Changing RDP Settings in VMware View Open Client for Mac

Wednesday, July 21, 2010 in Macintosh, Virtualization by slowe | No comments

I’ve been using the VMware View Open Client for Mac OS X for a few weeks now, ever since I was approved to participate in EMC’s pilot VDI program. The one thing that I don’t like about the View Open Client is how it leverages the Mac-native Remote Desktop Connection application to make connections to the View hosted desktops. It does so in a way that makes it impossible to customize the behavior of the RDP session—or so I thought.

It turns out there there is a way, after all, to customize the behavior of the RDP session that the View Open Client leverages. The View Open Client has an .RDP file, containing all the saved settings for RDP connections generated through the View Open Client, embedded inside the client itself. And because applications on Mac OS X are nothing more than specially-treated folders, it’s possible to crack open the client and actually customize the session parameters.

Here’s how:

  1. Open the Applications folder on your Mac (or wherever you installed the VMware View Open Client).
  2. Right-click (or Ctrl-Click) on the VMware View Open Client and select Show Package Contents.
  3. Open the Contents folder, then open the Resources folder.
  4. In the Resources folder, you’ll see a file named vmware-view.rdp. This is the template the View Open Client uses to generate new RDP connections. By modifying this file, you can modify the behavior of the RDP sessions that View creates.
  5. Open the vmware-view.rdp file in a text editor and make any desired changes. When you attempt to save the changes, you will most likely be prompted for authentication (because you are modifying the contents of an application in the Applications folder).

That’s it! It’s actually a lot easier than it might seem. For example, I didn’t like the fact that the EMC corporate VDI connection played that stupid Windows logon sound, so I modified the vmware-view.rdp file to change the value of the AudioRedirectionMode parameter so that it wouldn’t play music when I logged into a VDI image. All I had to do was change the integer value of the AudioRedirectionMode parameter to two, like this:

<key>AudioRedirectionMode</key>
<integer>2</integer>

Voila! No more sounds being sent across my RDP connection. I haven’t yet found a comprehensive breakdown of all the parameters, although this page is a good start.

The key drawback to this mechanism is, of course, that you can’t selectively apply these settings to different VDI connections. For example, I might not want to bring sound across for my corporate VDI session, but what if I’m connecting to a partner’s VDI environment and I want sound for that session? By modifying the template vmware-view.rdp file inside the View Open Client itself, the changes you make apply to all sessions. Perhaps a future revision of the View Open Client will give us some per-session granular control over these settings? (Hey, I can dream!)

Have a better way of accomplishing this? Let me know in the comments! Courteous and professional comments are welcome.

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Help Me Out

Wednesday, July 21, 2010 in General, Personal by slowe | 3 comments

Can I ask a favor? In the spirit of transparency and honesty, I want to point out that this is a request for my own benefit, but it shouldn’t take more than a couple of minutes of your time. You see, a local EMC partner named eGroup (here’s their web site) is running this contest to win an iPad. The contest involves taking pictures of an “I love eGroup” sticker in various and interesting places. Since I recently traveled to Cork, Ireland, to support some of EMC’s European partners, I took a few photos while I was in Ireland and I submitted them to the contest.

Now, you might be saying, “But Scott, I thought you already have an iPad?” You’re right, I do. But I want to get one for Crystal, who could really use it with her online classes (she’s working toward a degree in education). So, if I can win this iPad, then I’ll have one for Crystal to use. (OK, so maybe it’s not entirely for my own benefit after all!)

Here’s what I need you to do:

  1. Log into Facebook.
  2. Go the eGroup Facebook page and “Like” the page.
  3. Go to the eGroup Official Photo Contest Entries page (here’s the URL).
  4. Vote for my photos by “Liking” the photos. I have two of them: one with me in the stocks at the Cork City Gaol (Jail), and another one of two wax figurines playing cards and one of the figures has an eGroup sticker as his “trump card”. You’ll need to be sure to actually click on the photo and then “Like” the photo in order for the vote to count!

That’s all! See, I told you it would only take a couple of minutes. Besides, we all know you’re probably going to log into Facebook sometime today anyway, so why not take a minute and help me out? Thanks!

