CITools.psm1
<# #> ######## # Global settings $InformationPreference = "Continue" $ErrorActionPreference = "Stop" Set-StrictMode -Version 2 ######## # Script variables $script:BuildDirectories = New-Object 'System.Collections.Generic.HashSet[string]' $semVerPattern = "^(0|[1-9]\d*)\.(0|[1-9]\d*)\.(0|[1-9]\d*)(?:-((?:0|[1-9]\d*|\d*[a-zA-Z-][0-9a-zA-Z-]*)(?:\.(?:0|[1-9]\d*|\d*[a-zA-Z-][0-9a-zA-Z-]*))*))?(?:\+([0-9a-zA-Z-]+(?:\.[0-9a-zA-Z-]+)*))?$" <# #> Function Get-BuildNumber { [OutputType('System.Int64')] [CmdletBinding()] param( ) process { $MinDate = New-Object DateTime -ArgumentList 1970, 1, 1 [Int64]([DateTime]::Now - $MinDate).TotalDays } } <# #> Function Select-ValidVersions { [Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseSingularNouns', '')] [CmdletBinding()] param( [Parameter(Mandatory=$true,ValueFromPipeline)] [AllowNull()] [AllowEmptyString()] [string]$Source, [Parameter(Mandatory=$false)] [switch]$First = $false, [Parameter(Mandatory=$false)] [switch]$Required = $false ) begin { $MatchFound = $false } process { if ([string]::IsNullOrEmpty($Source)) { Write-Verbose "Null or empty version supplied" return } if ($MatchFound -and $First) { Write-Verbose "Ignoring source ($Source) valid version already identified and -First specified" return } Write-Verbose "Processing Version Source: ${Source}" $working = $Source # Strip any refs/tags/ reference at the beginning of the version source $tagBranch = "refs/tags/" if ($working.StartsWith($tagBranch)) { Write-Verbose "Version starts with refs/tags format - Removing" $working = $working.Substring($tagBranch.Length) } # Save a copy of the raw version, minus the leading refs/tags, if it existed, as the tag $tag = $working # Leading 'v' should be stripped for SemVer processing if ($working.StartsWith("v")) { Write-Verbose "Version starts with 'v' - Removing" $working = $working.Substring(1) } # Save a copy of this content as the full version, which is the tag, minus any leading 'v' $fullVersion = $working # Check if we match the semver regex pattern # Regex used directly from semver.org if ($working -notmatch $semVerPattern) { Write-Verbose "Version string not in correct format. skipping" return } # Extract components of version string $major = [Convert]::ToInt32($Matches[1]) $minor = [Convert]::ToInt32($Matches[2]) $patch = [Convert]::ToInt32($Matches[3]) $Prerelease = $Matches[4] $Buildmetadata = $Matches[5] # Make sure prerelease and buildmetadata are at least an empty string if ($null -eq $Prerelease) { $Prerelease = "" } if ($null -eq $Buildmetadata) { $Buildmetadata = "" } # Check if we are a prerelease version $IsPrerelease = $false if (![string]::IsNullOrEmpty($Prerelease)) { $IsPrerelease = $true } # Version is valid - Write to output stream Write-Verbose "Version is valid" $result = [PSCustomObject]@{ Raw = $Source Tag = $tag Major = $major Minor = $minor Patch = $patch FullVersion = $fullVersion Prerelease = $Prerelease Buildmetadata = $Buildmetadata BuildVersion = ("{0}.{1}.{2}.{3}" -f $major, $minor, $patch, (Get-BuildNumber)) AssemblyVersion = "${major}.0.0.0" PlainVersion = ("{0}.{1}.{2}" -f $major, $minor, $patch) IsPrerelease = $IsPrerelease } Write-Verbose ($result | ConvertTo-Json) $result $MatchFound = $true } end { if ($Required -and !