Category Archives: Hyper-V

How I Made Server 2012 R2 Love Hyper-V 2025

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Introduction

Yes, Windows Server 2012 R2. Me, the most vocal proponent of keeping your environments up to date, to the level I barely have a Windows Server 2022 under my care anymore.

So what gives? Some people spun up a brand-new Windows Server 2025 Hyper-V cluster and migrated a truckload of their virtual machines over. I love modern infrastructure, so this all sounds very good until they reach out with a little issue. About a dozen of their virtual machines do not boot properly, but into the recovery console. My first question was what is the OS on those virtual machines? When the answer is Windows Server 2012 R2, maybe some Windows Server 2016, I had heard all I needed to know to help “fix” this. The real solution is not running those old out-of-support OS versions anymore, but we can “fix” it so your apps keep running while you upgrade or migrate.

Symptoms

Their older but business-critical Windows Server 2012 R2 VMs—and these were Generation 2, UEFI VMs, no less, but did not boot on their shiny new Hyper-V cluster. The migration itself went smoothly, they said, but when they started the virtual machines, the apps did not come up. So they checked the console logs of those virtual machines and saw STOP 0x0000007B: INACCESSIBLE_BOOT_DEVICE errors and recovery consoles. Rebooting did not help at all. This was a solid, reproducible crash loop, exactly at the point where the OS should hand off the bootloader to the kernel and find its disk. If you’ve been in the game for a while, you know that this usually spells one thing: a fundamental storage or bus driver issue. But why now?

The ACPI Identity Crisis

Windows Server 2012 (R2) and Windows Server 2016 are not supported on Windows Server 2025 Hyper-V. Upgrade or migrate before you move them.

This wasn’t just some random corruption. We were looking at a fundamental compatibility issue. To understand why, you need to understand how Hyper-V and the Guest OS communicate during the boot process.

Server 2012 R2 came out in 2013. Hyper-V 2025 is the latest of the greatest at the time of writing. In the decade between those releases, the “hardware signatures” (Hardware IDs, or HWIDs) that Hyper-V presents to a virtual machine have evolved.

In Gen 2 VMs, Windows relies heavily on the ACPI (Advanced Configuration and Power Interface) tables to find its critical components, especially the virtual machine bus (VMBus) and the storage controllers that attach to it.

When 2012 R2 boots, the kernel says, “Okay, ACPI, show me my storage bus.”

The Hyper-V 2025 host says, “Here is your storage bus, its ID is MSFT1000.”

The 2012 R2 kernel looks in its driver database and goes, “MSFT1000? I have no idea who that is. I’m looking for VMBus or nothing.”

Boom. It can’t see the bus, it can’t load the disk driver, and it can’t find itself so it suffers an Inaccessible Boot Device crash. As the guest has no clue what to do.

The “fix” is in some offline registry editing

Since the VM was in a crash loop and couldn’t boot to Windows, we had to perform some offline registry surgery. Luckily for them, the virtual machines could boot into their recovery environments, so they did not have to boot from an ISO to reach a command prompt and access the offline system hive.

We used a combination of reg load to “mount” the system registry from the VM’s disk onto our repair environment, and then some strategic reg copy commands to “spoof” the IDs.

Step by step

  1. Mounting the Hive:
    Code snippet
    reg load HKLM\TempHive c:\Windows\system32\config\SYSTEM

    (This assumes c: is where the VM’s Windows volume is mounted.)
  2. Map the VMBus to MSFT1000
    Code snippet
    reg copy HKLM\TempHive\ControlSet001\Enum\ACPI\VMBus HKLM\TempHive\ControlSet001\Enum\ACPI\MSFT1000 /s

    This is the core fix. We are telling the 2012 R2 system: “Look, if you ever see a device calling itself MSFT1000, don’t ignore it. Duplicate every single setting, driver binding, and service permission you have for ‘VMBus’ and apply it to this new ‘MSFT1000’ identity.” This essentially links the modern host’s ID to the older OS’s native VMBus driver stack.
  3. Mapping the Generation Counter to MSFT1002
    Code snippet
    reg copy HKLM\TempHive\ControlSet001\Enum\ACPI\Hyper_V_Gen_Counter_V1 HKLM\TempHive\ControlSet001\Enum\ACPI\MSFT1002 /s
    This maps the older Hyper_V_Gen_Counter_V1 identity—used for snapshots and consistency—to its modern equivalent on the 2025 host, MSFT1002. This is crucial for making sure integration services load properly.

After these commands, we had to run reg unload HKLM\TempHive to save our changes. We removed the ISO, rebooted, and… Bingo. The Server 2012 R2 boot screen appeared, and the login prompt followed shortly after.

This works because Server 2012 R2 has the necessary VMBus and storage drivers; it just doesn’t know they are compatible with the hardware IDs reported by Hyper-V 2025. This registry trick just creates that necessary driver-to-hardware binding.

