# Use the .NET Core APIs to determine the current platform; if a runtime # exception is thrown, we are on FullCLR, not .NET Core. try { $Runtime = [System.Runtime.InteropServices.RuntimeInformation] $OSPlatform = [System.Runtime.InteropServices.OSPlatform] $IsCoreCLR = $true $IsLinux = $Runtime::IsOSPlatform($OSPlatform::Linux) $IsOSX = $Runtime::IsOSPlatform($OSPlatform::OSX) $IsWindows = $Runtime::IsOSPlatform($OSPlatform::Windows) } catch { # If these are already set, then they're read-only and we're done try { $IsCoreCLR = $false $IsLinux = $false $IsOSX = $false $IsWindows = $true } catch { } } if ($IsLinux) { $LinuxInfo = Get-Content /etc/os-release | ConvertFrom-StringData $IsUbuntu = $LinuxInfo.ID -match 'ubuntu' $IsUbuntu14 = $IsUbuntu -and $LinuxInfo.VERSION_ID -match '14.04' $IsUbuntu16 = $IsUbuntu -and $LinuxInfo.VERSION_ID -match '16.04' $IsCentOS = $LinuxInfo.ID -match 'centos' -and $LinuxInfo.VERSION_ID -match '7' } function Start-PSBuild { [CmdletBinding(DefaultParameterSetName='CoreCLR')] param( # When specified this switch will stops running dev powershell # to help avoid compilation error, because file are in use. [switch]$StopDevPowerShell, [switch]$NoPath, [switch]$Restore, [string]$Output, [switch]$ResGen, [switch]$TypeGen, [switch]$Clean, # this switch will re-build only System.Mangement.Automation.dll # it's useful for development, to do a quick changes in the engine [switch]$SMAOnly, # These runtimes must match those in project.json # We do not use ValidateScript since we want tab completion [ValidateSet("ubuntu.14.04-x64", "ubuntu.16.04-x64", "debian.8-x64", "centos.7-x64", "win7-x64", "win81-x64", "win10-x64", "osx.10.11-x64")] [Parameter(ParameterSetName='CoreCLR')] [string]$Runtime, [Parameter(ParameterSetName='FullCLR', Mandatory=$true)] [switch]$FullCLR, [Parameter(ParameterSetName='FullCLR')] [switch]$XamlGen, [Parameter(ParameterSetName='FullCLR')] [ValidateSet('x86', 'x64')] # TODO: At some point, we need to add ARM support to match CoreCLR [string]$NativeHostArch = "x64", [ValidateSet('Linux', 'Debug', 'Release', '')] # We might need "Checked" as well [string]$Configuration, [Parameter(ParameterSetName='CoreCLR')] [switch]$Publish, [Parameter(ParameterSetName='CoreCLR')] [switch]$CrossGen ) function Stop-DevPowerShell { Get-Process powershell* | Where-Object { $_.Modules | Where-Object { $_.FileName -eq (Resolve-Path $script:Options.Output).Path } } | Stop-Process -Verbose } if ($CrossGen -and !$Publish) { # By specifying -CrossGen, we implicitly set -Publish to $true, if not already specified. $Publish = $true } if ($Clean) { log "Cleaning your working directory. You can also do it with 'git clean -fdX'" Push-Location $PSScriptRoot try { git clean -fdX } finally { Pop-Location } } # save Git description to file for PowerShell to include in PSVersionTable git --git-dir="$PSScriptRoot/.git" describe --dirty --abbrev=60 > "$psscriptroot/powershell.version" # simplify ParameterSetNames if ($PSCmdlet.ParameterSetName -eq 'FullCLR') { $FullCLR = $true } # Add .NET CLI tools to PATH Find-Dotnet # verify we have all tools in place to do the build $precheck = precheck 'dotnet' "Build dependency 'dotnet' not found in PATH. Run Start-PSBootstrap. Also see: https://dotnet.github.io/getting-started/" if ($IsWindows) { # use custom package store - this value is also defined in nuget.config under config/repositoryPath # dotnet restore uses this value as the target for installing the assemblies for referenced nuget packages. # dotnet build does not currently consume the config value but will consume env:NUGET_PACKAGES to resolve these dependencies $env:NUGET_PACKAGES="$PSScriptRoot\Packages" # cmake is needed to build powershell.exe $precheck = $precheck -and (precheck 'cmake' 'cmake not found. Run Start-PSBootstrap. You can also install it from https://chocolatey.org/packages/cmake.portable') Use-MSBuild #mc.exe is Message Compiler for native resources $mcexe = Get-ChildItem "${env:ProgramFiles(x86)}\Windows Kits\10\" -Recurse -Filter 'mc.exe' | ? {$_.FullName -match 'x64'} | select -First 1 | % {$_.FullName} if (-not $mcexe) { throw 'mc.exe not found. Run Start-PSBootstrap or install Microsoft Windows 10 SDK from https://developer.microsoft.com/en-US/windows/downloads/windows-10-sdk' } $vcVarsPath = (Get-Item(Join-Path -Path "$env:VS140COMNTOOLS" -ChildPath '../../vc')).FullName if ((Test-Path -Path $vcVarsPath\vcvarsall.bat) -eq $false) { throw "Could not find Visual Studio vcvarsall.bat at $vcVarsPath. Please ensure the optional feature 'Common Tools for Visual C++' is installed." } # setup msbuild configuration if ($Configuration -eq 'Debug' -or $Configuration -eq 'Release') { $msbuildConfiguration = $Configuration } else { $msbuildConfiguration = 'Release' } # setup cmakeGenerator if ($NativeHostArch -eq 'x86') { $cmakeGenerator = 'Visual Studio 14 2015' } else { $cmakeGenerator = 'Visual Studio 14 2015 Win64' } } elseif ($IsLinux -or $IsOSX) { foreach ($Dependency in 'cmake', 'make', 'g++') { $precheck = $precheck -and (precheck $Dependency "Build dependency '$Dependency' not found. Run Start-PSBootstrap.") } } # Abort if any precheck failed if (-not $precheck) { return } # set output options $OptionsArguments = @{ Publish=$Publish Output=$Output FullCLR=$FullCLR Runtime=$Runtime Configuration=$Configuration Verbose=$true SMAOnly=[bool]$SMAOnly } $script:Options = New-PSOptions @OptionsArguments if ($StopDevPowerShell) { Stop-DevPowerShell } # setup arguments $Arguments = @() if ($Publish -or $FullCLR) { $Arguments += "publish" } else { $Arguments += "build" } if ($Output) { $Arguments += "--output", (Join-Path $PSScriptRoot $Output) } elseif ($SMAOnly) { $Arguments += "--output", (Split-Path $script:Options.Output) } $Arguments += "--configuration", $Options.Configuration $Arguments += "--framework", $Options.Framework $Arguments += "--runtime", $Options.Runtime # handle Restore if ($Restore -or -not (Test-Path "$($Options.Top)/project.lock.json")) { log "Run dotnet restore" $RestoreArguments = @("--verbosity") if ($PSCmdlet.MyInvocation.BoundParameters["Verbose"].IsPresent) { $RestoreArguments += "Info" } else { $RestoreArguments += "Warning" } $RestoreArguments += "$PSScriptRoot" Start-NativeExecution { dotnet restore $RestoreArguments } # .NET Core's crypto library needs brew's OpenSSL libraries added to its rpath if ($IsOSX) { # This is the restored library used to build # This is allowed to fail since the user may have already restored Write-Warning ".NET Core links the incorrect OpenSSL, correcting NuGet package libraries..." find $env:HOME/.nuget -name System.Security.Cryptography.Native.dylib | xargs sudo install_name_tool -add_rpath /usr/local/opt/openssl/lib } } # handle ResGen # Heuristic to run ResGen on the fresh machine if ($ResGen -or -not (Test-Path "$PSScriptRoot/src/Microsoft.PowerShell.ConsoleHost/gen")) { log "Run ResGen (generating C# bindings for resx files)" Start-ResGen } # handle xaml files # Heuristic to resolve xaml on the fresh machine if ($FullCLR -and ($XamlGen -or -not (Test-Path "$PSScriptRoot/src/Microsoft.PowerShell.Activities/gen/*.g.cs"))) { log "Run XamlGen (generating .g.cs and .resources for .xaml files)" Start-XamlGen -MSBuildConfiguration $msbuildConfiguration } # Build native components if (($IsLinux -or $IsOSX) -and -not $SMAOnly) { $Ext = if ($IsLinux) { "so" } elseif ($IsOSX) { "dylib" } $Native = "$PSScriptRoot/src/libpsl-native" $Lib = "$($Options.Top)/libpsl-native.$Ext" log "Start building $Lib" try { Push-Location $Native 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 $Lib failed" } } elseif ($IsWindows -and (-not $SMAOnly)) { log "Start building native Windows binaries" try { Push-Location "$PSScriptRoot\src\powershell-native" # Compile native resources $currentLocation = Get-Location @("nativemsh/pwrshplugin") | % { $nativeResourcesFolder = $_ Get-ChildItem $nativeResourcesFolder -Filter "*.mc" | % { $command = @" cmd.exe /C cd /d "$currentLocation" "&" "$($vcVarsPath)\vcvarsall.bat" "$NativeHostArch" "&" mc.exe -o -d -c -U $($_.FullName) -h "$nativeResourcesFolder" -r "$nativeResourcesFolder" "@ log " Executing mc.exe Command: $command" Start-NativeExecution { Invoke-Expression -Command:$command } } } function Build-NativeWindowsBinaries { param( # Describes wither it should build the CoreCLR or FullCLR version [ValidateSet("ON", "OFF")] [string]$OneCoreValue, # Array of file names to copy from the local build directory to the packaging directory [string[]]$FilesToCopy ) # Disabling until I figure out if it is necessary # $overrideFlags = "-DCMAKE_USER_MAKE_RULES_OVERRIDE=$PSScriptRoot\src\powershell-native\windows-compiler-override.txt" $overrideFlags = "" $location = Get-Location $command = @" cmd.exe /C cd /d "$location" "&" "$($vcVarsPath)\vcvarsall.bat" "$NativeHostArch" "&" cmake "$overrideFlags" -DBUILD_ONECORE=$OneCoreValue -G "$cmakeGenerator" . "&" msbuild ALL_BUILD.vcxproj "/p:Configuration=$msbuildConfiguration" "@ log " Executing Build Command: $command" Start-NativeExecution { Invoke-Expression -Command:$command } $clrTarget = "FullClr" if ($OneCoreValue -eq "ON") { $clrTarget = "CoreClr" } # Copy the binaries from the local build directory to the packaging directory $dstPath = ($script:Options).Top $FilesToCopy | % { $srcPath = Join-Path (Join-Path (Join-Path (Get-Location) "bin") $msbuildConfiguration) "$clrTarget/$_" log " Copying $srcPath to $dstPath" Copy-Item $srcPath $dstPath } } if ($FullCLR) { $fullBinaries = @( 'powershell.exe', 'powershell.pdb', 'pwrshplugin.dll', 'pwrshplugin.pdb' ) Build-NativeWindowsBinaries "OFF" $fullBinaries } else { $coreClrBinaries = @( 'pwrshplugin.dll', 'pwrshplugin.pdb' ) Build-NativeWindowsBinaries "ON" $coreClrBinaries # Place the remoting configuration script in the same directory # as the binary so it will get published. Copy-Item .\Install-PowerShellRemoting.ps1 ($script:Options).Top } } finally { Pop-Location } } # handle TypeGen if ($TypeGen -or -not (Test-Path "$PSScriptRoot/src/Microsoft.PowerShell.CoreCLR.AssemblyLoadContext/CorePsTypeCatalog.cs")) { log "Run TypeGen (generating CorePsTypeCatalog.cs)" Start-TypeGen } try { # Relative paths do not work well if cwd is not changed to project Push-Location $Options.Top log "Run dotnet $Arguments from $pwd" Start-NativeExecution { dotnet $Arguments } if ($CrossGen) { $publishPath = Split-Path $Options.Output Start-CrossGen -PublishPath $publishPath log "PowerShell.exe with ngen binaries is available at: $($Options.Output)" } else { log "PowerShell output: $($Options.Output)" } } finally { Pop-Location } } function New-PSOptions { [CmdletBinding()] param( [ValidateSet("Linux", "Debug", "Release", "")] [string]$Configuration, [ValidateSet("netcoreapp1.0", "net451")] [string]$Framework, # These are duplicated from Start-PSBuild # We do not use ValidateScript since we want tab completion [ValidateSet("", "ubuntu.14.04-x64", "ubuntu.16.04-x64", "debian.8-x64", "centos.7-x64", "win7-x64", "win81-x64", "win10-x64", "osx.10.11-x64")] [string]$Runtime, [switch]$Publish, [string]$Output, [switch]$FullCLR, [switch]$SMAOnly ) # Add .NET CLI tools to PATH Find-Dotnet if (-not $Configuration) { $Configuration = if ($IsLinux -or $IsOSX) { "Linux" } elseif ($IsWindows) { "Debug" } Write-Verbose "Using configuration '$Configuration'" } if ($FullCLR) { $Top = "$PSScriptRoot/src/powershell-win-full" } else { if ($Configuration -eq 'Linux') { $Top = "$PSScriptRoot/src/powershell-unix" } else { $Top = "$PSScriptRoot/src/powershell-win-core" } } Write-Verbose "Top project directory is $Top" if (-not $Framework) { $Framework = if ($FullCLR) { "net451" } else { "netcoreapp1.0" } Write-Verbose "Using framework '$Framework'" } if (-not $Runtime) { $Runtime = dotnet --info | % { if ($_ -match "RID") { $_ -split "\s+" | Select-Object -Last 1 } } if (-not $Runtime) { Throw "Could not determine Runtime Identifier, please update dotnet" } else { Write-Verbose "Using runtime '$Runtime'" } } $Executable = if ($IsLinux -or $IsOSX) { "powershell" } elseif ($IsWindows) { "powershell.exe" } # Build the Output path if ($Output) { $Output = Join-Path $PSScriptRoot $Output } else { $Output = [IO.Path]::Combine($Top, "bin", $Configuration, $Framework, $Runtime) # Publish injects the publish directory if ($Publish -or $FullCLR) { $Output = [IO.Path]::Combine($Output, "publish") } $Output = [IO.Path]::Combine($Output, $Executable) } $RealFramework = $Framework if ($SMAOnly) { $Top = "$PSScriptRoot/src/System.Management.Automation" if ($Framework -match 'netcoreapp') { $RealFramework = 'netstandard1.6' } } return @{ Top = $Top; Configuration = $Configuration; Framework = $RealFramework; Runtime = $Runtime; Output = $Output } } function Get-PSOutput { [CmdletBinding()]param( [hashtable]$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 $testbase -File |?