Yellow Bricks

by Duncan Epping

vSphere

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vSphere 6.7 announced!

It is that time of the year again, a new vSphere release announcement! (For those interested in what’s new for vSAN make sure to read my other post.) vSphere 6.7, what’s in a name / release? Well a bunch of stuff, and I am not going to address all of the new functionality as the list would simply be too long. So this list features what I think is worth mentioning and discussing.

  • vSphere Client (HTML-5) is about 95% feature complete
  • Improved vCenter Appliance monitoring
  • Improved vCenter Backup Management
  • ESXi Single Reboot Upgrades
  • ESXi Quick Boot
  • 4K Native Drive Support
  • Max Virtual Disks increase from 60 to 256
  • Max ESXi number of Devices from 512 to 1024
  • Max ESXi paths to Devices from 2048 to 4096
  • Support for RDMA
  • vSphere Persistent Memory
  • DRS initial placement improvements

Note that there’s a whole bunch of stuff missing from this list, for instance there were many security enhancements, but I don’t see the point of me pretending to be an expert on that topic, while I know some of the top experts will have a blog out soon.

Not sure what I should tell about the vSphere Client (h5) at this point. Everyone has been waiting for this, and everyone has been waiting for it to reach ~90/95% feature complete. And we are there. I have been using it extensively for the past 12 months and I am very happy with how it turned out. I think the majority of you will be very very happy with what you will see and with the overall experience. It just feels fast(er) and seems more intuitive.

When it comes to management and monitoring of the vCenter Appliance (https://ip of vcenter:5480) there are a whole bunch of improvements. For me personally the changes in the monitoring tab are very useful and also the services tab is useful. Now you can immediately see when a particular disk is running out of space, as shown in the screenshot below. And you can for instance restart a particular service in the “Services” tab.

Next is vCenter Backup Management, a lot of people have been asking for this. We introduced Backup and Recovery of the appliance a while ago, very useful, but unfortunately it didn’t provide a scheduling mechanism. Sure you could create a script that would do this for you on a regular cadence, but not everyone wants to bother with that. Now in the Appliance Management UI you can simply create a schedule for backup. This is one of those small enhancements, which to me is a big deal! I’m sure that Emad or Adam will have a blog out soon on the topic of vCenter enhancements, so make sure to follow their blogs.

Another big deal is the fact that we shaved off a reboot for major upgrades. As of 6.7 you now only have 1 reboot with ESXi. Again, a tiny thing going from 2 back to 1, but when you have servers taking 10-15 minutes to go through the reboot process and you have dozens to of servers to reboot it makes Single Reboot ESXi Upgrades a big thing. For those on 6.5 right now, you will be able to enjoy the single reboot experience when upgrading to 6.7!

One feature I have personally been waiting for is ESXi Quick Boot. I saw a demo of this last year at our internal R&D conference at VMware and I was impressed. I don’t think many people at that stage saw the importance of the feature, but I am glad it made it in to the release. So what is it? Well basically it is a way to restart the hypervisor without going through the physical hardware reboot process. This means that you are now removing that last reboot, of course this only applies when your used server hardware supports it. Note that with the first release only a limited set of servers will support it, nevertheless this is a big thing. Not just for reboots, but also for upgrades / updates. A second ESXi memory image can be created and updated and when rebooting simply switched over to the latest and greatest instead of doing a full reboot. It will save, again, a lot time. I looked at a pre-GA build and noticed the following platforms are supported, this should be a good indication:

Of course you can also see if the host is supported in the vSphere Client, I found it in the Web Client but not in the H5 Client, maybe I am overlooking it, that could of course be the case.

Then up next are a bunch of core storage enhancements. First 4K Native Drive Support, very useful for those who want to use the large capacity devices. Not much else to say about it other than that it will also be supported by vSAN. I do hope that those using it for vSAN do take the potential performance impact in to account. (High capacity, Low IOPS >> low iops per GB!) Up next is the increase of a bunch of “max values“. Number of virtual disks going from 60 to 256 virtual disks for PVSCSI. And on top of that the number of Paths and Devices is also going up. Number of devices doubled from 512 to 1024 per host, and so has the number of paths as it is going from 2048 to 4096. Some of our largest customers will definitely appreciate that!