But remember that this is an “unsupported” hack! While this gets the VM booting, moving 2012 R2 to newer hosts often means features might be degraded. Microsoft deprecated official support for 2012 R2 guests on modern hosts a while ago. Windows Server 2016 RTM without modern patching will suffer from the same issue, by the way.

Below is a complete script you can copy and paste into CMD.exe in your recovery environment to fix a virtual machine with this issue.

@echo off
echo.
echo ============================================================
echo   Hyper-V 2025 ACPI Fix for Windows Server 2012 R2 / 2016 RTM
echo   - Adds MSFT1000 (VMBus) and MSFT1002 (GenCounter)
echo   - Auto-detects ControlSet
echo   - Creates SYSTEM hive backup
echo ============================================================
echo.

:: --- Step 1: Detect Windows drive ---
echo Detecting Windows installation drive...
set WINDRV=

for %%d in (C D E F G H I J K L M N O P Q R S T U V W X Y Z) do (
    if exist %%d:\Windows\System32\Config\SYSTEM (
        set WINDRV=%%d:
    )
)

if "%WINDRV%"=="" (
    echo ERROR: Could not find Windows installation drive.
    echo Aborting.
    exit /b 1
)

echo Windows installation found on %WINDRV%
echo.

:: --- Step 2: Backup SYSTEM hive ---
echo Creating SYSTEM hive backup...
copy "%WINDRV%\Windows\System32\Config\SYSTEM" "%WINDRV%\Windows\System32\Config\SYSTEM.bak"
if errorlevel 1 (
    echo ERROR: Backup failed. Aborting.
    exit /b 1
)
echo Backup created: SYSTEM.bak
echo.

:: --- Step 3: Load SYSTEM hive ---
echo Loading SYSTEM hive into HKLM\TempHive...
reg load HKLM\TempHive "%WINDRV%\Windows\System32\Config\SYSTEM"
if errorlevel 1 (
    echo ERROR: Failed to load SYSTEM hive. Aborting.
    exit /b 1
)
echo Hive loaded.
echo.

:: --- Step 4: Detect active ControlSet ---
echo Detecting active ControlSet...
for /f "tokens=3" %%a in ('reg query HKLM\TempHive\Select /v Current') do set CS=ControlSet00%%a

if "%CS%"=="" (
    echo ERROR: Could not determine active ControlSet.
    reg unload HKLM\TempHive
    exit /b 1
)

echo Active ControlSet: %CS%
echo.

:: --- Step 5: Apply ACPI fixes ---
echo Applying ACPI fixes...

echo - Cloning VMBus -> MSFT1000
reg copy HKLM\TempHive\%CS%\Enum\ACPI\VMBus HKLM\TempHive\%CS%\Enum\ACPI\MSFT1000 /s /f

echo - Cloning Hyper_V_Gen_Counter_V1 -> MSFT1002
reg copy HKLM\TempHive\%CS%\Enum\ACPI\Hyper_V_Gen_Counter_V1 HKLM\TempHive\%CS%\Enum\ACPI\MSFT1002 /s /f

echo ACPI fixes applied.
echo.

:: --- Step 6: Unload hive ---
echo Unloading SYSTEM hive...
reg unload HKLM\TempHive
echo Hive unloaded.
echo.

echo ============================================================
echo   FIX COMPLETE
echo   You may now reboot the VM.
echo ============================================================
echo.
pause

Better to do this proactively; I have a PowerShell solution on GitHub that also includes the above .cmd script. The Invoke-TestAndFixHyperV2025ReadinessForLegacyVMs.ps1 script can handle virtual machines that are online, before you move them to Hyper-V 2025. https://github.com/WorkingHardInIT/Invoke-TestAndFixHyperV2025ReadinessForLegacyVMs

But I cannot migrate or upgrade yet!

I call bull shit on most of these in 99% of cases. And if it is not bullshit you really need to get your act together and work on fixing your apps/vendors to never allow getting into such a mess in the first place.

Conclusion

Tech debt. You know that thing every IT manager and department is preventing or solving for the last 30 years is still very much around. Despite all that ITIL, risk and change management, or maybe even due to all that talk and very little action.

Sometimes, saving the day isn’t about deploying the latest and greatest tech; it’s about diving into the deepest, darkest corners of the OS and tricking it into working just one more time. There are no guarantees, and this is a ticking time bomb.

I bought these people some time. Now they need to get working! I also kindly suggested they should read their backup vendors’ support statements 😉.

The rejuvenated push for excellence by Veeam for Hyper-V customers

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Introduction

As an observer of the changes in the hypervisor market in 2024 and 2025, you have undoubtedly noted considerable commotion and dissent in the market. I did not have to deal with it as I adopted and specialized in Hyper-V from day one. Even better, I am pleased to see that many more people now have the opportunity to experience Hyper-V and appreciate its benefits.