{$_.name -match "tests.ps1"}| %{ $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 $foundTag = $false 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 | %{ if ( $_ -notmatch "CI|FEATURE|SCENARIO|SLOW" ) { $warnings += "${fullname} includes improper tag '$_', line '$lineno'" } $alltags[$_]++ } $foundTag = $true } } if ( ! $foundTag ) { $warnings += "${fullname} does not include -Tag in Describe, line '$lineno'" } } } if ( $Warnings.Count -gt 0 ) { $alltags['Result'] = "Fail" } else { $alltags['Result'] = "Pass" } $alltags['Warnings'] = $warnings $o = [pscustomobject]$alltags $o.psobject.TypeNames.Add("DescribeTagsInUse") $o } function Start-PSPester { [CmdletBinding()]param( [string]$OutputFormat = "NUnitXml", [string]$OutputFile = "pester-tests.xml", [switch]$DisableExit, [string[]]$ExcludeTag = "Slow", [string[]]$Tag = "CI", [string]$Path = "$PSScriptRoot/test/powershell" ) $powershell = Get-PSOutput # All concatenated commands/arguments are suffixed with the delimiter (space) $Command = "" # Windows needs the execution policy adjusted if ($IsWindows) { $Command += "Set-ExecutionPolicy -Scope Process Unrestricted; " } $PesterModule = [IO.Path]::Combine((Split-Path $powershell), "Modules", "Pester") $Command += "Import-Module $PesterModule; " $Command += "Invoke-Pester " $Command += "-OutputFormat ${OutputFormat} -OutputFile ${OutputFile} " if (!$DisableExit) { $Command += "-EnableExit " } if ($ExcludeTag -and ($ExcludeTag -ne "")) { $Command += "-ExcludeTag @('" + (${ExcludeTag} -join "','") + "') " } if ($Tag) { $Command += "-Tag @('" + (${Tag} -join "','") + "') " } $Command += $Path Write-Verbose $Command # To ensure proper testing, the module path must not be inherited by the spawned process try { $originalModulePath = $env:PSMODULEPATH $env:PSMODULEPATH = "" & $powershell -noprofile -c $Command } finally { $env:PSMODULEPATH = $originalModulePath } if ($LASTEXITCODE -ne 0) { throw "$LASTEXITCODE Pester tests failed" } } function Start-PSxUnit { [CmdletBinding()]param() log "xUnit tests are currently disabled pending fixes due to API and AssemblyLoadContext changes - @andschwa" return if ($IsWindows) { throw "xUnit tests are only currently supported on Linux / OS X" } if ($IsOSX) { log "Not yet supported on OS X, pretending they passed..." return } # Add .NET CLI tools to PATH Find-Dotnet $Arguments = "--configuration", "Linux", "-parallel", "none" if ($PSCmdlet.MyInvocation.BoundParameters["Verbose"].IsPresent) { $Arguments += "-verbose" } $Content = Split-Path -Parent (Get-PSOutput) if (-not (Test-Path $Content)) { throw "PowerShell must be built before running tests!" } try { Push-Location $PSScriptRoot/test/csharp # Path manipulation to obtain test project output directory $Output = Join-Path $pwd ((Split-Path -Parent (Get-PSOutput)) -replace (New-PSOptions).Top) Write-Verbose "Output is $Output" Copy-Item -ErrorAction SilentlyContinue -Recurse -Path $Content/* -Include Modules,libpsl-native* -Destination $Output Start-NativeExecution { dotnet test $Arguments } if ($LASTEXITCODE -ne 0) { throw "$LASTEXITCODE xUnit tests failed" } } finally { Pop-Location } } function Start-PSBootstrap { [CmdletBinding( SupportsShouldProcess=$true, ConfirmImpact="High")] param( [ValidateSet("dev", "beta", "preview")] [string]$Channel = "rel-1.0.0", [string]$Version = "latest", [switch]$Package, [switch]$Force ) log "Installing PowerShell build dependencies" Push-Location $PSScriptRoot/tools try { # Install ours and .NET's dependencies $Deps = @() if ($IsUbuntu) { # Build tools $Deps += "curl", "g++", "cmake", "make" # .NET Core required runtime libraries $Deps += "libunwind8" if ($IsUbuntu14) { $Deps += "libicu52" } elseif ($IsUbuntu16) { $Deps += "libicu55" } # Packaging tools if ($Package) { $Deps += "ruby-dev" } # Install dependencies sudo apt-get install -y -qq $Deps } elseif ($IsCentOS) { # Build tools $Deps += "curl", "gcc-c++", "cmake", "make" # .NET Core required runtime libraries $Deps += "libicu", "libunwind" # Packaging tools if ($Package) { $Deps += "ruby-devel", "rpmbuild" } # Install dependencies sudo yum install -y -q $Deps } elseif ($IsOSX) { precheck 'brew' "Bootstrap dependency 'brew' not found, must install Homebrew! See http://brew.sh/" # Build tools $Deps += "curl", "cmake" # .NET Core required runtime libraries $Deps += "openssl" # Install dependencies brew install $Deps } # Install [fpm](https://github.com/jordansissel/fpm) and [ronn](https://github.com/rtomayko/ronn) if ($Package) { gem install fpm ronn } $obtainUrl = "https://raw.githubusercontent.com/dotnet/cli/rel/1.0.0/scripts/obtain" # Install for Linux and OS X if ($IsLinux -or $IsOSX) { # Uninstall all previous dotnet packages $uninstallScript = if ($IsUbuntu) { "dotnet-uninstall-debian-packages.sh" } elseif ($IsOSX) { "dotnet-uninstall-pkgs.sh" } if ($uninstallScript) { curl -s $obtainUrl/uninstall/$uninstallScript -o $uninstallScript chmod +x $uninstallScript sudo ./$uninstallScript } else { Write-Warning "This script only removes prior versions of dotnet for Ubuntu 14.04 and OS X" } # Install new dotnet 1.0.0 preview packages $installScript = "dotnet-install.sh" curl -s $obtainUrl/$installScript -o $installScript chmod +x $installScript bash ./$installScript -c $Channel -v $Version # .NET Core's crypto library needs brew's OpenSSL libraries added to its rpath if ($IsOSX) { # This is the library shipped with .NET Core # This is allowed to fail as the user may have installed other versions of dotnet Write-Warning ".NET Core links the incorrect OpenSSL, correcting .NET CLI libraries..." find $env:HOME/.dotnet -name System.Security.Cryptography.Native.dylib | xargs sudo install_name_tool -add_rpath /usr/local/opt/openssl/lib } } # Install for Windows if ($IsWindows -and -not $IsCoreCLR) { Remove-Item -ErrorAction SilentlyContinue -Recurse -Force ~\AppData\Local\Microsoft\dotnet $installScript = "dotnet-install.ps1" Invoke-WebRequest -Uri $obtainUrl/$installScript -OutFile $installScript & ./$installScript -c $Channel -v $Version $machinePath = [Environment]::GetEnvironmentVariable('Path', 'MACHINE') $newMachineEnvironmentPath = $machinePath $cmakePresent = precheck 'cmake' $null $sdkPath = "${env:ProgramFiles(x86)}\Microsoft SDKs\Windows\v10.0A" $sdkPresent = Test-Path -Path $sdkPath -PathType Container # Install chocolatey $chocolateyPath = "$env:AllUsersProfile\chocolatey\bin" if(precheck 'choco' $null) { log "Chocolatey is already installed. Skipping installation." } elseif(($cmakePresent -eq $false) -or ($sdkPresent -eq $false)) { log "Chocolatey not present. Installing chocolatey." if ($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()))) { log "Adding $chocolateyPath to Path environment variable" $env:Path += ";$chocolateyPath" $newMachineEnvironmentPath += ";$chocolateyPath" } else { 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 $null } } else { log "Skipping installation of chocolatey, cause both cmake and Win 10 SDK are present." } # Install cmake $cmakePath = "${env:ProgramFiles(x86)}\CMake\bin" if($cmakePresent) { log "Cmake is already installed. Skipping installation." } else { log "Cmake not present. Installing cmake." choco install cmake.portable -y --version 3.6.0 if (-not ($machinePath.ToLower().Contains($cmakePath.ToLower()))) { log "Adding $cmakePath to Path environment variable" $env:Path += ";$cmakePath" $newMachineEnvironmentPath = "$cmakePath;$newMachineEnvironmentPath" } else { log "$cmakePath already present in Path environment variable" } } # Install Windows 10 SDK $packageName = "windows-sdk-10.0" if (-not $sdkPresent) { log "Windows 10 SDK not present. Installing $packageName." choco install windows-sdk-10.0 -y } else { log "Windows 10 SDK present. Skipping installation." } # Update path machine environment variable if ($newMachineEnvironmentPath -ne $machinePath) { log "Updating Path machine environment variable" if ($Force -or $PSCmdlet.ShouldProcess("Update Path machine environment variable to $newMachineEnvironmentPath")) { [Environment]::SetEnvironmentVariable('Path', $newMachineEnvironmentPath, 'MACHINE') } } } elseif ($IsWindows) { Write-Warning "Start-PSBootstrap cannot be run in Core PowerShell on Windows (need Invoke-WebRequest!)" } } finally { Pop-Location } } function Start-PSPackage { [CmdletBinding()]param( # PowerShell packages use Semantic Versioning http://semver.org/ [string]$Version, # Package name [ValidatePattern("^powershell")] [string]$Name = "powershell", # Ubuntu, CentOS, and OS X, and Windows packages are supported [ValidateSet("deb", "osxpkg", "rpm", "msi", "appx")] [string[]]$Types ) # Use Git tag if not given a version if (-not $Version) { $Version = (git --git-dir="$PSScriptRoot/.git" describe) -Replace '^v' } if ($IsWindows) { Write-Warning "Please ensure you have previously run Start-PSBuild -Clean -CrossGen -Configuration Release!" $Source = Split-Path -Parent (Get-PSOutput -Options (New-PSOptions -Publish -Configuration Release)) } else { Write-Warning "Please ensure you have previously run Start-PSBuild -Clean -CrossGen!" $Source = Split-Path -Parent (Get-PSOutput -Options (New-PSOptions -Publish)) } Write-Verbose "Packaging $Source" # Decide package output type if (-not $Types) { $Types = if ($IsLinux) { if ($LinuxInfo.ID -match "ubuntu") { "deb" } elseif ($LinuxInfo.ID -match "centos") { "rpm" } else { throw "Building packages for $($LinuxInfo.PRETTY_NAME) is unsupported!" } } elseif ($IsOSX) { "osxpkg" } elseif ($IsWindows) { "msi", "appx" } Write-Warning "-Types was not specified, continuing with $Types!" } switch ($Types) { "msi" { $Arguments = @{ ProductSourcePath = $Source; ProductVersion = $Version; AssetsPath = "$PSScriptRoot\assets"; LicenseFilePath = "$PSScriptRoot\assets\license.rtf"; # Product Guid needs to be unique for every PowerShell version to allow SxS install ProductGuid = [Guid]::NewGuid() } New-MSIPackage @Arguments } "appx" { $Arguments = @{ PackageVersion = $Version; SourcePath = $Source; AssetsPath = "$PSScriptRoot\assets" } New-AppxPackage @Arguments } default { $Arguments = @{ Type = $_; Source = $Source; Name = $Name; Version = $Version } New-UnixPackage @Arguments } } } function New-UnixPackage { [CmdletBinding()]param( [Parameter(Mandatory)] [ValidateSet("deb", "osxpkg", "rpm")] [string]$Type, [Parameter(Mandatory)] [string]$Source, # Must start with 'powershell' but may have any suffix [Parameter(Mandatory)] [ValidatePattern("^powershell")] [string]$Name, [Parameter(Mandatory)] [string]$Version, # Package iteration version (rarely changed) # This is a string because strings are appended to it [string]$Iteration = "1" ) # Validate platform $ErrorMessage = "Must be on {0} to build '$Type' packages!" switch ($Type) { "deb" { $WarningMessage = "Building for Ubuntu {0}.04!" if (!$IsUbuntu) { throw ($ErrorMessage -f "Ubuntu") } elseif ($IsUbuntu14) { Write-Warning ($WarningMessage -f "14") } elseif ($IsUbuntu16) { Write-Warning ($WarningMessage -f "16") } } "rpm" { if (!$IsCentOS) { throw ($ErrorMessage -f "CentOS") } } "osxpkg" { if (!$IsOSX) { throw ($ErrorMessage -f "OS X") } } } foreach ($Dependency in "fpm", "ronn") { if (!(precheck $Dependency "Package dependency '$Dependency' not found. Run Start-PSBootstrap -Publish")) { throw "Dependency precheck failed!" } } $Description = @" PowerShell is an automation and configuration management platform. It consists of a cross-platform command-line shell and associated scripting language. "@ # Suffix is used for side-by-side package installation $Suffix = $Name -replace "^powershell" if (!