vSphere 6.0 – Page 44

Quick Tip - smartd configurable polling interval in vSphere 6.0

02.20.2015 by William Lam // 1 Comment

In vSphere 5.1, one of the major storage enhancements that was part of the new I/O Device Management (IODM) framework was the addition of SMART (Self Monitoring, Analysis And Reporting Technology) data for monitoring FC, FCoE, iSCSI, SAS protocol statistics, this is especially useful for monitoring the health of an SSD device. The SMART data is provided through a SMART daemon which lives inside of ESXi and runs every 30 minutes to gather statistics and diagnostic information from the underlying storage devices and provides the information through the following ESXCLI command:

esxcli storage core device smart get -d [DEVICE]

If you would like to learn more about IODM and SMART, be sure to check out Cormac Hogan's in-depth article here.

The default polling interval for the SMART daemon in vSphere 5.1 was not configurable and 30 minutes was the system default. For most customers, the out of the box configuration should be sufficent. However, for some customers who wish to have greater flexibility in the polling frequency, the default can now be adjusted in vSphere 6.0. The smartd process now includes a new -i option which specifies the polling interval.

[root@mini:~] smartd -h
smartd: option requires an argument -- 'h'
smartd <options>
-i Polling interval (in minutes) for smartd
(default Polling interval is 30 minutes)

If you wish to change the default, you will need to modify the /etc/init.d/smartd init script and include the interval option. One issue that I have found is that changes to the init script do not persist reboots as modifications to these files should not be performed by users. In the case of adjusting the polling interval, we need to add the additional option for smartd startup.

We can still accomplish this by adding the following to /etc/rc.local.d/local.sh make the necessary adjustments and restarting the smartd process:

SMARTD_POLL_INTERVAL=35
/etc/init.d/smartd stop
sed -i "s/^SMARTD_SCHED_PARAM.*/SMARTD_SCHED_PARAM=\"-i ${SMARTD_POLL_INTERVAL} ++group=smartd\"/g" /etc/init.d/smartd
/etc/init.d/smartd start

Note: The -i option is only visible when smartd process is not running

If you wish to see the changes live immediately, then you can run /etc/rc.local.d/local.sh command once or this will automatically happen upon ESXi booting up. If we perform a process look up using "ps", we can see that our smartd is now configured to poll every 35 minutes instead of the default 30.

Did you know of an additional cool vMotion capability in vSphere 6.0?

02.19.2015 by William Lam // 59 Comments

There was an excellent blog post from Duncan a couple of weeks back going over the new vMotion capabilities in vSphere 6.0 which includes: Cross vSwitch vMotion, Cross vCenter vMotion (xVC-vMotion) and Long Distance vMotion (LD-vMotion). If you have not checked out his article, I highly recommend you give it a read before proceeding further. After reading through Duncan's article, I noticed he had missed out on one additional vMotion capability which might not be obvious as the option is no where to be found in the vSphere Web Client UI. In fact, I was only aware of this additional capability after hearing about it from Engineering during the development of vSphere 6.

The additional vMotion capability actually extends the Cross vCenter Server vMotion (xVC-vMotion) workflow which allows an administrator to live migrate a running virtual machine between two vCenter Servers that are part of the same SSO Domain. By virtue of being in the same SSO Domain using the new Enhanced Linked Mode feature, both vCenter Servers will be visible in the vSphere Web Client and will be available to be selected either as a source or destination for a vMotion operation.

This extended Cross vCenter Server vMotion capability (unofficially I am calling it ExVC-vMotion) allows an administrator to live migrate a running virtual machine between two vCenter Servers which are NOT part of the same SSO Domain. How cool is that!? In my opinion, this is actually a pretty big deal because I think it truly removes any boundaries for a vSphere virtual machine and will open up an entire new class of mobility use cases that were never thought possible before. This will definitely make it interesting for customers who wish to migrate workloads from their on-premises datacenter into a completely different vSphere environment or even one that is hosted by a service provider or maybe even vCloud Air?