While the UI management is not as sleek and is more fragmented than that of some competitors, it offers all the necessary features available for free. Additionally, PowerShell automation enables you to create any tooling you desire, tailored to your specific needs. Do that well, and you do not need System Center Virtual Machine Manager for added capabilities. Denying the technical capabilities and excellence of Hyper-V only diminishes the credibility and standing of those who do so in the community.

That has been my approach for many years, running mission-critical, real-time data-sensitive workloads on Hyper-V clusters. So yes, Microsoft could have managed the tooling experience a bit better, and that would have put them in an even better position to welcome converting customers. Despite that, adoption has been rising significantly over the last 18 months and not just in the SME market.

Commotion, fear, uncertainty, and doubt

The hypervisor world commotion has led to people looking at other hypervisors to support their business, either partially or wholesale. The moment you run workloads on a hypervisor, you must be able to protect, manage, move, and restore these workloads when the need to do so arises. Trust me, no matter how blessed you are, that moment comes to us all. The extent to which you can handle it, on a scale from minimal impact to severe impact, depends on the nature of the issue and your preparedness to address it.

Customers with a more diverse hypervisor landscape means that data protection vendors need to support those hypervisors. I think that most people will recognize that developing high-quality software, managing its lifecycle, and supporting it in the real world requires significant investment. So then comes the question, which ones to support? What percentage of customers will go for hypervisor x versus y or z? I leave that challenge to people like Anton Gostev and his team of experts. What I can say is that Hyper-V has taken a significant leap in adoption, as it is a mature and capable platform built and supported by Microsoft.

The second rise of Hyper-V

Over the past 18 months, I have observed a significant increase in the adoption of Hyper-V. And why not? It is a mature and capable platform built and supported by Microsoft. The latter makes moving to it a less stressful choice as the ecosystem and community are large and well-established. I believe that Hyper-V is one of the primary beneficiaries of the hypervisor turmoil. Adoption is experiencing a second, significant rise. For Veeam, this was not a problem. They have provided excellent Hyper-V support for a long time, and I have been a pleased customer, building some of the best and most performant backup fabrics on our chosen hardware.

But who are those customers adopting Hyper-V? Are they small and medium businesses (SME) or managed service providers? Or is Hyper-V making headway with big corporate enterprises as well? Well, neither Microsoft nor Veeam shares such data with me. So, what do I do? Weak to strong signal intelligence! I observe what companies are doing and what they are saying, in combination with what people ask me directly. That has me convinced that some larger corporations have made the move to Hyper-V. Some of the stronger signals came from Veeam.

Current and future Veeam Releases

Let’s look at the more recent releases of Veeam Backup & Replication. With version 12.3, support for Windows Server 2025 arrived very fast after the general availability of that OS. Hyper-V, by the way, is getting all the improvements and new capabilities for Hyper-V just as much as Azure Local. That indicates Microsoft’s interest in making Hyper-V an excellent option for any customer, regardless of how they choose to run it, be it on local storage, with shared storage, on Storage Spaces Direct (S2D), or Azure Local. That is a strong, positive signal compared to previous statements. Naturally, Hyper-V benefits from Veeam’s ongoing efforts to resolve issues, enhance features, and add capabilities, providing the best possible backup fabric for everyone. I will discuss that in later articles.

Now, the strong signal and very positive signal from Veeam regarding Hyper-V came with updates to Veeam Recovery Orchestrator. Firstly, Veeam Recovery Orchestrator 7.2 (released on February 18th, 2025) introduced support for Hyper-V environments. What does that tell me? The nature, size, and number of customers leveraging Hyper-V that need and are willing to pay for Veeam Recovery Orchestrator have grown to a point where Veeam is willing to invest in developing and supporting it. That is new! On the Product Update page, https://community.veeam.com/product-updates/veeam-recovery-orchestrator-7-2-9827, you can find more information. The one requirement that sticks out is the need for System Center Virtual Machine Manager. Look at these key considerations:

  • System Center Virtual Machine Manager (SCVMM) 2022 & CSV storage registered in SCVMM is supported.
  • Direct connections to Hyper-V hosts are not supported.

But not that much later, on July 9th, 2025,  in Veeam Recovery Orchestrator 7.2.1 (see https://community.veeam.com/product-updates/veeam-recovery-orchestrator-7-2-1-10876), we find these significant enhancements:

  1. Support for Azure Local recovery target: You can now use Azure Local as a recovery target for both vSphere and Hyper-V workloads, expanding flexibility and cloud recovery options.
  2. Hyper-V direct-connected cluster support: Extended Hyper-V functionality enables support for direct-connected clusters, eliminating the need for SCVMM. This move simplifies deployment and management for Hyper-V environments.
  3. MFA integration for VRO UI: Multi-Factor Authentication (MFA) can now be enabled to secure logins to the VRO user interface, providing enhanced security and compliance. Microsoft Authenticator and Google Authenticator apps are supported.