$Suffix) { Write-Warning "Suffix not given, building primary PowerShell package!" $Suffix = $Version } # Setup staging directory so we don't change the original source directory $Staging = "$PSScriptRoot/staging" Remove-Item -Recurse -Force -ErrorAction SilentlyContinue $Staging Copy-Item -Recurse $Source $Staging # Rename files to given name if not "powershell" if ($Name -ne "powershell") { $Files = @("powershell", "powershell.dll", "powershell.deps.json", "powershell.pdb", "powershell.runtimeconfig.json", "powershell.xml") foreach ($File in $Files) { $NewName = $File -replace "^powershell", $Name Move-Item "$Staging/$File" "$Staging/$NewName" } } # Follow the Filesystem Hierarchy Standard for Linux and OS X $Destination = if ($IsLinux) { "/opt/microsoft/powershell/$Suffix" } elseif ($IsOSX) { "/usr/local/microsoft/powershell/$Suffix" } # Destination for symlink to powershell executable $Link = if ($IsLinux) { "/usr/bin" } elseif ($IsOSX) { "/usr/local/bin" } New-Item -Force -ItemType SymbolicLink -Path "/tmp/$Name" -Target "$Destination/$Name" >$null # there is a weird bug in fpm # if the target of the powershell symlink exists, `fpm` aborts # with a `utime` error on OS X. # so we move it to make symlink broken $symlink_dest = "$Destination/$Name" $hack_dest = "./_fpm_symlink_hack_powershell" if ($IsOSX) { if (Test-Path $symlink_dest) { Write-Warning "Move $symlink_dest to $hack_dest (fpm utime bug)" Move-Item $symlink_dest $hack_dest } } # run ronn to convert man page to roff $RonnFile = Join-Path $PSScriptRoot "/assets/powershell.1.ronn" $RoffFile = $RonnFile -replace "\.ronn$" # Run ronn on assets file # Run does not play well with files named powershell6.0.1, so we generate and then rename Start-NativeExecution { ronn --roff $RonnFile } # Setup for side-by-side man pages (noop if primary package) $FixedRoffFile = $RoffFile -replace "powershell.1$", "$Name.1" if ($Name -ne "powershell") { Move-Item $RoffFile $FixedRoffFile } # gzip in assets directory $GzipFile = "$FixedRoffFile.gz" Start-NativeExecution { gzip -f $FixedRoffFile } $ManFile = Join-Path "/usr/local/share/man/man1" (Split-Path -Leaf $GzipFile) # Change permissions for packaging Start-NativeExecution { find $Staging -type d | xargs chmod 755 find $Staging -type f | xargs chmod 644 chmod 644 $GzipFile chmod 755 "$Staging/$Name" # only the executable should be executable } $libunwind = switch ($Type) { "deb" { "libunwind8" } "rpm" { "libunwind" } } $libicu = switch ($Type) { "deb" { if ($IsUbuntu14) { "libicu52" } elseif ($IsUbuntu16) { "libicu55" } } "rpm" { "libicu" } } # iteration is "debian_revision" # usage of this to differentiate distributions is allowed by non-standard if ($IsUbuntu14) { $Iteration += "ubuntu1.14.04.1" } elseif ($IsUbuntu16) { $Iteration += "ubuntu1.16.04.1" } # We currently only support CentOS 7 # https://fedoraproject.org/wiki/Packaging:DistTag $rpm_dist = "el7.centos" $Arguments = @( "--force", "--verbose", "--name", $Name, "--version", $Version, "--iteration", $Iteration, "--rpm-dist", $rpm_dist, "--maintainer", "PowerShell Team ", "--vendor", "Microsoft Corporation", "--url", "https://microsoft.com/powershell", "--license", "MIT License", "--description", $Description, "--category", "shells", "--rpm-os", "linux", "--depends", $libunwind, "--depends", $libicu, "-t", $Type, "-s", "dir", "$Staging/=$Destination/", "$GzipFile=$ManFile", "/tmp/$Name=$Link" ) # Build package try { $Output = Start-NativeExecution { fpm $Arguments } } finally { if ($IsOSX) { # this is continuation of a fpm hack for a weird bug if (Test-Path $hack_dest) { Write-Warning "Move $hack_dest to $symlink_dest (fpm utime bug)" Move-Item $hack_dest $symlink_dest } } } # Magic to get path output return Get-Item (Join-Path $PSScriptRoot (($Output[-1] -split ":path=>")[-1] -replace '["{}]')) } function Publish-NuGetFeed { param( [string]$OutputPath = "$PSScriptRoot/nuget-artifacts", [Parameter(Mandatory=$true)] [string]$VersionSuffix ) # Add .NET CLI tools to PATH Find-Dotnet @( 'Microsoft.PowerShell.Commands.Management', 'Microsoft.PowerShell.Commands.Utility', 'Microsoft.PowerShell.ConsoleHost', 'Microsoft.PowerShell.Security', 'System.Management.Automation', 'Microsoft.PowerShell.CoreCLR.AssemblyLoadContext', 'Microsoft.PowerShell.CoreCLR.Eventing', 'Microsoft.PowerShell.SDK' ) | % { if ($VersionSuffix) { dotnet pack "src/$_" --output $OutputPath --version-suffix $VersionSuffix } else { dotnet pack "src/$_" --output $OutputPath } } } function Start-DevPowerShell { param( [switch]$FullCLR, [switch]$ZapDisable, [string[]]$ArgumentList = '', [switch]$LoadProfile, [string]$binDir = (Split-Path (New-PSOptions -FullCLR:$FullCLR).Output), [switch]$NoNewWindow, [string]$Command, [switch]$KeepPSModulePath ) try { if ((-not $NoNewWindow) -and ($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 = $binDir if ($ZapDisable) { $env:COMPLUS_ZapDisable = 1 } if ($FullCLR -and (-not (Test-Path $binDir\powershell.exe.config))) { $configContents = @" "@ $configContents | Out-File -Encoding Ascii $binDir\powershell.exe.config } # splatting for the win $startProcessArgs = @{ FilePath = "$binDir\powershell" ArgumentList = "$ArgumentList" } if ($NoNewWindow) { $startProcessArgs.NoNewWindow = $true $startProcessArgs.Wait = $true } Start-Process @startProcessArgs } finally { ri env:DEVPATH if ($ZapDisable) { ri env:COMPLUS_ZapDisable } } } <# .EXAMPLE PS C:> Copy-MappedFiles -PslMonadRoot .\src\monad copy files FROM .\src\monad (old location of submodule) TO src/ folders #> function Copy-MappedFiles { [CmdletBinding()] param( [Parameter(ValueFromPipeline=$true)] [string[]]$Path = "$PSScriptRoot", [Parameter(Mandatory=$true)] [string]$PslMonadRoot, [switch]$Force, [switch]$WhatIf ) begin { function MaybeTerminatingWarning { param([string]$Message) if ($Force) { Write-Warning "$Message : ignoring (-Force)" } elseif ($WhatIf) { Write-Warning "$Message : ignoring (-WhatIf)" } else { throw "$Message : use -Force to ignore" } } if (-not (Test-Path -PathType Container $PslMonadRoot)) { throw "$pslMonadRoot is not a valid folder" } # Do some intelligens to prevent shouting us in the foot with CL management # finding base-line CL $cl = git --git-dir="$PSScriptRoot/.git" tag | % {if ($_ -match 'SD.