UPDATE: It turns out you need to “Like” the main eGroup Facebook page as well. Be sure to click the photo that you want to vote for in order for the vote to count. I’ve updated the instructions, and thanks for your help!

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Enabling RAID 1 on a Mac Mini Server

Saturday, July 17, 2010 in Macintosh, Storage by slowe | 10 comments

Today I bought a new Mac Mini running Mac OS X Server to replace an aging home-built Linux server that supports my home network. You might recall that in early 2009 I wrote an article about how I had worked to provide some Ubuntu-Mac integration on the home network. Although the integration has worked well since that time, many of the functions that the Ubuntu server was providing have since been taken over by an Iomega ix4-200d NAS box. It’s the Iomega that now handles all my Time Machine backups and CIFS/AFP file sharing. In addition, I’ve been looking for a way to create a “master” iTunes library for the entire house, and the Linux server with Firefly Media Server, while powerful, just wasn’t doing what I needed it to do. So I figured I’d replace it with an Intel-based Mac Mini running Mac OS X Server. The network services the Linux server is now providing would either be replaced by the Mac Mini or by VMs running on the Mac Mini vis VMware Fusion.

After I bought the Mac mini and brought it home, I was dismayed to find that Apple hadn’t enabled RAID 1 on the dual 500GB hard drives in the system. Unfortunately, enabling RAID 1 mirroring on the hard drives wasn’t as simple as using Disk Utility. I did find a way, and in the interest of helping others, here are the steps that I followed. As I type this, my Mac Mini server is downstairs rebuilding it’s RAID 1 mirror set.

Here are the steps to follow to enable RAID 1 on the drives in your Mac Mini Server:

  1. First, you’ll need to boot from some source other than one of the internal hard drives. I chose to use the Mac OS X Remote Install application, found in the Utilities folder. This allows your Mac Mini server, which doesn’t have an optical drive, to boot from the optical drive on another Mac on your network (that’s assuming, of course, you have another Mac on your network). The procedure for booting remotely using the Remote Install application are already well documented, so I won’t bother to include them again here.
  2. Once you’ve booted remotely, open a Terminal window and use this command to list the disks and volumes in your system:
     
    diskutil list
     
    In all the online guides to this process, the “Server HD” volume was always listed as disk0s2; on my system, it was listed as disk1s2. Just be sure to note the device names so that you can use them later.
  3. Use this command to convert the existing “Server HD” volume to a RAID 1 mirror:
     
    diskutil appleRAID enable mirror <device name for “Server HD”>
     
    Mac OS X will convert the existing “Server HD” volume into a RAID 1 mirror with only one member. From what I can tell, this process is instantaneous and takes effect immediately.
  4. Use the diskutil list command again to get the device name for the new RAID set. On my system, it was referenced as disk9, but this will vary from system to system.
  5. Next, add the second hard disk as a member to the RAID 1 set:
     
    diskutil appleRAID add member <device name for second hard disk> <device name for RAID set>
     
    For example, on my system the second hard disk was actually disk0s2 and the RAID set was disk9, so the command looked like this:
     
    diskutil appleRAID add member disk0s2 disk9
     
    And that should do it! Mac OS X will add the second drive to the RAID 1 set and begin the rebuilding process. If you do this right after unboxing your new Mac Mini, it will minimize the amount of time required.

I’m still waiting on my Mac Mini to finish the rebuilding process, so I’ll update this post if I discover something unusual or find that some additional steps are necessary to make everything work.

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vMotion Practicality

Monday, July 12, 2010 in Networking, Virtualization by slowe | 24 comments

About a month ago I posted an article titled The vMotion Reality. In that article, I challenged the assertion that vMotion was a myth, not widely implemented in data centers today due to networking complexity and networking limitations.

In a recent comment to that article, a reader again mentions networking limitations—in this instance, the realistic limits of a large Layer 2 broadcast domain—as a gating factor for vMotion and limiting its “practical use” in today’s data centers. Based on the original article’s assertions and the arguments found in this comment, I’m beginning to believe that a lot of people have a basic misunderstanding of the Layer 2 adjacency requirements for vMotion and what that really means. In this post, I’m going to discuss vMotion’s Layer 2 requirements and how they interact (and don’t interact) with other VMware networking functionality. My hope is that this article will provide a greater understanding of this topic.