Then there’s also the support for RDMA, which is great for applications requiring extremely low latency and very high bandwidth! Note that when RDMA is used most of the ESXi Network stack is skipped, and when used in pass-through mode this also means that vMotion is not available. So that will only be useful for scale-out applications which have their own load balancing and high availability functionality. For those who can tolerate a bit more latency a paravirtualized RDMA adaptor will be available, you will need HW version 13 for this though.​

vSphere Persistent Memory is something that I was definitely excited about. Although there aren’t too many supported server configurations, or even persistent memory solutions, it is something that introduces new possibilities. Why? Well this will provide you performance much higher than SSD at a cost which is lower than DRAM. Think less than 1 microsecond of latency. Where nanoseconds is for DRAM and Flash typically is low milliseconds under load. I have mentioned this in a couple of my sessions so far, NVDIMM will be big, which is the name commonly used for Persistent Memory. For those planning on buying persistent memory, do note that your operating system also needs to understand how to use it. There is a Virtual NVDIMM device in vSphere 6.7 and if the Guest OS has support for it then it will be able to use this byte addressable device. I believe a more extensive blog about vSphere Persistent Memory and some of the constraints will appear on the Virtual Blocks blog soon, so keep an eye on that as well. Cormac already has his fav new 6.7 features up on his blog, make sure to read that as well.

And last but not least, there was a significant improvement done in the initial placement process for DRS. Some of this logic was already included in 6.5, but only worked when HA was disabled. As of 6.7 it is also available when HA is enabled, making it much more likely that you will be able to benefit from the 3x decrease in time that it takes for the initial placement process to complete. A big big enhancements in the DRS space. I am sure though that Frank Denneman will have more to say about this.

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What’s new vSAN 6.7

As most of you have seen, vSAN 6.7 just released together with vSphere 6.7. As such I figured it was time to write a “what’s new” article. There are a whole bunch of cool enhancements and new features, so let’s create a list of the new features first, and then look at them individually in more detail.

  • HTML-5 User Interface support
  • Native vRealize Operations dashboards in the HTML-5 client
  • Support for Microsoft WSFC using vSAN iSCSI
  • Fast Network Failovers
  • Optimization: Adaptive Resync
  • Optimization: Witness Traffic Separation for Stretched Clusters
  • Optimization: Preferred Site Override for Stretched Clusters
  • Optimization: Efficient Resync for Stretched Clusters
  • New Health Checks
  • Optimization: Enhanced Diagnostic Partition
  • Optimization: Efficient Decomissioning
  • Optimization: Efficient and consistent storage policies
  • 4K Native Device Support
  • FIPS 140-2 Level 1 validation

Yes, that is a relatively long list indeed. Lets take a look at each of the features. First of all, HTML-5 support. I think this is something that everyone has been waiting for. The Web Client was not the most loved user interface that VMware produced, and hopefully the HTML-5 interface will be viewed as a huge step forward. I have played with it extensively over the past 6 months and I must say that it is very snappy. I like how we not just ported over all functionality, but also looked if workflows could be improved and if presented information/data made sense in each and every screen. This also however does mean that new functionality from now on will only be available in the HTML-5 client, so use this going forward. Unless of course the functionality you are trying to access isn’t available yet, but most of it should be! For those who haven’t seen  it yet, here’s  a couple of screenshots… ain’t it pretty? 😉

For those who didn’t notice, but in the above screenshot you actually can see the swap file, and the policy associated with the swap file, which is a nice improvement!

The next feature is native vROps dashboards for vSAN in the H5 client. I found this very useful in particular. I don’t like context switching and this feature allows me to see all of the data I need to do my job in a single user interface. No need to switch to the VROps UI, but instead vSphere and vSAN dashboards are now made available in the H5 client. Note that it needs the VROps Client Plugin for the vCenter H5 UI to be installed, but that is fairly straight forward.

