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build.psm1
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# Copyright (c) Microsoft Corporation. All rights reserved.
# Licensed under the MIT License.
# Build module for PowerShell ScriptAnalyzer
$projectRoot = $PSScriptRoot
$analyzerName = "PSScriptAnalyzer"
function Get-AnalyzerVersion
{
[xml]$xml = Get-Content $([io.path]::Combine($projectRoot, "Directory.Build.props"))
$xml.Project.PropertyGroup.ModuleVersion
}
$analyzerVersion = Get-AnalyzerVersion
# location where analyzer goes
$script:destinationDir = [io.path]::Combine($projectRoot,"out","${analyzerName}", $analyzerVersion)
function Publish-File
{
param ([string[]]$itemsToCopy, [string]$destination)
if (-not (Test-Path $destination))
{
$null = New-Item -ItemType Directory $destination -Force
}
foreach ($file in $itemsToCopy)
{
Copy-Item -Path $file -Destination (Join-Path $destination (Split-Path $file -Leaf)) -Force
}
}
# Clean up the build location
function Remove-Build
{
[CmdletBinding(SupportsShouldProcess=$true)]
param ()
END {
if ( $PSCmdlet.ShouldProcess("${script:destinationDir}")) {
if ( Test-Path ${script:destinationDir} ) {
Remove-Item -Force -Recurse ${script:destinationDir}
}
}
}
}
# Build documentation using platyPS
function Start-DocumentationBuild
{
$docsPath = Join-Path $projectRoot docs
$markdownDocsPath = Join-Path $docsPath Cmdlets
$outputDocsPath = Join-Path $script:destinationDir en-US
$platyPS = Get-Module -ListAvailable platyPS
if ($null -eq $platyPS -or ($platyPS | Sort-Object Version -Descending | Select-Object -First 1).Version -lt [version]0.12)
{
Write-Verbose -verbose "platyPS module not found or below required version of 0.12, installing the latest version."
Install-Module -Force -Name platyPS -Scope CurrentUser -Repository PSGallery
}
if (-not (Test-Path $markdownDocsPath))
{
throw "Cannot find markdown documentation folder."
}
Import-Module platyPS -Verbose:$false
if ( -not (Test-Path $outputDocsPath)) {
$null = New-Item -Type Directory -Path $outputDocsPath -Force
}
$null = New-ExternalHelp -Path $markdownDocsPath -OutputPath $outputDocsPath -Force
}
function Copy-CompatibilityProfiles
{
if ($PSVersionTable.PSVersion.Major -le 5)
{
Add-Type -AssemblyName 'System.IO.Compression.FileSystem'
}
$profileDir = [System.IO.Path]::Combine($PSScriptRoot, 'PSCompatibilityCollector', 'profiles')
$targetProfileDir = [io.path]::Combine($script:destinationDir,"compatibility_profiles")
if ( -not (Test-Path $targetProfileDir) ) {
$null = New-Item -Type Directory $targetProfileDir
}
Copy-Item -Force $profileDir/* $targetProfileDir
}
# build script analyzer (and optionally build everything with -All)
function Start-ScriptAnalyzerBuild
{
[CmdletBinding(DefaultParameterSetName="BuildOne")]
param (
[switch]$All,
[ValidateSet(3, 4, 5, 7)]
[int]$PSVersion = $PSVersionTable.PSVersion.Major,
[ValidateSet("Debug", "Release")]
[string]$Configuration = "Debug",
[switch]$Documentation,
[switch]$Catalog
)
BEGIN {
# don't allow the build to be started unless we have the proper Cli version
if ( -not (Test-SuitableDotnet) ) {
$requiredVersion = $script:wantedVersion
$foundVersion = Get-InstalledCLIVersion