First, I’d like to use a diagram to help explain what we’re discussing here. In the diagram below, there is a single ESX/ESXi host with a management interface, a vMotion interface, and a couple of network interfaces dedicated to virtual machine (VM) traffic.

VLAN Behaviors with VMware ESX/ESXi

As you can see from this highly-simplified diagram, there are three basic types of network interfaces that ESX/ESXi uses: management interfaces, VMkernel interfaces, and VM networking interfaces. Each of them is configured separately and, in many configurations, quite differently.

For example, the management interface (in VMware ESX this is the Service Console interface, in VMware ESXi this is a separate instance of a VMkernel interface) is typically configured to connect to an access port with access to a single VLAN. In Cisco switch configurations, the interface configuration would look something like this:

interface GigabitEthernet 1/1
  switchport mode access
  switchport access vlan 27
  spanning-tree portfast

There might be other commands present, but these are the basic recommended settings. This makes the management interfaces on an ESX/ESXi host act, look, feel, and behave just exactly like the network interfaces on pretty much every other system in the data center. Although VMware HA/DRS cluster design considerations might lead you toward certain Layer 2 boundaries, there’s nothing stopping you from putting management interfaces from different VMware ESX/ESXi hosts in different Layer 3 VLANs and still conducting vMotion operations between them.

So, if it’s not the management interfaces that are gating the practicality of vMotion in today’s data centers, it must be the VM networking interfaces, right? Not exactly. Although the voices speaking up against vMotion in this online discussion often cite Layer 3 VLAN concerns as the primary problem with vMotion—stating, rightfully so, that the IP address of a migrated virtual machine cannot and should not change—these individuals are overlooking the recommended configuration for VM networking interfaces in a VMware ESX/ESXi environment.

Physical network interfaces in a VMware ESX/ESXi host that will be used for VM networking traffic are most commonly configured to act as 802.1Q VLAN trunks. For example, the Cisco switch configuration for a port connected to a network interface being used for VM networking traffic would look something like this:

interface GigabitEthernet1/10
  switchport trunk encapsulation dot1q
  switchport mode trunk
  switchport trunk allowed vlan 1-499
  switchport trunk native vlan 499
  spanning-tree portfast trunk

As before, some commands might be missing or some additional commands might be present, but this gives you the basic configuration. In this configuration, the VM networking interfaces are actually capable of supporting multiple VLANs simultaneously. (More information on the configuration of VLANs with VMware ESX/ESXi can be found in this aging but still very applicable article.)

In practical use what this means is that any given VMware ESX/ESXi host could have VMs running on it that exist on a completely different and separate VLAN than the management interface. In fact, any given VMware ESX/ESXi host might have multiple VMs running across multiple separate and distinct VLANs. And as long as the ESX/ESXi hosts are properly configured to support the same VLANs, you can easily vMotion VMs between ESX/ESXi hosts when those VMs are in different VLANs. So, the net effect is that ESX/ESXi can easily support multiple VLANs at the same time for VM networking traffic, and this means that vMotion’s practical use isn’t gated by some inherent limitation of the VM networking interfaces themselves.

Where in the world, then, does this Layer 2 adjacency thing keep coming from? If it’s not management interfaces (it isn’t), and it’s not VM networking interfaces (it isn’t), then what is it? It’s the VMkernel interface that is configured to support vMotion. In order to vMotion a VM from one ESX/ESXi host to another, each host’s vMotion-enabled VMkernel interface has to be in the same IP subnet (i.e., in the same Layer 2 VLAN or broadcast domain). Going back to Cisco switch configurations, a vMotion-enabled VMkernel port will be configured very much like a management interface:

interface GigabitEthernet 1/5
  switchport mode access
  switchport access vlan 37
  spanning-tree portfast

This means that the vMotion-enabled VMkernel port is just an access port (no 802.1Q trunking) in a single VLAN.

Is this really a limitation on the practical use of vMotion? Hardly. In my initial rebuttal of the claims against vMotion, I pointed out that because it is only the VMkernel interface that must share Layer 2 adjacency, all this really means is that a vMotion domain is limited to the number of vMotion-enabled VMkernel interfaces you can put into a single Layer 2 VLAN/broadcast domain. VMs are unaffected, as you saw earlier, as long as the VM networking interfaces are correctly configured to support the appropriate VLAN tags, and the management interfaces do not, generally speaking, have any significant impact.