$MatchFound) { # throw error as we didn't find a valid version source Write-Error "Could not find a valid version source" } } } <# #> Function Format-RecordAsString { [CmdletBinding()] param( [Parameter(Mandatory=$true,ValueFromPipeline)] $Input, [Parameter(Mandatory=$false)] [switch]$DisplaySummary = $false, [Parameter(Mandatory=$false)] [switch]$RethrowError = $false ) begin { $errors = 0 $warnings = 0 } process { $timestamp = [DateTime]::Now.ToString("yyyyMMdd HH:mm") if ([System.Management.Automation.InformationRecord].IsAssignableFrom($_.GetType())) { ("{0} (INFO): {1}" -f $timestamp, $_.ToString()) } elseif ([System.Management.Automation.VerboseRecord].IsAssignableFrom($_.GetType())) { ("{0} (VERBOSE): {1}" -f $timestamp, $_.ToString()) } elseif ([System.Management.Automation.ErrorRecord].IsAssignableFrom($_.GetType())) { $errors++ ("{0} (ERROR): {1}" -f $timestamp, $_.ToString()) $Input | Out-String -Stream | ForEach-Object { ("{0} (ERROR): {1}" -f $timestamp, $_.ToString()) } if ($RethrowError) { throw $Input } } elseif ([System.Management.Automation.DebugRecord].IsAssignableFrom($_.GetType())) { ("{0} (DEBUG): {1}" -f $timestamp, $_.ToString()) } elseif ([System.Management.Automation.WarningRecord].IsAssignableFrom($_.GetType())) { $warnings++ ("{0} (WARNING): {1}" -f $timestamp, $_.ToString()) } elseif ([string].IsAssignableFrom($_.GetType())) { ("{0} (INFO): {1}" -f $timestamp, $_.ToString()) } else { # Don't do ToString() here as this breaks things like Format-Table that # don't convert to string properly. Out-String (below) will handle this for us. $Input } } end { # Summarise the number of errors and warnings, if required if ($DisplaySummary) { $timestamp = [DateTime]::Now.ToString("yyyyMMdd HH:mm") ("{0} (INFO): Warnings: {1}" -f $timestamp, $warnings) ("{0} (INFO): Errors: {1}" -f $timestamp, $errors) } } } <# #> Function Reset-LogFileState { [CmdletBinding(SupportsShouldProcess)] param( [Parameter(Mandatory=$true)] [ValidateNotNullOrEmpty()] [string]$LogPath, [Parameter(Mandatory=$false)] [int]$PreserveCount = 5, [Parameter(Mandatory=$false)] [int]$RotateSizeKB = 0 ) process { # Check if the target is a directory if (Test-Path -PathType Container $LogPath) { Write-Error "Target is a directory" } # Create the log file, if it doesn't exist if (!(Test-Path $LogPath)) { Write-Verbose "Log Path doesn't exist. Attempting to create." if ($PSCmdlet.ShouldProcess($LogPath, "Create Log")) { New-Item -Type File $LogPath -EA SilentlyContinue | Out-Null } else { return } } # Get the attributes of the target log file $logInfo = Get-Item $LogPath $logSize = ($logInfo.Length/1024) Write-Verbose "Current log file size: $logSize KB" # Check the size of the log file and rotate if greater than # the desired maximum if ($logSize -gt $RotateSizeKB) { Write-Verbose "Rotation required due to log size" Write-Verbose "PreserveCount: $PreserveCount" # Shuffle all of the logs along [int]$count = $PreserveCount while ($count -gt 0) { # If count is 1, we're working on the active log if ($count -le 1) { $source = $LogPath } else { $source = ("{0}.{1}" -f $LogPath, ($count-1)) } $destination = ("{0}.{1}" -f $LogPath, $count) # Check if there is an actual log to move and rename if (Test-Path -Path $source) { Write-Verbose "Need to rotate $source" if ($PSCmdlet.ShouldProcess($source, "Rotate")) { Move-Item -Path $source -Destination $destination -Force } } $count-- } # Create the log path, if it doesn't exist (i.e. was renamed/rotated) if (!(Test-Path $LogPath)) { if ($PSCmdlet.ShouldProcess($LogPath, "Create Log")) { New-Item -Type File $LogPath -EA SilentlyContinue | Out-Null } else { return } } # Clear the content of the log path (only applies if no rotation was done # due to 0 PreserveCount, but the log is over the RotateSizeKB maximum) if ($PSCmdlet.ShouldProcess($LogPath, "Truncate")) { Clear-Content -Path $LogPath -Force } } } } <# #> Function Use-EnvVar { [CmdletBinding()] param( [Parameter(mandatory=$true)] [ValidateNotNullOrEmpty()] [string]$Name, [Parameter(mandatory=$false)] [AllowEmptyString()] [AllowNull()] [string]$Default, [Parameter(mandatory=$false)] [ValidateNotNull()] [ScriptBlock]$Check ) process { $val = $Default if (Test-Path "Env:\$Name") { $val = (Get-Item "Env:\$Name").Value } elseif ($PSBoundParameters.keys -notcontains "Default") { Write-Error "Missing environment variable ($Name) and no default specified" } if ($PSBoundParameters.keys -contains "Check") { $ret = $val | ForEach-Object -Process $Check if (!