# Copyright (c) Microsoft Corporation. All rights reserved. # Licensed under the MIT License. # On Unix paths is separated by colon # On Windows paths is separated by semicolon $script:TestModulePathSeparator = [System.IO.Path]::PathSeparator $dotnetCLIChannel = "release" $dotnetCLIRequiredVersion = $(Get-Content $PSScriptRoot/global.json | ConvertFrom-Json).Sdk.Version # Track if tags have been sync'ed $tagsUpToDate = $false # Sync Tags # When not using a branch in PowerShell/PowerShell, tags will not be fetched automatically # Since code that uses Get-PSCommitID and Get-PSLatestTag assume that tags are fetched, # This function can ensure that tags have been fetched. # This function is used during the setup phase in tools/appveyor.psm1 and tools/travis.ps1 function Sync-PSTags { param( [Switch] $AddRemoteIfMissing ) $PowerShellRemoteUrl = "https://github.com/powershell/powershell.git" $upstreamRemoteDefaultName = 'upstream' $remotes = Start-NativeExecution {git --git-dir="$PSScriptRoot/.git" remote} $upstreamRemote = $null foreach($remote in $remotes) { $url = Start-NativeExecution {git --git-dir="$PSScriptRoot/.git" remote get-url $remote} if($url -eq $PowerShellRemoteUrl) { $upstreamRemote = $remote break } } if(!$upstreamRemote -and $AddRemoteIfMissing.IsPresent -and $remotes -notcontains $upstreamRemoteDefaultName) { $null = Start-NativeExecution {git --git-dir="$PSScriptRoot/.git" remote add $upstreamRemoteDefaultName $PowerShellRemoteUrl} $upstreamRemote = $upstreamRemoteDefaultName } elseif(!$upstreamRemote) { Write-Error "Please add a remote to PowerShell\PowerShell. Example: git remote add $upstreamRemoteDefaultName $PowerShellRemoteUrl" -ErrorAction Stop } $null = Start-NativeExecution {git --git-dir="$PSScriptRoot/.git" fetch --tags --quiet $upstreamRemote} $script:tagsUpToDate=$true } # Gets the latest tag for the current branch function Get-PSLatestTag { [CmdletBinding()] param() # This function won't always return the correct value unless tags have been sync'ed # So, Write a warning to run Sync-PSTags if(!$tagsUpToDate) { Write-Warning "Run Sync-PSTags to update tags" } return (Start-NativeExecution {git --git-dir="$PSScriptRoot/.git" describe --abbrev=0}) } function Get-PSVersion { [CmdletBinding()] param( [switch] $OmitCommitId ) if($OmitCommitId.IsPresent) { return (Get-PSLatestTag) -replace '^v' } else { return (Get-PSCommitId) -replace '^v' } } function Get-PSCommitId { [CmdletBinding()] param() # This function won't always return the correct value unless tags have been sync'ed # So, Write a warning to run Sync-PSTags if(!$tagsUpToDate) { Write-Warning "Run Sync-PSTags to update tags" } return (Start-NativeExecution {git --git-dir="$PSScriptRoot/.git" describe --dirty --abbrev=60}) } function Get-EnvironmentInformation { $environment = @{} # PowerShell Core will likely not be built on pre-1709 nanoserver if ($PSVersionTable.ContainsKey("PSEdition") -and "Core" -eq $PSVersionTable.PSEdition) { $environment += @{'IsCoreCLR' = $true} $environment += @{'IsLinux' = $IsLinux} $environment += @{'IsMacOS' = $IsMacOS} $environment += @{'IsWindows' = $IsWindows} } else { $environment += @{'IsCoreCLR' = $false} $environment += @{'IsLinux' = $false} $environment += @{'IsMacOS' = $false} $environment += @{'IsWindows' = $true} } if ($Environment.IsWindows) { $environment += @{'IsAdmin' = (New-Object Security.Principal.WindowsPrincipal ([Security.Principal.WindowsIdentity]::GetCurrent())).IsInRole([Security.Principal.WindowsBuiltinRole]::Administrator)} # Can't use $env:HOME - not available on older systems (e.g. in AppVeyor) $environment += @{'nugetPackagesRoot' = "${env:HOMEDRIVE}${env:HOMEPATH}\.nuget\packages"} } else { $environment += @{'nugetPackagesRoot' = "${env:HOME}/.nuget/packages"} } if ($Environment.IsLinux) { $LinuxInfo = Get-Content /etc/os-release -Raw | ConvertFrom-StringData $environment += @{'LinuxInfo' = $LinuxInfo} $environment += @{'IsDebian' = $LinuxInfo.ID -match 'debian'} $environment += @{'IsDebian8' = $Environment.IsDebian -and $LinuxInfo.VERSION_ID -match '8'} $environment += @{'IsDebian9' = $Environment.IsDebian -and $LinuxInfo.VERSION_ID -match '9'} $environment += @{'IsUbuntu' = $LinuxInfo.ID -match 'ubuntu'} $environment += @{'IsUbuntu14' = $Environment.IsUbuntu -and $LinuxInfo.VERSION_ID -match '14.04'} $environment += @{'IsUbuntu16' = $Environment.IsUbuntu -and $LinuxInfo.VERSION_ID -match '16.04'} $environment += @{'IsUbuntu17' = $Environment.IsUbuntu -and $LinuxInfo.VERSION_ID -match '17.10'} $environment += @{'IsUbuntu18' = $Environment.IsUbuntu -and $LinuxInfo.VERSION_ID -match '18.04'} $environment += @{'IsCentOS' = $LinuxInfo.ID -match 'centos' -and $LinuxInfo.VERSION_ID -match '7'} $environment += @{'IsFedora' = $LinuxInfo.ID -match 'fedora' -and $LinuxInfo.VERSION_ID -ge 24} $environment += @{'IsOpenSUSE' = $LinuxInfo.ID -match 'opensuse'} $environment += @{'IsSLES' = $LinuxInfo.ID -match 'sles'} $environment += @{'IsOpenSUSE13' = $Environmenst.IsOpenSUSE -and $LinuxInfo.VERSION_ID -match '13'} $environment += @{'IsOpenSUSE42.1' = $Environment.IsOpenSUSE -and $LinuxInfo.VERSION_ID -match '42.1'} $environment += @{'IsRedHatFamily' = $Environment.IsCentOS -or $Environment.IsFedora} $environment += @{'IsSUSEFamily' = $Environment.IsSLES -or $Environment.IsOpenSUSE} # Workaround for temporary LD_LIBRARY_PATH hack for Fedora 24 # https://github.com/PowerShell/PowerShell/issues/2511 if ($environment.IsFedora -and (Test-Path ENV:\LD_LIBRARY_PATH)) { Remove-Item -Force ENV:\LD_LIBRARY_PATH Get-ChildItem ENV: } } return [PSCustomObject] $environment } $Environment = Get-EnvironmentInformation # Autoload (in current session) temporary modules used in our tests $TestModulePath = Join-Path $PSScriptRoot "test/tools/Modules" if ( -not $env:PSModulePath.Contains($TestModulePath) ) { $env:PSModulePath = $TestModulePath+$TestModulePathSeparator+$($env:PSModulePath) } function Test-Win10SDK { # The Windows 10 SDK is installed to "${env:ProgramFiles(x86)}\Windows Kits\10\bin\x64", # but the directory may exist even if the SDK has not been installed. # # A slightly more robust check is for the mc.exe binary within that directory. # It is only present if the SDK is installed. return (Test-Path "${env:ProgramFiles(x86)}\Windows Kits\10\bin\x64\mc.exe") } function Start-BuildNativeWindowsBinaries { param( [ValidateSet('Debug', 'Release')] [string]$Configuration = 'Release', # The `x64_arm` syntax is the build environment for VS2017, `x64` means the host is an x64 machine and will use # the x64 built tool. The `arm` refers to the target architecture when doing cross compilation. [ValidateSet('x64', 'x86', 'x64_arm64', 'x64_arm')] [string]$Arch = 'x64', [switch]$Clean ) if (-not $Environment.IsWindows) { Write-Warning -Message "'Start-BuildNativeWindowsBinaries' is only supported on Windows platforms" return } # cmake is needed to build pwsh.exe if (-not (precheck 'cmake' $null)) { throw 'cmake not found. Run "Start-PSBootstrap -BuildWindowsNative". You can also install it from https://chocolatey.org/packages/cmake' } Use-MSBuild # mc.exe is Message Compiler for native resources if (-Not (Test-Win10SDK)) { throw 'Win 10 SDK not found. Run "Start-PSBootstrap -BuildWindowsNative" or install Microsoft Windows 10 SDK from https://developer.microsoft.com/en-US/windows/downloads/windows-10-sdk' } if ($env:VS140COMNTOOLS -ne $null) { $vcPath = (Get-Item(Join-Path -Path "$env:VS140COMNTOOLS" -ChildPath '../../vc')).FullName } else { $vcPath = (Get-ChildItem "${env:ProgramFiles(x86)}\Microsoft Visual Studio\2017" -Filter "VC" -Directory -Recurse | Select-Object -First 1).FullName } $atlMfcIncludePath = Join-Path -Path $vcPath -ChildPath 'atlmfc/include' if (!(Test-Path $atlMfcIncludePath)) { # for VS2017, need to search for it $atlMfcIncludePath = (Get-ChildItem $vcPath -Filter AtlBase.h -Recurse -File | Select-Object -First 1).DirectoryName } # atlbase.h is included in the pwrshplugin project if ((Test-Path -Path $atlMfcIncludePath\atlbase.h) -eq $false) { throw "Could not find Visual Studio include file atlbase.h at $atlMfcIncludePath. Please ensure the optional feature 'Microsoft Foundation Classes for C++' is installed." } # vcvarsall.bat is used to setup environment variables $vcvarsallbatPath = "$vcPath\vcvarsall.bat" if (!(Test-Path -Path $vcvarsallbatPath)) { # for VS2017, need to search for it $vcvarsallbatPath = (Get-ChildItem $vcPath -Filter vcvarsall.bat -Recurse -File | Select-Object -First 1).FullName } if ((Test-Path -Path $vcvarsallbatPath) -eq $false) { throw "Could not find Visual Studio vcvarsall.bat at $vcvarsallbatPath. Please ensure the optional feature 'Common Tools for Visual C++' is installed." } Write-Log "Start building native Windows binaries" if ($Clean) { git clean -fdx Remove-Item $HOME\source\cmakecache.txt -ErrorAction SilentlyContinue } try { Push-Location "$PSScriptRoot\src\powershell-native" # setup cmakeGenerator $cmakeGeneratorPlatform = "" if ($Arch -eq 'x86') { $cmakeGenerator = 'Visual Studio 15 2017' $cmakeArch = 'x86' } elseif ($Arch -eq 'x64_arm') { $cmakeGenerator = 'Visual Studio 15 2017 ARM' $cmakeArch = 'arm' } elseif ($Arch -eq 'x64_arm64') { $cmakeGenerator = 'Visual Studio 15 2017' $cmakeArch = 'arm64' $cmakeGeneratorPlatform = "-A ARM64" } else { $cmakeGenerator = 'Visual Studio 15 2017 Win64' $cmakeArch = 'x64' } # Compile native resources $currentLocation = Get-Location @("nativemsh\pwrshplugin") | ForEach-Object { $nativeResourcesFolder = $_ Get-ChildItem $nativeResourcesFolder -Filter "*.mc" | ForEach-Object { $command = @" cmd.exe /C cd /d "$currentLocation" "&" "$vcvarsallbatPath" "$Arch" "&" mc.exe -o -d -c -U "$($_.FullName)" -h "$currentLocation\$nativeResourcesFolder" -r "$currentLocation\$nativeResourcesFolder" "@ Write-Log " Executing mc.exe Command: $command" Start-NativeExecution { Invoke-Expression -Command:$command } } } # make sure we use version