Factoring in the consolidation ratio, as I did in my earlier post, and you’ll see that it’s possible to support very large numbers of VMs spread across as many different VLANs as you want with a small number of ESX/ESXi hosts. Consider 200 ESX/ESXi hosts—whose vMotion-enabled VMkernel interfaces would have to share a broadcast domain—with a consolidation ratio of 12:1. That’s 2,400 VMs that can be supported across as many different VLANs simultaneously as we care to configure. Do you want 400 of those VMs in one VLAN while 300 are in a different VLAN? No problem, you only need to configure the physical switches and the virtual switches appropriately.

Let’s summarize the key points here:

  1. Only the vMotion-enabled VMkernel interface needs to have Layer 2 adjacency within a data center.
  2. Neither management interfaces nor VM networking interfaces require Layer 2 adjacency.
  3. VM networking interfaces are easily capable of supporting multiple VLANs at the same time.
  4. When the VM networking interfaces on multiple ESX/ESXi hosts are identically configured, VMs on different VLANs can be migrated with no network disruption even though the ESX/ESXi hosts themselves might all be in the same VLAN.
  5. Consolidation ratios multiply the number of VMs that can be supported with Layer 2-adjacent vMotion interfaces.

Based on this information, I hope it’s clearer that vMotion is, in fact, quite practical for today’s data centers. Yes, there are design considerations that come into play, especially when it comes to long-distance vMotion (which requires stretched VLANs between multiple sites). However, this is still an emerging use case; the far broader use case is within a single data center. Within a single data center, all the key points I provided to you apply, and there is no practical restriction to leveraging vMotion.

If you still disagree (or even if you agree!), feel free to speak up in the comments. Courteous and professional comments (with full disclosure, where applicable) are always welcome.

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Spouse Activities: Back for Another Year!

Monday, July 12, 2010 in Virtualization by slowe | No comments

Have you ever attended a technology conference and had your spouse go with you? More than likely, your spouse just sat around the hotel room, bored, waiting for you to get back after a long day of sessions and lectures and labs. Then, when you’re tired and just want to relax, your spouse wants to go out on the town, explore, and see some cool stuff. Does that sound familiar?

Since 2008, my wife (Crystal, @crystal_lowe on Twitter) has organized a fix for this very problem, at least for one technology conference: VMworld spouse activities. Now back for a third year (see information for 2008 activities and 2009 activities), spouse activities—or Spousetivities as it’s informally known—is bigger and better than ever. Backed by corporate sponsors, Crystal is now able to offer more planned excursions, free activities, and lots of goodies for attending spouses. To help streamline communications, she’s even launched a spouse activities-focused website at http://spousetivities.com and a dedicated Twitter account (@Spousetivites). If you aren’t following either of these resources, you should be!

Here’s a sneak peek of some of the great stuff that Crystal has planned for this year:

  • Free Spousetivities T-shirt for the first 250 registered attendees (last year’s shirts were hilarious—wait until you see this year!)
  • Free welcome breakfast on Monday, August 30, for the first 150 registered attendees
  • Discounted tours to the Wine Country, Muir Woods, and the San Francisco Bay islands
  • A tour of privately-owned “trophy houseboats” in Sausalito
  • A fabulous pre-VMworld couples activity that includes Monterey, Carmel, and Hearst Castle

These freebies and discounts are all due to the generous corporate sponsors who helped Crystal make it happen. If you’re interested in registering, see here.

In addition to these organized activities, Crystal will be helping smaller groups self-organize for activities like shopping, sight-seeing, or exploring the city on your own.

As you can see, Crystal has put a ton of work into this year’s activities. If you are planning on attending, you should definitely bring your spouse and get her (or him!) enrolled and registered.

Oh, and did I mention that she’s planning activities for VMworld EMEA, too? That’s right—for those of you that can’t make it to San Francisco but will be in Copenhagen, Crystal is planning some activities there too. Keep your eyes open for more details on the EMEA activities.

Visit the Spousetivities website or follow Spousetivities on Twitter for more details and regular updates.