Especially 1 and 2 are essential, as they enable Veeam Recovery Orchestrator to support many more Hyper-V customers. Again, this is a strong signal that Hyper-V is making inroads. Enough so for Veeam to invest. Ironically, we have Broadcom to thank for this. Which is why in November 2024, I nominated Broadcom as the clear and unchallenged winner of the “Top Hyper-V Seller Award 2024” (https://www.linkedin.com/posts/didiervanhoye_broadcom-mvpbuzz-hyperv-activity-7257391073910566912-bTTF/)

Conclusion

Hyper-V and Veeam are a potent combination that continues to evolve as market demands change. Twelve years ago, I was testing out Veeam Backup & Replication, and 6 months later, I became a Veeam customer. I am still convinced that for my needs and those of the environments I support, I have made a great choice.

The longevity of the technology, which evolves in response to customer and security needs, is a key factor in determining great technology choices. In that respect, Hyper-V and Veeam have performed exceptionally well, striking multiple bullseye shots without missing a beat. And missing out on the hypervisor drama, we have hit the bullseye once more!

Deploying an OPNsense/pfSense Hyper-V virtual machine

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Introduction

I recently wrote a 3 part series (see part 1, part 2, and part 3) about setting up site-to-site VPNs to Azure using an OPNsense router/firewall appliance. That made me realize some of you would like to learn more about deploying an OPNsense/pfSense Hyper-V virtual machine in your lab or production. In this blog post, using PowerShell, I will start by showing you how to deploy one or more virtual machines that are near perfect to test out a multitude of scenarios with OPNsense. It is really that easy.

Deploying an OPNsense/pfSense Hyper-V virtual machine

Hyper-V virtual switches

I have several virtual switches on my Hyper-V host (or hosts if you are clustering in your lab). One is for connections to my ISP, and the other is for management, which can be (simulated) out-of-band (OOB) or not; that is up to you. Finally, you’ll want one for your workload’s networking needs. In the lab, you can forgo teaming (SET or even classic native teaming) and do whatever suits your capabilities and /or needs.

I can access more production-grade storage, server, and network hardware (DELL, Lenovo, Mellanox/Nvidia) for serious server room or data center work via befriended MVPs and community supporters. So that is where that test work happens.

Images speak louder than a thousand words

Let’s add some images to help you orient your focus on what we are doing. The overview below gives you an idea about the home lab I run. I acquired the network gear through dumpster diving and scavenging around for discards and gifts from befriended companies. The focus is on the required functionality without running up a ridiculous power bill and minimizing noise. The computing hardware is PC-based and actually quite old. I don’t make a truckload of money and try to reduce my CO2 footprint. If you want $$$, you are better in BS roles, and there, expert technical knowledge is only a hindrance.

The grey parts are the permanently running devices. These are one ISP router and what the rest of the home network requires. An OPNsense firewall, some Unifi WAPs, and a managed PoE switch. That provides my workstation with a network for Internet access. It also caters to my IoT, WiFi, and home networking needs, which are unimportant here.

The lab’s green part can be shut down unless I need it for lab scenarios, demos, or learning. Again this saves on the electricity bill and noise.

The blue part of the network is my main workstation and about 28 virtual machines that are not all running. I fire those up when needed. And we’ll focus on this part for the OPNsense needs. What is not shown but which is very important as a Veeam Vanguard is the Veeam Backup & Replication / Veeam ONE part of the lab. That is where I design and test my “radical resilience” Veeam designs.

Flexibility is key

On my stand-alone Hyper-V workstation, I have my daily workhorse and a small data center running all in one box. That helps keep costs down and means that bar the ISP router and permanent home network, I can shut down and cut power to the Barracuda appliance, all switches, the Hyper-V cluster nodes, and the ISCSI storage server when I don’t need them.

If you don’t have those parts in your lab, you need fewer NIC ports in the workstation. You can make the OOB and the LAN vSwitch internal or private, as traffic does not need to leave the host. In that case, one NIC port for your workstation and one for the ISP router will suffice. If you don’t get a public IP from your ISP, you can use a NIC port for an external vSwitch shared with your host.

This gives me a lot of flexibility, and I have chosen to integrate my workstation data center with my hardware components for storage and Hyper-V clustering.

Even with a laptop or a PC with one NIC, you can use the script I share here using internal or private virtual switches. As long as you stay on your host, that will do, with certain limitations of cause.

Three virtual switches

OOB-MGNT: This is attached to a subnet that serves no purpose other than to provide an IP to manage network devices. Appliances like the Kemp Loadmasters, the OPNsense/pfSense/VyOS appliances, physical devices like the switches, the Barracuda firewall, the home router, and other temporary network appliances. It does not participate in any configuration for high availability or in carrying data.