Next up is support for Microsoft Windows Server Failover Clustering  for the vSAN iSCSI service. This is very useful for those running a Microsoft cluster. Create and iSCSI Target and expose it to the WSFC virtual machines. (Normally people used RDMs for this.) Of course this is also supported with physical machines. Such a small enhancement, but for customers using Microsoft clustering a big thing, as it now allows you to run those clusters on vSAN without any issues.

Next are a whole bunch of enhancements that have been added based on customer feedback of the past 6-12 months. Fast Network Failovers was one of those. Majority of our customers have a single vmkernel interface with multiple NICs associated with them, some of our customers have a setup where they create two vmkernel interfaces on different subnets, each with a single NIC. What that last group of customers noticed is that in the previous release we waited 90 seconds before failing over to the other vmkernel interface (tcp time out) when a network/interface had failed. In the 6.7 release we actually introduce a mechanism that allows us to failover fast, literally within seconds. So a big improvement for customers who have this kind of network configuration (which is very similar to the traditional A/B Storage Fabric design).

Adaptive Resync is an optimization to the current resync function that is part of vSAN. If a failure has occurred (host, disk, flash failure) then data will need to be resynced to ensure that the impacted objects (VMs, disks etc) are brought in to compliance again with the configured policy. Over the past 12 months the engineering team has worked hard to optimize the resync mechanism as much as possible. In vSAN 6.6.1 a big jump was already made by taking VM latency in to account when it came to resync bandwidth allocation, and this has been further enhanced in 6.7. In 6.7 vSAN can calculate the total available bandwidth, and ensures Quality Of Service for the guest VMs prevails by allocating those VMs 80% of the available bandwidth and limiting the resync traffic to 20%. Of course, this only applies when congestion is detected. Expect more enhancements in this space in the future.

A couple of release ago we introduced Witness Traffic Separation for 2 Node configurations, and in 6.7 we introduce the support for this feature for Stretched Clusters as well. This is something many Stretched vSAN customers have asked for. It can be configured through the CLI only at this point (esxcli) but that shouldn’t be a huge problem. As mentioned previously, what you end up doing is tagging a vmknic for “witness traffic” only. Pretty straight forward, but very useful:

esxcli vsan network ip set -i vmk<X> -T=witness

Another enhancement for stretched clusters is Preferred Site Override. It is a small enhancements, but in the past when the preferred site failed and returned for duty but would only be connected to the witness, it could happen that the witness would bind itself directly to the preferred site. This by itself would result in VMs becoming unavailable. This Preferred Site Override functionality would prevent this from happening. It will ensure that VMs (and all data) remains available in the secondary site. I guess one could also argue that this is not an enhancement, but much more a bug fix. And then there is the Efficient Resync for Stretched Clusters feature. This is getting a bit too much in to the weeds, but essentially it is a smarter way of bringing components up to the same level within a site after the network between locations has failed. As you can imagine 1 location is allowed to progress, which means that the other location needs to catch up when the network returns. With this enhancement we limit the bandwidth / resync traffic.

And as with every new release, the 6.7 release of course also has a whole new set of Health Checks. I think the Health Check has quickly become the favorite feature of all vSAN Admins, and for a good reason. It makes life much easier if you ask me. In the 6.7 release for instance we will validate consistency in terms of host settings and if an inconsistency is found report this. We also, when downloading the HCL details, will only download the differences between the current and previous version. (Where in the past we would simply pull the full json file.) There are many other small improvements around performance etc. Just give it a spin and you will see.

Something that my team has been pushing hard for (thanks Paudie) is the Enhanced Diagnostic Partition. As most of you know when you install / run ESXi there’s a diagnostic partition. This diagnostic partition unfortunately was a fixed size, with the current release when upgrading (or installing green field) ESXi will automatically resize the diagnostic partition. This is especially useful for large memory host configurations, actually useful for vSAN in general. No longer do you need to run a script to resize the partition, it will happen automatically for you!