we installed and not from VS $cmakePath = (Get-Command cmake).Source # Disabling until I figure out if it is necessary # $overrideFlags = "-DCMAKE_USER_MAKE_RULES_OVERRIDE=$PSScriptRoot\src\powershell-native\windows-compiler-override.txt" $overrideFlags = "" $command = @" cmd.exe /C cd /d "$currentLocation" "&" "$vcvarsallbatPath" "$Arch" "&" "$cmakePath" "$overrideFlags" -DBUILD_ONECORE=ON -DBUILD_TARGET_ARCH=$cmakeArch -G "$cmakeGenerator" $cmakeGeneratorPlatform "$currentLocation" "&" msbuild ALL_BUILD.vcxproj "/p:Configuration=$Configuration" "@ Write-Log " Executing Build Command: $command" Start-NativeExecution { Invoke-Expression -Command:$command } # Copy the binaries from the local build directory to the packaging directory $FilesToCopy = @('pwrshplugin.dll', 'pwrshplugin.pdb') $dstPath = "$PSScriptRoot\src\powershell-win-core" $FilesToCopy | ForEach-Object { $srcPath = [IO.Path]::Combine((Get-Location), "bin", $Configuration, "CoreClr/$_") Write-Log " Copying $srcPath to $dstPath" Copy-Item $srcPath $dstPath } # # Build the ETW manifest resource-only binary # $location = "$PSScriptRoot\src\PowerShell.Core.Instrumentation" Set-Location -Path $location Remove-Item $HOME\source\cmakecache.txt -ErrorAction SilentlyContinue $command = @" cmd.exe /C cd /d "$location" "&" "$vcvarsallbatPath" "$Arch" "&" "$cmakePath" "$overrideFlags" -DBUILD_ONECORE=ON -DBUILD_TARGET_ARCH=$cmakeArch -G "$cmakeGenerator" $cmakeGeneratorPlatform "$location" "&" msbuild ALL_BUILD.vcxproj "/p:Configuration=$Configuration" "@ Write-Log " Executing Build Command for PowerShell.Core.Instrumentation: $command" Start-NativeExecution { Invoke-Expression -Command:$command } # Copy the binary to the packaging directory # NOTE: No PDB file; it's a resource-only DLL. # VS2017 puts this in $HOME\source $srcPath = [IO.Path]::Combine($HOME, "source", $Configuration, 'PowerShell.Core.Instrumentation.dll') Copy-Item -Path $srcPath -Destination $dstPath } finally { Pop-Location } } function Start-BuildNativeUnixBinaries { param ( [switch] $BuildLinuxArm ) if (-not $Environment.IsLinux -and -not $Environment.IsMacOS) { Write-Warning -Message "'Start-BuildNativeUnixBinaries' is only supported on Linux/macOS platforms" return } if ($BuildLinuxArm -and -not $Environment.IsUbuntu) { throw "Cross compiling for linux-arm is only supported on Ubuntu environment" } # Verify we have all tools in place to do the build $precheck = $true foreach ($Dependency in 'cmake', 'make', 'g++') { $precheck = $precheck -and (precheck $Dependency "Build dependency '$Dependency' not found. Run 'Start-PSBootstrap'.") } if ($BuildLinuxArm) { foreach ($Dependency in 'arm-linux-gnueabihf-gcc', 'arm-linux-gnueabihf-g++') { $precheck = $precheck -and (precheck $Dependency "Build dependency '$Dependency' not found. Run 'Start-PSBootstrap'.") } } # Abort if any precheck failed if (-not $precheck) { return } # Build native components $Ext = if ($Environment.IsLinux) { "so" } elseif ($Environment.IsMacOS) { "dylib" } $Native = "$PSScriptRoot/src/libpsl-native" $Lib = "$PSScriptRoot/src/powershell-unix/libpsl-native.$Ext" Write-Log "Start building $Lib" git clean -qfdX $Native try { Push-Location $Native if ($BuildLinuxArm) { Start-NativeExecution { cmake -DCMAKE_TOOLCHAIN_FILE="./arm.toolchain.cmake" . } Start-NativeExecution { make -j } } else { Start-NativeExecution { cmake -DCMAKE_BUILD_TYPE=Debug . } Start-NativeExecution { make -j } Start-NativeExecution { ctest --verbose } } } finally { Pop-Location } if (-not (Test-Path $Lib)) { throw "Compilation of $Lib failed" } } function Start-PSBuild { [CmdletBinding()] param( # When specified this switch will stops running dev powershell # to help avoid compilation error, because file are in use. [switch]$StopDevPowerShell, [switch]$Restore, [string]$Output, [switch]$ResGen, [switch]$TypeGen, [switch]$Clean, [switch]$PSModuleRestore, [switch]$CI, # this switch will re-build only System.Management.Automation.dll # it's useful for development, to do a quick changes in the engine [switch]$SMAOnly, # These runtimes must match those in project.json # We do not use ValidateScript since we want tab completion # If this parameter is not provided it will get determined automatically. [ValidateSet("win7-x64", "win7-x86", "osx-x64", "linux-x64", "linux-arm", "win-arm", "win-arm64")] [string]$Runtime, [ValidateSet('Debug', 'Release', 'CodeCoverage', '')] # We might need "Checked" as well [string]$Configuration, [switch]$CrossGen, [ValidatePattern("^v\d+\.\d+\.\d+(-\w+(\.\d+)?)?$")] [ValidateNotNullOrEmpty()] [string]$ReleaseTag ) if ($Runtime -eq "linux-arm" -and -not $Environment.IsUbuntu) { throw "Cross compiling for linux-arm is only supported on Ubuntu environment" } if ("win-arm","win-arm64" -contains $Runtime -and -not $Environment.IsWindows) { throw "Cross compiling for win-arm or win-arm64 is only supported on Windows environment" } function Stop-DevPowerShell { Get-Process pwsh* | Where-Object { $_.Modules | Where-Object { $_.FileName -eq (Resolve-Path $script:Options.Output).Path } } | Stop-Process -Verbose } if ($Clean) { Write-Log "Cleaning your working directory. You can also do it with 'git clean -fdX'" Push-Location $PSScriptRoot try { git clean -fdX # Extra cleaning is required to delete the CMake temporary files. # These are not cleaned when using "X" and cause CMake to retain state, leading to # mis-configured environment issues when switching between x86 and x64 compilation # environments. git clean -fdx .\src\powershell-native } finally { Pop-Location } } # Add .NET CLI tools to PATH Find-Dotnet # Verify we have .NET SDK in place to do the build, and abort if the precheck failed $precheck = precheck 'dotnet' "Build dependency 'dotnet' not found in PATH. Run Start-PSBootstrap. Also see: https://dotnet.github.io/getting-started/" if (-not $precheck) { return } # Verify if the dotnet in-use is the required version $dotnetCLIInstalledVersion = (dotnet --version) If ($dotnetCLIInstalledVersion -ne $dotnetCLIRequiredVersion) { Write-Warning @" The currently installed .NET Command Line Tools is not the required version. Installed version: $dotnetCLIInstalledVersion Required version: $dotnetCLIRequiredVersion Fix steps: 1. Remove the installed version from: - on windows '`$env:LOCALAPPDATA\Microsoft\dotnet' - on macOS and linux '`$env:HOME/.dotnet' 2. Run Start-PSBootstrap or Install-Dotnet 3. Start-PSBuild -Clean `n "@ return } # set output options $OptionsArguments = @{ CrossGen=$CrossGen Output=$Output Runtime=$Runtime Configuration=$Configuration Verbose=$true SMAOnly=[bool]$SMAOnly PSModuleRestore=$PSModuleRestore } $script:Options = New-PSOptions @OptionsArguments if ($StopDevPowerShell) { Stop-DevPowerShell } # setup arguments $Arguments = @("publish","--no-restore","/property:GenerateFullPaths=true") if ($Output) { $Arguments += "--output", $Output } elseif ($SMAOnly) { $Arguments += "--output", (Split-Path $script:Options.Output) } $Arguments += "--configuration", $Options.Configuration $Arguments += "--framework", $Options.Framework if (-not $SMAOnly) { # libraries should not have runtime $Arguments += "--runtime", $Options.Runtime } if ($ReleaseTag) { $ReleaseTagToUse = $ReleaseTag -Replace '^v' $Arguments += "/property:ReleaseTag=$ReleaseTagToUse" } # handle Restore Restore-PSPackage -Options $Options -Force:$Restore # handle ResGen # Heuristic to run ResGen on the fresh machine if ($ResGen -or -not (Test-Path "$PSScriptRoot/src/Microsoft.PowerShell.ConsoleHost/gen")) { Write-Log "Run ResGen (generating C# bindings for resx files)" Start-ResGen } # Handle TypeGen # .inc file name must be different for Windows and Linux to allow build on Windows and WSL. $incFileName = "powershell_$($Options.Runtime).inc" if ($TypeGen -or -not (Test-Path "$PSScriptRoot/src/TypeCatalogGen/$incFileName")) { Write-Log "Run TypeGen (generating CorePsTypeCatalog.cs)" Start-TypeGen -IncFileName $incFileName } # Get the folder path where pwsh.exe is located. $publishPath = Split-Path $Options.Output -Parent try { # Relative paths do not work well if cwd is not changed to project Push-Location $Options.Top Write-Log "Run dotnet $Arguments from $pwd" Start-NativeExecution { dotnet $Arguments } if ($CrossGen) { Start-CrossGen -PublishPath $publishPath -Runtime $script:Options.Runtime Write-Log "pwsh.exe with ngen binaries is available at: $($Options.Output)" } else { Write-Log "PowerShell output: $($Options.Output)" } } finally { Pop-Location } # publish netcoreapp2.1 reference assemblies try { Push-Location "$PSScriptRoot/src/TypeCatalogGen" $refAssemblies = Get-Content -Path $incFileName | Where-Object { $_ -like "*microsoft.netcore.app*" } | ForEach-Object { $_.TrimEnd(';') } $refDestFolder = Join-Path -Path $publishPath -ChildPath "ref" if (Test-Path $refDestFolder -PathType Container) { Remove-Item $refDestFolder -Force -Recurse -ErrorAction Stop } New-Item -Path $refDestFolder -ItemType Directory -Force -ErrorAction Stop > $null Copy-Item -Path $refAssemblies -Destination $refDestFolder -Force -ErrorAction Stop } finally { Pop-Location } if ($Environment.IsRedHatFamily) { # add two symbolic links to system shared libraries that libmi.so is dependent on to handle # platform specific changes. This is the only set of platforms needed for this currently # as Ubuntu has these specific library files in the platform and macOS builds for itself # against the correct versions. if ( ! (test-path "$publishPath/libssl.so.1.0.0")) { $null = New-Item -Force -ItemType SymbolicLink -Target "/lib64/libssl.so.10" -Path "$publishPath/libssl.so.1.0.0" -ErrorAction Stop } if ( ! (test-path "$publishPath/libcrypto.so.1.0.0")) { $null = New-Item -Force -ItemType SymbolicLink -Target "/lib64/libcrypto.so.10" -Path "$publishPath/libcrypto.so.1.0.0" -ErrorAction Stop } } if ($Environment.IsWindows) { ## need RCEdit to modify the binaries embedded resources if (-not (Test-Path "~/.rcedit/rcedit-x64.exe")) { throw "RCEdit is required to modify pwsh.exe resources, please run 'Start-PSBootStrap' to install" } $ReleaseVersion = "" if ($ReleaseTagToUse) { $ReleaseVersion = $ReleaseTagToUse } else { $ReleaseVersion = (Get-PSCommitId -WarningAction SilentlyContinue) -replace '^v' } # in VSCode, depending on where you started it from, the git commit id may be empty so provide a default value if (!