Write-Warning "No suitable dotnet CLI found, requires version '$requiredVersion' found only '$foundVersion'"
}
$verboseWanted = $false
if ( $PSBoundParameters['Verbose'] ) {
$verboseWanted = $PSBoundParameters['Verbose'].ToBool()
}
}
END {
# Build docs either when -Documentation switch is being specified or the first time in a clean repo
$documentationFileExists = Test-Path (Join-Path $PSScriptRoot 'out\PSScriptAnalyzer\en-us\Microsoft.Windows.PowerShell.ScriptAnalyzer.dll-Help.xml')
if ( $Documentation -or -not $documentationFileExists )
{
Write-Verbose -Verbose:$verboseWanted -Message "Start-DocumentationBuild"
Start-DocumentationBuild -Verbose:$verboseWanted
}
if ( $All )
{
# Build all the versions of the analyzer
foreach ($psVersion in 3, 4, 5, 7) {
Write-Verbose -Verbose -Message "Configuration: $Configuration PSVersion: $psVersion"
Start-ScriptAnalyzerBuild -Configuration $Configuration -PSVersion $psVersion -Verbose:$verboseWanted
}
if ( $Catalog ) {
New-Catalog -Location $script:destinationDir
}
return
}
if (-not $profilesCopied)
{
Write-Verbose -Verbose:$verboseWanted -Message "Copy-CompatibilityProfiles"
Copy-CompatibilityProfiles
# Set the variable in the caller's scope, so this will only happen once
Set-Variable -Name profilesCopied -Value $true -Scope 1
}
$framework = 'net462'
if ($PSVersion -eq 7) {
$framework = 'net6'
}
# build the appropriate assembly
if ($PSVersion -match "[34]" -and $Framework -ne "net462")
{
throw ("ScriptAnalyzer for PS version '{0}' is not applicable to {1} framework" -f $PSVersion,$Framework)
}
Push-Location -Path $projectRoot
if (-not (Test-Path "$projectRoot/global.json"))
{
throw "Not in solution root"
}
# "Copy" the module file with the version placeholder replaced
$manifestContent = Get-Content -LiteralPath "$projectRoot\Engine\PSScriptAnalyzer.psd1" -Raw
$newManifestContent = $manifestContent -replace '{{ModuleVersion}}', $analyzerVersion
Set-Content -LiteralPath "$script:destinationDir\PSScriptAnalyzer.psd1" -Encoding utf8 -Value $newManifestContent
$itemsToCopyCommon = @(
"$projectRoot\LICENSE",
"$projectRoot\README.md",
"$projectRoot\SECURITY.md",
"$projectRoot\ThirdPartyNotices.txt",
"$projectRoot\Engine\PSScriptAnalyzer.psm1",
"$projectRoot\Engine\ScriptAnalyzer.format.ps1xml",
"$projectRoot\Engine\ScriptAnalyzer.types.ps1xml"
)
switch ($PSVersion)
{
3
{
$destinationDirBinaries = "$script:destinationDir\PSv3"
}
4
{
$destinationDirBinaries = "$script:destinationDir\PSv4"
}
5
{
$destinationDirBinaries = "$script:destinationDir"
}
7
{
$destinationDirBinaries = "$script:destinationDir\PSv7"
}
default
{
throw "Unsupported PSVersion: '$PSVersion'"
}
}
$buildConfiguration = $Configuration
if ((3, 4, 7) -contains $PSVersion) {
$buildConfiguration = "PSV${PSVersion}${Configuration}"
}
# Build ScriptAnalyzer
# The Rules project has a dependency on the Engine therefore just building the Rules project is enough
try {
Push-Location $projectRoot/Rules
$message = "Building ScriptAnalyzer for PSVersion '$PSVersion' using framework '$framework' and configuration '$Configuration'"
Write-Verbose -Verbose:$verboseWanted -Message "$message"
Write-Progress "$message"