$ret) { Write-Error "Source string (${Name}) failed validation" return } } $val } } <# #> Function Assert-SuccessExitCode { [CmdletBinding()] param( [Parameter(mandatory=$true)] [ValidateNotNull()] [int]$ExitCode, [Parameter(mandatory=$false)] [ValidateNotNull()] [int[]]$ValidCodes = @(0) ) process { if ($ValidCodes -notcontains $ExitCode) { Write-Error "Invalid exit code: ${ExitCode}" } } } <# #> Function Set-CIStepDefinition { [Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')] [CmdletBinding()] param( [Parameter(Mandatory=$true)] [ValidateNotNull()] [HashTable]$ScopeSteps, [Parameter(Mandatory=$true)] [ValidateNotNullOrEmpty()] [string]$StepName, [Parameter(Mandatory=$false)] [AllowNull()] [ScriptBlock]$Script ) process { # Add the step, if it doesn't exist if ($scopeSteps.Keys -notcontains $StepName) { $ScopeSteps[$StepName] = [PSCustomObject]@{ Name = $StepName Script = $null } } # Update the script, if specified if ($PSBoundParameters.Keys -contains "Script") { $ScopeSteps[$StepName].Script = $Script } } } <# #> Function Add-CIStepDependency { [Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseShouldProcessForStateChangingFunctions', '')] [CmdletBinding()] param( [Parameter(Mandatory=$true)] [ValidateNotNull()] [HashTable]$DependencyMap, [Parameter(Mandatory=$true)] [ValidateNotNullOrEmpty()] [string]$StepName, [Parameter(Mandatory=$false)] [ValidateNotNullOrEmpty()] [string]$Dependency ) process { # Add the step, if it doesn't exist if ($DependencyMap.Keys -notcontains $StepName) { $DependencyMap[$StepName] = New-Object 'System.Collections.Generic.HashSet[string]' } # Add the dependency if ($PSBoundParameters.Keys -contains "Dependency") { $DependencyMap[$StepName].Add($Dependency) | Out-Null } } } <# #> Function Invoke-CIProfile { [CmdletBinding()] param( [Parameter(mandatory=$true)] [ValidateNotNullOrEmpty()] [string]$Name, [Parameter(mandatory=$true)] [ValidateNotNull()] [HashTable]$Steps ) process { # dependencyMap maps the step name to a set of dependencies that the step has accumulated $dependencyMap = @{} # scopeSteps represents all of the steps that have been reached from the initial step, # along with script blocks for any autogenerated step names $scopeSteps = @{} # Find all of the steps that can be reached by the initial step (i.e. steps in scope) # and populate scopeSteps. $components = New-Object 'System.Collections.Generic.Stack[string]' $components.Push($Name) while ($components.Count -gt 0) { $stepName = $components.Pop() # Make sure we don't have empty content if ([string]::IsNullOrEmpty($stepName)) { Write-Error "Found null step name in list" } # Make sure the step name is formatted correctly if ($stepName -notmatch "^[a-zA-Z0-9_-]+$") { Write-Error "Step name ($stepName) has invalid characters. Should be [a-zA-Z0-9_-]+" } # Anchors for this step $beginAnchor = $stepName + ":begin" $endAnchor = $stepName + ":end" # Check if we've processed this name before # Check this before 'Steps.Keys' below as autogenerated steps # will appear in scopeSteps, but not Steps.Keys if ($scopeSteps.Keys -contains $beginAnchor) { continue } # Check if this step exists if ($Steps.Keys -notcontains $stepName) { Write-Error "Missing step ($stepName) in definition" } # Ensure the step is defined in scopeSteps to prevent reevaluating the step Set-CIStepDefinition -ScopeSteps $scopeSteps -StepName $beginAnchor Set-CIStepDefinition -ScopeSteps $scopeSteps -StepName $endAnchor # Add anchor dependencies for this step Add-CIStepDependency -DependencyMap $dependencyMap -StepName $beginAnchor Add-CIStepDependency -DependencyMap $dependencyMap -StepName $endAnchor -Dependency $beginAnchor # Iterate through all dependency entries for this step $Steps[$stepName].Keys | ForEach-Object { $key = $_ $stepChain = $Steps[$stepName][$key] # Each entry can be a single string or ScriptBlock or a collection of # strings or ScriptBlocks # Collections are also treated as a chain of dependencies $previousDependency = $beginAnchor $stepChain | ForEach-Object { $dependency = $_ switch ($dependency.GetType().FullName) { "System.Management.Automation.ScriptBlock" { $script = $dependency $dependency = ("{0}:script_{1}" -f $stepName, [Guid]::NewGuid().ToString()) # Add the step dependency, without any dependencies of it's own Add-CIStepDependency -DependencyMap $dependencyMap -StepName $dependency # Adding the scope step also means that the step won't be processed # as a dependency in the main loop Set-CIStepDefinition -ScopeSteps $scopeSteps -StepName $dependency -Script $script # Add a dependency for this script on the previous dependency Add-CIStepDependency -DependencyMap $dependencyMap -StepName $dependency -Dependency $previousDependency # Scripts don't have a begin and end anchor, so just reference the script step name directly $previousDependency = $dependency } "System.String" { $dependencyBeginAnchor = ($dependency + ":begin") $dependencyEndAnchor = ($dependency + ":end") # Define a dependency for this step on the previous dependency Add-CIStepDependency -DependencyMap $dependencyMap -StepName $dependencyBeginAnchor -Dependency $previousDependency # This dependency should be evaluated in the main loop $components.Push($dependency) # The end anchor for this step should be the dependency for the next step $previousDependency = $dependencyEndAnchor } default { Write-Error ("Invalid type in step definition: " + $dependency.GetType().FullName) } } } # The current step end anchor should depend on the last dependency in the chain being completed Add-CIStepDependency -DependencyMap $dependencyMap -StepName $endAnchor -Dependency $previousDependency } } # Create an execution order $processedNames = New-Object 'System.Collections.Generic.HashSet[string]' $executionOrder = New-Object 'System.Collections.Generic.List[PSCustomObject]' Write-Verbose ("Dumping dependency map: " + ($dependencyMap | ConvertTo-Json)) while ($scopeSteps.Count -gt 0) { # Find a step that has its dependencies met or has no dependencies $candidate = $null foreach ($key in $scopeSteps.Keys) { $step = $scopeSteps[$key] # Collect a list of blockers for this step if ($dependencyMap.Keys -notcontains $key) { Write-Error "Missing dependencies for step: $key" } $blockers = $dependencyMap[$key] | Where-Object { !$processedNames.Contains($_) } if (($blockers | Measure-Object).Count -gt 0) { # Step has blockers, so can't be run yet continue } # Step has no blockers, so could be scheduled here $candidate = $step break } # If we couldn't find anything, abort if ($null -eq $candidate) { $msg = "Possible cyclical dependencies. Unable to determine execution order." Write-Information $msg Write-Information ("Dumping dependency map: " + ($dependencyMap | ConvertTo-Json)) Write-Error $msg } # Remove the step from the scope steps $scopeSteps.Remove($candidate.Name) # Add the step to the processed steps list $processedNames.Add($candidate.Name) | Out-Null # Add the item to the execution order $executionOrder.Add($candidate) } Write-Information ("Execution order: " + ($executionOrder | ForEach-Object { $_.Name } | Join-String -Separator ", ")) foreach ($step in $executionOrder) { Write-Information ("******** Processing " + $step.Name) try { if ($null -ne $step.Script) { & $step.Script *>&1 | Format-RecordAsString -DisplaySummary | Out-String -Stream } Write-Information ("******** Finished " + $step.Name) Write-Information "" } catch { $ex = $_ # Display as information - Some systems don't show the exception properly Write-Information "Invoke-CIProfile failed with