$ReleaseVersion) { $ReleaseVersion = "6.0.0" $fileVersion = "6.0.0" } else { $fileVersion = $ReleaseVersion.Split("-")[0] } # in VSCode, the build output folder doesn't include the name of the exe so we have to add it for rcedit $pwshPath = $Options.Output if (!$pwshPath.EndsWith("pwsh.exe")) { $pwshPath = Join-Path $Options.Output "pwsh.exe" } Start-NativeExecution { & "~/.rcedit/rcedit-x64.exe" $pwshPath --set-icon "$PSScriptRoot\assets\Powershell_black.ico" ` --set-file-version $fileVersion --set-product-version $ReleaseVersion --set-version-string "ProductName" "PowerShell Core 6" ` --set-version-string "LegalCopyright" "(C) Microsoft Corporation. All Rights Reserved." ` --application-manifest "$PSScriptRoot\assets\pwsh.manifest" } | Write-Verbose } # download modules from powershell gallery. # - PowerShellGet, PackageManagement, Microsoft.PowerShell.Archive if ($PSModuleRestore) { Restore-PSModuleToBuild -PublishPath $publishPath } # Restore the Pester module if ($CI) { Restore-PSPester -Destination (Join-Path $publishPath "Modules") } } function Restore-PSPackage { param( [ValidateNotNullOrEmpty()] [Parameter()] [string[]] $ProjectDirs, [ValidateNotNullOrEmpty()] [Parameter()] $Options = (Get-PSOptions -DefaultToNew), [switch] $Force ) if (-not $ProjectDirs) { $ProjectDirs = @($Options.Top, "$PSScriptRoot/src/TypeCatalogGen", "$PSScriptRoot/src/ResGen", "$PSScriptRoot/src/Modules") } if ($Force -or (-not (Test-Path "$($Options.Top)/obj/project.assets.json"))) { $RestoreArguments = @("--runtime",$Options.Runtime,"--verbosity") if ($PSCmdlet.MyInvocation.BoundParameters["Verbose"].IsPresent) { $RestoreArguments += "detailed" } else { $RestoreArguments += "quiet" } $ProjectDirs | ForEach-Object { Write-Log "Run dotnet restore $_ $RestoreArguments" Start-NativeExecution { dotnet restore $_ $RestoreArguments } } } } function Restore-PSModuleToBuild { param( [Parameter(Mandatory)] [string] $PublishPath ) Write-Log "Restore PowerShell modules to $publishPath" $modulesDir = Join-Path -Path $publishPath -ChildPath "Modules" Copy-PSGalleryModules -Destination $modulesDir } function Restore-PSPester { param( [ValidateNotNullOrEmpty()] [string] $Destination = ([IO.Path]::Combine((Split-Path (Get-PSOptions -DefaultToNew).Output), "Modules")) ) Save-Module -Name Pester -Path $Destination -Repository PSGallery -RequiredVersion "4.2" } function Compress-TestContent { [CmdletBinding()] param( $Destination ) $null = Publish-PSTestTools $powerShellTestRoot = Join-Path $PSScriptRoot 'test' Add-Type -AssemblyName System.IO.Compression.FileSystem $resolvedPath = $ExecutionContext.SessionState.Path.GetUnresolvedProviderPathFromPSPath($Destination) [System.IO.Compression.ZipFile]::CreateFromDirectory($powerShellTestRoot, $resolvedPath) } function New-PSOptions { [CmdletBinding()] param( [ValidateSet("Debug", "Release", "CodeCoverage", '')] [string]$Configuration, [ValidateSet("netcoreapp2.1")] [string]$Framework, # These are duplicated from Start-PSBuild # We do not use ValidateScript since we want tab completion [ValidateSet("", "win7-x86", "win7-x64", "osx-x64", "linux-x64", "linux-arm", "win-arm", "win-arm64")] [string]$Runtime, [switch]$CrossGen, [string]$Output, [switch]$SMAOnly, [switch]$PSModuleRestore ) # Add .NET CLI tools to PATH Find-Dotnet $ConfigWarningMsg = "The passed-in Configuration value '{0}' is not supported on '{1}'. Use '{2}' instead." if (-not $Configuration) { $Configuration = 'Debug' } else { switch ($Configuration) { "CodeCoverage" { if(-not $Environment.IsWindows) { $Configuration = "Debug" Write-Warning ($ConfigWarningMsg -f $switch.Current, $Environment.LinuxInfo.PRETTY_NAME, $Configuration) } } } } Write-Verbose "Using configuration '$Configuration'" $PowerShellDir = if (!$Environment.IsWindows) { "powershell-unix" } else { "powershell-win-core" } $Top = [IO.Path]::Combine($PSScriptRoot, "src", $PowerShellDir) Write-Verbose "Top project directory is $Top" if (-not $Framework) { $Framework = "netcoreapp2.1" Write-Verbose "Using framework '$Framework'" } if (-not $Runtime) { if ($Environment.IsLinux) { $Runtime = "linux-x64" } elseif ($Environment.IsMacOS) { $Runtime = "osx-x64" } else { $RID = dotnet --info | ForEach-Object { if ($_ -match "RID") { $_ -split "\s+" | Select-Object -Last 1 } } # We plan to release packages targetting win7-x64 and win7-x86 RIDs, # which supports all supported windows platforms. # So we, will change the RID to win7- $Runtime = $RID -replace "win\d+", "win7" } if (-not $Runtime) { Throw "Could not determine Runtime Identifier, please update dotnet" } else { Write-Verbose "Using runtime '$Runtime'" } } $Executable = if ($Environment.IsLinux -or $Environment.IsMacOS) { "pwsh" } elseif ($Environment.IsWindows) { "pwsh.exe" } # Build the Output path if (!$Output) { $Output = [IO.Path]::Combine($Top, "bin", $Configuration, $Framework, $Runtime, "publish", $Executable) } if ($SMAOnly) { $Top = [IO.Path]::Combine($PSScriptRoot, "src", "System.Management.Automation") } $RootInfo = @{RepoPath = $PSScriptRoot} # the valid root is the root of the filesystem and the folder PowerShell $RootInfo['ValidPath'] = Join-Path -Path ([system.io.path]::GetPathRoot($RootInfo.RepoPath)) -ChildPath 'PowerShell' if($RootInfo.RepoPath -ne $RootInfo.ValidPath) { $RootInfo['Warning'] = "Please ensure your repo is at the root of the file system and named 'PowerShell' (example: '$($RootInfo.ValidPath)'), when building and packaging for release!" $RootInfo['IsValid'] = $false } else { $RootInfo['IsValid'] = $true } return @{ RootInfo = [PSCustomObject]$RootInfo Top = $Top Configuration = $Configuration Framework = $Framework Runtime = $Runtime Output = $Output CrossGen = $CrossGen.IsPresent PSModuleRestore = $PSModuleRestore.IsPresent } } # Get the Options of the last build function Get-PSOptions { param( [Parameter(HelpMessage='Defaults to New-PSOption if a build has not ocurred.')] [switch] $DefaultToNew ) if(!$script:Options -and $DefaultToNew.IsPresent) { return New-PSOptions } return $script:Options } function Set-PSOptions { param( [PSObject] $Options ) $script:Options = $Options } function Get-PSOutput { [CmdletBinding()]param( [hashtable]$Options ) if ($Options) { return $Options.Output } elseif ($script:Options) { return $script:Options.Output } else { return (New-PSOptions).Output } } function Get-PesterTag { param ( [Parameter(Position=0)][string]$testbase = "$PSScriptRoot/test/powershell" ) $alltags = @{} $warnings = @() get-childitem -Recurse $testbase -File | Where-Object {$_.name -match "tests.ps1"}| ForEach-Object { $fullname = $_.fullname $tok = $err = $null $ast = [System.Management.Automation.Language.Parser]::ParseFile($FullName, [ref]$tok,[ref]$err) $des = $ast.FindAll({$args[0] -is "System.Management.Automation.Language.CommandAst" -and $args[0].CommandElements[0].Value -eq "Describe"},$true) foreach( $describe in $des) { $elements = $describe.CommandElements $lineno = $elements[0].Extent.StartLineNumber $foundPriorityTags = @() for ( $i = 0; $i -lt $elements.Count; $i++) { if ( $elements[$i].extent.text -match "^-t" ) { $vAst = $elements[$i+1] if ( $vAst.FindAll({$args[0] -is "System.Management.Automation.Language.VariableExpressionAst"},$true) ) { $warnings += "TAGS must be static strings, error in ${fullname}, line $lineno" } $values = $vAst.FindAll({$args[0] -is "System.Management.Automation.Language.StringConstantExpressionAst"},$true).Value $values | ForEach-Object { if (@('REQUIREADMINONWINDOWS', 'REQUIRESUDOONUNIX', 'SLOW') -contains $_) { # These are valid tags also, but they are not the priority tags } elseif (@('CI', 'FEATURE', 'SCENARIO') -contains $_) { $foundPriorityTags += $_ } else { $warnings += "${fullname} includes improper tag '$_', line '$lineno'" } $alltags[$_]++ } } } if ( $foundPriorityTags.Count -eq 0 ) { $warnings += "${fullname}:$lineno does not include -Tag in Describe" } elseif ( $foundPriorityTags.Count -gt 1 ) { $warnings += "${fullname}:$lineno includes more then one scope -Tag: $foundPriorityTags" } } } if ( $Warnings.Count -gt 0 ) { $alltags['Result'] = "Fail" } else { $alltags['Result'] = "Pass" } $alltags['Warnings'] = $warnings $o = [pscustomobject]$alltags $o.psobject.TypeNames.Add("DescribeTagsInUse") $o } function Publish-PSTestTools { [CmdletBinding()] param() Find-Dotnet $tools = @( @{Path="${PSScriptRoot}/test/tools/TestExe";Output="testexe"} @{Path="${PSScriptRoot}/test/tools/WebListener";Output="WebListener"} ) $Options = Get-PSOptions -DefaultToNew # Publish tools so it can be run by tests foreach ($tool in $tools) { Push-Location $tool.Path try { dotnet publish --output bin --configuration $Options.Configuration --framework $Options.Framework --runtime $Options.Runtime $toolPath = Join-Path -Path $tool.Path -ChildPath "bin" if ( -not $env:PATH.Contains($toolPath) ) { $env:PATH = $toolPath+$TestModulePathSeparator+$($env:PATH) } } finally { Pop-Location } } } function Start-PSPester { [CmdletBinding(DefaultParameterSetName='default')] param( [string]$OutputFormat = "NUnitXml", [string]$OutputFile = "pester-tests.xml", [string[]]$ExcludeTag = 'Slow', [string[]]$Tag = @("CI","Feature"), [string[]]$Path = @("$PSScriptRoot/test/common","$PSScriptRoot/test/powershell"), [switch]$ThrowOnFailure, [string]$binDir = (Split-Path (Get-PSOptions -DefaultToNew).Output), [string]$powershell = (Join-Path $binDir 'pwsh'), [string]$Pester = ([IO.Path]::Combine($binDir, "Modules", "Pester")), [Parameter(ParameterSetName='Unelevate',Mandatory=$true)] [switch]$Unelevate, [switch]$Quiet, [switch]$Terse, [Parameter(ParameterSetName='PassThru',Mandatory=$true)] [switch]$PassThru, [Parameter(ParameterSetName='PassThru',HelpMessage='Run commands on Linux with sudo.')] [switch]$Sudo, [switch]$IncludeFailingTest ) $getModuleResults = Get-Module -ListAvailable -Name $Pester -ErrorAction SilentlyContinue if (-not $getModuleResults) { Write-Warning @" Pester module not found. Restore the module to '$Pester' by running: Restore-PSPester "@ return; } if (-not ($getModuleResults | Where-Object { $_.Version -ge "4.2" } )) { Write-Warning @" No Pester module of version 4.2 and higher. Restore the required module version to '$Pester' by running: Restore-PSPester "@ return; } if ($IncludeFailingTest.IsPresent) { $Path += "$PSScriptRoot/tools/failingTests" } # we need to do few checks and if user didn't provide $ExcludeTag explicitly, we should alternate the default if ($Unelevate) { if (-not $Environment.IsWindows) { throw '-Unelevate is currently not supported on non-Windows platforms' } if (-not $Environment.IsAdmin) { throw '-Unelevate cannot be applied because the current user is not Administrator' } if (-not $PSBoundParameters.ContainsKey('ExcludeTag')) { $ExcludeTag += 'RequireAdminOnWindows' } } elseif ($Environment.IsWindows -and (-not $Environment.IsAdmin)) { if (-not $PSBoundParameters.ContainsKey('ExcludeTag')) { $ExcludeTag += 'RequireAdminOnWindows' } } elseif (-not $Environment.IsWindows -and (-not $Sudo.IsPresent)) { if (-not $PSBoundParameters.ContainsKey('ExcludeTag')) { $ExcludeTag += 'RequireSudoOnUnix' } } elseif (-not $Environment.IsWindows -and $Sudo.IsPresent) { if (-not $PSBoundParameters.ContainsKey('Tag')) { $Tag = 'RequireSudoOnUnix' } } Write-Verbose "Running pester tests at '$path' with tag '$($Tag -join ''', ''')' and ExcludeTag '$($ExcludeTag -join ''', ''')'" -Verbose Publish-PSTestTools | ForEach-Object {Write-Host $_} # All concatenated commands/arguments are suffixed with the delimiter (space) # Disable telemetry for all startups of pwsh in tests $command = "`$env:POWERSHELL_TELEMETRY_OPTOUT = 1;" if ($Terse) { $command += "`$ProgressPreference = 'silentlyContinue'; " } # Autoload (in subprocess) temporary modules used in our tests $command += '$env:PSModulePath = '+"'$TestModulePath$TestModulePathSeparator'" + '+$($env:PSModulePath);' # Windows needs the execution policy adjusted if ($Environment.IsWindows) { $command += "Set-ExecutionPolicy -Scope Process Unrestricted; " } $command += "Import-Module '$Pester'; " if ($Unelevate) { $outputBufferFilePath = [System.IO.Path]::GetTempFileName() } $command += "Invoke-Pester " $command += "-OutputFormat ${OutputFormat} -OutputFile ${OutputFile} " if ($ExcludeTag -and ($ExcludeTag -ne "")) { $command += "-ExcludeTag @('" + (${ExcludeTag} -join "','") + "') " } if ($Tag) { $command += "-Tag @('" + (${Tag} -join "','") + "') " } # sometimes we need to eliminate Pester output, especially when we're # doing a daily build as the log file is too large if ( $Quiet ) { $command += "-Quiet " } if ( $PassThru ) { $command += "-PassThru " } $command += "'" + ($Path -join "','") + "'" if ($Unelevate) { $command += " *> $outputBufferFilePath; '__UNELEVATED_TESTS_THE_END__' >> $outputBufferFilePath" } Write-Verbose $command $script:nonewline = $true $script:inerror = $false function Write-Terse([string] $line) { $trimmedline = $line.Trim() if ($trimmedline.StartsWith("[+]")) { Write-Host "+" -NoNewline -ForegroundColor Green $script:nonewline = $true $script:inerror = $false } elseif ($trimmedline.StartsWith("[?]")) { Write-Host "?" -NoNewline -ForegroundColor Cyan $script:nonewline = $true $script:inerror = $false } elseif ($trimmedline.StartsWith("[!]")) { Write-Host "!" -NoNewline -ForegroundColor Gray $script:nonewline = $true $script:inerror = $false } elseif ($trimmedline.StartsWith("Executing script ")) { # Skip lines where Pester reports that is executing a test script return } elseif ($trimmedline -match "^\d+(\.\d+)?m?s$") { # Skip the time elapse like '12ms', '1ms', '1.2s' and '12.53s' return } else { if ($script:nonewline) { Write-Host "`n" -NoNewline } if ($trimmedline.StartsWith("[-]") -or $script:inerror) { Write-Host $line -ForegroundColor Red $script:inerror = $true } elseif ($trimmedline.StartsWith("VERBOSE:")) { Write-Host $line -ForegroundColor Yellow $script:inerror = $false } elseif ($trimmedline.StartsWith("Describing") -or $trimmedline.StartsWith("Context")) { Write-Host $line -ForegroundColor Magenta $script:inerror = $false } else { Write-Host $line -ForegroundColor Gray } $script:nonewline = $false } } # To ensure proper testing, the module path must not be inherited by the spawned process try { $originalModulePath = $env:PSModulePath $originalTelemetry = $env:POWERSHELL_TELEMETRY_OPTOUT $env:POWERSHELL_TELEMETRY_OPTOUT = 1 if ($Unelevate) { Start-UnelevatedProcess -process $powershell -arguments @('-noprofile', '-c', $Command) $currentLines = 0 while ($true) { $lines = Get-Content $outputBufferFilePath | Select-Object -Skip $currentLines if ($Terse) { foreach ($line in $lines) { Write-Terse -line $line } } else { $lines | Write-Host } if ($lines | Where-Object { $_ -eq '__UNELEVATED_TESTS_THE_END__'}) { break } $count = ($lines | measure-object).Count if ($count -eq 0) { Start-Sleep -Seconds 1 } else { $currentLines += $count } } } else { if ($PassThru.IsPresent) { $passThruFile = [System.IO.Path]::GetTempFileName() try { $command += "|Export-Clixml -Path '$passThruFile' -Force" $passThruCommand = {& $powershell -noprofile -c $command } if ($Sudo.IsPresent) { $passThruCommand = {& sudo $powershell -noprofile -c $command } } $writeCommand = { Write-Host $_ } if ($Terse) { $writeCommand = { Write-Terse $_ } } Start-NativeExecution -sb $passThruCommand | ForEach-Object $writeCommand Import-Clixml -Path $passThruFile | Where-Object {$_.TotalCount -is [Int32]} } finally { Remove-Item $passThruFile -ErrorAction SilentlyContinue -Force } } else { if ($Terse) { Start-NativeExecution -sb {& $powershell -noprofile -c $command} | ForEach-Object { Write-Terse -line $_ } } else { Start-NativeExecution -sb {& $powershell -noprofile -c $command} } } } } finally { $env:PSModulePath = $originalModulePath $env:POWERSHELL_TELEMETRY_OPTOUT = $originalTelemetry if ($Unelevate) { Remove-Item $outputBufferFilePath } } if($ThrowOnFailure) { Test-PSPesterResults -TestResultsFile $OutputFile } } function script:Start-UnelevatedProcess { param( [string]$process, [string[]]$arguments ) if (-not $Environment.IsWindows) { throw "Start-UnelevatedProcess is currently not supported on non-Windows platforms" } runas.exe /trustlevel:0x20000 "$process $arguments" } function Show-PSPesterError { [CmdletBinding(DefaultParameterSetName='xml')] param ( [Parameter(ParameterSetName='xml',Mandatory)] [Xml.XmlElement]$testFailure, [Parameter(ParameterSetName='object',Mandatory)] [PSCustomObject]$testFailureObject ) if ($PSCmdLet.ParameterSetName -eq 'xml') { $description = $testFailure.description $name = $testFailure.name $message = $testFailure.failure.message $stackTrace = $testFailure.failure."stack-trace" } elseif ($PSCmdLet.ParameterSetName -eq 'object') { $description = $testFailureObject.Describe + '/' + $testFailureObject.Context $name = $testFailureObject.Name $message = $testFailureObject.FailureMessage $stackTrace = $testFailureObject.StackTrace } else { throw 'Unknown Show-PSPester parameter set' } Write-Log -Error ("Description: " + $description) Write-Log -Error ("Name: " + $name) Write-Log -Error "message:" Write-Log -Error $message Write-Log -Error "stack-trace:" Write-Log -Error $stackTrace } function Test-XUnitTestResults { param( [Parameter(Mandatory)] [ValidateNotNullOrEmpty()] [string] $TestResultsFile ) if(-not (Test-Path $TestResultsFile)) { throw "File not found $TestResultsFile" } try { $results = [xml] (Get-Content $TestResultsFile) } catch { throw "Cannot convert $TestResultsFile to xml : $($_.message)" } $failedTests = $results.assemblies.assembly.collection | Where-Object failed -gt 0 if(-not $failedTests) { return $true } foreach($failure in $failedTests) { $description = $failure.test.type $name = $failure.test.method $message = $failure.test.failure.message.'#cdata-section' $stackTrace = $failure.test.failure.'stack-trace'.'#cdata-section' Write-Log -Error ("Description: " + $description) Write-Log -Error ("Name: " + $name) Write-Log -Error "message:" Write-Log -Error $message Write-Log -Error "stack-trace:" Write-Log -Error $stackTrace } throw "$($failedTests.failed) tests failed" } # # Read the test result file and # Throw if a test failed function Test-PSPesterResults { [CmdletBinding(DefaultParameterSetName='file')] param( [Parameter(ParameterSetName='file')] [string]$TestResultsFile = "pester-tests.xml", [Parameter(ParameterSetName='file')] [string]$TestArea = 'test/powershell', [Parameter(ParameterSetName='PesterPassThruObject',Mandatory)] [pscustomobject] $ResultObject ) if($PSCmdLet.ParameterSetName -eq 'file') { if(!(Test-Path $TestResultsFile)) { throw "Test result file '$testResultsFile' not found for $TestArea." } $x = [xml](Get-Content -raw $testResultsFile) if ([int]$x.'test-results'.failures -gt 0) { Write-Log -Error "TEST FAILURES" # switch between methods, SelectNode is not available on dotnet core if ( "System.Xml.XmlDocumentXPathExtensions" -as [Type] ) { $failures = [System.Xml.XmlDocumentXPathExtensions]::SelectNodes($x."test-results",'.//test-case[@result = "Failure"]') } else { $failures = $x.SelectNodes('.