if ( -not $script:DotnetExe ) {
$script:DotnetExe = Get-DotnetExe
}
$dotnetArgs = "build",
"--framework",
$framework,
"--configuration",
"$buildConfiguration"
if ( $env:TF_BUILD ) {
$dotnetArgs += "--output"
$dotnetArgs += "${PSScriptRoot}\bin\${buildConfiguration}\${framework}"
}
$buildOutput = & $script:DotnetExe $dotnetArgs 2>&1
if ( $LASTEXITCODE -ne 0 ) {
Write-Verbose -Verbose -Message "dotnet is $(${script:DotnetExe}.Source)"
$dotnetArgs | Foreach-Object {"dotnetArg: $_"} | Write-Verbose -Verbose
Get-PSCallStack | Write-Verbose -Verbose
throw $buildOutput
}
Write-Verbose -Verbose:$verboseWanted -message "$buildOutput"
}
catch {
$_.TargetObject | Write-Warning
Write-Error "Failure to build for PSVersion '$PSVersion' using framework '$framework' and configuration '$buildConfiguration'"
throw
}
finally {
Pop-Location
}
Publish-File $itemsToCopyCommon $script:destinationDir
if ( $env:TF_BUILD ) {
$itemsToCopyBinaries = @(
"$projectRoot\bin\${buildConfiguration}\${Framework}\Microsoft.Windows.PowerShell.ScriptAnalyzer.dll",
"$projectRoot\bin\${buildConfiguration}\${Framework}\Microsoft.Windows.PowerShell.ScriptAnalyzer.BuiltinRules.dll"
"$projectRoot\bin\${buildConfiguration}\${framework}\Microsoft.PowerShell.CrossCompatibility.dll"
)
}
else {
$itemsToCopyBinaries = @(
"$projectRoot\Engine\bin\${buildConfiguration}\${Framework}\Microsoft.Windows.PowerShell.ScriptAnalyzer.dll",
"$projectRoot\Rules\bin\${buildConfiguration}\${Framework}\Microsoft.Windows.PowerShell.ScriptAnalyzer.BuiltinRules.dll"
"$projectRoot\Rules\bin\${buildConfiguration}\${framework}\Microsoft.PowerShell.CrossCompatibility.dll"
)
}
if ($Configuration -eq 'Debug') {
$itemsToCopyBinaries += @(
"$projectRoot\Engine\bin\${buildConfiguration}\${Framework}\Microsoft.Windows.PowerShell.ScriptAnalyzer.pdb",
"$projectRoot\Rules\bin\${buildConfiguration}\${Framework}\Microsoft.Windows.PowerShell.ScriptAnalyzer.BuiltinRules.pdb"
"$projectRoot\Rules\bin\${buildConfiguration}\${framework}\Microsoft.PowerShell.CrossCompatibility.pdb"
)
}
Publish-File $itemsToCopyBinaries $destinationDirBinaries
$settingsFiles = Get-Childitem "$projectRoot\Engine\Settings" | ForEach-Object -MemberName FullName
Publish-File $settingsFiles (Join-Path -Path $script:destinationDir -ChildPath Settings)
$rulesProjectOutputDir = if ($env:TF_BUILD) {
"$projectRoot\bin\${buildConfiguration}\${framework}" }
else {
"$projectRoot\Rules\bin\${buildConfiguration}\${framework}"
}
if ($framework -eq 'net462') {
$nsoft = Join-Path $rulesProjectOutputDir 'Newtonsoft.Json.dll'
Copy-Item -path $nsoft -Destination $destinationDirBinaries
}
else {
Copy-Item -Path (Join-Path $rulesProjectOutputDir 'Pluralize.NET.dll') -Destination $destinationDirBinaries
}
Pop-Location
}
}
function New-Catalog
{
[System.Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseCompatibleCommands', '')]
param ( [Parameter()]$Location )
$newFileCatalog = Get-Command -ErrorAction SilentlyContinue New-FileCatalog
if ($null -eq $newFileCatalog) {
Write-Warning "New-FileCatalog not found, not creating catalog"
return
}
try {
Push-Location $Location
New-FileCatalog -CatalogFilePath PSScriptAnalyzer.cat -Path .
