DSCResources/MSFT_xDisk/MSFT_xDisk.psm1
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# Suppressed as per PSSA Rule Severity guidelines for unit/integration tests: # https://github.com/PowerShell/DscResources/blob/master/PSSARuleSeverities.md [System.Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')] param () $modulePath = Join-Path -Path (Split-Path -Path (Split-Path -Path $PSScriptRoot -Parent) -Parent) -ChildPath 'Modules' # Import the Storage Common Modules Import-Module -Name (Join-Path -Path $modulePath ` -ChildPath (Join-Path -Path 'StorageDsc.Common' ` -ChildPath 'StorageDsc.Common.psm1')) # Import the Storage Resource Helper Module Import-Module -Name (Join-Path -Path $modulePath ` -ChildPath (Join-Path -Path 'StorageDsc.ResourceHelper' ` -ChildPath 'StorageDsc.ResourceHelper.psm1')) # Import Localization Strings $localizedData = Get-LocalizedData ` -ResourceName 'MSFT_xDisk' ` -ResourcePath (Split-Path -Parent $Script:MyInvocation.MyCommand.Path) <# .SYNOPSIS Returns the current state of the Disk and Partition. .PARAMETER DriveLetter Specifies the preferred letter to assign to the disk volume. .PARAMETER DiskId Specifies the disk identifier for the disk to modify. .PARAMETER DiskIdType Specifies the identifier type the DiskId contains. Defaults to Number. .PARAMETER Size Specifies the size of new volume (use all available space on disk if not provided). .PARAMETER FSLabel Specifies the volume label to assign to the volume. .PARAMETER AllocationUnitSize Specifies the allocation unit size to use when formatting the volume. .PARAMETER FSFormat Specifies the file system format of the new volume. .PARAMETER AllowDestructive Specifies if potentially destructive operations may occur .PARAMETER ClearDisk Specifies if the disks partition schema should be removed entirely, even if data and oem partitions are present. Only possible with AllowDestructive enabled. #> function Get-TargetResource { [CmdletBinding()] [OutputType([System.Collections.Hashtable])] param ( [Parameter(Mandatory = $true)] [System.String] $DriveLetter, [Parameter(Mandatory = $true)] [System.String] $DiskId, [Parameter()] [ValidateSet('Number', 'UniqueId')] [System.String] $DiskIdType = 'Number', [Parameter()] [System.UInt64] $Size, [Parameter()] [System.String] $FSLabel, [Parameter()] [System.UInt32] $AllocationUnitSize, [Parameter()] [ValidateSet('NTFS', 'ReFS')] [System.String] $FSFormat = 'NTFS', [Parameter()] [System.Boolean] $AllowDestructive, [Parameter()] [System.Boolean] $ClearDisk ) Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.GettingDiskMessage -f $DiskIdType, $DiskId, $DriveLetter) ) -join '' ) # Validate the DriveLetter parameter $DriveLetter = Assert-DriveLetterValid -DriveLetter $DriveLetter $diskIdParameter = @{ $DiskIdType = $DiskId } $disk = Get-Disk ` @diskIdParameter ` -ErrorAction SilentlyContinue $partition = Get-Partition ` -DriveLetter $DriveLetter ` -ErrorAction SilentlyContinue $volume = Get-Volume ` -DriveLetter $DriveLetter ` -ErrorAction SilentlyContinue $fileSystem = $volume.FileSystem $FSLabel = $volume.FileSystemLabel $blockSize = (Get-CimInstance ` -Query "SELECT BlockSize from Win32_Volume WHERE DriveLetter = '$($DriveLetter):'" ` -ErrorAction SilentlyContinue).BlockSize $returnValue = @{ DiskId = $DiskId DiskIdType = $DiskIdType DriveLetter = $partition.DriveLetter Size = $partition.Size FSLabel = $FSLabel AllocationUnitSize = $blockSize FSFormat = $fileSystem } $returnValue } # Get-TargetResource <# .SYNOPSIS Initializes the Disk and Partition and assigns the drive letter. .PARAMETER DriveLetter Specifies the preferred letter to assign to the disk volume. .PARAMETER DiskId Specifies the disk identifier for the disk to modify. .PARAMETER DiskIdType Specifies the identifier type the DiskId contains. Defaults to Number. .PARAMETER Size Specifies the size of new volume (use all available space on disk if not provided). .PARAMETER FSLabel Specifies the volume label to assign to the volume. .PARAMETER AllocationUnitSize Specifies the allocation unit size to use when formatting the volume. .PARAMETER FSFormat Specifies the file system format of the new volume. .PARAMETER AllowDestructive Specifies if potentially destructive operations may occur .PARAMETER ClearDisk Specifies if the disks partition schema should be removed entirely, even if data and oem partitions are present. Only possible with AllowDestructive enabled. #> function