Tag Archives: vmware

VCAP-DCD practice design by @GreggRobertson5

Great sample company scenario by Gregg Robertson for those preparing for their VCAP-DCD.

TheSaffaGeek

As some people may know I am currently preparing to re-take my VCAP5-DCD and I have reached the point in my preparations now where I am doing mock designs and also going through the labs from the VMware Design Workshop and so I thought I would follow the same idea and start creating a mock customer design scenario and also put down the same vein of questions I am being asked from the design workshop labs and hopefully if people are interested they can use it, write down what design choices,the justifications for these  choices and the impacts these choices create on the rest of the design and hopefully everyone will learn from this. Below is a company profile that I made up and I also used some ideas from a scenario Matt Mould one of my Xtravirt colleagues sent me as few months back:

Company Profile
•    Safe &…

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Example Architectural Decision – HA Admission Control Policy with Software licensing constraints via @josh_odgers

Example Architectural Decision – HA Admission Control Policy with Software licensing constraints via @josh_odgers

CloudXC

High Availability Admission Control Setting & Policy with a Software Licensing Constraint

Problem Statement

The customer has a requirement to virtualize “Application X” which is currently running on physical servers. The customer is licensed for a maximum of 32 cores and the software vendor has strict licensing restrictions which do not recognize the use of DRS rules to restrict virtual machines to a sub-set of hosts within a cluster.

The application is Tier 1, and requires maximum availability. A capacity planner assessment has been conducted and found 32 cores and 256Gb RAM is sufficient to run all servers.

The servers requirements vary greatly from 1vCPU/2GB RAM to 8vCPU/64GB Ram with the bulk of the VMs 2vCPU or less with varying RAM sizes.

What is the most suitable hardware configuration and HA admission control policy / setting  that complies with the licensing restrictions while ensuring N+1 redundancy and minimizing the change…

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VCAP-DCD scheduled, study notes updated.

Well I did it, I scheduled my VCAP-DCD for Tuesday February 26th.  I have a lot I want to cover between now and then and here is what I will be doing.

  • APAC #vBrownBag VCAP-DCD recordings (done but will likely listen to them a few more times)
  • Clustering Deep Dive (about half way done)
  • VMware Press books – storage and building a vDC
  • Mastering vSphere 5 (re-read)
  • DR/BCP course from VMware available on MyLearn

That doesn’t seem like nearly enough as I write it out.

VMware VCP Studdy Notes via Brian Drew (@btdrew)

Thanks for sharing Brian, great notes!

Install ESXi through VMware Go

Since the folks over at the VMware Go team liked my first post so much, I figured I’d oblige and write up an article about how to install ESXi through VMware Go since they tweeted about it before I actually wrote it 🙂

VMware Go, for those that missed the last post, is a cloud based service for small businesses and new VMware admins to help manage and setup their VMware environment.  There are “two” ways to install ESXi from VMware go – by converting an existing Windows server/machine or downloading the ISO and installing manually.  The later isn’t really installing “through” VMware Go but certainly a viable path, and then you can simply add the host once your install is finished.

Once logged into VMware Go, click on the Virtual tab and select Install an ESXi Hypervisor from the drop down menu.

installesxi

Click the Get Started button on the next screen and provide the IP address of the Windows server you wish to convert and click the Next button.

installIP

VMware Go will connect to the IP address of the computer to determine if it is compatible, when prompted enter the username and password for that server.  The machine I tried to install on failed the compatibility check as you can see here:

hardwarefail

Thankfully I am doing this in a VM so one second while I go reconfigure that machine…and we are back and the machine passed the test this time as you can see:

hardwarepass

I popped in my hostname and opted for DHCP config.  Make sure you pay attention to the warning – Windows will be gone!  Make sure you backed up your data, settings etc… if you need anything from this server and click next.  You will see a summary of the actions to be taken.  If you are ready to take the plunge, click the Start ESXi Hypervisor Installation!

startAfter confirming you will blow away your Windows install, you will be prompted for the ESXi password you wish to set, and then need to enter the Windows credentials again.  You can see the task/download/install progress at the top of the screen:

download

Queue on hold music in your head….daaa na na naa naa na.  Less than 20 minutes and a few reboots later I had an ESXi screen where my Windows login screen once appeared and can see the task completed in VMware Go.

taskdone

 

VMware Go was even nice enough to add it to its inventory for me!  So thats it, without ever touching an ISO I nuked my Windows server and turned it into a functional ESXi server!.