}
finally {
Pop-Location
}
}
# TEST HELPERS
# Run our tests
function Test-ScriptAnalyzer
{
[CmdletBinding()]
param ( [switch] $InProcess )
END {
# versions 3 and 4 don't understand versioned module paths, so we need to rename the directory of the version to
# the module name, and then set the ModulePath to that
#
# the layout of the build location is
# .../out
# /PSScriptAnalyzer
# /1.18.0
# /<modulefiles live here>
# and ".../out" is added to env:PSModulePath
# on v3 and v4, it will be
# .../out
# /PSScriptAnalyzer
# /PSScriptAnalyzer
# /<modulefiles live here>
# and ".../out/PSScriptAnalyzer" is added to env:PSModulePath
#
#
$major = $PSVersionTable.PSVersion.Major
if ( $major -lt 5 ) {
# get the directory name of the destination, we need to change it
$versionDirectoryRoot = Split-Path $script:destinationDir
$testModulePath = Join-Path $versionDirectoryRoot $analyzerName
}
else {
$testModulePath = Join-Path "${projectRoot}" -ChildPath out
}
$testScripts = "'${projectRoot}\Tests\Build','${projectRoot}\Tests\Engine','${projectRoot}\Tests\Rules','${projectRoot}\Tests\Documentation'"
try {
if ( $major -lt 5 ) {
Rename-Item $script:destinationDir ${testModulePath}
}
$savedModulePath = $env:PSModulePath
$env:PSModulePath = "${testModulePath}{0}${env:PSModulePath}" -f [System.IO.Path]::PathSeparator
$analyzerPsd1Path = Join-Path -Path $script:destinationDir -ChildPath "$analyzerName.psd1"
$scriptBlock = [scriptblock]::Create("Import-Module '$analyzerPsd1Path'; Invoke-Pester -Path $testScripts -CI")
if ( $InProcess ) {
& $scriptBlock
}
else {
$powershell = (Get-Process -id $PID).MainModule.FileName
& ${powershell} -Command $scriptBlock
}
}
finally {
$env:PSModulePath = $savedModulePath
if ( $major -lt 5 ) {
Rename-Item ${testModulePath} ${script:destinationDir}
}
}
}
}
# a simple function to make it easier to retrieve the test results
function Get-TestResults
{
param ( $logfile = (Join-Path -Path ${projectRoot} -ChildPath TestResults.xml) )
$logPath = (Resolve-Path $logfile).Path
$results = [xml](Get-Content $logPath)
$results.SelectNodes(".//test-case")
}
# a simple function to make it easier to retrieve the failures
# it's not a filter of the results of Get-TestResults because this is faster
function Get-TestFailures
{
param ( $logfile = (Join-Path -Path ${projectRoot} -ChildPath testResults.xml) )
$logPath = (Resolve-Path $logfile).Path
$results = [xml](Get-Content $logPath)
$results.SelectNodes(".//test-case[@result='Failure']")
}
function Get-GlobalJsonSdkVersion {
param ( [switch]$Raw )
$json = Get-Content -raw (Join-Path $PSScriptRoot global.json) | ConvertFrom-Json
$version = $json.sdk.Version
if ( $Raw ) {
return $version
}
else {
ConvertTo-PortableVersion $version
}
}
# we don't have semantic version in earlier versions of PowerShell, so we need to
# create something that we can use
function ConvertTo-PortableVersion {
param ( [string[]]$strVersion )
if ( -not $strVersion ) {
return (ConvertTo-PortableVersion "0.0.0-0")
}
foreach ( $v in $strVersion ) {
$ver, $pre = $v.split("-",2)
try {
[int]$major, [int]$minor, [int]$patch, $unused = $ver.Split(".",4)
if ( -not $pre ) {
$pre = $unused
}
}
catch {
Write-Warning "Cannot convert '$v' to portable version"
