DSCResources/MSFT_xVMHyperV/MSFT_xVMHyperV.psm1
# Fallback message strings in en-US DATA localizedData { # culture = "en-US" ConvertFrom-StringData @' RoleMissingError = Please ensure that '{0}' role is installed with its PowerShell module. MoreThanOneVMExistsError = More than one VM with the name '{0}' exists. PathDoesNotExistError = Path '{0}' does not exist. VhdPathDoesNotExistError = Vhd '{0}' does not exist. MinMemGreaterThanStartupMemError = MinimumMemory '{0}' should not be greater than StartupMemory '{1}' MinMemGreaterThanMaxMemError = MinimumMemory '{0}' should not be greater than MaximumMemory '{1}' StartUpMemGreaterThanMaxMemError = StartupMemory '{0}' should not be greater than MaximumMemory '{1}'. VhdUnsupportedOnGen2VMError = Generation 2 virtual machines do not support the .VHD virtual disk extension. CannotUpdatePropertiesOnlineError = Can not change properties for VM '{0}' in '{1}' state unless 'RestartIfNeeded' is set to true. AdjustingGreaterThanMemoryWarning = VM {0} '{1}' is greater than {2} '{3}'. Adjusting {0} to be '{3}'. AdjustingLessThanMemoryWarning = VM {0} '{1}' is less than {2} '{3}'. Adjusting {0} to be '{3}'. VMStateWillBeOffWarning = VM '{0}' state will be 'OFF' and not 'Paused'. CheckingVMExists = Checking if VM '{0}' exists ... VMExists = VM '{0}' exists. VMDoesNotExist = VM '{0}' does not exist. CreatingVM = Creating VM '{0}' ... VMCreated = VM '{0}' created. VMPropertyShouldBe = VM property '{0}' should be '{1}', actual '{2}'. VMPropertySet = VM property '{0}' is '{1}'. VMPropertiesUpdated = VM '{0}' properties have been updated. WaitingForVMIPAddress = Waiting for IP Address for VM '{0}' ... '@ } # Import the common HyperV functions Import-Module -Name ( Join-Path ` -Path (Split-Path -Path $PSScriptRoot -Parent) ` -ChildPath '\HyperVCommon\HyperVCommon.psm1' ) function Get-TargetResource { [CmdletBinding()] [OutputType([System.Collections.Hashtable])] param ( [Parameter(Mandatory = $true)] [System.String] $Name, [Parameter(Mandatory = $true)] [System.String] $VhdPath ) # Check if Hyper-V module is present for Hyper-V cmdlets if(!(Get-Module -ListAvailable -Name Hyper-V)) { Throw ($localizedData.RoleMissingError -f 'Hyper-V') } $vmobj = Get-VM -Name $Name -ErrorAction SilentlyContinue # Check if 1 or 0 VM with name = $name exist if($vmobj.count -gt 1) { Throw ($localizedData.MoreThanOneVMExistsError -f $Name) } # Retrieve the Vhd hierarchy to ensure we enumerate snapshots/differencing disks # Fixes #28 $vhdChain = @(Get-VhdHierarchy -VhdPath ($vmObj.HardDrives[0].Path)) $vmSecureBootState = $false if ($vmobj.Generation -eq 2) { # Retrieve secure boot status (can only be enabled on Generation 2 VMs) and convert to a boolean. $vmSecureBootState = ($vmobj | Get-VMFirmware).SecureBoot -eq 'On' } $guestServiceId = 'Microsoft:{0}\6C09BB55-D683-4DA0-8931-C9BF705F6480' -f $vmObj.Id @{ Name = $Name ## Return the Vhd specified if it exists in the Vhd chain VhdPath = if ($vhdChain -contains $VhdPath) { $VhdPath }; SwitchName = $vmObj.NetworkAdapters.SwitchName State = $vmobj.State Path = $vmobj.Path Generation = $vmobj.Generation SecureBoot = $vmSecureBootState StartupMemory = $vmobj.MemoryStartup MinimumMemory = $vmobj.MemoryMinimum MaximumMemory = $vmobj.MemoryMaximum MACAddress = $vmObj.NetWorkAdapters.MacAddress ProcessorCount = $vmobj.ProcessorCount Ensure = if($vmobj){"Present"}else{"Absent"} ID = $vmobj.Id Status = $vmobj.Status CPUUsage = $vmobj.CPUUsage MemoryAssigned = $vmobj.MemoryAssigned Uptime = $vmobj.Uptime CreationTime = $vmobj.CreationTime HasDynamicMemory = $vmobj.DynamicMemoryEnabled NetworkAdapters = $vmobj.NetworkAdapters.IPAddresses