exception" Write-Information "Exception Information: $ex" Write-Information ("Exception is null?: " + ($null -eq $ex).ToString()) Write-Information "Exception Members:" $ex | Get-Member Write-Information "Exception Properties: " $ex | Format-List -property * # rethrow exception throw $ex } } } } <# #> Function Format-TemplateFile { [CmdletBinding()] param( [Parameter(Mandatory=$true)] [ValidateNotNullOrEmpty()] [string]$Template, [Parameter(Mandatory=$true)] [ValidateNotNullOrEmpty()] [string]$Target, [Parameter(Mandatory=$true)] [Hashtable]$Content, [Parameter(Mandatory=$false)] [switch]$Stream = $false ) process { $dirPath = ([System.IO.Path]::GetDirectoryName($Target)) if (![string]::IsNullOrEmpty($dirPath)) { New-Item -ItemType Directory -Path $dirPath -EA Ignore } if (!$Stream) { $data = Get-Content $Template -Encoding UTF8 | Format-TemplateString -Content $Content $data | Out-File -Encoding UTF8 $Target } else { Get-Content $Template -Encoding UTF8 | Format-TemplateString -Content $Content | Out-File -Encoding UTF8 $Target } } } <# #> Function Format-TemplateString { [OutputType('System.String')] [CmdletBinding()] param( [Parameter(Mandatory=$true,ValueFromPipeline)] [AllowEmptyString()] [string]$TemplateString, [Parameter(Mandatory=$true)] [Hashtable]$Content ) process { $working = $TemplateString $Content.Keys | ForEach-Object { $working = $working.Replace($_, $Content[$_]) } $working } } <# #> Function Use-BuildDirectories { [Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseSingularNouns', '')] [CmdletBinding()] param( [Parameter(Mandatory=$true)] [ValidateNotNullOrEmpty()] [AllowEmptyCollection()] [string[]]$Directories ) process { $Directories | ForEach-Object { Use-BuildDirectory $_ } } } <# #> Function Use-BuildDirectory { [CmdletBinding()] param( [Parameter(mandatory=$true,ValueFromPipeline)] [ValidateNotNullOrEmpty()] [string]$Path ) process { New-Item -ItemType Directory $Path -EA Ignore | Out-Null Write-Information "Using build directory: ${Path}" if (!(Test-Path $Path -PathType Container)) { Write-Error "Target does not exist or is not a directory" } try { Get-Item $Path -Force | Out-Null } catch { Write-Error $_ } $script:BuildDirectories.Add($Path) | Out-Null } } <# #> Function Clear-BuildDirectory { [CmdletBinding()] param( [Parameter(mandatory=$true,ValueFromPipeline)] [ValidateNotNullOrEmpty()] [string]$Path ) process { Use-BuildDirectory -Path $Path | Out-Null Write-Information "Clearing directory: ${Path}" Get-ChildItem -Path $Path | ForEach-Object { Remove-Item -Path $_.FullName -Recurse -Force } } } <# #> Function Clear-BuildDirectories { [Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseSingularNouns', '')] [CmdletBinding()] param( ) process { Write-Information "Clearing build directories" Get-BuildDirectories Get-BuildDirectories | ForEach-Object { Clear-BuildDirectory $_ } } } <# #> Function Get-BuildDirectories { [Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseSingularNouns', '')] [CmdletBinding()] param( ) process { $script:BuildDirectories | ForEach-Object { $_ } } } <# #> Function Invoke-Native { [CmdletBinding()] param( [Parameter(Mandatory=$true)] [ValidateNotNull()] $Script, [Parameter(Mandatory=$false)] [AllowNull()] $CmdArgs = $null, [Parameter(Mandatory=$false)] [ValidateNotNull()] [int[]]$ValidExitCodes = @(0), [Parameter(Mandatory=$false)] [switch]$IgnoreExitCode = $false, [Parameter(Mandatory=$false)] [switch]$NoRedirectStderr = $false ) process { $global:LASTEXITCODE = 0 if ($NoRedirectStderr) { & $Script $CmdArgs | Out-String -Stream } else { & $Script $CmdArgs 2>&1 | Out-String -Stream } $exitCode = $global:LASTEXITCODE # reset LASTEXITCODE $global:LASTEXITCODE = 0 Write-Verbose "Script exited with code: $exitCode" if (!