Set-TargetResource { # Should process is called in a helper functions but not directly in Set-TargetResource [Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSShouldProcess', '')] [CmdletBinding(SupportsShouldProcess = $true)] param ( [Parameter(Mandatory = $true)] [System.String] $DriveLetter, [Parameter(Mandatory = $true)] [System.String] $DiskId, [Parameter()] [ValidateSet('Number', 'UniqueId')] [System.String] $DiskIdType = 'Number', [Parameter()] [System.UInt64] $Size, [Parameter()] [System.String] $FSLabel, [Parameter()] [System.UInt32] $AllocationUnitSize, [Parameter()] [ValidateSet('NTFS', 'ReFS')] [System.String] $FSFormat = 'NTFS', [Parameter()] [System.Boolean] $AllowDestructive, [Parameter()] [System.Boolean] $ClearDisk ) Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.SettingDiskMessage -f $DiskIdType, $DiskId, $DriveLetter) ) -join '' ) # Validate the DriveLetter parameter $DriveLetter = Assert-DriveLetterValid -DriveLetter $DriveLetter $diskIdParameter = @{ $DiskIdType = $DiskId } $disk = Get-Disk ` @diskIdParameter ` -ErrorAction Stop if ($disk.IsOffline) { # Disk is offline, so bring it online Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.SetDiskOnlineMessage -f $DiskIdType, $DiskId) ) -join '' ) $disk | Set-Disk -IsOffline $false } # if if ($disk.IsReadOnly) { # Disk is read-only, so make it read/write Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.SetDiskReadWriteMessage -f $DiskIdType, $DiskId) ) -join '' ) $disk | Set-Disk -IsReadOnly $false } # if Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.CheckingDiskPartitionStyleMessage -f $DiskIdType, $DiskId) ) -join '' ) if ($AllowDestructive -and $ClearDisk -and $disk.PartitionStyle -ne 'RAW') { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.ClearingDisk -f $DiskIdType, $DiskId) ) -join '' ) $disk | Clear-Disk -RemoveData -RemoveOEM -Confirm:$true $disk = $disk | Get-Disk } switch ($disk.PartitionStyle) { 'RAW' { # The disk partition table is not yet initialized, so initialize it with GPT Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.InitializingDiskMessage -f $DiskIdType, $DiskId) ) -join '' ) $disk | Initialize-Disk ` -PartitionStyle 'GPT' break } # 'RAW' 'GPT' { # The disk partition is already initialized with GPT. Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.DiskAlreadyInitializedMessage -f $DiskIdType, $DiskId) ) -join '' ) break } # 'GPT' default { # This disk is initialized but not as GPT - so raise an exception. New-InvalidOperationException ` -Message ($localizedData.DiskAlreadyInitializedError -f ` $DiskIdType, $DiskId, $Disk.PartitionStyle) } # default } # switch # Get the partitions on the disk $partition = $disk | Get-Partition -ErrorAction SilentlyContinue # Check if the disk has an existing partition assigned to the drive letter $assignedPartition = $partition | Where-Object -Property DriveLetter -eq $DriveLetter # Check if existing partition already has file system on it if ($null -eq $assignedPartition) { # There is no partiton with this drive letter Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.DriveNotFoundOnPartitionMessage -f $DiskIdType, $DiskId, $DriveLetter) ) -join '' ) # Are there any partitions defined on this disk? if ($partition) { # There are partitions defined - identify if one matches the size required if ($Size) { # Find the first basic partition matching the size $partition = $partition | Where-Object -Filter { $_.Type -eq 'Basic' -and $_.Size -eq $Size } | Select-Object -First 1 if ($partition) { # A partition matching the required size was found Write-Verbose -Message ($localizedData.MatchingPartitionFoundMessage -f ` $DiskIdType, $DiskId, $partition.PartitionNumber) } else { # A partition matching the required size was not found Write-Verbose -Message ($localizedData.MatchingPartitionNotFoundMessage -f ` $DiskIdType, $DiskId) } # if } else { # No size specified so no partition can be matched $partition = $null } # if } # if # Do we need to create a new partition? if (-not $partition) { # Attempt to create a new partition $partitionParams = @{ DriveLetter = $DriveLetter } if ($Size) { # Use only a specific size Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.CreatingPartitionMessage ` -f $DiskIdType, $DiskId, $DriveLetter, "$($Size/1KB) KB") ) -join '' ) $partitionParams['Size'] = $Size } else { # Use the entire disk Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.CreatingPartitionMessage ` -f $DiskIdType, $DiskId, $DriveLetter, 'all free space') ) -join '' ) $partitionParams['UseMaximumSize'] = $true } # if # Create the partition. $partition = $disk | New-Partition @partitionParams <# After creating the partition it can take a few seconds for it to become writeable Wait for up to 30 seconds for the parition to become writeable #> $timeout = (Get-Date) + (New-Timespan -Second 30) while ($partition.IsReadOnly -and (Get-Date) -lt $timeout) { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " ($localizedData.NewPartitionIsReadOnlyMessage ` -f $DiskIdType, $DiskId, $partition.PartitionNumber) ) -join '' ) Start-Sleep -Seconds 1 # Pull the partition details again to check if it is readonly $partition = $partition | Get-Partition } # while } # if if ($partition.IsReadOnly) { # The partition is still readonly - throw an exception New-InvalidOperationException ` -Message ($localizedData.ParitionIsReadOnlyError -f ` $DiskIdType, $DiskId, $partition.PartitionNumber) } # if $assignDriveLetter = $true } else { # The disk already has a partition on it that is assigned to the Drive Letter Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.PartitionAlreadyAssignedMessage -f ` $DriveLetter, $assignedPartition.PartitionNumber) ) -join '' ) $assignDriveLetter = $false if ($assignedPartition.Size -ne $Size) { if ($AllowDestructive) { if ($FSFormat -eq 'ReFS') { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.ResizeRefsNotPossible ` -f $DriveLetter, $assignedPartition.Size, $Size) ) -join '' ) } else { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.SizeMismatchCorrection ` -f $DriveLetter, $assignedPartition.Size, $Size) ) -join '' ) $supportedSize = ($assignedPartition | Get-PartitionSupportedSize) if ($size -gt $supportedSize.SizeMax) { New-InvalidArgumentException -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.FreeSpaceViolationError ` -f $DriveLetter, $assignedPartition.Size, $Size, $supportedSize.SizeMax) ) -join '' ) -ArgumentName 'Size' -ErrorAction Stop } $assignedPartition | Resize-Partition -Size $Size } } } } # Get the Volume on the partition $volume = $partition | Get-Volume # Is the volume already formatted? if ($volume.FileSystem -eq '') { # The volume is not formatted $volParams = @{ FileSystem = $FSFormat Confirm = $false } if ($FSLabel) { # Set the File System label on the new volume $volParams["NewFileSystemLabel"] = $FSLabel } # if if ($AllocationUnitSize) { # Set the Allocation Unit Size on the new volume $volParams["AllocationUnitSize"] = $AllocationUnitSize } # if Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.FormattingVolumeMessage -f $volParams.FileSystem) ) -join '' ) # Format the volume $volume = $partition | Format-Volume @VolParams } else { # The volume is already formatted if ($PSBoundParameters.ContainsKey('FSFormat')) { # Check the filesystem format $fileSystem = $volume.FileSystem if ($fileSystem -ne $FSFormat) { # The file system format does not match Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.FileSystemFormatMismatch -f ` $DriveLetter, $fileSystem, $FSFormat) ) -join '' ) if ($AllowDestructive) { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.VolumeFormatInProgress -f ` $DriveLetter, $fileSystem, $FSFormat) ) -join '' ) $formatParam = @{ FileSystem = $FSFormat Force = $true } if ($PSBoundParameters.ContainsKey('AllocationUnitSize')) { $formatParam.Add('AllocationUnitSize', $AllocationUnitSize) } $Volume | Format-Volume @formatParam } } # if } # if # Check the volume label if ($PSBoundParameters.ContainsKey('FSLabel')) { # The volume should have a label assigned if ($volume.FileSystemLabel -ne $FSLabel) { # The volume lable needs to be changed because it is different. Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.ChangingVolumeLabelMessage ` -f $DriveLetter, $FSLabel) ) -join '' ) $volume | Set-Volume -NewFileSystemLabel $FSLabel } # if } # if } # if # Assign the Drive Letter if it isn't assigned if ($assignDriveLetter -and ($partition.DriveLetter -ne $DriveLetter)) { $null = $partition | Set-Partition -NewDriveLetter $DriveLetter Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.SuccessfullyInitializedMessage -f $DriveLetter) ) -join '' ) } # if } # Set-TargetResource <# .SYNOPSIS Tests if the disk is initialized, the partion exists and the drive letter is assigned. .PARAMETER DriveLetter Specifies the preferred letter to assign to the disk volume. .PARAMETER DiskId Specifies the