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How to Configure NPV on a Nexus 5000

Monday, June 28, 2010 in Networking, Storage by slowe | 8 comments

Some time ago I posted a “how to” article on how to configure FCoE on a Nexus 5000 switch. At that time, I did not put the Nexus 5000 into NPV mode but rather connected it to a Cisco MDS Fibre Channel switch without using NPV. In this entry, I’d like to follow up on that article and show you how to configure NPV on a Nexus 5000.

If you aren’t familiar with NPV (N_Port Virtualization) and how it’s different than NPIV (N_Port ID Virtualization), check out this article titled “Understanding NPIV and NPV”; It should help clear things up. Because NPV makes the Nexus 5000 look like an NPIV-enabled host, one potential use for NPV, as in this case, is when connecting the Nexus 5000 to a non-Cisco Fibre Channel switch. Using NPV helps ease interoperability concerns. In this instance, I’m connecting the Nexus 5000 to a Brocade Fibre Channel switch (actually an EMC Connectrix).

Note that I tested these instructions on a Nexus 5010 using both NX-OS 4.1(3)N2(1) as well as NX-OS 4.2(1)N1(1).

The first step is to enable NPV on the Nexus 5000. As far as I can tell, in order to enable NPV you must first enable FCoE using the feature command:

switch(config)# feature fcoe

This loads various Fibre Channel modules and makes possible other features, including NPV and NPIV. Enabling NPV erases the switch configuration and reboots the switch, so be sure you are connected via a console connection before enabling NPV with the feature command:

switch(config)# feature npv

Immediately after enabling NPV, the Nexus 5000 will reboot (you’re warned and given the option to proceed or cancel). The warning indicates that the switch’s configuration will be removed, but the minimally-configured switches I used in my testing retained their configuration. Granted, I hadn’t performed any Fibre Channel or FCoE configurations yet, so perhaps that’s the configuration to which the warning was referring.

Once NPV is enabled on the switch, you can then configure Fibre Channel uplink ports as NP ports (proxy N_ports); these are also referred to as external interfaces. To configure a Fibre Channel port as an NP port, use these commands:

switch# config t
switch(config)# interface fc slot/port
switch(config-if)# switchport mode np
switch(config-if)# no shut
switch(config-if)# exit
switch(config)# exit

You should then be ready to physically connect to the upstream Fibre Channel switch, which—if you recall correctly from my earlier NPV/NPIV post—needs to be NPIV-enabled. In this particular case, I was uplinking the Nexus 5010 to an EMC-rebranded Brocade switch (a Connectrix DS-300B running Fabric OS 6.1.0). To show whether the port on the Connectrix was enabled for NPIV, I used the portcfgshow command:

rtp-fc-sw-01:admin> portcfgshow port number

Look for the line that says “NPIV Capability”; the value should be reported as “ON”. If the value is not “ON”, you’ll need to use the portcfgnpivport command to enable NPIV on the specified port, like this:

rtp-fc-sw-01:admin> portcfgnpivport port number 1

The “1″ at the end of that command enables NPIV; a “0″ would disable NPIV for that port.

Once NPIV is enabled on the upstream Fibre Channel switch, when you physically connect the configured external interface then the Fibre Channel link should come up. I used the show int fc slot/number command on the Nexus to verify that the port was up; on the Connectrix, I used the portshow port command. In addition, I was also able to see the Nexus switch logged into the Fibre Channel fabric on the Connectrix using the nsshow command.

Once you have Fibre Channel connectivity via the external interfaces, then configuring FCoE to hosts connected to the Nexus follows the same set of instructions laid out in my earlier FCoE how-to article.

From that point on, it’s only a matter of configuring zones (see here for help with zones on a Cisco MDS) and presenting storage. Those are different posts for a different day…

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Hiatus

Saturday, June 19, 2010 in General, Personal by slowe

I just wanted to let everyone know I’m taking a blogging hiatus for a while. I don’t know yet how long. I do know that things are busy at work, I have a VMworld session to prepare, there are books to work on, and I have a family to enjoy while there is still time.

After five years of creating content for the site, it has become part of me. As such, I’m sure that I will pick up writing here again soon. For now, though, I’m going to take a break.

I do appreciate everyone who has read and responded to my work anytime over the last five years. I’m glad that I was able to help in some small way.

God bless!

