the policy. In other words, if the policy says stretched then the snapshot will also automatically be stretched.

There is one caveat I want to call out, and for that I want to show a diagram. The diagram below shows the Data Protection Appliance, aka the snapshot manager appliance. As you can see, it states “metadata decoupled from appliance” and it links somehow to a global namespace object. This global namespace object is where all the details of the protected VMs (and more) is being stored. As you can imagine, both the Snapshot Manager, as well as the Global Namespace object should also be stretched. For the global namespace object this means that you need to ensure that the default datastore policy is set to “stretched”, and of course for the snapshot manager appliance you can simply select the correct policy when provisioning the appliance. Either way, make sure the default datastore policy aligns with the disaster recovery and data protection policy.

Does vSAN Data Protection work with vSAN Stretched Clusters and can snapshots be stretched?

I hope this helps those exploring vSAN Data Protection in a stretched cluster configuration!

vSAN Data Protection Demo!

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I created a vSAN Data Protection Demo for VMware Explore in Las Vegas and Barcelona, and as I got some questions from people about vSAN Data Protection I figured I would share the demo on Youtube and post it on my blog. I have written a few articles on vSAN Data Protection already, and I am starting to notice that some customers are starting to test it and even use it in production where possible. As mentioned before, vSAN Data Protection is only available with vSAN ESA as it leverages the new snapshotting capabilities. The brand new UI is introduced through the Snap Manager Appliance. Make sure to download, deploy, and configure that first.

What happened to the option “none – stretched cluster” in storage policies?

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Starting with 8.0 Update 2 support for the option “None – Stretched Cluster” in your storage policy for a vSAN Stretched Cluster configuration has been removed. The reason for this is that it was leading to a lot of situations where unfortunately customers mistakenly had used this option and during failure realized that some VMs were not working anymore. The reason the VMs stopped working is because with this policy option objects all components of an object were placed within a single location, but there was no guarantee that all objects of a VM would reside in the same location. So you could for instance end up in the following situation shown below, where you have the VM running in Site B, with a data object stored in Site A and a data object stored in Site B, and on top of that the witness in Site B. This unfortunately for some customers resulted in strange behavior if there was an issue with the network between Site A and Site B.

What happened to the option “none – stretched cluster” in storage policies?

Hopefully that explains why this option is no longer available.

vSAN IO Trip Analyzer in 8.0 Update 3 enhanced!

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Starting with vSAN 8.0 Update 3 the vSAN IO Trip Analyzer has now been enhanced! What is this enhancement specifically? Well, the IO Trip Analyzer can now also be enabled on multiple VMs at the same time. Which is especially great when you are performance troubleshooting a service that consists of multiple VMs. This enhancement allows you to monitor multiple VMs simultaneously and inspect at which layer of each of the selected VMs latency occurs. Note, this enhancements works both for vSAN ESA as well as vSAN OSA!

I created a short demo that shows this capability:

New vCLS architecture with vSphere 8.0 Update 3

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Some of you may have seen this, others may have not, as I had a question today around vCLS retreat mode with 8.0U3 I figured I would write something on the topic quickly. Starting with vSphere 8.0 Update we introduced a new architecture for vCLS aka vSphere Cluster Services. Pre-vSphere 8.0 Update the vCLS architecture was based on virtual machines with Photon OS. These VMs were there to assist in enabling and disabling primarily DRS. If something was wrong with these VMs then DRS would also be unable to function normally. In the past many of you have probably experienced situations where you had to kill and delete the vCLS VMs to restore functionality of DRS, for that VMware introduced a feature called “retreat mode” which basically killed and deleted the VMs for you. There were some other challenges with the vCLS VMs and as a result the team decided to create a new design for vCLS.

Starting with vSphere 8.0 Update 3 vCLS is now implemented as what I would call a container runtime, sometimes referred to as a Pod VM or PodCRX. In other words, when you upgrade to vSphere 8.0 Update 3 you will see your current vCLS VMs be deleted, and these new shiny vCLS VMs will pop up. How do you know if these VMs are created using a different mechanism? Well you can simply just see that in the UI as demonstrated below. See the “CRX” mention in the UI?

New vCLS architecture with vSphere 8.0 Update 3

So you may ask yourself, why should I even care? Well the thing is, you should not indeed. The new vCLS architecture uses less resources per VM, there are less vCLS VMs deployed to begin with (two instead of three), and they are more resilient. Also, when a host is for instance placed into maintenance mode while it has a vCLS VM running, that vCLS instance is deleted and recreated elsewhere. Considering the VMs are stateless and tiny, that is much more efficient than trying to vMotion it. Note, vMotion and SvMotion of these new (Embedded as they call them) type of vCLS VMs isn’t even supported to begin with.

Normally, vCLS retreat mode shouldn’t be needed anymore, but if you do end up in a situation where you need to clean up these instances, Retreat Mode is still fully supported with 8.0 U3 as well. You can find the Retreat Mode option in the same place as before, on your cluster object under “Configure –> vSphere Cluster Services –> General –> Edit vCLS Mode”. Simply select “Retreat Mode” and the clean up should happen automatically. When you want the VMs to be recreated, simply go back to the same UI and select “System managed”. This should then lead to the vCLS VMs being recreated.

I hope this helps,