ISP-WAN: This vSwitch has an uplink to the ISP router. Virtual machines attached to it can get a DHCP address from that ISP router, providing internet access over NAT. Alternatively, you can configure it to receive a public IP address from your ISP via DHCP (Cable) or PPoE (VDSL). With some luck, your ISP hands out more than just one. If so, you can test BGP-based dynamic routing with a site-to-site VPN from OPNsense and Azure VWAN.

LAN: The LAN switch is for carrying configuration and workload data. For standard use virtual machines, we configure the VLAN tag on the vNIC settings in the portal or via PowerShell. But network appliances must be able to carry all VLAN traffic. That is why we configure the virtual NICs of the LAN in trunk mode and set the list of allowed VLANs it may carry.

Downloads

OPNsense: https://opnsense.org/download/ (choose the DVD image for the ISO)

pfSense: https://www.pfsense.org/download (choose AMD64 and the DVD image for the ISO)

PowerShell script for deploying an OPNsense/pfSense Hyper-V virtual machine

Change the parameters in the below PowerShell function. Call it by running CreateAppliance. You can parameterize the function at will and leverage it however you see fit. This is just to give you an idea of how to do it and how I configure the settings for the appliance(s).

function CreateAppliance() {
    Clear-Host


    $Title = @"
    ___           _                     _      _               _                     _     _
   /   \___ _ __ | | ___  _   _  /\   /(_)_ __| |_ _   _  __ _| |   /\/\   __ _  ___| |__ (_)_ __   ___
  / /\ / _ \ '_ \| |/ _ \| | | | \ \ / / | '__| __| | | |/ _`  | |  /    \ / _`  |/ __| '_ \| | '_ \ / _ \
 / /_//  __/ |_) | | (_) | |_| |  \ V /| | |  | |_| |_| | (_| | | / /\/\ \ (_| | (__| | | | | | | |  __/
/___,' \___| .__/|_|\___/ \__, |   \_/ |_|_|   \__|\__,_|\__,_|_| \/    \/\__,_|\___|_| |_|_|_| |_|\___|
           |_|            |___/
  __                ___  ___    __                            __      __ __
 / _| ___  _ __    /___\/ _ \/\ \ \___  ___ _ __  ___  ___   / / __  / _/ _\ ___ _ __  ___  ___
| |_ / _ \| '__|  //  // /_)/  \/ / __|/ _ \ '_ \/ __|/ _ \ / / '_ \| |_\ \ / _ \ '_ \/ __|/ _ \
|  _| (_) | |    / \_// ___/ /\  /\__ \  __/ | | \__ \  __// /| |_) |  _|\ \  __/ | | \__ \  __/
|_|  \___/|_|    \___/\/   \_\ \/ |___/\___|_| |_|___/\___/_/ | .__/|_| \__/\___|_| |_|___/\___|
                                                              |_|

"@

    Write-Host -ForegroundColor Green $Title

    filter timestamp { "$(Get-Date -Format "yyyy/MM/dd hh:mm:ss"): $_" }

    VMPrefix $= 'OPNsense-0'
    $Path = "D:\VirtualMachines\"
    $ISOPath = 'D:\VirtualMachines\ISO\OPNsense-23.7-vga-amd64.iso'
    #$ISOPath = 'C:\VirtualMachines\ISO\pfSense-CE-2.7.1-RELEASE-amd64.iso'
    $ISOFile = Split-Path $ISOPath -leaf
    $NumberOfCPUs = 2
    $Memory = 4GB

    $NumberOfVMs = 1 # Handy to create a high available pair or multiple test platforms
    $VMGeneration = 2 # If an apliance supports generation 2, choose this, always! OPNsense, pfSense, Vyos support this.
    $VmVersion = '10.0'  #If you need this VM yo run on older HYper-V hosts choose the version accordingly

    #vSwitches
    $SwitchISP = 'ISP-WAN' #This external vSwitch is connected to the NIC towards ISP router. Not shared with the hyper-V Host
    $SwitchOOBMGNT = 'OOB-MGNT' #This can be a private/internal netwwork or an external one, possibly shared with the host.
    $SwitchLAN = 'LAN' #This can be a private/internal netwwork or an external one, possibly shared with the host.