//test-case[@result = "Failure"]') } foreach ( $testfail in $failures ) { Show-PSPesterError -testFailure $testfail } throw "$($x.'test-results'.failures) tests in $TestArea failed" } } elseif ($PSCmdLet.ParameterSetName -eq 'PesterPassThruObject') { if ($ResultObject.TotalCount -le 0) { throw 'NO TESTS RUN' } elseif ($ResultObject.FailedCount -gt 0) { Write-Log -Error 'TEST FAILURES' $ResultObject.TestResult | Where-Object {$_.Passed -eq $false} | ForEach-Object { Show-PSPesterError -testFailureObject $_ } throw "$($ResultObject.FailedCount) tests in $TestArea failed" } } } function Start-PSxUnit { [CmdletBinding()]param( [string] $SequentialTestResultsFile = "SequentialXUnitResults.xml", [string] $ParallelTestResultsFile = "ParallelXUnitResults.xml" ) # Add .NET CLI tools to PATH Find-Dotnet $Content = Split-Path -Parent (Get-PSOutput) if (-not (Test-Path $Content)) { throw "PowerShell must be built before running tests!" } if (Test-Path $SequentialTestResultsFile) { Remove-Item $SequentialTestResultsFile -Force -ErrorAction SilentlyContinue } if (Test-Path $ParallelTestResultsFile) { Remove-Item $ParallelTestResultsFile -Force -ErrorAction SilentlyContinue } try { Push-Location $PSScriptRoot/test/csharp # Path manipulation to obtain test project output directory dotnet restore if(-not $Environment.IsWindows) { if($Environment.IsMacOS) { $nativeLib = "$Content/libpsl-native.dylib" } else { $nativeLib = "$Content/libpsl-native.so" } $requiredDependencies = @( $nativeLib, "$Content/Microsoft.Management.Infrastructure.dll", "$Content/System.Text.Encoding.CodePages.dll" ) if((Test-Path $requiredDependencies) -notcontains $false) { $options = Get-PSOptions -DefaultToNew $Destination = "bin/$($options.configuration)/$($options.framework)" New-Item $Destination -ItemType Directory -Force > $null Copy-Item -Path $requiredDependencies -Destination $Destination -Force } else { throw "Dependencies $requiredDependencies not met." } } # Run sequential tests first, and then run the tests that can execute in parallel dotnet xunit -configuration $Options.configuration -xml $SequentialTestResultsFile -namespace "PSTests.Sequential" -parallel none dotnet xunit -configuration $Options.configuration -xml $ParallelTestResultsFile -namespace "PSTests.Parallel" -nobuild } finally { Pop-Location } } function Install-Dotnet { [CmdletBinding()] param( [string]$Channel = $dotnetCLIChannel, [string]$Version = $dotnetCLIRequiredVersion, [switch]$NoSudo ) # This allows sudo install to be optional; needed when running in containers / as root # Note that when it is null, Invoke-Expression (but not &) must be used to interpolate properly $sudo = if (!$NoSudo) { "sudo" } $obtainUrl = "https://raw.githubusercontent.com/dotnet/cli/master/scripts/obtain" # Install for Linux and OS X if ($Environment.IsLinux -or $Environment.IsMacOS) { # Uninstall all previous dotnet packages $uninstallScript = if ($Environment.IsUbuntu) { "dotnet-uninstall-debian-packages.sh" } elseif ($Environment.IsMacOS) { "dotnet-uninstall-pkgs.sh" } if ($uninstallScript) { Start-NativeExecution { curl -sO $obtainUrl/uninstall/$uninstallScript Invoke-Expression "$sudo bash ./$uninstallScript" } } else { Write-Warning "This script only removes prior versions of dotnet for Ubuntu 14.04 and OS X" } # Install new dotnet 1.1.0 preview packages $installScript = "dotnet-install.sh" Start-NativeExecution { curl -sO $obtainUrl/$installScript bash ./$installScript -c $Channel -v $Version } } elseif ($Environment.IsWindows) { Remove-Item -ErrorAction SilentlyContinue -Recurse -Force ~\AppData\Local\Microsoft\dotnet $installScript = "dotnet-install.ps1" Invoke-WebRequest -Uri $obtainUrl/$installScript -OutFile $installScript if (-not $Environment.IsCoreCLR) { & ./$installScript -Channel $Channel -Version $Version } else { # dotnet-install.ps1 uses APIs that are not supported in .NET Core, so we run it with Windows PowerShell $fullPSPath = Join-Path -Path $env:windir -ChildPath "System32\WindowsPowerShell\v1.0\powershell.exe" $fullDotnetInstallPath = Join-Path -Path $pwd.Path -ChildPath $installScript Start-NativeExecution { & $fullPSPath -NoLogo -NoProfile -File $fullDotnetInstallPath -Channel $Channel -Version $Version } } } } function Get-RedHatPackageManager { if ($Environment.IsCentOS) { "yum install -y -q" } elseif ($Environment.IsFedora) { "dnf install -y -q" } else { throw "Error determining package manager for this distribution." } } function Start-PSBootstrap { [CmdletBinding( SupportsShouldProcess=$true, ConfirmImpact="High")] param( [string]$Channel = $dotnetCLIChannel, # we currently pin dotnet-cli version, and will # update it when more stable version comes out. [string]$Version = $dotnetCLIRequiredVersion, [switch]$Package, [switch]$NoSudo, [switch]$BuildWindowsNative, [switch]$BuildLinuxArm, [switch]$Force ) Write-Log "Installing PowerShell build dependencies" Push-Location $PSScriptRoot/tools try { if ($Environment.IsLinux -or $Environment.IsMacOS) { # This allows sudo install to be optional; needed when running in containers / as root # Note that when it is null, Invoke-Expression (but not &) must be used to interpolate properly $sudo = if (!$NoSudo) { "sudo" } try { # Update googletest submodule for linux native cmake Push-Location $PSScriptRoot $Submodule = "$PSScriptRoot/src/libpsl-native/test/googletest" Remove-Item -Path $Submodule -Recurse -Force -ErrorAction SilentlyContinue git submodule --quiet update --init -- $submodule } finally { Pop-Location } if ($BuildLinuxArm -and -not $Environment.IsUbuntu) { Write-Error "Cross compiling for linux-arm is only supported on Ubuntu environment" return } # Install ours and .NET's dependencies $Deps = @() if ($Environment.IsUbuntu) { # Build tools $Deps += "curl", "g++", "cmake", "make" if ($BuildLinuxArm) { $Deps += "gcc-arm-linux-gnueabihf", "g++-arm-linux-gnueabihf" } # .NET Core required runtime libraries $Deps += "libunwind8" if ($Environment.IsUbuntu14) { $Deps += "libicu52" } elseif ($Environment.IsUbuntu16) { $Deps += "libicu55" } # Packaging tools if ($Package) { $Deps += "ruby-dev", "groff", "libffi-dev" } # Install dependencies # change the fontend from apt-get to noninteractive $originalDebianFrontEnd=$env:DEBIAN_FRONTEND $env:DEBIAN_FRONTEND='noninteractive' try { Start-NativeExecution { Invoke-Expression "$sudo apt-get update -qq" Invoke-Expression "$sudo apt-get install -y -qq $Deps" } } finally { # change the apt frontend back to the original $env:DEBIAN_FRONTEND=$originalDebianFrontEnd } } elseif ($Environment.IsRedHatFamily) { # Build tools $Deps += "which", "curl", "gcc-c++", "cmake", "make" # .NET Core required runtime libraries $Deps += "libicu", "libunwind" # Packaging tools if ($Package) { $Deps += "ruby-devel", "rpm-build", "groff", 'libffi-devel' } $PackageManager = Get-RedHatPackageManager $baseCommand = "$sudo $PackageManager" # On OpenSUSE 13.2 container, sudo does not exist, so don't use it if not needed if($NoSudo) { $baseCommand = $PackageManager } # Install dependencies Start-NativeExecution { Invoke-Expression "$baseCommand $Deps" } } elseif ($Environment.IsSUSEFamily) { # Build tools $Deps += "gcc", "cmake", "make" # Packaging tools if ($Package) { $Deps += "ruby-devel", "rpmbuild", "groff", 'libffi-devel' } $PackageManager = "zypper --non-interactive install" $baseCommand = "$sudo $PackageManager" # On OpenSUSE 13.2 container, sudo does not exist, so don't use it if not needed if($NoSudo) { $baseCommand = $PackageManager } # Install dependencies Start-NativeExecution { Invoke-Expression "$baseCommand $Deps" } } elseif ($Environment.IsMacOS) { precheck 'brew' "Bootstrap dependency 'brew' not found, must install Homebrew! See http://brew.sh/" # Build tools $Deps += "cmake" # .NET Core required runtime libraries $Deps += "openssl" # Install dependencies # ignore exitcode, because they may be already installed Start-NativeExecution { brew install $Deps } -IgnoreExitcode # Install patched version of curl Start-NativeExecution { brew install curl --with-openssl --with-gssapi } -IgnoreExitcode } # Install [fpm](https://github.com/jordansissel/fpm) and [ronn](https://github.com/rtomayko/ronn) if ($Package) { try { # We cannot guess if the user wants to run gem install as root on linux and windows, # but macOs usually requires sudo $gemsudo = '' if($Environment.IsMacOS) { $gemsudo = $sudo } Start-NativeExecution ([ScriptBlock]::Create("$gemsudo gem install fpm -v 1.9.3")) Start-NativeExecution ([ScriptBlock]::Create("$gemsudo gem install ronn -v 0.7.3")) } catch { Write-Warning "Installation of fpm and ronn gems failed! Must resolve manually." } } } # Try to locate dotnet-SDK before installing it Find-Dotnet # Install dotnet-SDK $dotNetExists = precheck 'dotnet' $null $dotNetVersion = [string]::Empty if($dotNetExists) { $dotNetVersion = (dotnet --version) } if(!$dotNetExists -or $dotNetVersion -ne $dotnetCLIRequiredVersion -or $Force.IsPresent) { if($Force.IsPresent) { Write-Log "Installing dotnet due to -Force." } elseif(!