Another optimization that was released in vSAN 6.7 is called “Efficient Decomissioning“. And this is all about being smarter in terms of consolidating replicas across hosts/fault domains to free up a host/fault domain to allow for maintenance mode to occur. This means that if a component is striped, for other reasons then policy, they may be consolidated. And the last optimization is what they refer to as Efficient and consistent storage policies. I am not sure I understand the name, as this is all about the swap object. Per vSAN 6.7 it will be thin provisioned by default (instead of 100% reserved), and also the swap object will now inherit the policy assigned to the VM. So if you have FTT=2 assigned to the VM, then you will have not two but three components for the swap object, still thin provisioned so it shouldn’t really change the consumed space in most cases.

Then there are the two last items on the list: 4K Native Device Support and FIPS 140-2 Level 1 validation. I think those speak for itself. 4K Native Device Support has been asked for by many customers, but we had to wait for vSphere to support it. vSphere supports it as of 6.7, so that means vSAN will also support it Day 0. The ​VMware VMkernel Cryptographic Module v1.0 has achieved FIPS 140-2, vSAN leverages the same module for vSAN Encryption. Nice collaboration by the teams, which is now showing the big benefit.

Anyway, there’s more work to do today, back to my desk and release the next article. Oh, and if you haven’t seen it yet, Virtual Blocks also has a blog and there’s a nice podcast on the topic of 6.7 as well.

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vSphere HA Restart Priority

I’ve seen more and more questions popping up about vSphere HA Restart Priority lately. I figured I would write something about it. I already did in this post about what’s new in vSphere 6.5 and I did so in the Stretched Cluster guide. It has always been possible to set a restart priority for VMs, but pre-vSphere 6.5 this priority simply referred to the scheduling of the restart of the VM after a failure. Each host in a cluster can restart 32 VMs at the same time, so you can imagine that if the restart priority is only about VM restarts that it doesn’t really add a lot of value. (Simply because we can schedule many at the same time, and the priority would as such have no effect.)

As of vSphere 6.5 we have the ability to specify the priority and also specify when HA should continue with the next batch. Especially this last part is important, as this allows you to specify that we start with the next priority level when:

  1. Resources are allocated (default)
  2. VMs are powered on
  3. Guest heartbeat is detected
  4. App heartbeat is detected

I think these are mostly self-explanatory, note though the “resources are allocated” means that a target host for restart has been found by the master. So this happens within milliseconds. Very similar for VMs are powered on, this also says nothing about when a VM is available. This literally is “power on”. In some cases it could take 10-20 seconds for a VM to be fully booted and the apps to be available, in other cases it may take minutes… It all depends on the services that will need to be started within the VM. So if it is important for the “service provided” by the VM to be available before starting the next batch then option 3 or 4 would be your best pick. Note that with option 4 you will need to have VM/Application Monitoring and defined within the VM. Now when you have made your choice around when to start the next batch you can simply start adding VMs to a specific level.

Instead of the 3 standard restart “buckets” you now have 5: Highest, High, Medium, Low, Lowest. Why these funny names? Well that was done in order to stay backwards compatible with vSphere 6 / 5 etc. By default all VMs will have the “medium” restart priority, and no it won’t make any difference if you change all of them to high. Simply because the restart priority is about the priority between VMs, it doesn’t change the host response times etc. In other words, changing the restart priority only makes sense when you have VMs at different levels, and usually will only make a big difference when you also change the option “Start next priority VMs when”.

So where do you change this? Well that is pretty straight forward:

  • Click on your HA cluster and then the “Configure” Tab
  • Click on “VM Overrides” and then click “Add”
  • Click on the green plus sign and select the VMs you would like to give a higher, or lower priority
  • Then select the new priority and specify when the next batch should start

And if you are wondering, yes the restart priority also applies when vCenter is not available. So you can use it even to ensure vCenter, AD and DNS are booted up first. All of this info is stored in the cluster configuration data. You can examine this on the commandline by the way by typing the following:

/opt/vmware/fdm/fdm/prettyPrint.sh clusterconfig

Note that the outcome is usually pretty big, so you will have to scroll through it to find what you need, if you do a search on “restartPriority” then you should be able to find it the VMs for which you changed the priority. Pretty cool right?!

Oh, if you didn’t know yet… Frank, Niels and I are actively updating the vSphere Clustering Deep Dive. Hopefully we will have something out “soon”, as in around VMworld.