$IgnoreExitCode -and $ValidExitCodes -notcontains $exitCode) { Write-Error "Invalid exit code returned: $exitCode" } } } <# #> Function Invoke-EnvironmentPlaybook { [Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSReviewUnusedParameter', '')] [CmdletBinding()] param( [Parameter(Mandatory=$false)] [ValidateNotNullOrEmpty()] [string]$BaseDirectory = "deploy", [Parameter(Mandatory=$true)] [ValidateNotNullOrEmpty()] [string]$EnvName, [Parameter(Mandatory=$true)] [ValidateSet("diff", "apply")] [string]$Action, [Parameter(Mandatory=$false)] [ValidateNotNull()] [string[]]$Inventories = $(), [Parameter(Mandatory=$false)] [ValidateNotNull()] [string[]]$VaultFiles = $(), [Parameter(Mandatory=$false)] [ValidateNotNull()] [string[]]$OtherArgs ) process { $plays = Get-ChildItem $BaseDirectory | Where-Object { $_.Attributes -like "*Directory*" -and $_.Name -match "^_exec_*" } | Sort-Object -Property Name | ForEach-Object { Write-Information ("Found exec directory: " + $_.FullName) Get-ChildItem $_.FullName | Where-Object { $_.Name -match "^_${Action}_pre_.*\.(yml|yaml)$"} | Sort-Object -Property Name Get-ChildItem $_.FullName | Where-Object { $_.Name -match "^_${Action}_${EnvName}_.*\.(yml|yaml)$"} | Sort-Object -Property Name Get-ChildItem $_.FullName | Where-Object { $_.Name -match "^_${Action}_post_.*\.(yml|yaml)$"} | Sort-Object -Property Name } Write-Information "" Write-Information "Plays to execute: " $plays | ForEach-Object { Write-Information $_ } $plays | ForEach-Object { Write-Information "" Write-Information ("Executing: " + $_.FullName) [string[]]$callArgs = $() # Add inventories if (($Inventories | Measure-Object).Count -gt 0) { $Inventories | ForEach-Object { $callArgs += "-i" $callArgs += $_ } } # Add vaults if (($VaultFiles | Measure-Object).Count -gt 0) { $VaultFiles | ForEach-Object { $callArgs += "--vault-password-file" $callArgs += $_ } } # Add Other Args if (($OtherArgs | Measure-Object).Count -gt 0) { $OtherArgs | ForEach-Object { $callArgs += $_ } } $callArgs += $_.FullName Write-Information ("Invoking ansible-playbook with args: " + ($callArgs -join " ")) Invoke-Native ansible-playbook -CmdArgs $callArgs } } } <# #> Function Add-AZDEnvironmentPromotePR { [CmdletBinding()] param( [Parameter(Mandatory=$true)] [ValidateNotNullOrEmpty()] [string]$SourceBranch, [Parameter(Mandatory=$true)] [ValidateNotNullOrEmpty()] [string]$TargetBranch ) process { Write-Information "Installing Azure Devops Extension" Invoke-Native "az" @("extension", "add", "--name", "azure-devops") -EA Continue Write-Information "PR creation" $result = Invoke-Native "az" @("repos", "pr", "list", "-s", $SourceBranch, "-t", $TargetBranch) if (($result | ConvertFrom-Json | Measure-Object).Count -eq 0) { Write-Information "No existing PR. Creating a new one." Invoke-Native "az" @("repos", "pr", "create", "--source-branch", $SourceBranch, "--target-branch", $TargetBranch, "--title", "'Promote from $SourceBranch to $TargetBranch'", "--detect") } else { Write-Information "PR already exists for source to target" } } } <# #> Function Convert-StringToBase64 { [CmdletBinding()] param( [Parameter(Mandatory=$true, ValueFromPipeline)] [ValidateNotNullOrEmpty()] [string]$Value, [Parameter(Mandatory=$false)] [ValidateNotNullOrEmpty()] [ValidateSet("Default", "ASCII", "UTF8", "Unicode", "UTF7", "UTF32")] [string]$Encoding = "Default" ) process { $bytes = ([System.Text.Encoding]::$Encoding).GetBytes($Value) [System.Convert]::ToBase64String($bytes) } } <# #> Function Convert-Base64ToString { [CmdletBinding()] param( [Parameter(Mandatory=$true, ValueFromPipeline)] [ValidateNotNullOrEmpty()] [string]$Value, [Parameter(Mandatory=$false)] [ValidateNotNullOrEmpty()] [ValidateSet("Default", "ASCII", "UTF8", "Unicode", "UTF7", "UTF32")] [string]$Encoding = "Default" ) process { $bytes = [System.Convert]::FromBase64String($Value) ([System.Text.Encoding]::$Encoding).GetString($bytes) } } |