Cloud Management of VMware hosts using VMware Go for new admins and SMBs

VMware Go is a is a cloud based management solution for (small) vSphere deployments and includes features such as  the IT Advisor, ESXi and vCenter installation automation and patch/inventory scanning (though my free version is prompting me to upgrade to Go Pro for those right now).

As I am setting up a new lab environment, I thought I would poke around at some of the features.  I did a basic ESXi install leaving all the defaults.  As I drill into the inventory for this host, VMware Go identified two potential configuration problems I should correct – setting an NTP server and changing the IP address.

host

Typically the IP address could be set via the vSphere Client, DCUI or command line and NTP via the DCUI or command line, but VMware Go is targeted (IMO) towards the small business or IT shops with little to no VMware experience so having the ability to set these items via a web interface seems very useful.  Click the Apply NTP Settings button worked flawlessly for the suggested NTP server (you may want to use an internal NTP source in your environment).

ntp

There is an import VM feature, but this only works from a VMware Server instance (VMware on Windows) and since that has long since been out to pasture, not sure how useful that would be.  Being able to communicate with VMware Converter running on the network seems like it would be a more useful feature.  I also have the ability to scan the host for patches, since I installed the latest 5.1 release there were none to install so I downloaded 4.1 Update 2.  Adding the host was again easy and straight forward, though the NTP setting originally threw an error but trying to apply again worked correctly.  Running a patch scan worked as expected this time, I found the missing patches and automated shutting down VMs, putting the host into maintenance mode and rebooting the server.  One thing to remember, these are “updates” not “upgrades” so you cannot bring a 4.1 host up to 5.1 or even bringing a 5.0 hosts up to 5.1.

patches41

One feature I would like to see, especially for the small IT shop who isn’t comfortable managing ESXi directly is the ability to rename the hosts, currently both my hosts are named “localhost” and have the ability to to manage other basic IP settings such as subnet mask, DNS servers and gateways.

If the free version from VMware Go is nothing else, its a great tool to keep your ESXi hosts up to date with latest patches.  As I get further in my lab setup (vCenter etc…) I will write up additional features that are available in VMware Go and activate my VMware Go Pro trial.

vSphere 5.1 syslog collector sum up via @silver_chen_au

Great write up

GeekSilver's Blog

It’s shame that it took me 2 hours to find out why my Syslog Collector is not working. But I would like to share my experience with everyone including how to debug it.

Syslog collector has two parts.

Part running on vCenter

 

Syslog Collector must be installed first.

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It is very important to configure your firewall so your syslog can go through.

the Syslog collector can use 3 different protocol. TCP,UDP,SSL. You can enable all of them.

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make sure you have space for this log collector

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that’s will install plug-in directly into your vCenter.

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Feel free to use your DOMAIN/SERVICE_ACCOUNT to replace local administrator. But you need to make sure that service_account has local admin rights first.

By using different account will make better view in the TASK Manager to see how much memory it consumes.

 

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You can replace SSL certificate with local CA certificate if you really…

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VMFS-5 Heap Size via Nick Fritsch @nfritsch

Nice post Nick, thanks for sharing.

My first written “design” proposal – can you help me rip this design apart?

For the past 12 years I have straddled design, administration and management for various systems including VMware and never having the opportunity to really master any one specific aspect.  As I have decided to focus on VMware design, I am hoping all the VMware gurus can (nicely) rip this apart.  I think my ego is ready for a butt-kicking – its the only way I will get better.  While this first written design happens to be a very basic setup – a small business wanting to have some CAPEX spend before the end of 2012, I’d still love your feedback.  This is also written as part of a proposal, and more detailed documentation would be created as part of the actual implementation.  Dell is the vendor of choice for most (if not all) of the hardware so if you don’t like Dell that is certainly fine but would appreciate your feedback on the high level aspects of what I have written and how I can improve.  Also, storage is intentionally light right now as I am still going back and forth with a few vendors.  Here it goes…

Company X wishes to purchase and implement the necessary servers, storage and networking devices to support their business and future needs, including the ability to host Microsoft Dynamics GreatPlains.  The network will be built on two physical servers with shared storage to support the necessary Windows and VMware Operating Systems.  An initial system design was provided, however updated based on the 12/17/2012 meeting.  This design factors in the ability for additional capacity to support the growth of the company.