$dotNetExistis) { Write-Log "dotnet not present. Installing dotnet." } else { Write-Log "dotnet out of date ($dotNetVersion). Updating dotnet." } $DotnetArguments = @{ Channel=$Channel; Version=$Version; NoSudo=$NoSudo } Install-Dotnet @DotnetArguments } else { Write-Log "dotnet is already installed. Skipping installation." } # Install Windows dependencies if `-Package` or `-BuildWindowsNative` is specified if ($Environment.IsWindows) { ## The VSCode build task requires 'pwsh.exe' to be found in Path if (-not (Get-Command -Name pwsh.exe -CommandType Application -ErrorAction SilentlyContinue)) { Write-Log "pwsh.exe not found. Install latest PowerShell Core release and add it to Path" $psInstallFile = [System.IO.Path]::Combine($PSScriptRoot, "tools", "install-powershell.ps1") & $psInstallFile -AddToPath } ## need RCEdit to modify the binaries embedded resources if (-not (Test-Path "~/.rcedit/rcedit-x64.exe")) { Write-Log "Install RCEdit for modifying exe resources" $rceditUrl = "https://github.com/electron/rcedit/releases/download/v1.0.0/rcedit-x64.exe" New-Item -Path "~/.rcedit" -Type Directory -Force > $null ## need to specify TLS version 1.2 since GitHub API requires it [Net.ServicePointManager]::SecurityProtocol = [Net.ServicePointManager]::SecurityProtocol -bor [Net.SecurityProtocolType]::Tls12 Invoke-WebRequest -OutFile "~/.rcedit/rcedit-x64.exe" -Uri $rceditUrl } if ($BuildWindowsNative) { Write-Log "Install Windows dependencies for building PSRP plugin" $machinePath = [Environment]::GetEnvironmentVariable('Path', 'MACHINE') $newMachineEnvironmentPath = $machinePath $cmakePresent = precheck 'cmake' $null $sdkPresent = Test-Win10SDK # Install chocolatey $chocolateyPath = "$env:AllUsersProfile\chocolatey\bin" if(precheck 'choco' $null) { Write-Log "Chocolatey is already installed. Skipping installation." } elseif(($cmakePresent -eq $false) -or ($sdkPresent -eq $false)) { Write-Log "Chocolatey not present. Installing chocolatey." if ($Force -or $PSCmdlet.ShouldProcess("Install chocolatey via https://chocolatey.org/install.ps1")) { Invoke-Expression ((new-object net.webclient).DownloadString('https://chocolatey.org/install.ps1')) if (-not ($machinePath.ToLower().Contains($chocolateyPath.ToLower()))) { Write-Log "Adding $chocolateyPath to Path environment variable" $env:Path += ";$chocolateyPath" $newMachineEnvironmentPath += ";$chocolateyPath" } else { Write-Log "$chocolateyPath already present in Path environment variable" } } else { Write-Error "Chocolatey is required to install missing dependencies. Please install it from https://chocolatey.org/ manually. Alternatively, install cmake and Windows 10 SDK." return } } else { Write-Log "Skipping installation of chocolatey, cause both cmake and Win 10 SDK are present." } # Install cmake $cmakePath = "${env:ProgramFiles}\CMake\bin" if($cmakePresent -and !($force.IsPresent)) { Write-Log "Cmake is already installed. Skipping installation." } else { Write-Log "Cmake not present or -Force used. Installing cmake." Start-NativeExecution { choco install cmake -y --version 3.10.0 } if (-not ($machinePath.ToLower().Contains($cmakePath.ToLower()))) { Write-Log "Adding $cmakePath to Path environment variable" $env:Path += ";$cmakePath" $newMachineEnvironmentPath = "$cmakePath;$newMachineEnvironmentPath" } else { Write-Log "$cmakePath already present in Path environment variable" } } # Install Windows 10 SDK $packageName = "windows-sdk-10.0" if (-not $sdkPresent) { Write-Log "Windows 10 SDK not present. Installing $packageName." Start-NativeExecution { choco install windows-sdk-10.0 -y } } else { Write-Log "Windows 10 SDK present. Skipping installation." } # Update path machine environment variable if ($newMachineEnvironmentPath -ne $machinePath) { Write-Log "Updating Path machine environment variable" if ($Force -or $PSCmdlet.ShouldProcess("Update Path machine environment variable to $newMachineEnvironmentPath")) { [Environment]::SetEnvironmentVariable('Path', $newMachineEnvironmentPath, 'MACHINE') } } } } } finally { Pop-Location } } function Publish-NuGetFeed { param( [string]$OutputPath = "$PSScriptRoot/nuget-artifacts", [ValidatePattern("^v\d+\.\d+\.\d+(-\w+(\.\d+)?)?$")] [ValidateNotNullOrEmpty()] [string]$ReleaseTag ) # Add .NET CLI tools to PATH Find-Dotnet ## We update 'project.assets.json' files with new version tag value by 'GetPSCoreVersionFromGit' target. $TopProject = (New-PSOptions).Top if ($ReleaseTag) { $ReleaseTagToUse = $ReleaseTag -Replace '^v' dotnet restore $TopProject "/property:ReleaseTag=$ReleaseTagToUse" } else { dotnet restore $TopProject } try { Push-Location $PSScriptRoot @( 'Microsoft.PowerShell.Commands.Management', 'Microsoft.PowerShell.Commands.Utility', 'Microsoft.PowerShell.Commands.Diagnostics', 'Microsoft.PowerShell.ConsoleHost', 'Microsoft.PowerShell.Security', 'System.Management.Automation', 'Microsoft.PowerShell.CoreCLR.Eventing', 'Microsoft.WSMan.Management', 'Microsoft.WSMan.Runtime', 'Microsoft.PowerShell.SDK' ) | ForEach-Object { if ($ReleaseTag) { dotnet pack "src/$_" --output $OutputPath "/property:IncludeSymbols=true;ReleaseTag=$ReleaseTagToUse" } else { dotnet pack "src/$_" --output $OutputPath } } } finally { Pop-Location } } function Start-DevPowerShell { param( [string[]]$ArgumentList = '', [switch]$LoadProfile, [string]$binDir = (Split-Path (New-PSOptions).Output), [switch]$NoNewWindow, [string]$Command, [switch]$KeepPSModulePath ) try { if ((-not $NoNewWindow) -and ($Environment.IsCoreCLR)) { Write-Warning "Start-DevPowerShell -NoNewWindow is currently implied in PowerShellCore edition https://github.com/PowerShell/PowerShell/issues/1543" $NoNewWindow = $true } if (-not $LoadProfile) { $ArgumentList = @('-noprofile') + $ArgumentList } if (-not $KeepPSModulePath) { if (-not $Command) { $ArgumentList = @('-NoExit') + $ArgumentList } $Command = '$env:PSModulePath = Join-Path $env:DEVPATH Modules; ' + $Command } if ($Command) { $ArgumentList = $ArgumentList + @("-command $Command") } $env:DEVPATH = $binDir # splatting for the win $startProcessArgs = @{ FilePath = "$binDir\pwsh" ArgumentList = "$ArgumentList" } if ($NoNewWindow) { $startProcessArgs.NoNewWindow = $true $startProcessArgs.Wait = $true } Start-Process @startProcessArgs } finally { if($env:DevPath) { Remove-Item env:DEVPATH } if ($ZapDisable) { Remove-Item env:COMPLUS_ZapDisable } } } function Start-TypeGen { [CmdletBinding()] param ( [ValidateNotNullOrEmpty()] $IncFileName = 'powershell.inc' ) # Add .NET CLI tools to PATH Find-Dotnet # This custom target depends on 'ResolveAssemblyReferencesDesignTime', whose definition can be found in the sdk folder. # To find the available properties of '_ReferencesFromRAR' when switching to a new dotnet sdk, follow the steps below: # 1. create a dummy project using the new dotnet sdk. # 2. build the dummy project with this command: # dotnet msbuild .\dummy.csproj /t:ResolveAssemblyReferencesDesignTime /fileLogger /noconsolelogger /v:diag # 3. search '_ReferencesFromRAR' in the produced 'msbuild.log' file. You will find the properties there. $GetDependenciesTargetPath = "$PSScriptRoot/src/Microsoft.PowerShell.SDK/obj/Microsoft.PowerShell.SDK.csproj.TypeCatalog.targets" $GetDependenciesTargetValue = @' <_RefAssemblyPath Include="%(_ReferencesFromRAR.HintPath)%3B" Condition=" '%(_ReferencesFromRAR.NuGetPackageId)' != 'Microsoft.Management.Infrastructure' "/> '@ Set-Content -Path $GetDependenciesTargetPath -Value $GetDependenciesTargetValue -Force -Encoding Ascii Push-Location "$PSScriptRoot/src/Microsoft.PowerShell.SDK" try { $ps_inc_file = "$PSScriptRoot/src/TypeCatalogGen/$IncFileName" dotnet msbuild .\Microsoft.PowerShell.SDK.csproj /t:_GetDependencies "/property:DesignTimeBuild=true;_DependencyFile=$ps_inc_file" /nologo } finally { Pop-Location } Push-Location "$PSScriptRoot/src/TypeCatalogGen" try { dotnet run ../System.Management.Automation/CoreCLR/CorePsTypeCatalog.cs $IncFileName } finally { Pop-Location } } function Start-ResGen { [CmdletBinding()] param() # Add .NET CLI tools to PATH Find-Dotnet Push-Location "$PSScriptRoot/src/ResGen" try { Start-NativeExecution { dotnet run } | Write-Verbose } finally { Pop-Location } } function Find-Dotnet() { $originalPath = $env:PATH $dotnetPath = if ($Environment.IsWindows) { "$env:LocalAppData\Microsoft\dotnet" } else { "$env:HOME/.dotnet" } # If there dotnet is already in the PATH, check to see if that version of dotnet can find the required SDK # This is "typically" the globally installed dotnet if (precheck dotnet) { # Must run from within repo to ensure global.json can specify the required SDK version Push-Location $PSScriptRoot $dotnetCLIInstalledVersion = (dotnet --version) Pop-Location if ($dotnetCLIInstalledVersion -ne $dotnetCLIRequiredVersion) { Write-Warning "The 'dotnet' in the current path can't find SDK version ${dotnetCLIRequiredVersion}, prepending $dotnetPath to PATH." # Globally installed dotnet doesn't have the required SDK version, prepend the user local dotnet location $env:PATH = $dotnetPath + [IO.Path]::PathSeparator + $env:PATH } } else { Write-Warning "Could not find 'dotnet', appending $dotnetPath to PATH." $env:PATH += [IO.Path]::PathSeparator + $dotnetPath } if (-not (precheck 'dotnet' "Still could not find 'dotnet', restoring PATH.")) { $env:PATH = $originalPath } } <# This is one-time conversion. We use it for to turn GetEventResources.txt into GetEventResources.resx .EXAMPLE Convert-TxtResourceToXml -Path Microsoft.PowerShell.Commands.Diagnostics\resources #> function Convert-TxtResourceToXml { param( [string[]]$Path ) process { $Path | ForEach-Object { Get-ChildItem $_ -Filter "*.txt" | ForEach-Object { $txtFile = $_.FullName $resxFile = Join-Path (Split-Path $txtFile) "$($_.BaseName).resx" $resourceHashtable = ConvertFrom-StringData (Get-Content -Raw $txtFile) $resxContent = $resourceHashtable.GetEnumerator() | ForEach-Object { @' {1} '@ -f $_.Key, $_.Value } | Out-String Set-Content -Path $resxFile -Value ($script:RESX_TEMPLATE -f $resxContent) } } } } function script:Use-MSBuild { # TODO: we probably should require a particular version of msbuild, if we are taking this dependency # msbuild v14 and msbuild v4 behaviors are different for XAML generation $frameworkMsBuildLocation = "${env:SystemRoot}\Microsoft.Net\Framework\v4.0.30319\msbuild" $msbuild = get-command msbuild -ErrorAction SilentlyContinue if ($msbuild) { # all good, nothing to do return } if (-not (Test-Path $frameworkMsBuildLocation)) { throw "msbuild not found in '$frameworkMsBuildLocation'. Install Visual Studio 2015." } Set-Alias msbuild $frameworkMsBuildLocation -Scope Script } function script:Write-Log { param ( [Parameter(Position=0, Mandatory)] [ValidateNotNullOrEmpty()] [string] $message, [switch] $error ) if ($error) { Write-Host -Foreground Red $message } else { Write-Host -Foreground Green $message } #reset colors for older package to at return to default after error message on a compilation error [console]::ResetColor() } function script:precheck([string]$command, [string]$missedMessage) { $c = Get-Command $command -ErrorAction SilentlyContinue if (-not $c) { if (-not [string]::IsNullOrEmpty($missedMessage)) { Write-Warning $missedMessage } return $false } else { return $true } } # this function