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The Future of NetApp

Friday, June 18, 2010 in Storage by slowe | 50 comments

As I was sitting in London’s Heathrow Airport this morning catching up on RSS feeds before boarding my plane back to the United States, an article headline caught my eye: Why NetApp Must Seek Acquisition.

I can’t tell you how glad I am to see this article published, because it gives me the opportunity to share something I’ve been thinking about for a while, even before I joined EMC. I’m sure that everything I have to say about NetApp will be colored by the fact that I now work for EMC, and—whether I like it or not—all comments about any other storage vendor or technology are immediately suspect. Recent comments to my VPLEX article proved that point; it will take time to re-establish objectivity and prove to my readers that I’m not an EMC shill.

But I digress; back to the article. In the article, the author (”secretcto”) states why he believes that NetApp must seek acquisition in order to survive. The crux of his article is this:

Now lets take a look at the market cap of each of these players. A company’s market cap is a good place start in order to identify which of these companies will have money to invest in tomorrow. I am not saying that ‘cloud’ is the IT of tomorrow, but if it is the direction of tomorrow, then one thing is certain, the folks in that list that have more of the necessary ‘cloud’ pieces (or the money to invest in building out a portfolio of integrated cloud components) will be the most successful competitors.

The author states that NetApp has a few key problems:

  • NetApp only owns one component (storage) of the multiple components (the others being servers, networking, software, and security) necessary to continue to be a key competitor moving forward.
  • NetApp doesn’t own any software that drives customers to its products.
  • NetApp lacks the bankroll to acquire the technologies necessary to build out their portfolio in order to compete with more “full-featured” competitors.
  • NetApp has a history of difficulty integrating their acquisitions. Even if the bankroll was present, there is no indication that additionsl to their portfolio could be successfully integrated into the company.

I would add an additional weakness. Being on the outside—and not only on the outside, but working for a competitor that NetApp fiercely detests—I lack any inside knowledge of what might be going on at NetApp. I know they have a ton of very smart, talented folks over there, and those smart folks have engineered the heck out of their WAFL and snapshot technologies. But the reality is that NetApp is a one-trick pony. Look at their products: every single one is in some way based on the same underlying technologies. Kudos to them for getting as much mileage about of these technologies as they have; that’s a huge testament to the skill of their engineering staff.

However, it appears to me (again, lacking any inside knowledge I could be completely wrong) that they have reached the end of the road. I get the feeling that NetApp has done everything they possibly could do with WAFL and snapshots, and now that they have no more mileage with this pony and no more ponies in the stable, where does that leave them?

Again, I’m sure that everyone will take these comments as me bashing NetApp. My intent here is most definitely not to bash NetApp, but to simply state my observations. I’d love to hear others’ thoughts on the matter; my only request is that you fully disclose your affiliations. Speak up in the comments and let me know what you think! All courteous comments are welcome.

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The vMotion Reality

Sunday, June 13, 2010 in Virtualization by slowe | 26 comments

The quite popular GigaOm site recently published an article titled “The VMotion Myth”, in which the author, Alex Benik, debunks the myth of vMotion and the live migration of virtual machines (VMs).

In his article, Benik states that the ability to dynamically move workloads around inside a single data center or between two data centers is, in his words, “far from an operational reality today”. While I’ll grant you that inter-data center vMotion isn’t the norm, vMotion within a data center is very much an operational reality of today. I believe that Benik’s article is based on some incorrect information and incomplete viewpoints, and I’d like to clear things up a bit.

To quote from Benik’s article:

Currently, moving a VM from a one physical machine to another has two important constraints. First, both machines must share the same storage back end, typically a Fibre Channel/iSCSI SAN or network-attached storage. Second, the physical machines must reside in the same VLAN or subnet. This means that inside a single data center, one can only move a VM across a relatively small number of physical machines. Not exactly what the marketing guys would have you believe.

Benik is correct in that shared storage is required in order to use vMotion. The use of shared storage in VMware environments is quite common for this very reason. Note also that shared storage is required in order to leverage other VMware-specific functionality such as VMware High Availability (HA), VMware Distributed Resource Scheduler (DRS), and VMware Fault Tolerance (FT).