    #vNICs and if applicable their special configuration.
    $WAN1 = 'WAN1'
    $WAN2 = 'WAN1'
    $OOBorMGNT = 'OOB'
    $LAN1 = 'LAN1'
    $LAN1TrunkList = "1-2048"
    $LAN2 = 'LAN2'
    $LAN2TrunkList = "1-2048"

    write-host -ForegroundColor green -Object ("Starting deployment of your appliance(s)." | timestamp)
    ForEach ($Counter in 1..$NumberOfVMs) {
        $VMName = $VMPrefix + 1

        try {
            Get-VM -Name $VMName -ErrorAction Stop | Out-Null
            Write-Host -ForegroundColor red ("The machine $VMName already exists. We are not creating it" | timestamp)
            exit
        }
        catch {
            $NewVhdPath = "$Path\$VMName\Virtual Hard Disks\$VMName-OS.vhdx" 
            If ( Test-Path -Path $NewVhdPath) {
                Write-host ("$NewVhdPath allready exists. Clean this up or specify a new location to create the VM." | timestamp)
            }
            else {
                Write-Host -ForegroundColor Cyan ("Creating VM $VMName in $Path ..." | timestamp)
                New-VM -Name $VMName -path $Path -NewVHDPath $NewVhdPath
                -NewVHDSizeBytes 64GB -Version $VmVersion -Generation $VMGeneration -MemoryStartupBytes $Memory | out-null

                Write-Host -ForegroundColor Cyan ("Setting VM $VMName its number of CPUs to $NumberOfCPUs ..." | timestamp)
                Set-VMProcessor –VMName $VMName –count 2

                #Get rid of the default network adapter -renaning would also be an option
                Remove-VMNetworkAdapter -VMName $VMName -Name 'Network Adapter'

                Write-Host -ForegroundColor Magenta ("Adding Interfaces WAN1, WAN2, OOBMGNT, LAN1 & LAN2 to $VMName" | timestamp)
                write-host -ForegroundColor yellow -Object ("Creating $WAN1 Interface" | timestamp)
                #For first ISP uplink
                Add-VMNetworkAdapter -VMName $vmName -Name $WAN1 -SwitchName $SwitchISP
                write-host -ForegroundColor green -Object ("Created $WAN1 Interface succesfully" | timestamp)

                write-host -ForegroundColor yellow -Object ("Creating $WAN2 Interface" | timestamp)
                #For second ISP uplink
                Add-VMNetworkAdapter -VMName $vmName -Name $WAN2 -SwitchName $SwitchISP
                write-host -ForegroundColor green -Object ("Created $WAN2 Interface succesfully" | timestamp)

                write-host -ForegroundColor yellow -Object ("Creating $OOBorMGNT Interface" | timestamp)
                #Management Interface - This can be OOB if you want. Do note by default the appliance route to this interface.
                Add-VMNetworkAdapter -VMName $vmName -Name $OOBorMGNT  -SwitchName $SwitchOOBMGNT #For management network (LAN in OPNsense terminology - rename it there to OOB or MGNT as well - I don't use a workload network for this)
                write-host -ForegroundColor green -Object ("Created $OOBorMGNT Interface succesfully" | timestamp)

                write-host -ForegroundColor yellow -Object ("Creating $LAN1 Interface" | timestamp)
                #For workload network (for the actual network traffic of the VMs.)
                Add-VMNetworkAdapter -VMName $vmName -Name $LAN1 -SwitchName $SwitchLAN
                write-host -ForegroundColor green -Object ("Created $LAN1 Interface succesfully" | timestamp)

                write-host -ForegroundColor yellow -Object ("Creating $LAN2 Interface" | timestamp)
                #For workload network (for the actual network traffic of the VMs. he second one is optional but useful in labs scenarios.)
                Add-VMNetworkAdapter -VMName $vmName -Name $LAN2 -SwitchName $SwitchLAN
                write-host -ForegroundColor green -Object ("Created $LAN2 Interface succesfully" | timestamp)

                Write-Host -ForegroundColor Magenta ("Setting custom configuration top the Interface (trunking, allowed VLANs, native VLAN ..." | timestamp)
                #Allow all VLAN IDs we have in use on the LAN interfaces of the firewall/router. The actual config of VLANs happens on the appliance.
                write-host -ForegroundColor yellow -Object ("Set $LAN1 Interface to Trunk mode and allow VLANs $LAN1TrunkList with native VLAN = 0" | timestamp)
                Set-VMNetworkAdapterVlan -VMName $vmName -VMNetworkAdapterName $LAN1 -Trunk -AllowedVlanIdList $LAN1TrunkList -NativeVlanId 0
                write-host -ForegroundColor green -Object ("The $LAN1 Interface is now in Trunk mode and allows VLANs $LAN1TrunkList with native VLAN = 0" | timestamp)
                write-host -ForegroundColor yellow -Object ("Set $LAN2 Interface to Trunk mode and allow VLANs $LAN2TrunkList with native VLAN = 0" | timestamp)
                Set-VMNetworkAdapterVlan -VMName $vmName -VMNetworkAdapterName $LAN2 -Trunk -AllowedVlanIdList $LAN2TrunkList -NativeVlanId 0
                write-host -ForegroundColor green -Object ("The $LAN2 Interface is now in Trunk mode and allows VLANs $LAN2TrunkList with native VLAN = 0" | timestamp)