wraps native command Execution # for more information, read https://mnaoumov.wordpress.com/2015/01/11/execution-of-external-commands-in-powershell-done-right/ function script:Start-NativeExecution { param( [scriptblock]$sb, [switch]$IgnoreExitcode, [switch]$VerboseOutputOnError ) $backupEAP = $script:ErrorActionPreference $script:ErrorActionPreference = "Continue" try { if($VerboseOutputOnError.IsPresent) { $output = & $sb } else { & $sb } # note, if $sb doesn't have a native invocation, $LASTEXITCODE will # point to the obsolete value if ($LASTEXITCODE -ne 0 -and -not $IgnoreExitcode) { if($VerboseOutputOnError.IsPresent -and $output) { $output | Out-String | Write-Verbose -Verbose } # Get caller location for easier debugging $caller = Get-PSCallStack -ErrorAction SilentlyContinue if($caller) { $callerLocationParts = $caller[1].Location -split ":\s*line\s*" $callerFile = $callerLocationParts[0] $callerLine = $callerLocationParts[1] $errorMessage = "Execution of {$sb} by ${callerFile}: line $callerLine failed with exit code $LASTEXITCODE" throw $errorMessage } throw "Execution of {$sb} failed with exit code $LASTEXITCODE" } } finally { $script:ErrorActionPreference = $backupEAP } } function Start-CrossGen { [CmdletBinding()] param( [Parameter(Mandatory= $true)] [ValidateNotNullOrEmpty()] [String] $PublishPath, [Parameter(Mandatory=$true)] [ValidateSet("win7-x86", "win7-x64", "osx-x64", "linux-x64", "linux-arm", "win-arm", "win-arm64")] [string] $Runtime ) function Generate-CrossGenAssembly { param ( [Parameter(Mandatory= $true)] [ValidateNotNullOrEmpty()] [String] $AssemblyPath, [Parameter(Mandatory= $true)] [ValidateNotNullOrEmpty()] [String] $CrossgenPath ) $outputAssembly = $AssemblyPath.Replace(".dll", ".ni.dll") $platformAssembliesPath = Split-Path $AssemblyPath -Parent $crossgenFolder = Split-Path $CrossgenPath $niAssemblyName = Split-Path $outputAssembly -Leaf try { Push-Location $crossgenFolder # Generate the ngen assembly Write-Verbose "Generating assembly $niAssemblyName" Start-NativeExecution { & $CrossgenPath /MissingDependenciesOK /in $AssemblyPath /out $outputAssembly /Platform_Assemblies_Paths $platformAssembliesPath } | Write-Verbose <# # TODO: Generate the pdb for the ngen binary - currently, there is a hard dependency on diasymreader.dll, which is available at %windir%\Microsoft.NET\Framework\v4.0.30319. # However, we still need to figure out the prerequisites on Linux. Start-NativeExecution { & $CrossgenPath /Platform_Assemblies_Paths $platformAssembliesPath /CreatePDB $platformAssembliesPath /lines $platformAssembliesPath $niAssemblyName } | Write-Verbose #> } finally { Pop-Location } } if (-not (Test-Path $PublishPath)) { throw "Path '$PublishPath' does not exist." } # Get the path to crossgen $crossGenExe = if ($Environment.IsWindows) { "crossgen.exe" } else { "crossgen" } # The crossgen tool is only published for these particular runtimes $crossGenRuntime = if ($Environment.IsWindows) { if ($Runtime -match "-x86") { "win-x86" } elseif ($Runtime -match "-x64") { "win-x64" } elseif (!($env:PROCESSOR_ARCHITECTURE -match "arm")) { throw "crossgen for 'win-arm' and 'win-arm64' must be run on that platform" } } elseif ($Runtime -eq "linux-arm") { throw "crossgen is not available for 'linux-arm'" } elseif ($Environment.IsLinux) { "linux-x64" } elseif ($Environment.IsMacOS) { "osx-x64" } if (-not $crossGenRuntime) { throw "crossgen is not available for this platform" } $dotnetRuntimeVersion = $script:Options.Framework -replace 'netcoreapp' # Get the CrossGen.exe for the correct runtime with the latest version $crossGenPath = Get-ChildItem $script:Environment.nugetPackagesRoot $crossGenExe -Recurse | ` Where-Object { $_.FullName -match $crossGenRuntime } | ` Where-Object { $_.FullName -match $dotnetRuntimeVersion } | ` Sort-Object -Property FullName -Descending | ` Select-Object -First 1 | ` ForEach-Object { $_.FullName } if (-not $crossGenPath) { throw "Unable to find latest version of crossgen.exe. 'Please run Start-PSBuild -Clean' first, and then try again." } Write-Verbose "Matched CrossGen.exe: $crossGenPath" -Verbose # Crossgen.exe requires the following assemblies: # mscorlib.dll # System.Private.CoreLib.dll # clrjit.dll on Windows or libclrjit.so/dylib on Linux/OS X $crossGenRequiredAssemblies = @("mscorlib.dll", "System.Private.CoreLib.dll") $crossGenRequiredAssemblies += if ($Environment.IsWindows) { "clrjit.dll" } elseif ($Environment.IsLinux) { "libclrjit.so" } elseif ($Environment.IsMacOS) { "libclrjit.dylib" } # Make sure that all dependencies required by crossgen are at the directory. $crossGenFolder = Split-Path $crossGenPath foreach ($assemblyName in $crossGenRequiredAssemblies) { if (-not (Test-Path "$crossGenFolder\$assemblyName")) { Copy-Item -Path "$PublishPath\$assemblyName" -Destination $crossGenFolder -Force -ErrorAction Stop } } # Common assemblies used by Add-Type or assemblies with high JIT and no pdbs to crossgen $commonAssembliesForAddType = @( "Microsoft.CodeAnalysis.CSharp.dll" "Microsoft.CodeAnalysis.dll" "System.Linq.Expressions.dll" "Microsoft.CSharp.dll" "System.Runtime.Extensions.dll" "System.Linq.dll" "System.Collections.Concurrent.dll" "System.Collections.dll" "Newtonsoft.Json.dll" "System.IO.FileSystem.dll" "System.Diagnostics.Process.dll" "System.Threading.Tasks.Parallel.dll" "System.Security.AccessControl.dll" "System.Text.Encoding.CodePages.dll" "System.Private.Uri.dll" "System.Threading.dll" "System.Security.Principal.Windows.dll" "System.Console.dll" "Microsoft.Win32.Registry.dll" "System.IO.Pipes.dll" "System.Diagnostics.FileVersionInfo.dll" "System.Collections.Specialized.dll" ) # Common PowerShell libraries to crossgen $psCoreAssemblyList = @( "Microsoft.PowerShell.Commands.Utility.dll", "Microsoft.PowerShell.Commands.Management.dll", "Microsoft.PowerShell.Security.dll", "Microsoft.PowerShell.CoreCLR.Eventing.dll", "Microsoft.PowerShell.ConsoleHost.dll", "System.Management.Automation.dll" ) # Add Windows specific libraries if ($Environment.IsWindows) { $psCoreAssemblyList += @( "Microsoft.WSMan.Management.dll", "Microsoft.WSMan.Runtime.dll", "Microsoft.PowerShell.Commands.Diagnostics.dll", "Microsoft.Management.Infrastructure.CimCmdlets.dll" ) } $fullAssemblyList = $commonAssembliesForAddType + $psCoreAssemblyList foreach ($assemblyName in $fullAssemblyList) { $assemblyPath = Join-Path $PublishPath $assemblyName Generate-CrossGenAssembly -CrossgenPath $crossGenPath -AssemblyPath $assemblyPath } # # With the latest dotnet.exe, the default load context is only able to load TPAs, and TPA # only contains IL assembly names. In order to make the default load context able to load # the NI PS assemblies, we need to replace the IL PS assemblies with the corresponding NI # PS assemblies, but with the same IL assembly names. # Write-Verbose "PowerShell Ngen assemblies have been generated. Deploying ..." -Verbose foreach ($assemblyName in $fullAssemblyList) { # Remove the IL assembly and its symbols. $assemblyPath = Join-Path $PublishPath $assemblyName $symbolsPath = [System.IO.Path]::ChangeExtension($assemblyPath, ".pdb") Remove-Item $assemblyPath -Force -ErrorAction Stop # No symbols are available for Microsoft.CodeAnalysis.CSharp.dll, Microsoft.CodeAnalysis.dll, # Microsoft.CodeAnalysis.VisualBasic.dll, and Microsoft.CSharp.dll. if ($commonAssembliesForAddType -notcontains $assemblyName) { Remove-Item $symbolsPath -Force -ErrorAction Stop } # Rename the corresponding ni.dll assembly to be the same as the IL assembly $niAssemblyPath = [System.IO.Path]::ChangeExtension($assemblyPath, "ni.dll") Rename-Item $niAssemblyPath $assemblyPath -Force -ErrorAction Stop } } # Cleans the PowerShell repo - everything but the root folder function Clear-PSRepo { [CmdletBinding()] param() Get-ChildItem $PSScriptRoot\* -Directory | ForEach-Object { Write-Verbose "Cleaning $_ ..." git clean -fdX $_ } } # Install PowerShell modules such as PackageManagement, PowerShellGet function Copy-PSGalleryModules { [CmdletBinding()] param( [Parameter(Mandatory=$true)] [string]$Destination ) if (!$Destination.EndsWith("Modules")) { throw "Installing to an unexpected location" } Find-DotNet Restore-PSPackage $cache = dotnet nuget locals global-packages -l if ($cache -match "info : global-packages: (.*)") { $nugetCache = $matches[1] } else { throw "Can't find nuget global cache" } $psGalleryProj = [xml](Get-Content -Raw $PSScriptRoot\src\Modules\PSGalleryModules.csproj) foreach ($m in $psGalleryProj.Project.ItemGroup.PackageReference) { $name = $m.Include $version = $m.Version Write-Log "Name='$Name', Version='$version', Destination='$Destination'" # Remove the build revision from the src (nuget drops it). $srcVer = if ($version -match "(\d+.\d+.\d+).\d+") { $matches[1] } else { $version } # Remove semantic version in the destination directory $destVer = if ($version -match "(\d+.\d+.\d+)-.