EnableGuestService = ($vmobj | Get-VMIntegrationService | Where-Object -FilterScript {$_.Id -eq $guestServiceId}).Enabled } } function Set-TargetResource { [CmdletBinding()] param ( # Name of the VM [Parameter(Mandatory = $true)] [String] $Name, # VHD associated with the VM [Parameter(Mandatory = $true)] [String] $VhdPath, # Virtual switch associated with the VM [Parameter()] [String[]] $SwitchName, # State of the VM [Parameter()] [ValidateSet('Running','Paused','Off')] [String] $State, # Folder where the VM data will be stored [Parameter()] [String] $Path, # Virtual machine generation [Parameter()] [ValidateRange(1,2)] [UInt32] $Generation = 1, # Startup RAM for the VM [Parameter()] [ValidateRange(32MB,65536MB)] [UInt64] $StartupMemory, # Minimum RAM for the VM. This enables dynamic memory [Parameter()] [ValidateRange(32MB,65536MB)] [UInt64] $MinimumMemory, # Maximum RAM for the VM. This enables dynamic memory [Parameter()] [ValidateRange(32MB,1048576MB)] [UInt64] $MaximumMemory, # MAC address of the VM [Parameter()] [String[]] $MACAddress, # Processor count for the VM [Parameter()] [UInt32] $ProcessorCount, # Waits for VM to get valid IP address [Parameter()] [Boolean] $WaitForIP, # If specified, shutdowns and restarts the VM as needed for property changes [Parameter()] [Boolean] $RestartIfNeeded, # Should the VM be created or deleted [Parameter()] [ValidateSet('Present','Absent')] [String] $Ensure = 'Present', [Parameter()] [System.String] $Notes, # Enable secure boot for Generation 2 VMs [Parameter()] [Boolean] $SecureBoot = $true, # Enable Guest Services [Parameter()] [Boolean] $EnableGuestService = $false ) # Check if Hyper-V module is present for Hyper-V cmdlets if(!(Get-Module -ListAvailable -Name Hyper-V)) { Throw ($localizedData.RoleMissingError -f 'Hyper-V') } Write-Verbose -Message ($localizedData.CheckingVMExists -f $Name) $vmObj = Get-VM -Name $Name -ErrorAction SilentlyContinue # VM already exists if($vmObj) { Write-Verbose -Message ($localizedData.VMExists -f $Name) # If VM shouldn't be there, stop it and remove it if($Ensure -eq "Absent") { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'Ensure', $Ensure, 'Present') Get-VM $Name | Stop-VM -Force -Passthru -WarningAction SilentlyContinue | Remove-VM -Force Write-Verbose -Message ($localizedData.VMPropertySet -f 'Ensure', $Ensure) } # If VM is present, check its state, startup memory, minimum memory, maximum memory,processor countand mac address # One cannot set the VM's vhdpath, path, generation and switchName after creation else { # If state has been specified and the VM is not in right state, set it to right state if($State -and ($vmObj.State -ne $State)) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'State', $State, $vmObj.State) Set-VMState -Name $Name -State $State -WaitForIP $WaitForIP Write-Verbose -Message ($localizedData.VMPropertySet -f 'State', $State) } $changeProperty = @{} # If the VM does not have the right startup memory if($StartupMemory -and ($vmObj.MemoryStartup -ne $StartupMemory)) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'MemoryStartup', $StartupMemory, $vmObj.MemoryStartup) $changeProperty["MemoryStartup"]=$StartupMemory } elseif($MinimumMemory -and ($vmObj.MemoryStartup -lt $MinimumMemory)) { Write-Verbose -Message ($localizedData.AdjustingLessThanMemoryWarning -f 'StartupMemory', $vmObj.MemoryStartup, 'MinimumMemory', $MinimumMemory) $changeProperty["MemoryStartup"]=$MinimumMemory } elseif($MaximumMemory -and ($vmObj.MemoryStartup -gt $MaximumMemory)) { Write-Verbose -Message ($localizedData.AdjustingGreaterThanMemoryWarning -f 'StartupMemory', $vmObj.MemoryStartup, 