                Write-Host -ForegroundColor Magenta ("Adding DVD Drive, mounting appliance ISO, setting it to boot first" | timestamp)
                Write-Host -ForegroundColor yellow ("Adding DVD Drive to $VMName"  | timestamp)
                Add-VMDvdDrive -VMName $VMName -ControllerNumber 0 -ControllerLocation 8
                write-host -ForegroundColor green -Object ("Succesfully addded the DVD Drive." | timestamp)
                Write-Host -ForegroundColor yellow ("Mounting $ISOPath to DVD Drive on $VMName" | timestamp)
                Set-VMDvdDrive -VMName $VMName -Path $ISOPath
                write-host -ForegroundColor green -Object ("Mounted $ISOFile." | timestamp)
                Write-Host -ForegroundColor yellow  ("Setting DVD with $ISOPath as first boot device on $VMName and disabling secure boot"  | timestamp)
                $DVDWithOurISO = ((Get-VMFirmware -VMName $VMName).BootOrder | Where-Object Device -like *DVD*).Device
                #I am optimistic and set the secure boot template to what it most likely will be if they ever support it :-)
                Set-VMFirmware -VMName $VMName -FirstBootDevice $DVDWithOurISO `
                    -EnableSecureBoot Off -SecureBootTemplate MicrosoftUEFICertificateAuthority
                write-host -ForegroundColor green -Object ("Set vDVD with as the first boot device and disabled secure boot." | timestamp)
                $VM = Get-VM $VMName
                write-Host -ForegroundColor Cyan ("Virtual machine $VM  has been created."  | timestamp)
            }
        }
    }
    write-Host -ForegroundColor Green "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++"
    write-Host -ForegroundColor Green "You have created $NumberOfVMs virtual appliance(s) with each two WAN ports, a Management port and
    two LAN ports. The chosen appliance ISO is loaded in the DVD as primary boot device, ready to install."
    write-Host -ForegroundColor Green "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++"
}
#Run by calling
CreateAppliance

Conclusion

Deploying an OPNsense/pfSense Hyper-V virtual machine is easy. You can have one or more of them up and running in less seconds. For starters, it will take longer to download the ISOs for installing OPNsense or pfSense than to create the virtual machine.

Finally, the virtual machine configuration allows for many lab scenarios, demos, and designs. As such, they provide your lab with all the capabilities and flexibilities you need for learning, testing, validating designs, and troubleshooting.

Create virtual machines for a Veeam hardened repository lab

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Introduction

In this blog post, I will give you a script to create virtual machines for a Veeam hardened repository lab.

Create virtual machines for a Veeam hardened repository lab
The script has just created two virtual machines for you

Some of you have asked me to do some knowledge transfer about configuring a Veeam hardened repository. For lab work virtualization is your friend. I hope to show you some of the Ubuntu Linux configurations I do. When time permits I will blog about this and you can follow along. I will share what I can on my blog.

Running the script

Now, if you have Hyper-V running on a lab node or on your desktop or laptop you can create virtual machines for a Veeam hardened repository lab with the PowerShell script below. Just adjust the parameters and make sure you have the Ubuntu 20.04 Server ISO in the right place. The script creates the virtual machine configuration files under a folder with the name of the virtual machine in the path you specify in the variables The VM it creates will boot into the Ubuntu setup and we can walk through it and configure it.

Pay attention to the -version of the virtual machine. I run Windows Server 2022 and Windows 11 on my PCs so you might need to adjust that to a version your Hyper-V installation supports.

Also, pay attention to the VLAN IDs used. That suits my lab network. It might not suit yours. Use VLAN ID 0 to disable the VLAN identifier on a NIC.

Clear-Host
$VMPrefix = 'AAAA-XFSREPO-0'
$Path = "D:\VirtualMachines\"
$ISOPath = 'D:\VirtualMachines\ISO\ubuntu-20.04.4-live-server-amd64.iso'
$NumberOfCPUs = 2
$Memory = 4GB
$vSwitch = 'DataWiseTech'
$NumberOfVMs = 2
$VlanIdTeam = 2
$VlanIDSMB1 = 40
$VlanIdSMB2 = 50
$VmVersion = '10.0'

ForEach ($Counter in 1..$NumberOfVMs) {
    $VMName = $VMPrefix + $Counter
    $DataDisk01Path = "$Path$VMName\Virtual Hard Disks\$VMName-DATA01.vhdx"
    $DataDisk02Path = "$Path$VMName\Virtual Hard Disks\$VMName-DATA02.vhdx"
    Write-Host -ForegroundColor Cyan "Creating VM $VMName in $Path ..."
    New-VM -Name $VMName -path $Path -NewVHDPath "$Path$VMName\Virtual Hard Disks\$VMName-OS.vhdx" `
        -NewVHDSizeBytes 65GB -Version 10.0 -Generation 2 -MemoryStartupBytes $Memory -SwitchName $vSwitch| out-null