The ExVC-vMotion operation is currently only available today using the vSphere API, not because it is a private API but because there is no UI wizard for this operation. The reason the current xVC-vMotion is so seamless today is that both your source and destination vCenter Server is visible by being part of the same SSO Domain. If you have two completely different vCenter Servers which are not joined to the same SSO Domain or have completely different SSO Domains, then you will need to use the vSphere API to perform this operation.

All vMotion operations including vMotion without shared storage uses the vSphere API RelocateVM_Task() method. In vSphere 6.0, the method has been enhanced to accept a new property called ServiceLocator which provides a service endpoint to a vCenter Server where a VM can be migrated to. One important thing to note is that if you wish to migrate a VM between two vCenter Servers located in the same SSO Domain, there is an sslThumbprint property that is not required to be set. However, if the two vCenter Servers are NOT part of the same SSO Domain, then you need to set that property. In addition, if the VM is migrated to a different vCenter Server, additional properties such as the ESXi host, vSphere Cluster/Resource Pool and Datastore must be specified as part of the migration spec.

UPDATE (05/25/16) - I have re-factored and simplified my xVC-vMotion script which supports additional capabilities. Please have a look at the blog post here for more details.

To demonstrate this awesome ExVC-vMotion operation, I have created a simple PowerCLI script called run-cool-ExVC-vMotion.ps1 which accepts 12 command-line parameters which are described in more detail below:

Variable	Description
sourceVC	The hostname or IP Address of the source vCenter Server
sourceVCUsername	The username to connect to source vCenter Server
sourceVCPassword	The password to connect to source vCenter Server
destVC	The hostname or IP Address of the destination vCenter Server
destVCUsername	The username to connect to the destination vCenter Server
destVCPassword	The password to connect to the destination vCenter Server
destVCThumbprint	The SSL Thumbprint (SHA1) of the destination vCenter Server (can be retrieved using either this or this)
datastorename	The destination vSphere Datastore where the VM will be migrated to
clustername	The destination vSphere Cluster where the VM will be migrated to
vmhostname	The destination vSphere ESXi host where the VM will be migrated to
vmnetworkname	The destination vSphere VM Portgroup where the VM will be migrated to
vmname	The name of the source VM to be migrated

In my lab environment, I have configured two vCenter Server's which are part of two different SSO Domains as seen in the screenshot below:

I have tiny Linux VM (vMA) that I am using which I will be migrating from vcenter60-4 to vcenter60-5 which has a completely different datastore and VM portgroup (if you have stretched/extended L2, then the VM would stay online during this migration). I then execute the script using the following parameters based on my own environment and we can see the migration is kicking off:

.\run-cool-ExVC-vMotion.ps1 vcenter60-4.primp-industries.com *protected email* VMware1! vcenter60-5.primp-industries.com *protected email* VMware1! 82:D0:CF:B5:CC:EA:FE:AE:03:BE:E9:4B:AC:A2:B0:AB:2F:E3:87:49 vesxi60-8-local-storage NY-Cluster vesxi60-8.primp-industries.com NY-VM-Network vMA

One the migration has completed, if we now take a look at our vSphere Web Client, we can see the VM has now been migrated to the other vCenter Server.

I really hope to see the vSphere Web Client get enhanced to support this cool vMotion capability, but in the mean time you can easily perform this operation using the above PowerCLI script or any other scripting/programming language calling into the vSphere API. Set your VM free and let it migrate where your heart desires 🙂

Ultimate automation guide to deploying VCSA 6.0 Part 1: Embedded Node

02.18.2015 by William Lam // 28 Comments

In this article, I will share alternative methods of deploying the new VCSA 6.0 using an Embedded Node configuration. Take a look at the various deployment methods below and their respective instructions for more details. If you are deploying using one of the scripts below, you will need to extract the contents of the VCSA ISO. If you are deploying to Workstation/Fusion, you will need to extract the VCSA ISO and add the .ova extension to the following file VMware-VCSA-all-6.0.0-2562643->vcsa->vmware-vcsa before deploying.

Disclaimer: Though these alternative deployment options work, they are however not officially supported by VMware. Please use at your own risk.