+") { $matches[1] } else { $version } # Nuget seems to always use lowercase in the cache $src = "$nugetCache/$($name.ToLower())/$srcVer" $dest = "$Destination/$name/$destVer" Remove-Item -Force -ErrorAction Ignore -Recurse "$Destination/$name" New-Item -Path $dest -ItemType Directory -Force -ErrorAction Stop > $null $dontCopy = '*.nupkg', '*.nupkg.sha512', '*.nuspec', 'System.Runtime.InteropServices.RuntimeInformation.dll' Copy-Item -Exclude $dontCopy -Recurse $src/* $dest } } function Merge-TestLogs { [CmdletBinding()] param ( [Parameter(Mandatory = $true)] [ValidateScript({Test-Path $_})] [string]$XUnitLogPath, [Parameter(Mandatory = $true)] [ValidateScript({Test-Path $_})] [string[]]$NUnitLogPath, [Parameter()] [ValidateScript({Test-Path $_})] [string[]]$AdditionalXUnitLogPath, [Parameter()] [string]$OutputLogPath ) # Convert all the NUnit logs into single object $convertedNUnit = ConvertFrom-PesterLog -logFile $NUnitLogPath $xunit = [xml] (Get-Content $XUnitLogPath -ReadCount 0 -Raw) $strBld = [System.Text.StringBuilder]::new($xunit.assemblies.InnerXml) foreach($assembly in $convertedNUnit.assembly) { $strBld.Append($assembly.ToString()) | Out-Null } foreach($path in $AdditionalXUnitLogPath) { $addXunit = [xml] (Get-Content $path -ReadCount 0 -Raw) $strBld.Append($addXunit.assemblies.InnerXml) | Out-Null } $xunit.assemblies.InnerXml = $strBld.ToString() $xunit.Save($OutputLogPath) } function ConvertFrom-PesterLog { [CmdletBinding()] param ( [Parameter(ValueFromPipeline = $true, Mandatory = $true, Position = 0)] [string[]]$Logfile, [Parameter()][switch]$IncludeEmpty, [Parameter()][switch]$MultipleLog ) <# Convert our test logs to xunit schema - top level assemblies Pester conversion foreach $r in "test-results"."test-suite".results."test-suite" assembly name = $r.Description config-file = log file (this is the only way we can determine between admin/nonadmin log) test-framework = Pester environment = top-level "test-results.environment.platform run-date = date (doesn't exist in pester except for beginning) run-time = time time = #> BEGIN { # CLASSES class assemblies { # attributes [datetime]$timestamp # child elements [System.Collections.Generic.List[testAssembly]]$assembly assemblies() { $this.timestamp = [datetime]::now $this.assembly = [System.Collections.Generic.List[testAssembly]]::new() } static [assemblies] op_Addition([assemblies]$ls, [assemblies]$rs) { $newAssembly = [assemblies]::new() $newAssembly.assembly.AddRange($ls.assembly) $newAssembly.assembly.AddRange($rs.assembly) return $newAssembly } [string]ToString() { $sb = [text.stringbuilder]::new() $sb.AppendLine('' -f $this.timestamp) foreach ( $a in $this.assembly ) { $sb.Append("$a") } $sb.AppendLine(""); return $sb.ToString() } # use Write-Output to emit these into the pipeline [array]GetTests() { return $this.Assembly.collection.test } } class testAssembly { # attributes [string]$name # path to pester file [string]${config-file} [string]${test-framework} # Pester [string]$environment [string]${run-date} [string]${run-time} [decimal]$time [int]$total [int]$passed [int]$failed [int]$skipped [int]$errors testAssembly ( ) { $this."config-file" = "no config" $this."test-framework" = "Pester" $this.environment = $script:environment $this."run-date" = $script:rundate $this."run-time" = $script:runtime $this.collection = [System.Collections.Generic.List[collection]]::new() } # child elements [error[]]$error [System.Collections.Generic.List[collection]]$collection [string]ToString() { $sb = [System.Text.StringBuilder]::new() $sb.AppendFormat(' ") if ( $this.error ) { $sb.AppendLine(" ") foreach ( $e in $this.error ) { $sb.AppendLine($e.ToString()) } $sb.AppendLine(" ") } else { $sb.AppendLine(" ") } foreach ( $col in $this.collection ) { $sb.AppendLine($col.ToString()) } $sb.AppendLine(" ") return $sb.ToString() } } class collection { # attributes [string]$name [decimal]$time [int]$total [int]$passed [int]$failed [int]$skipped # child element [System.Collections.Generic.List[test]]$test # constructor collection () { $this.test = [System.Collections.Generic.List[test]]::new() } [string]ToString() { $sb = [Text.StringBuilder]::new() if ( $this.test.count -eq 0 ) { $sb.AppendLine(" ") } else { $sb.AppendFormat(' ' + "`n", $this.total, $this.passed, $this.failed, $this.skipped, [security.securityelement]::escape($this.name), $this.time) foreach ( $t in $this.test ) { $sb.AppendLine(" " + $t.ToString()); } $sb.Append(" ") } return $sb.ToString() } } class errors { [error[]]$error } class error { # attributes [string]$type [string]$name # child elements [failure]$failure [string]ToString() { $sb = [system.text.stringbuilder]::new() $sb.AppendLine('' -f $this.type, [security.securityelement]::escape($this.Name)) $sb.AppendLine($this.failure -as [string]) $sb.AppendLine("") return $sb.ToString() } } class cdata { [string]$text cdata ( [string]$s ) { $this.text = $s } [string]ToString() { return '' } } class failure { [string]${exception-type} [cdata]$message [cdata]${stack-trace} failure ( [string]$message, [string]$stack ) { $this."exception-type" = "Pester" $this.Message = [cdata]::new($message) $this."stack-trace" = [cdata]::new($stack) } [string]ToString() { $sb = [text.stringbuilder]::new() $sb.AppendLine(" ") $sb.AppendLine(" " + ($this.message -as [string]) + "") $sb.AppendLine(" " + ($this."stack-trace" -as [string]) + "") $sb.Append(" ") return $sb.ToString() } } enum resultenum { Pass Fail Skip } class trait { # attributes [string]$name [string]$value } class traits { [trait[]]$trait } class test { # attributes [string]$name [string]$type [string]$method [decimal]$time [resultenum]$result # child elements [trait[]]$traits [failure]$failure [cdata]$reason # skip reason [string]ToString() { $sb = [text.stringbuilder]::new() $sb.appendformat(' ") $sb.AppendLine($this.failure -as [string]) $sb.append(' ') } else { $sb.Append("/>") } return $sb.ToString() } } function convert-pesterlog ( [xml]$x, $logpath, [switch]$includeEmpty ) { <#$resultMap = @{ Success = "Pass" Ignored = "Skip" Failure = "Fail" }#> $resultMap = @{ Success = "Pass" Ignored = "Skip" Failure = "Fail" Inconclusive = "Skip" } $configfile = $logpath $runtime = $x."test-results".time $environment = $x."test-results".environment.platform + "-" + $x."test-results".environment."os-version" $rundate = $x."test-results".date $suites = $x."test-results"."test-suite".results."test-suite" $assemblies = [assemblies]::new() foreach ( $suite in $suites ) { $tCases = $suite.SelectNodes(".//test-case") # only create an assembly group if we have tests if ( $tCases.count -eq 0 -and ! $includeEmpty ) { continue } $tGroup = $tCases | Group-Object result $total = $tCases.Count $asm = [testassembly]::new() $asm.environment = $environment $asm."run-date" = $rundate $asm."run-time" = $runtime $asm.Name = $suite.name $asm."config-file" = $configfile $asm.time = $suite.time $asm.total = $suite.SelectNodes(".//test-case").Count $asm.Passed = $tGroup|? {$_.Name -eq "Success"} | % {$_.Count} $asm.Failed = $tGroup|? {$_.Name -eq "Failure"} | % {$_.Count} $asm.Skipped = $tGroup|? { $_.Name -eq "Ignored" } | % {$_.Count} $asm.Skipped += $tGroup|? { $_.Name -eq "Inconclusive" } | % {$_.Count} $c = [collection]::new() $c.passed = $asm.Passed $c.failed = $asm.failed $c.skipped = $asm.skipped $c.total = $asm.total $c.time = $asm.time $c.name = $asm.name foreach ( $tc in $suite.SelectNodes(".//test-case")) { if ( $tc.result -match "Success|Ignored|Failure" ) { $t = [test]::new() $t.name = $tc.Name $t.time = $tc.time $t.method = $tc.description # the pester actually puts the name of the "it" as description $t.type = $suite.results."test-suite".description | Select-Object -First 1 $t.result = $resultMap[$tc.result] if ( $tc.failure ) { $t.failure = [failure]::new($tc.failure.message, $tc.failure."stack-trace") } $null = $c.test.Add($t) } } $null = $asm.collection.add($c) $assemblies.assembly.Add($asm) } $assemblies } # convert it to our object model # a simple conversion function convert-xunitlog { param ( $x, $logpath ) $asms = [assemblies]::new() $asms.timestamp = $x.assemblies.timestamp foreach ( $assembly in $x.assemblies.assembly ) { $asm = [testAssembly]::new() $asm.environment = $assembly.environment $asm."test-framework" = $assembly."test-framework" $asm."run-date" = $assembly."run-date" $asm."run-time" = $assembly."run-time" $asm.total = $assembly.total $asm.passed = $assembly.passed $asm.failed = $assembly.failed $asm.skipped = $assembly.skipped $asm.time = $assembly.time $asm.name = $assembly.name foreach ( $coll in $assembly.collection ) { $c = [collection]::new() $c.name = $coll.name $c.total = $coll.total $c.passed = $coll.passed $c.failed = $coll.failed $c.skipped = $coll.skipped $c.time = $coll.time foreach ( $t in $coll.test ) { $test = [test]::new() $test.name = $t.name $test.type = $t.type $test.method = $t.method $test.time = $t.time $test.result = $t.result $c.test.Add($test) } $null = $asm.collection.add($c) } $null = $asms.assembly.add($asm) } $asms } $Logs = @() } PROCESS { #### MAIN #### foreach ( $log in $Logfile ) { foreach ( $logpath in (resolve-path $log).path ) { write-progress "converting file $logpath" if ( ! $logpath) { throw "Cannot resolve $Logfile" } $x = [xml](get-content -raw -readcount 0 $logpath) if ( $x.psobject.properties['test-results'] ) { $Logs += convert-pesterlog $x $logpath -includeempty:$includeempty } elseif ( $x.psobject.properties['assemblies'] ) { $Logs += convert-xunitlog $x $logpath -includeEmpty:$includeEmpty } else { write-error "Cannot determine log type" } } } } END { if ( $MultipleLog ) { $Logs } else { $combinedLog = $Logs[0] for ( $i = 1; $i -lt $logs.count; $i++ ) { $combinedLog += $Logs[$i] } $combinedLog } } } # Save PSOptions to be restored by Restore-PSOptions function Save-PSOptions { param( [ValidateScript({$parent = Split-Path $_;if($parent){Test-Path $parent}else{return $true}})] [ValidateNotNullOrEmpty()] [string] $PSOptionsPath = (Join-Path -Path $PSScriptRoot -ChildPath 'psoptions.json'), [ValidateNotNullOrEmpty()] [object] $Options = (Get-PSOptions -DefaultToNew) ) $Options | ConvertTo-Json -Depth 3 | Out-File -Encoding utf8 -FilePath $PSOptionsPath } # Restore PSOptions # Optionally remove the PSOptions file function Restore-PSOptions { param( [ValidateScript({Test-Path $_})] [string] $PSOptionsPath = (Join-Path -Path $PSScriptRoot -ChildPath 'psoptions.json'), [switch] $Remove ) $options = Get-Content -Path $PSOptionsPath | ConvertFrom-Json if($Remove) { # Remove PSOptions. # The file is only used to set the PSOptions. Remove-Item -Path $psOptionsPath } Set-PSOptions -Options $options } $script:RESX_TEMPLATE = @' text/microsoft-resx 2.0 System.Resources.ResXResourceReader, System.Windows.Forms, Version=2.0.0.0, Culture=neutral, PublicKeyToken=b77a5c561934e089 System.Resources.ResXResourceWriter, System.Windows.Forms, Version=2.0.0.0, Culture=neutral, PublicKeyToken=b77a5c561934e089 {0} '@