On the second point—regarding VLAN requirements—Benik is not entirely correct. You see, by their very nature VMware ESX/ESXi hosts tend to have multiple network interfaces. The majority of these network interfaces, in particular those that carry the traffic to and from VMs, are what are called trunk ports. Trunk ports are special network interfaces that carry multiple VLANs at the same time. Because these network interfaces carry multiple VLANs simultaneously, VMware ESX/ESXi hosts can support VMs on multiple VLANs simultaneously. (For a more exhaustive discussion of VLANs with VMware ESX/ESXi, see this collection of networking articles I’ve written.)

But that’s only part of the picture. It is true that there is one specific type of interface on a VMware ESX/ESXi host that must reside in the same VLAN on all the hosts between which live migration is required. This port is a VMkernel interface that has been enabled for vMotion. Without sharing connectivity between VMkernel interfaces on the same VLAN, vMotion cannot take place. I suppose it is upon this that Benik bases his statement.

However, the requirement that a group of physical systems share a common VLAN on a single interface is hardly a limitation. First, let’s assume that you are using an 8:1 consolidation ratio; this is an extremely conservative ratio considering that most servers have 8 cores (thus resulting in a 1:1 VM-to-core ratio). Still, assuming an 8:1 consolidation ratio and a maximum of 253 VMware ESX/ESXi hosts on a single Class C IP subnet, that’s enough physical systems to drive over 2,000 VMs (2,024 VMs, to be precise). And remember that these 2,024 VMs can be distributed across any number of VLANs themselves because the network interfaces that carry their traffic are capable of supporting multiple VLANs simultaneously. This means that the networking group can continue to use VLANs for breaking up broadcast domains and segmenting traffic, just like they do in the physical world.

Bump the consolidation ratio up to 16:1 (still only 2:1 VM-to-core ratio on an 8 core server) and the number of VMs that can be supported with a single VLAN for vMotion is over 4,000. How is this a limitation again? Somehow I think that we’d need to pay more attention to CPU, RAM, and storage usage before being concerned about the fact that vMotion requires Layer 2 connectivity between hosts. And this isn’t even taking into consideration that organizations might want multiple vMotion domains!

Clearly, the “limitation” that a single interface on each physical host share a common VLAN isn’t a limitation at all. Yes, it is a design consideration to keep in mind. But I would hardly consider it a limitation and I definitely don’t think that it’s preventing customers from using vMotion in their data centers today. No, Mr. Benik, there’s no vMotion myth—only vMotion reality.

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Blogging for the Right Reasons

Wednesday, June 9, 2010 in Collaboration, General, Personal by slowe | 39 comments

This will be a very quick blog post just to address a growing trend I’ve noticed. It started with the wave of prominent bloggers getting hired by EMC for the vSpecialist team. With the recent VMware vExpert 2010 awards, this trend has gotten even bigger. What is the trend? The trend I’m seeing is people starting blogs just to get attention in the industry.

Of course everyone wants to be noticed in their industry. I understand that. I respect that. I want to be noticed in my industry, too—there’s nothing wrong with that. But I cannot stress strongly enough that if you are starting a blog simply to make some noise in the industry, maybe win an award, or get hired by <Insert Company Name Here>, you are blogging for all the wrong reasons.

If you’re going to blog (or tweet), do it for the right reasons. I mentioned this in my recent chinwag with Mike Laverick. The successful bloggers are the bloggers who blog because of their passion for the topic(s) about which they are blogging. Consider some of the well-known and well-respected bloggers out there:

Why do these guys blog and/or tweet? Well, I’m not privy to their thoughts, but what I get out of their writing is that they are passionate about their topics. That passion comes through in their writing, it infects the readers, and their popularity grows. But I don’t think they started out with the intent of becoming popular or well-known. They started out because there was a topic that they were interested in or knowledgeable about and for which they had a passion.

So if you’re going to start a blog, fine. Do it. It’s fun (hard work, but fun). But be sure to do it for the right reasons.

UPDATE: If, for whatever reason, I didn’t list your name above, it doesn’t mean anything! Those names just jumped out of my head as some of the many virtualization-focused blogs that I follow. In addition, I know the writers of these sites on a more personal basis than the writers of most other sites. There are so many other excellent virtualization sites that I would be remiss to try to list them all. I’ll leave that to Eric Siebert!

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