Deploying to an existing vCenter Server using ovftool (shell script)

I have created a shell script called deploy_vcsa6_embedded_to_vc.sh which requires using ovftool 4.1 (included in the VCSA ISO) to specify the appropriate OVF "guestinfo" properties for an Embedded configuration. You will need to edit the script and modify several variables based on your environment.

Here is an example of executing the script:

Deploying to an ESXi host using ovftool (shell script)

I have created a shell script called deploy_vcsa6_embedded_to_esxi.sh which requires using ovftool 4.0 or greater to specify the appropriate OVF "guestinfo" properties for an Embedded configuration. You will need to edit the script and modify several variables based on your environment. The behavior of this script is similar to the one above, except you are deploying directly to an ESXi host.

Deploying to an existing vCenter Server using ovftool (PowerCLI)

I have created a PowerCLI script called Deployment-Embedded.ps1 which also allows you to specify the appropriate OVF "guestinfo" properties for an Embedded configuration. You will need to edit the script and modify several variables based on your environment.

Deploying to VMware Fusion & Workstation

To properly deploy the new VCSA 6.0, the proper OVF properties MUST be set prior to the booting of the VM. Since VMware Fusion and Workstation do not support OVF properties, you will need to manually deploy the VCSA, but not power it on. Once the deployment has finished, you will need to add the following entries to the VCSA's VMX file and replace it with your environment settings. Once you have saved your changes, you can then power on the VM and the configurations will then be read into the VM for initial setup.

guestinfo.cis.deployment.node.type = "embedded"
guestinfo.cis.vmdir.domain-name = "vghetto.local"
guestinfo.cis.vmdir.site-name = "vghetto"
guestinfo.cis.vmdir.password = "VMware1!"
guestinfo.cis.appliance.net.addr.family = "ipv4"
guestinfo.cis.appliance.net.addr = "192.168.1.54"
guestinfo.cis.appliance.net.pnid = "192.168.1.54"
guestinfo.cis.appliance.net.prefix = "24"
guestinfo.cis.appliance.net.mode = "static"
guestinfo.cis.appliance.net.dns.servers = "192.168.1.1"
guestinfo.cis.appliance.net.gateway = "192.168.1.1"
guestinfo.cis.appliance.root.passwd = "VMware1!"
guestinfo.cis.appliance.ssh.enabled = "true"

For more information, you can take a look at this article here.

Deploying using new scripted install (bonus)

As mentioned earlier, there is also a new scripted installer included inside of the VMware-VCSA ISO under /vcsa-cli-installer which supports Windows, Mac OS X and Linux, but must be connected directly to an ESXi host. There are several templates that are also included within the /vcsa-cli-installer/templates. I thought as a bonus I would also share the template I have been using to deploy an Embedded VCSA 6.0 using a static IP Address which some of you may find useful.

{
    "__comments":
    [
        "William Lam - www.virtuallyghetto.com",
        "Example VCSA 6.0 Embedded Deployment w/Static IP Address"
    ],

    "deployment":
    {
        "esx.hostname":"192.168.1.200",
        "esx.datastore":"mini-local-datastore-1",
        "esx.username":"root",
        "esx.password":"vmware123",
        "deployment.option":"tiny",
        "deployment.network":"VM Network",
        "appliance.name":"embedded-vcsa-node",
        "appliance.thin.disk.mode":true
    },

    "vcsa":
    {

        "system":
        {
            "root.password":"VMware1!",
            "ssh.enable":true,
            "ntp.servers":"0.pool.ntp.org"
        },

        "sso":
        {
            "password":"VMware1!",
            "domain-name":"vghetto.local",
            "site-name":"virtuallyGhetto"
        },

        "networking":
        {
            "ip.family":"ipv4",
            "mode":"static",
            "ip":"192.168.1.60",
            "prefix":"24",
            "gateway":"192.168.1.1",
            "dns.servers":"192.168.1.1",
            "system.name":"192.168.1.60"
        }
    }
}

The use the scripted installer, you just need to change into the appropriate OS platform directory (win32,mac or lin64) and there should be a binary called vcsa-deploy. To use this template, you just need to save the JSON to a file and then specify that as the first argument to vcsa-deploy utility.

Here is an example of deploying an Embedded VCSA using the vcsa-deploy scripted installer.