Phase 1: Infrastructure Design

The following items needs to be considered as part of the design to ensure performance and availability:

  • Storage
  • Networking
  • VMware Host (ESXi)
  • VMware vCenter
  • Virtual Machines (VMs)
  • Backup and Disaster Recovery
  • Expansion

Requirements:  Provide basic network services (Active Directory, DNS, DHCP) and security (Group Policy) and the capacity to run Microsoft Dynamics GreatPlains during 2013 (possibly during Q2) and support future growth.

Assumptions:  Power, cooling, space and internet access will be provided and available.

Constraints:  While the driving factor is to purchase the best available platform by the end of 2012, budget is a constraint in building a true n+1 configuration.

The current server room may be too small for a server rack and there is currently no dedicated AC to maintain < 70deg F temperature.

Risks:  Several single points of failure including:  internet access, core network switch and storage.  A failure to any of these services may result in extended down time.  There is no generator available, power outages (unplanned or building maintenance) will result in down time.

Current State Analysis:  There is currently a Sonicwall TZ170 Wireless firewall connected to RCN and two unmanaged switches for computers and phones.

Stakeholders:  Owner of Company X and Company Y (a provider of managed services for ongoing support of the environment).

Storage:  A single, 12 drive enclosure will be used connected via iSCSI and a single dedicated switch for iSCSI traffic.

Networking:  A total of 4 switches will be used.  Rather than use a single 48 port POE switch for both phones and computers, 2 separate 24 port switches will be used.  The reason for this change is to provide redundancy in the event of a switch failure.  With a single switch, all connectivity (servers, computers and phones) would be lost, with 2 switches a failure to either the phone or computer switch would not impact the other services.  The server switch is still a single point of failure in this design.

Dell 6224 24 port switches will be used, one each for servers/core networking and one for desktops.  A 6624P 24 port Power Over Ethernet (POE) will be used for phones.  Finally a Dell 5524 24 port switch will be used for storage connectivity to the host servers.

VMware vCenter:  The VMware vCenter appliance will be deployed.  This will eliminate Microsoft Windows licensing requirements and still allow the cluster to grow to up to 5 hosts or 50 virtual machines.  Proposed vSphere licensing will limit the cluster to only 3 hosts.

Cluster:  There will be 2 host configured in the cluster.  DRS will be set to manual due to the small number of virtual machines to reduce complexity not be used as it is not available with this edition of vSphere.  HA will be configured, this will allow for Virtual Machines to be power on by the remaining host should there be a hardware failure.  HA performs a reboot, so there will be a period where services will be unavailable as they are restarted.  Fault Tolerance (FT)  is not available with the proposed edition of vSphere and could be used on VMs with only a single vCPU however FT will not be an option for vCenter, the Microsoft Dynamics GreatPlains application or database server as they require multiple vCPUs.

Virtual Machines (VMs):  The following VMs will be needed at a minimum:

–  2x Windows Servers for Active Directory, DNS, and DHCP

  • Approximate specifications:  Single vCPU, 2GB vRAM, 30GB thin formatted VMDK for OS, single vNIC connected to the VM Network.  Suggest using memory reservation to reduce disk consumption.
  • An additional 166MB of memory is required for Virtual Machine overhead memory.  Should 2 vCPUs and 4GB of vRAM be required, 243MB of overhead memory would be required.

–   1x VMware vCenter Appliance for vCenter

  • Approximate specifications:  Dual vCPU, 8GB vRAM, 60GB thin formatted VMDK, single vNIC connected to the VM Network.  Suggest using memory reservation to reduce disk consumption.
  • An additional 332MB of memory is required for Virtual Machine overhead memory.  Should 16GB of vRAM be required, 509MB of overhead memory would be required.

Because the vCenter appliance will be used, Update Manager will not be available to update the hosts.  Manually patching will be required, however this is manageable because there are only 2 host (maximum of 3 based on proposed vSphere license).

– 1x Windows server for Microsoft Dynamics GreatPlains application remote access

  • Specifications will be dependent on the number of concurrent users running the Dynamics GreatPlains client.
  • Estimated specifications:  Dual vCPU, 8GB vRAM, 30GB think formatted VMDK for OS, 60GB thin formatted VMDK for application installation (exact requirements to be determined with Dynamics consultant)
  • An additional 332MB of memory is required for Virtual Machine overhead memory.  Should 16GB of vRAM be required, 509MB of overhead memory would be required.