disk identifier for the disk to modify. .PARAMETER DiskIdType Specifies the identifier type the DiskId contains. Defaults to Number. .PARAMETER Size Specifies the size of new volume (use all available space on disk if not provided). .PARAMETER FSLabel Specifies the volume label to assign to the volume. .PARAMETER AllocationUnitSize Specifies the allocation unit size to use when formatting the volume. .PARAMETER FSFormat Specifies the file system format of the new volume. .PARAMETER AllowDestructive Specifies if potentially destructive operations may occur .PARAMETER ClearDisk Specifies if the disks partition schema should be removed entirely, even if data and oem partitions are present. Only possible with AllowDestructive enabled. #> function Test-TargetResource { [CmdletBinding()] [OutputType([System.Boolean])] param ( [Parameter(Mandatory = $true)] [System.String] $DriveLetter, [Parameter(Mandatory = $true)] [System.String] $DiskId, [Parameter()] [ValidateSet('Number', 'UniqueId')] [System.String] $DiskIdType = 'Number', [Parameter()] [System.UInt64] $Size, [Parameter()] [System.String] $FSLabel, [Parameter()] [System.UInt32] $AllocationUnitSize, [Parameter()] [ValidateSet('NTFS', 'ReFS')] [System.String] $FSFormat = 'NTFS', [Parameter()] [System.Boolean] $AllowDestructive, [Parameter()] [System.Boolean] $ClearDisk ) Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.TestingDiskMessage -f $DiskIdType, $DiskId, $DriveLetter) ) -join '' ) # Validate the DriveLetter parameter $DriveLetter = Assert-DriveLetterValid -DriveLetter $DriveLetter $diskIdParameter = @{ $DiskIdType = $DiskId } Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.CheckDiskInitializedMessage -f $DiskIdType, $DiskId) ) -join '' ) $disk = Get-Disk ` @diskIdParameter ` -ErrorAction SilentlyContinue if (-not $disk) { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.DiskNotFoundMessage -f $DiskIdType, $DiskId) ) -join '' ) return $false } # if if ($disk.IsOffline) { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.DiskNotOnlineMessage -f $DiskIdType, $DiskId) ) -join '' ) return $false } # if if ($disk.IsReadOnly) { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.DiskReadOnlyMessage -f $DiskIdType, $DiskId) ) -join '' ) return $false } # if if ($disk.PartitionStyle -ne 'GPT') { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.DiskNotGPTMessage -f $DiskIdType, $DiskId, $Disk.PartitionStyle) ) -join '' ) return $false } # if $partition = Get-Partition ` -DriveLetter $DriveLetter ` -ErrorAction SilentlyContinue if ($partition.DriveLetter -ne $DriveLetter) { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.DriveLetterNotFoundMessage -f $DriveLetter) ) -join '' ) return $false } # if # Drive size if ($Size) { if ($partition.Size -ne $Size) { # The partition size mismatches Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.SizeMismatchMessage ` -f $DriveLetter, $Partition.Size, $Size) ) -join '' ) if ($AllowDestructive) { return $false } } # if } # if $blockSize = (Get-CimInstance ` -Query "SELECT BlockSize from Win32_Volume WHERE DriveLetter = '$($DriveLetter):'" ` -ErrorAction SilentlyContinue).BlockSize if ($blockSize -gt 0 -and $AllocationUnitSize -ne 0) { if ($AllocationUnitSize -ne $blockSize) { # The allocation unit size mismatches Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.AllocationUnitSizeMismatchMessage ` -f $DriveLetter, $($blockSize.BlockSize / 1KB), $($AllocationUnitSize / 1KB)) ) -join '' ) if ($AllowDestructive) { return $false } } # if } # if # Get the volume so the properties can be checked $volume = Get-Volume ` -DriveLetter $DriveLetter ` -ErrorAction SilentlyContinue if ($PSBoundParameters.ContainsKey('FSFormat')) { # Check the filesystem format $fileSystem = $volume.FileSystem if ($fileSystem -ne $FSFormat) { Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.FileSystemFormatMismatch ` -f $DriveLetter, $fileSystem, $FSFormat) ) -join '' ) if ($AllowDestructive) { return $false } } # if } # if if ($PSBoundParameters.ContainsKey('FSLabel')) { # Check the volume label $label = $volume.FileSystemLabel if ($label -ne $FSLabel) { # The assigned volume label is different and needs updating Write-Verbose -Message ( @( "$($MyInvocation.MyCommand): " $($localizedData.DriveLabelMismatch ` -f $DriveLetter, $label, $FSLabel) ) -join '' ) return $false } # if } # if return $true } # Test-TargetResource Export-ModuleMember -Function *-TargetResource |