'MaximumMemory', $MaximumMemory) $changeProperty["MemoryStartup"]=$MaximumMemory } # If the VM does not have the right minimum or maximum memory, stop the VM, set the right memory, start the VM if($MinimumMemory -or $MaximumMemory) { $changeProperty["DynamicMemory"]=$true if($MinimumMemory -and ($vmObj.Memoryminimum -ne $MinimumMemory)) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'MinimumMemory', $MinimumMemory, $vmObj.MemoryMinimum) $changeProperty["MemoryMinimum"]=$MinimumMemory } if($MaximumMemory -and ($vmObj.Memorymaximum -ne $MaximumMemory)) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'MaximumMemory', $MaximumMemory, $vmObj.MemoryMaximum) $changeProperty["MemoryMaximum"]=$MaximumMemory } } # If the VM does not have the right processor count, stop the VM, set the right memory, start the VM if($ProcessorCount -and ($vmObj.ProcessorCount -ne $ProcessorCount)) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'ProcessorCount', $ProcessorCount, $vmObj.ProcessorCount) $changeProperty["ProcessorCount"]=$ProcessorCount } # Stop the VM, set the right properties, start the VM only if there are properties to change if ($changeProperty.Count -gt 0) { Set-VMProperty -Name $Name -VMCommand "Set-VM" -ChangeProperty $changeProperty -WaitForIP $WaitForIP -RestartIfNeeded $RestartIfNeeded Write-Verbose -Message ($localizedData.VMPropertiesUpdated -f $Name) } ## Set VM network switches. This can be done while the VM is running. for ($i = 0; $i -lt $SwitchName.Count; $i++) { $switch = $SwitchName[$i] $nic = $vmObj.NetworkAdapters[$i] if ($nic) { ## We cannot change the MAC address whilst the VM is running.. This is changed later if ($nic.SwitchName -ne $switch) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'NIC', $switch, $nic.SwitchName) $nic | Connect-VMNetworkAdapter -SwitchName $switch Write-Verbose -Message ($localizedData.VMPropertySet -f 'NIC', $switch) } } else { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'NIC', $switch, '<missing>') if ($MACAddress -and (-not [System.String]::IsNullOrEmpty($MACAddress[$i]))) { Add-VMNetworkAdapter -VMName $Name -SwitchName $switch -StaticMacAddress $MACAddress[$i] Write-Verbose -Message ($localizedData.VMPropertySet -f 'NIC', $switch) } else { Add-VMNetworkAdapter -VMName $Name -SwitchName $switch Write-Verbose -Message ($localizedData.VMPropertySet -f 'NIC', $switch) } ## Refresh the NICs after we've added one $vmObj = Get-VM -Name $Name -ErrorAction SilentlyContinue } } # If the VM does not have the right MACAddress, stop the VM, set the right MACAddress, start the VM for ($i = 0; $i -lt $MACAddress.Count; $i++) { $address = $MACAddress[$i] $nic = $vmObj.NetworkAdapters[$i] if ($nic.MacAddress -ne $address) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'MACAddress', $address, $nic.MacAddress) Set-VMMACAddress -Name $Name -NICIndex $i -MACAddress $address -WaitForIP $WaitForIP -RestartIfNeeded $RestartIfNeeded } } if ($Generation -eq 2) { # Retrive the current secure boot state $vmSecureBoot = Test-VMSecureBoot -Name $Name if ($SecureBoot -ne $vmSecureBoot) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'SecureBoot', $SecureBoot, $vmSecureBoot) if (-not $SecureBoot) { $enableSecureBoot = 'On' } else { $enableSecureBoot = 'Off' } # Cannot change the secure boot state whilst the VM is powered on. $setVMPropertyParams = @{ VMName = $Name VMCommand = 'Set-VMFirmware' ChangeProperty = @{ EnableSecureBoot = $enableSecureBoot } RestartIfNeeded = $RestartIfNeeded } Set-VMProperty @setVMPropertyParams Write-Verbose -Message ($localizedData.VMPropertySet -f 'SecureBoot', $SecureBoot) } } if($Notes -ne $null) { # If the VM notes do not match the desire notes, update them. This can be done while the VM is running. if($vmObj.Notes -ne $Notes) { Set-Vm -Name $Name -Notes $Notes } } # If the VM doesn't have Guest Service Interface correctly configured, update it. $guestServiceId = 'Microsoft:{0}\6C09BB55-D683-4DA0-8931-C9BF705F6480' -f $vmObj.Id $guestService = $vmObj | Get-VMIntegrationService | Where-Object -FilterScript {$_.Id -eq $guestServiceId} if ($guestService.Enabled -eq $false -and $EnableGuestService) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'EnableGuestService', $EnableGuestService, $guestService.Enabled) $guestService | Enable-VMIntegrationService Write-Verbose -Message ($localizedData.VMPropertySet -f 'EnableGuestService', $EnableGuestService) } elseif ($guestService.Enabled -and -not $EnableGuestService) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'EnableGuestService', $EnableGuestService, $guestService.Enabled) $guestService | Disable-VMIntegrationService Write-Verbose -Message ($localizedData.VMPropertySet -f 'EnableGuestService', $EnableGuestService) } } } # VM is not present, create one else { Write-Verbose -Message ($localizedData.VMDoesNotExist -f $Name) if($Ensure -eq "Present") { Write-Verbose -Message ($localizedData.CreatingVM -f $Name) $parameters = @{} $parameters["Name"] = $Name $parameters["VHDPath"] = $VhdPath $parameters["Generation"] = $Generation # Optional parameters if($SwitchName) { $parameters["SwitchName"]=$SwitchName[0] } if($Path){$parameters["Path"]=$Path} $defaultStartupMemory = 512MB if($StartupMemory){$parameters["MemoryStartupBytes"]=$StartupMemory} elseif($MinimumMemory -and $defaultStartupMemory -lt $MinimumMemory){$parameters["MemoryStartupBytes"]=$MinimumMemory} elseif($MaximumMemory -and $defaultStartupMemory -gt $MaximumMemory){$parameters["MemoryStartupBytes"]=$MaximumMemory} $null = New-VM @parameters $parameters = @{} $parameters["Name"] = $Name if($MinimumMemory -or $MaximumMemory) { $parameters["DynamicMemory"]=$true if($MinimumMemory){$parameters["MemoryMinimumBytes"]=$MinimumMemory} if($MaximumMemory){$parameters["MemoryMaximumBytes"]=$MaximumMemory} } if($Notes) { $parameters["Notes"] = $Notes } if($ProcessorCount) { $parameters["ProcessorCount"]=$ProcessorCount } $null = Set-VM @parameters ## There's always a NIC added with New-VM if($MACAddress) { Set-VMNetworkAdapter -VMName $Name -StaticMacAddress $MACAddress[0] } ## Add additional NICs for ($i = 1; $i -lt $SwitchName.Count; $i++) { $addVMNetworkAdapterParams = @{ VMName = $Name; SwitchName = $SwitchName[$i] } if ($MACAddress -and (-not [System.String]::IsNullOrEmpty($MACAddress[$i]))) { $addVMNetworkAdapterParams['StaticMacAddress'] = $MACAddress[$i] } Add-VMNetworkAdapter @addVMNetworkAdapterParams Write-Verbose -Message ($localizedData.VMPropertySet -f 'NIC', $SwitchName[$i]) } if ($Generation -eq 2) { # Secure boot is only applicable to Generation 2 VMs and it defaults to on. # Therefore, we only need to explicitly set it to off if specified. if ($SecureBoot -eq $false) { Set-VMFirmware -VMName $Name -EnableSecureBoot Off } } if ($EnableGuestService) { $guestServiceId = 'Microsoft:{0}\6C09BB55-D683-4DA0-8931-C9BF705F6480' -f (Get-VM -Name $Name).Id Get-VMIntegrationService -VMName $Name | Where-Object -FilterScript {$_.Id -eq $guestServiceId} | Enable-VMIntegrationService } Write-Verbose -Message ($localizedData.VMCreated -f $Name) if ($State) { Set-VMState -Name $Name -State $State -WaitForIP $WaitForIP Write-Verbose -Message ($localizedData.VMPropertySet -f 'State', $State) } } } } function Test-TargetResource { [CmdletBinding()] [OutputType([System.Boolean])] param ( # Name of the VM [Parameter(Mandatory = $true)] [String] $Name, # VHD associated with the VM [Parameter(Mandatory = $true)] [String] $VhdPath, # Virtual switch associated with the VM [Parameter()] [String[]] $SwitchName, # State of the VM [Parameter()] [ValidateSet('Running','Paused','Off')] [String] $State, # Folder where the VM data will be stored [Parameter()] [String] $Path, # Virtual machine generation [Parameter()] [ValidateRange(1,2)] [UInt32] $Generation = 1, # Startup RAM for the VM [Parameter()] [ValidateRange(32MB,65536MB)] [UInt64] $StartupMemory, # Minimum RAM for the VM. This enables dynamic memory [Parameter()] [ValidateRange(32MB,65536MB)] [UInt64] $MinimumMemory, # Maximum RAM for the VM. This enables dynamic memory [Parameter()] [ValidateRange(32MB,1048576MB)] [UInt64] $MaximumMemory, # MAC address of the VM [Parameter()] [String[]] $MACAddress, # Processor count for the VM [Parameter()] [UInt32] $ProcessorCount, # Waits for VM to get valid IP address [Parameter()] [Boolean] $WaitForIP, # If specified, shutdowns and restarts the VM as needed for property changes [Parameter()] [Boolean] $RestartIfNeeded, # Should the VM be created or deleted [Parameter()] [ValidateSet('Present','Absent')] [String] $Ensure = 'Present', [Parameter()] [System.String] $Notes, # Enable secure boot for Generation 2 VMs [Parameter()] [Boolean] $SecureBoot = $true, [Parameter()] [Boolean] $EnableGuestService = $false ) #region input validation # Check if Hyper-V module is present for Hyper-V cmdlets if(!(Get-Module -ListAvailable -Name Hyper-V)) { Throw ($localizedData.RoleMissingError -f 'Hyper-V') } # Check if 1 or 0 VM with name = $name exist if((Get-VM -Name $Name -ErrorAction SilentlyContinue).count -gt 1) { Throw ($localizedData.MoreThanOneVMExistsError -f $Name) } # Check if $VhdPath exist if(!(Test-Path $VhdPath)) { Throw ($localizedData.VhdPathDoesNotExistError -f $VhdPath) } # Check if Minimum memory is less than StartUpmemory if($StartupMemory -and $MinimumMemory -and ($MinimumMemory -gt $StartupMemory)) { Throw ($localizedData.MinMemGreaterThanStartupMemError -f $MinimumMemory, $StartupMemory) } # Check if Minimum memory is greater than Maximummemory if($MaximumMemory -and $MinimumMemory -and ($MinimumMemory -gt $MaximumMemory)) { Throw ($localizedData.MinMemGreaterThanMaxMemError -f $MinimumMemory, $MaximumMemory) } # Check if Startup memory is greater than Maximummemory if($MaximumMemory -and $StartupMemory -and ($StartupMemory -gt $MaximumMemory)) { Throw ($localizedData.StartUpMemGreaterThanMaxMemError -f $StartupMemory, $MaximumMemory) } <# VM Generation has no direct relation to the virtual hard disk format and cannot be changed after the virtual machine has been created. Generation 2 VMs do not support .VHD files. #> if(($Generation -eq 2) -and ($VhdPath.Split('.')[-1] -eq 'vhd')) { Throw ($localizedData.VhdUnsupportedOnGen2VMError) } # Check if $Path exist if($Path -and !(Test-Path -Path $Path)) { Throw ($localizedData.PathDoesNotExistError -f $Path) } #endregion try { $vmObj = Get-VM -Name $Name -ErrorAction Stop if($Ensure -eq "Present") { $vhdChain = @(Get-VhdHierarchy -VhdPath ($vmObj.HardDrives[0].Path)) if($vhdChain -notcontains $VhdPath) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'VhdPath', $VhdPath, ($vhdChain -join ',')) return $false } if($state -and ($vmObj.State -ne $State)){return $false} if($StartupMemory -and ($vmObj.MemoryStartup -ne $StartupMemory)){return $false} if($vmObj.HardDrives.Path -notcontains $VhdPath){return $false} for ($i = 0; $i -lt $SwitchName.Count; $i++) { if ($vmObj.NetworkAdapters[$i].SwitchName -ne $SwitchName[$i]) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'SwitchName', $SwitchName[$i], $vmObj.NetworkAdapters[$i].SwitchName) return $false } } if($state -and ($vmObj.State -ne $State)){return $false} if($StartupMemory -and ($vmObj.MemoryStartup -ne $StartupMemory)){return $false} for ($i = 0; $i -lt $MACAddress.Count; $i++) { if ($vmObj.NetworkAdapters[$i].MACAddress -ne $MACAddress[$i]) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'MACAddress', $MACAddress[$i], $vmObj.NetworkAdapters[$i].MACAddress) return $false } } ## $Generation always exists, only check if parameter has been explicitly specified if($PSBoundParameters.ContainsKey('Generation') -and ($Generation -ne $vmObj.Generation)){return $false} if($ProcessorCount -and ($vmObj.ProcessorCount -ne $ProcessorCount)){return $false} if($MaximumMemory -and ($vmObj.MemoryMaximum -ne $MaximumMemory)){return $false} if($MinimumMemory -and ($vmObj.MemoryMinimum -ne $MinimumMemory)){return $false} if($vmObj.Generation -eq 2) { $vmSecureBoot = Test-VMSecureBoot -Name $Name if ($SecureBoot -ne $vmSecureBoot) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'SecureBoot', $SecureBoot, $vmSecureBoot) return $false } } $guestServiceId = 'Microsoft:{0}\6C09BB55-D683-4DA0-8931-C9BF705F6480' -f $vmObj.Id $guestService = $vmObj | Get-VMIntegrationService | Where-Object -FilterScript {$_.Id -eq $guestServiceId} if ($guestService.Enabled -ne $EnableGuestService) { Write-Verbose -Message ($localizedData.VMPropertyShouldBe -f 'EnableGuestService', $EnableGuestService, $guestService.Enabled) return $false } return $true } else { return $false } } catch [System.Management.Automation.ActionPreferenceStopException] { ($Ensure -eq 'Absent') } } #region Helper function <# Returns VM VHDs, including snapshots and differencing disks #> function Get-VhdHierarchy { param ( [Parameter(Mandatory = $true)] [System.String] $VhdPath ) $vmVhdPath = Get-VHD -Path $VhdPath Write-Output -InputObject $vmVhdPath.Path while(-not [System.String]::IsNullOrEmpty($vmVhdPath.ParentPath)) { $vmVhdPath.ParentPath $vmVhdPath = (Get-VHD -Path $vmVhdPath.ParentPath) } } # The 'Set-VMProperty' method cannot be used as it cannot deal with piped # command in it's current implementation function Set-VMMACAddress { param ( [Parameter(Mandatory = $true)] [String] $Name, [Parameter(Mandatory = $true)] [String] $MACAddress, [Parameter(Mandatory = $true)] [Int] $NICIndex, [Parameter()] [Boolean] $WaitForIP, [Parameter()] [Boolean] $RestartIfNeeded ) $vmObj = Get-VM -Name $Name $originalState = $vmObj.state if($originalState -ne "Off" -and $RestartIfNeeded) { Set-VMState -Name $Name -State Off $vmObj.NetworkAdapters[$NICIndex] | Set-VMNetworkAdapter -StaticMacAddress $MACAddress # Can not move a off VM to paused, but only to running state if($originalState -eq "Running") { Set-VMState -Name $Name -State Running -WaitForIP $WaitForIP } # Cannot make a paused VM to go back to Paused state after turning Off if($originalState -eq "Paused") { Write-Warning -Message ($localizedData.VMStateWillBeOffWarning -f $Name) } } elseif($originalState -eq "Off") { $vmObj.NetworkAdapters[$NICIndex] | Set-VMNetworkAdapter -StaticMacAddress $MACAddress Write-Verbose -Message ($localizedData.VMPropertySet -f 'MACAddress', $MACAddress) } else { Write-Error -Message ($localizedData.CannotUpdatePropertiesOnlineError -f $Name, $vmObj.State) } } function Test-VMSecureBoot { param ( [Parameter(Mandatory = $true)] [string] $Name ) $vm = Get-VM -Name $Name return (Get-VMFirmware -VM $vm).SecureBoot -eq 'On' } #endregion Export-ModuleMember -Function *-TargetResource |