    Write-Host -ForegroundColor Cyan "Setting VM $VMName its number of CPUs to $NumberOfCPUs ..."
    Set-VMProcessor –VMName $VMName –count 2

    Write-Host -ForegroundColor Magenta "Adding NICs LAN-HOST01, LAN-HOST02, SMB1 and SMB2 to $VMName"
    #Remove-VMNetworkAdapter -VMName $VMName -Name 'Network Adapter'

    Rename-VMNetworkAdapter -VMName $VMName -Name 'Network Adapter' -NewName LAN-HOST-01
    #Connect-VMNetworkAdapter -VMName $VMName -Name LAN -SwitchName $vSwitch
    Add-VMNetworkAdapter -VMName $VMName -SwitchName DataWiseTech -Name LAN-HOST-02 -DeviceNaming On
    Add-VMNetworkAdapter -VMName $VMName -SwitchName $vSwitch -Name SMB1 -DeviceNaming On
    Add-VMNetworkAdapter -VMName $VMName -SwitchName $vSwitch -Name SMB2 -DeviceNaming On
    
    Write-Host -ForegroundColor Magenta "Assigning VLANs to NICs LAN-HOST01, LAN-HOST02, SMB1 and SMB2 to $VMName"
    Set-VMNetworkAdapterVlan -VMName $VMName -VMNetworkAdapterName LAN-HOST-01 -Access -VLANId $VlanIdTeam
    Set-VMNetworkAdapterVlan -VMName $VMName -VMNetworkAdapterName LAN-HOST-02 -Access -VLANId $VlanIdTeam  
    Set-VMNetworkAdapterVlan -VMName $VMName -VMNetworkAdapterName SMB1 -Access -VLANId $VlanIdSMB1
    Set-VMNetworkAdapterVlan -VMName $VMName -VMNetworkAdapterName SMB2 -Access -VLANId $VlanIdSmb2

    Set-VMNetworkAdapter -VMName $VMName -Name LAN-HOST-01 -DhcpGuard On -RouterGuard On -DeviceNaming On -MacAddressSpoofing On -AllowTeaming On
    Set-VMNetworkAdapter -VMName $VMName -Name LAN-HOST-02 -DhcpGuard On -RouterGuard On -MacAddressSpoofing On -AllowTeaming On
    Set-VMNetworkAdapter -VMName $VMName -Name SMB1 -DhcpGuard On -RouterGuard On -MacAddressSpoofing Off -AllowTeaming off
    Set-VMNetworkAdapter -VMName $VMName -Name SMB2 -DhcpGuard On -RouterGuard On -MacAddressSpoofing Off -AllowTeaming off

    Write-Host -ForegroundColor yellow "Adding DVD Drive to $VMName"
    Add-VMDvdDrive -VMName $VMName -ControllerNumber 0 -ControllerLocation 8 

    Write-Host -ForegroundColor yellow "Mounting $ISOPath to DVD Drive on $VMName"
    Set-VMDvdDrive -VMName $VMName -Path $ISOPath

    Write-Host -ForegroundColor White "Setting DVD with $ISOPath as first boot device on $VMName"
    $DVDWithOurISO = ((Get-VMFirmware -VMName $VMName).BootOrder | Where-Object Device -like *DVD*).Device
    
    Set-VMFirmware -VMName $VMName -FirstBootDevice $DVDWithOurISO `
    -EnableSecureBoot On -SecureBootTemplate MicrosoftUEFICertificateAuthority

    Write-Host -ForegroundColor Cyan "Creating two data disks and adding them to $VMName"
    New-VHD -Path $DataDisk01Path -Dynamic -SizeBytes 150GB | out-null
    New-VHD -Path $DataDisk02Path -Dynamic -SizeBytes 150GB | out-null

    Add-VMHardDiskDrive -VMName $VMName -ControllerNumber 0 `
    -ControllerLocation 1 -ControllerType SCSI  -Path $DataDisk01Path

    Add-VMHardDiskDrive -VMName $VMName -ControllerNumber 0 `
    -ControllerLocation 2 -ControllerType SCSI  -Path $DataDisk02Path

    $VM = Get-VM $VMName 
    write-Host "VM $VM  has been created" -ForegroundColor green
    write-Host ""
}

Conclusion

In conclusion, that’s it for now. Play with the script and you will create virtual machines for a Veeam hardened repository lab in no time. That way you are ready to test and educate yourself. Don’t forget that you need to have sufficient resources on your host. Virtualization is cool but it is not magic.

Some of the settings won’t make sense to some of you, but during the future post, this will become clear. These are specific to Ubuntu networking on Hyper-V.

I hope to publish the steps I take in the coming months. As with many, time is my limiting factor so have patience. In the meanwhile, you read up about the Veeam hardened repository.