continue
}
$h = @{
Major = $major
Minor = $minor
Patch = $patch
}
if ( $pre ) {
$h['PrereleaseLabel'] = $pre
}
else {
$h['PrereleaseLabel'] = [String]::Empty
}
$customObject = [pscustomobject]$h
# we do this so we can get an approximate sort, since this implements a pseudo-version
# type in script, we need a way to find the highest version of dotnet, it's not a great solution
# but it will work in most cases.
Add-Member -inputobject $customObject -Type ScriptMethod -Name ToString -Force -Value {
$str = "{0:0000}.{1:0000}.{2:0000}" -f $this.Major,$this.Minor,$this.Patch
if ( $this.PrereleaseLabel ) {
$str += "-{0}" -f $this.PrereleaseLabel
}
return $str
}
Add-Member -inputobject $customObject -Type ScriptMethod -Name IsContainedIn -Value {
param ( [object[]]$collection )
foreach ( $object in $collection ) {
if (
$this.Major -eq $object.Major -and
$this.Minor -eq $object.Minor -and
$this.Patch -eq $object.Patch -and
$this.PrereleaseLabel -eq $object.PrereleaseLabel
) {
return $true
}
}
return $false
}
$customObject
}
}
# see https://learn.microsoft.com/dotnet/core/tools/global-json for rules
# on how version checks are done
function Test-SuitableDotnet {
param (
$availableVersions = $( Get-InstalledCliVersion),
$requiredVersion = $script:wantedVersion
)
if ( $requiredVersion -is [String] -or $requiredVersion -is [Version] ) {
$requiredVersion = ConvertTo-PortableVersion "$requiredVersion"
}
$availableVersionList = $availableVersions | ForEach-Object { if ( $_ -is [string] -or $_ -is [version] ) { ConvertTo-PortableVersion $_ } else { $_ } }
$availableVersions = $availableVersionList
# if we have what was requested, we can use it
if ( $RequiredVersion.IsContainedIn($availableVersions)) {
return $true
}
# if we had found a match, we would have returned $true above
# exact match required for 2.1.100 through 2.1.201
if ( $RequiredVersion.Major -eq 2 -and $RequiredVersion.Minor -eq 1 -and $RequiredVersion.Patch -ge 100 -and $RequiredVersion.Patch -le 201 ) {
return $false
}
# we need to check each available version for something that's useable
foreach ( $version in $availableVersions ) {
# major/minor numbers don't match - keep looking
if ( $version.Major -ne $requiredVersion.Major -or $version.Minor -ne $requiredVersion.Minor ) {
continue
}
$requiredPatch = $requiredVersion.Patch
$possiblePatch = $version.Patch
if ( $requiredPatch -gt $possiblePatch ) {
continue
}
if ( [math]::Abs(($requiredPatch - $possiblePatch)) -lt 100 ) {
return $true
}
}
return $false
}
# these are mockable functions for testing
function Get-InstalledCLIVersion {
# dotnet might not have been installed _ever_, so just return 0.0.0.0
if ( -not $script:DotnetExe ) {
Write-Warning "Dotnet executable not found"
return (ConvertTo-PortableVersion 0.0.0)
}
try {
# earlier versions of dotnet do not support --list-sdks, so we'll check the output
# and use dotnet --version as a fallback
$sdkList = & $script:DotnetExe --list-sdks 2>&1
if ( $sdkList -match "Unknown option" ) {
$installedVersions = & $script:DotnetExe --version 2>$null
}
else {
$installedVersions = $sdkList | Foreach-Object { $_.Split()[0] }
}
}
catch {
Write-Verbose -Verbose "$_"
$installedVersions = & $script:DotnetExe --version 2>$null
}
return (ConvertTo-PortableVersion $installedVersions)
}
function Get-DotnetExe
{
param ( $version = $script:wantedVersion )
$discoveredDotnet = Get-Command -CommandType Application dotnet -ErrorAction SilentlyContinue -All