– 1x Windows server for Microsoft Dynamics GreatPlains database

  • Specifications will be dependent on the number of concurrent users running the Dynamics GreatPlains client and size of the database
  • Estimated specifications:  Dual vCPU, 8GB vRAM, 30GB think formatted VMDK for OS, 60GB thin formatted VMDK for database installation (exact requirements to be determined with Dynamics consultant).  Additional space may be required based upon the size of the database to store backups.
  • An additional 332MB of memory is required for Virtual Machine overhead memory.  Should 16GB of vRAM be required, 509MB of overhead memory would be required.

VMware Host (ESXi): Two physical servers will be built on Dell PowerEdge R720.  The R720xd was not selected as the increased cost provides additional drive bays which are being moved to an iSCSI storage appliance.

The Dell R720 with the Intel Xeon E50-2600 Series CPU is supported on ESXi 5.1 as of 12/19/2012 on the VMware Hardware Compatibility List (HCL).

The Intel Xeon E5-2620 is recommended; the incremental cost per server is $900 (retail) over the base model CPU and provides two additional processing cores as well as Hyper-Threading.  This processor provides a cost savings of $3533 (retail) over the originally proposed E5-2670.  While there are performance differences, I do not feel  as though these warrant a $3533 price increase per server.

28GB of memory is required for the 5 necessary virtual machines.  An additional 2GB of memory is required to support the VM overhead memory for a total of 30GB required.  Because this is only a 2 host cluster, in order to support running all 5 VMs on a single host I would suggest 32GB of RAM per host.  RDIMMs are suggested because there will be multiple DIMMS per memory channel.  The cost of 16GB of RAM per host would be $320, the cost for 32GB of RAM per host would be $640.  4x 8GB, with 2x 8GB DIMMs per channel (CPU) will be used.

ESXi will be installed and configured locally on each host.  2x 500GB 7200RPM SATA drives will be used.  2x 1TB SATA drives will be added to perform backups of the VMs to each host.  An additional 4 SATA drives can be added per host at a later date to support new storage requirements.  Local storage in each host would be used for archives, one-off backups or other not critical data only.

Typically multiple NICs and switches are used for various functions – management, VM network, vMotion, and FT.  Because FT is not likely to be useful in this environment and because there is only a single server switch in this environment we will setup 3 interfaces – management, VM network and vMotion though all 3 will traverse the same physical switch.  Separate VLANs will be created for the vMotion network to isolate and broadcast traffic that could impact the management and VM network.  Three Broadcom 5720 Dual Port (DP) 1Gb cards are suggested.  While only 1 port will be used initially, the additional ports will already be available should they be needed for increased performance or availability.

One Broadcom 57810 Dual Port (DP) 10Gb card is suggested for iSCSI connectivity as they provide hardware iSCSI offload capabilities.

Licensing:

–  VMware vSphere Essentials Plus Kit for 3 hosts will be used.

  • Maximum number of hosts 3 – each with up to 2 processors.
  • Includes HA, vMotion and VMware Replication
  • Current promotion includes VMware Go Pro for VM patch management.

– Microsoft Windows Standard licenses will be used.

  • As the company grows, suggest investigating Windows Data Center edition license for unlimited Windows VM deployments.

VM Backup and Disaster Recovery:  VMware Data Protection will be used which is part of the vSphere Essentials Plus Kit.  For disaster recovery, the storage appliance can replicate data to a second offsite appliance.

Expansion:  The limiting factor in the current configuration (performance only) will be:

  • Storage and disk I/O per second (IOPS) – Additional VM density per host can be achieved by adding additional storage shelfs and drives.  Also if IOPS becomes a limiting factor, a storage appliance replacement that supports Solid State Disk (SSD) or Serial Attached SCSI (SAS) drives can be performed.
  • Hosts – There are currently only two hosts in this configuration, adding a 3rd would allow for more VMs, greater redundancy and the ability to enable DRS for automatic workload provisioning.
  • Licensing – VMware licensing allows for a third host with up to two processors be added.  Additional licensing will be needed to add more than 3 hosts.
  • Memory – The host are configured with 32GB of memory each.  Assuming both hosts are functional this would allow for additional VMs to be added, however additional memory can be added to each of the host.

vCenter Server Appliance. Part 1 – Configuration and deployment via @jreypo