if ( $discoveredDotnet ) {
# it's possible that there are multiples. Take the highest version we find
# the problem is that invoking dotnet on a version which is lower than the specified
# version in global.json will produce an error, so we can only take the dotnet which executes
#
# dotnet --version has changed its output, so we have to work much harder to determine what's installed.
# dotnet --version can now emit a list of installed sdks as output *and* an error if the global.json
# file points to a version of the sdk which is *not* installed. However, the format of the new list
# with --version has a couple of spaces at the beginning of the line, so we need to be resilient
# against that.
$properDotnet = $discoveredDotNet |
Where-Object {
& $_ --list-sdks |
Where-Object {
$_ -match $version
}
} |
Select-Object -Last 1
if ( $properDotnet ) {
$script:DotnetExe = $properDotnet
return $properDotnet
}
}
# it's not in the path, try harder to find it by checking some usual places
if ( ! (test-path variable:IsWindows) -or $IsWindows ) {
$dotnetHuntPath = "$HOME\AppData\Local\Microsoft\dotnet\dotnet.exe"
Write-Verbose -Verbose "checking Windows $dotnetHuntPath"
if ( test-path $dotnetHuntPath ) {
$script:DotnetExe = $dotnetHuntPath
return $dotnetHuntPath
}
}
else {
$dotnetHuntPath = "$HOME/.dotnet/dotnet"
Write-Verbose -Verbose "checking non-Windows $dotnetHuntPath"
if ( test-path $dotnetHuntPath ) {
$script:DotnetExe = $dotnetHuntPath
return $dotnetHuntPath
}
}
Write-Warning "Could not find dotnet executable"
return [String]::Empty
}
try {
# The version we want based on the global.JSON file
# suck this before getting the dotnet exe
$script:wantedVersion = Get-GlobalJsonSdkVersion -Raw
$script:DotnetExe = Get-DotnetExe
}
catch {
Write-Warning "The dotnet CLI was not found, please install it: https://aka.ms/dotnet-cli"
}
# Copies the built PSCompatibilityCollector module to the output destination for PSSA
function Copy-CrossCompatibilityModule
{
param(
[Parameter()]
[ValidateNotNullOrEmpty()]
[string]
$Destination
)
$destInfo = Get-Item -Path $Destination -ErrorAction SilentlyContinue
# Can't copy to a file
if ($destInfo -and -not $destInfo.PSIsContainer)
{
throw "Destination exists but is not a directory"
}
# Create the destination if it does not exist
if (-not $destInfo)
{
New-Item -Path $Destination -ItemType Directory
}
$compatCollectorModuleName = 'PSCompatibilityCollector'
$outputAssets = @(
"$PSScriptRoot/$compatCollectorModuleName/$compatCollectorModuleName.psd1"
"$PSScriptRoot/$compatCollectorModuleName/$compatCollectorModuleName.psm1"
"$PSScriptRoot/$compatCollectorModuleName/CrossCompatibilityBinary"
"$PSScriptRoot/$compatCollectorModuleName/profiles"
)
foreach ($assetPath in $outputAssets)
{
try
{
Copy-Item -Path $assetPath -Destination $Destination -Recurse -Force -ErrorAction Stop
}
catch
{
# Display the problem as a warning, but continue
Write-Warning $_
}
}
}
# creates the nuget package which can be used for publishing to the gallery
function Start-CreatePackage
{
try {
$buildRoot = "out"
$repoName = [guid]::NewGuid().ToString()
$nupkgDir = Join-Path $PSScriptRoot $buildRoot
$null = Register-PSRepository -Name $repoName -InstallationPolicy Trusted -SourceLocation $nupkgDir
Push-Location $nupkgDir
Publish-Module -Path $PWD/PSScriptAnalyzer -Repository $repoName
}
finally {
Pop-Location
Unregister-PSRepository -Name $repoName
}
}