(\d+)$') {[int]$Matches[1]} } | Sort-Object -Descending | Select-Object -First 1 if ($cl) { log "Current base-line CL is SD:$cl (based on tags)" } else { MaybeTerminatingWarning "Could not determine base-line CL based on tags" } try { Push-Location $PslMonadRoot if (git status --porcelain -uno) { MaybeTerminatingWarning "$pslMonadRoot has changes" } if (git log --grep="SD:$cl" HEAD^..HEAD) { log "$pslMonadRoot HEAD matches [SD:$cl]" } else { Write-Warning "Try to checkout this commit in $pslMonadRoot :" git log --grep="SD:$cl" | Write-Warning MaybeTerminatingWarning "$pslMonadRoot HEAD doesn't match [SD:$cl]" } } finally { Pop-Location } $map = @{} } process { $map += Get-Mappings $Path -Root $PslMonadRoot } end { $map.GetEnumerator() | % { New-Item -ItemType Directory (Split-Path $_.Value) -ErrorAction SilentlyContinue > $null Copy-Item $_.Key $_.Value -Verbose:([bool]$PSBoundParameters['Verbose']) -WhatIf:$WhatIf } } } function Get-Mappings { [CmdletBinding()] param( [Parameter(ValueFromPipeline=$true)] [string[]]$Path = "$PSScriptRoot", [string]$Root, [switch]$KeepRelativePaths ) begin { $mapFiles = @() } process { Write-Verbose "Discovering map files in $Path" $count = $mapFiles.Count if (-not (Test-Path $Path)) { throw "Mapping file not found in $mappingFilePath" } if (Test-Path -PathType Container $Path) { $mapFiles += Get-ChildItem -Recurse $Path -Filter 'map.json' -File } else { # it exists and it's a file, don't check the name pattern $mapFiles += Get-ChildItem $Path } Write-Verbose "Found $($mapFiles.Count - $count) map files in $Path" } end { $map = @{} $mapFiles | % { $file = $_ try { $rawHashtable = $_ | Get-Content -Raw | ConvertFrom-Json | Convert-PSObjectToHashtable } catch { Write-Error "Exception, when processing $($file.FullName): $_" } $mapRoot = Split-Path $_.FullName if ($KeepRelativePaths) { # not very elegant way to find relative for the current directory path $mapRoot = $mapRoot.Substring($PSScriptRoot.Length + 1) # keep original unix-style paths for git $mapRoot = $mapRoot.Replace('\', '/') } $rawHashtable.GetEnumerator() | % { $newKey = if ($Root) { Join-Path $Root $_.Key } else { $_.Key } $newValue = if ($KeepRelativePaths) { ($mapRoot + '/' + $_.Value) } else { Join-Path $mapRoot $_.Value } $map[$newKey] = $newValue } } return $map } } <# .EXAMPLE Send-GitDiffToSd -diffArg1 32b90c048aa0c5bc8e67f96a98ea01c728c4a5be~1 -diffArg2 32b90c048aa0c5bc8e67f96a98ea01c728c4a5be -AdminRoot d:\e\ps_dev\admin Apply a signle commit to admin folder #> function Send-GitDiffToSd { param( [Parameter(Mandatory)] [string]$diffArg1, [Parameter(Mandatory)] [string]$diffArg2, [Parameter(Mandatory)] [string]$AdminRoot, [switch]$WhatIf ) # this is only for windows, because you cannot have SD enlistment on Linux $patchPath = (ls (Join-Path (get-command git).Source '..\..') -Recurse -Filter 'patch.exe').FullName $m = Get-Mappings -KeepRelativePaths -Root $AdminRoot $affectedFiles = git diff --name-only $diffArg1 $diffArg2 $affectedFiles | % { log "Changes in file $_" } $rev = Get-InvertedOrderedMap $m foreach ($file in $affectedFiles) { if ($rev.Contains) { $sdFilePath = $rev[$file] if (-not $sdFilePath) { Write-Warning "Cannot find mapped file for $file, skipping" continue } $diff = git diff $diffArg1 $diffArg2 -- $file if ($diff) { log "Apply patch to $sdFilePath" Set-Content -Value $diff -Path $env:TEMP\diff -Encoding Ascii if ($WhatIf) { log "Patch content" Get-Content $env:TEMP\diff } else { & $patchPath --binary -p1 $sdFilePath $env:TEMP\diff } } else { log "No changes in $file" } } else { log "Ignore changes in $file, because there is no mapping for it" } } } function Start-TypeGen { [CmdletBinding()] param() # Add .NET CLI tools to PATH Find-Dotnet Push-Location "$PSScriptRoot/src/TypeCatalogParser" try { dotnet run } finally { Pop-Location } Push-Location "$PSScriptRoot/src/TypeCatalogGen" try { dotnet run ../Microsoft.PowerShell.CoreCLR.AssemblyLoadContext/CorePsTypeCatalog.cs powershell.inc } finally { Pop-Location } } function Start-ResGen { [CmdletBinding()] param() # Add .NET CLI tools to PATH Find-Dotnet Push-Location "$PSScriptRoot/src/ResGen" try { Start-NativeExecution { dotnet run } | Write-Verbose } finally { Pop-Location } } function Find-Dotnet() { $originalPath = $env:PATH $dotnetPath = if ($IsWindows) { "$env:LocalAppData\Microsoft\dotnet" } else { "$env:HOME/.dotnet" } if (-not (precheck 'dotnet' "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 | % { Get-ChildItem $_ -Filter "*.txt" | % { $txtFile = $_.FullName $resxFile = Join-Path (Split-Path $txtFile) "$($_.BaseName).resx" $resourceHashtable = ConvertFrom-StringData (Get-Content -Raw $txtFile) $resxContent = $resourceHashtable.GetEnumerator() | % { @' {1} '@ -f $_.Key, $_.Value } | Out-String Set-Content -Path $resxFile -Value ($script:RESX_TEMPLATE -f $resxContent) } } } } function Start-XamlGen { [CmdletBinding()] param( [Parameter()] [ValidateSet("Debug", "Release")] [string] $MSBuildConfiguration = "Release" ) Use-MSBuild Get-ChildItem -Path "$PSScriptRoot/src" -Directory | % { $XamlDir = Join-Path -Path $_.FullName -ChildPath Xamls if ((Test-Path -Path $XamlDir -PathType Container) -and (@(Get-ChildItem -Path "$XamlDir\*.xaml").Count -gt 0)) { $OutputDir = Join-Path -Path $env:TEMP -ChildPath "_Resolve_Xaml_" Remove-Item -Path $OutputDir -Recurse -Force -ErrorAction SilentlyContinue mkdir -Path $OutputDir -Force > $null # we will get failures, but it's ok: we only need to copy *.g.cs files in the dotnet cli project. $SourceDir = ConvertFrom-Xaml -Configuration $MSBuildConfiguration -OutputDir $OutputDir -XamlDir $XamlDir -IgnoreMsbuildFailure:$true $DestinationDir = Join-Path -Path $_.FullName -ChildPath gen New-Item -ItemType Directory $DestinationDir -ErrorAction SilentlyContinue > $null $filesToCopy = Get-Item "$SourceDir\*.cs", "$SourceDir\*.g.resources" if (-not $filesToCopy) { throw "No .cs or .g.resources files are generated for $XamlDir, something went wrong. Run 'Start-XamlGen -Verbose' for details." } $filesToCopy | % { $sourcePath = $_.FullName Write-Verbose "Copy generated xaml artifact: $sourcePath -> $DestinationDir" Copy-Item -Path $sourcePath -Destination $DestinationDir } } } } $Script:XamlProj = @" C# Microsoft.PowerShell.Activities library {0} Any CPU {1} true {2} False False False "@ $Script:XamlProjPage = @' '@ function script:ConvertFrom-Xaml { [CmdletBinding()] param( [Parameter(Mandatory=$true)] [string] $Configuration, [Parameter(Mandatory=$true)] [string] $OutputDir, [Parameter(Mandatory=$true)] [string] $XamlDir, [switch] $IgnoreMsbuildFailure ) log "ConvertFrom-Xaml for $XamlDir" $Pages = "" Get-ChildItem -Path "$XamlDir\*.xaml" | % { $Page = $Script:XamlProjPage -f $_.FullName $Pages += $Page } $XamlProjContent = $Script:XamlProj -f $Configuration, $OutputDir, $Pages $XamlProjPath = Join-Path -Path $OutputDir -ChildPath xaml.proj Set-Content -Path $XamlProjPath -Value $XamlProjContent -Encoding Ascii -NoNewline -Force msbuild $XamlProjPath | Write-Verbose if ($LASTEXITCODE -ne 0) { $message = "When processing $XamlDir 'msbuild $XamlProjPath > `$null' failed with exit code $LASTEXITCODE" if ($IgnoreMsbuildFailure) { Write-Verbose $message } else { throw $message } } return (Join-Path -Path $OutputDir -ChildPath "obj\Any CPU\$Configuration") } 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 $frameworkMsBuildLocation -Scope Script } function script:log([string]$message) { Write-Host -Foreground Green $message #reset colors for older package to at return to default after error message on a compiliation error [console]::ResetColor() } function script:precheck([string]$command, [string]$missedMessage) { $c = Get-Command $command -ErrorAction SilentlyContinue if (-not $c) { if ($missedMessage -ne $null) { Write-Warning $missedMessage } return $false } else { return $true } } function script:Get-InvertedOrderedMap { param( $h ) $res = [ordered]@{} foreach ($q in $h.GetEnumerator()) { if ($res.Contains($q.Value)) { throw "Cannot invert hashtable: duplicated key $($q.Value)" } $res[$q.Value] = $q.Key } return $res } ## this function is from Dave Wyatt's answer on ## http://stackoverflow.com/questions/22002748/hashtables-from-convertfrom-json-have-different-type-from-powershells-built-in-h function script:Convert-PSObjectToHashtable { param ( [Parameter(ValueFromPipeline)] $InputObject ) process { if ($null -eq $InputObject) { return $null } if ($InputObject -is [System.Collections.IEnumerable] -and $InputObject -isnot [string]) { $collection = @( foreach ($object in $InputObject) { Convert-PSObjectToHashtable $object } ) Write-Output -NoEnumerate $collection } elseif ($InputObject -is [psobject]) { $hash = @{} foreach ($property in $InputObject.PSObject.Properties) { $hash[$property.Name] = Convert-PSObjectToHashtable $property.Value } $hash } else { $InputObject } } } # this function wraps native command Execution # for more information, read https://mnaoumov.wordpress.com/2015/01/11/execution-of-external-commands-in-powershell-done-right/ function script:Start-NativeExecution([scriptblock]$sb) { $backupEAP = $script:ErrorActionPreference $script:ErrorActionPreference = "Continue" try { & $sb # note, if $sb doens't have a native invocation, $LASTEXITCODE will # point to the obsolete value if ($LASTEXITCODE -ne 0) { throw "Execution of {$sb} failed with exit code $LASTEXITCODE" } } finally { $script:ErrorActionPreference = $backupEAP } } # Builds coming out of this project can have version number as 'a.b.c' OR 'a.b.c-d-f' # This function converts the above version into major.minor[.build[.revision]] format function Get-PackageVersionAsMajorMinorBuildRevision { [CmdletBinding()] param ( # Version of the Package [Parameter(Mandatory = $true)] [ValidateNotNullOrEmpty()] [string] $Version ) Write-Verbose "Extract the version in the form of major.minor[.build[.revision]] for $Version" $packageVersionTokens = $Version.Split('-') $packageVersion = ([regex]::matches($Version, "\d+(\.\d+)+"))[0].value if (1 -eq $packageVersionTokens.Count) { # In case the input is of the form a.b.c, add a '0' at the end for revision field $packageVersion = $packageVersion + '.0' } elseif (1 -lt $packageVersionTokens.Count) { # We have all the four fields $packageBuildTokens = ([regex]::Matches($packageVersionTokens[1], "\d+"))[0].value $packageVersion = $packageVersion + '.' + $packageBuildTokens[0] } return $packageVersion } function New-MSIPackage { [CmdletBinding()] param ( # Name of the Product [ValidateNotNullOrEmpty()] [string] $ProductName = 'PowerShell', # Version of the Product [Parameter(Mandatory = $true)] [ValidateNotNullOrEmpty()] [string] $ProductVersion, # Product Guid needs to change for every version to support SxS install [ValidateNotNullOrEmpty()] [string] $ProductGuid = 'a5249933-73a1-4b10-8a4c-13c98bdc16fe', # Source Path to the Product Files - required to package the contents into an MSI [Parameter(Mandatory = $true)] [ValidateNotNullOrEmpty()] [string] $ProductSourcePath, # File describing the MSI Package creation semantics [ValidateNotNullOrEmpty()] [string] $ProductWxsPath = (Join-Path $pwd '\assets\Product.wxs'), # Path to Assets folder containing artifacts such as icons, images [Parameter(Mandatory = $true)] [ValidateNotNullOrEmpty()] [string] $AssetsPath, # Path to license.rtf file - for the EULA [Parameter(Mandatory = $true)] [ValidateNotNullOrEmpty()] [string] $LicenseFilePath ) $wixToolsetBinPath = "${env:ProgramFiles(x86)}\WiX Toolset v3.10\bin" Write-Verbose "Ensure Wix Toolset is present on the machine @ $wixToolsetBinPath" if (-not (Test-Path $wixToolsetBinPath)) { throw "Install Wix Toolset prior to running this script - https://wix.codeplex.com/downloads/get/1540240" } Write-Verbose "Initialize Wix executables - Heat.exe, Candle.exe, Light.exe" $wixHeatExePath = Join-Path $wixToolsetBinPath "Heat.exe" $wixCandleExePath = Join-Path $wixToolsetBinPath "Candle.exe" $wixLightExePath = Join-Path $wixToolsetBinPath "Light.exe" $ProductVersion = Get-PackageVersionAsMajorMinorBuildRevision -Version $ProductVersion -Verbose $assetsInSourcePath = "$ProductSourcePath" + '\assets' New-Item $assetsInSourcePath -type directory -Force | Write-Verbose $assetsInSourcePath = Join-Path $ProductSourcePath 'assets' Write-Verbose "Place dependencies such as icons to $assetsInSourcePath" Copy-Item "$AssetsPath\*.ico" $assetsInSourcePath -Force $productVersionWithName = $ProductName + "_" + $ProductVersion Write-Verbose "Create MSI for Product $productVersionWithName" [Environment]::SetEnvironmentVariable("ProductSourcePath", $ProductSourcePath, "Process") [Environment]::SetEnvironmentVariable("ProductName", $ProductName, "Process") [Environment]::SetEnvironmentVariable("ProductGuid", $ProductGuid, "Process") [Environment]::SetEnvironmentVariable("ProductVersion", $ProductVersion, "Process") [Environment]::SetEnvironmentVariable("ProductVersionWithName", $productVersionWithName, "Process") $wixFragmentPath = (Join-path $env:Temp "Fragment.wxs") $wixObjProductPath = (Join-path $env:Temp "Product.wixobj") $wixObjFragmentPath = (Join-path $env:Temp "Fragment.wixobj") $msiLocationPath = Join-Path $pwd "$productVersionWithName.msi" Remove-Item -ErrorAction SilentlyContinue $msiLocationPath -Force & $wixHeatExePath dir $ProductSourcePath -dr $productVersionWithName -cg $productVersionWithName -gg -sfrag -srd -scom -sreg -out $wixFragmentPath -var env.ProductSourcePath -v | Write-Verbose & $wixCandleExePath "$ProductWxsPath" "$wixFragmentPath" -out (Join-Path "$env:Temp" "\\") -arch x64 -v | Write-Verbose & $wixLightExePath -out "$productVersionWithName.msi" $wixObjProductPath $wixObjFragmentPath -ext WixUIExtension -dWixUILicenseRtf="$LicenseFilePath" -v | Write-Verbose Remove-Item -ErrorAction SilentlyContinue *.wixpdb -Force Write-Verbose "You can find the MSI @ $msiLocationPath" return $msiLocationPath } # Function to create an Appx package compatible with Windows 8.1 and above function New-AppxPackage { [CmdletBinding()] param ( # Name of the Package [ValidateNotNullOrEmpty()] [string] $PackageName = 'PowerShell', # Version of the Package [Parameter(Mandatory = $true)] [ValidateNotNullOrEmpty()] [string] $PackageVersion, # Source Path to the Binplaced Files [Parameter(Mandatory = $true)] [ValidateNotNullOrEmpty()] [string] $SourcePath, # Path to Assets folder containing Appx specific artifacts [Parameter(Mandatory = $true)] [ValidateNotNullOrEmpty()] [string] $AssetsPath ) $PackageVersion = Get-PackageVersionAsMajorMinorBuildRevision -Version $PackageVersion -Verbose Write-Verbose "Package Version is $PackageVersion" $win10sdkBinPath = "${env:ProgramFiles(x86)}\Windows Kits\10\bin\x64" Write-Verbose "Ensure Win10 SDK is present on the machine @ $win10sdkBinPath" if (-not (Test-Path $win10sdkBinPath)) { throw "Install Win10 SDK prior to running this script - https://go.microsoft.com/fwlink/p/?LinkID=698771" } Write-Verbose "Ensure Source Path is valid - $SourcePath" if (-not (Test-Path $SourcePath)) { throw "Invalid SourcePath - $SourcePath" } Write-Verbose "Ensure Assets Path is valid - $AssetsPath" if (-not (Test-Path $AssetsPath)) { throw "Invalid AssetsPath - $AssetsPath" } Write-Verbose "Initialize MakeAppx executable path" $makeappxExePath = Join-Path $win10sdkBinPath "MakeAppx.exe" $appxManifest = @" PowerShell Microsoft Corporation #LOGO# "@ $appxManifest = $appxManifest.Replace('#VERSION#', $PackageVersion) $appxManifest = $appxManifest.Replace('#LOGO#', 'Assets\Powershell_256.png') $appxManifest = $appxManifest.Replace('#SQUARE150x150LOGO#', 'Assets\Powershell_256.png') $appxManifest = $appxManifest.Replace('#SQUARE44x44LOGO#', 'Assets\Powershell_48.png') Write-Verbose "Place Appx Manifest in $SourcePath" $appxManifest | Out-File "$SourcePath\AppxManifest.xml" -Force $assetsInSourcePath = "$SourcePath" + '\Assets' New-Item $assetsInSourcePath -type directory -Force | Out-Null $assetsInSourcePath = Join-Path $SourcePath 'Assets' Write-Verbose "Place AppxManifest dependencies such as images to $assetsInSourcePath" Copy-Item "$AssetsPath\*.png" $assetsInSourcePath -Force $appxPackageName = $PackageName + "_" + $PackageVersion $appxPackagePath = "$pwd\$appxPackageName.appx" Write-Verbose "Calling MakeAppx from $makeappxExePath to create the package @ $appxPackagePath" & $makeappxExePath pack /o /v /d $SourcePath /p $appxPackagePath | Write-Verbose Write-Verbose "Clean-up Appx artifacts and Assets from $SourcePath" Remove-Item $assetsInSourcePath -Recurse -Force -ErrorAction SilentlyContinue Remove-Item "$SourcePath\AppxManifest.xml" -Force -ErrorAction SilentlyContinue return $appxPackagePath } function Start-CrossGen { [CmdletBinding()] param( [Parameter(Mandatory= $true)] [ValidateNotNullOrEmpty()] [String] $PublishPath ) 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 $crossGenSearchPath = if ($IsWindows) { "$PSScriptRoot\Packages\*crossgen.exe" } else { "~/.nuget/packages/*crossgen" } # The crossgen tool is only published for these particular runtimes $crossGenRuntime = if ($IsWindows) { "win7-x64" } elseif ($IsLinux) { if ($IsUbuntu) { "ubuntu.14.04-x64" } elseif ($IsCentOS) { "rhel.7-x64" } } elseif ($IsOSX) { "osx.10.10-x64" } if (-not $crossGenRuntime) { throw "crossgen is not available for this platform" } $crossGenPath = Get-ChildItem $crossGenSearchPath -Recurse | ? { $_.FullName -match $crossGenRuntime } | select -First 1 | % { $_.FullName } if (-not $crossGenPath) { throw "Unable to find latest version of crossgen.exe. 'Please run Start-PSBuild -Clean' first, and then try again." } # 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") $crossGenRequiredAssemblies += if ($IsWindows) { "clrjit.dll" } elseif ($IsLinux) { "libclrjit.so" } elseif ($IsOSX) { "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 PowerShell libraries to crossgen $psCoreAssemblyList = @( "Microsoft.PowerShell.Commands.Utility.dll", "Microsoft.PowerShell.Commands.Management.dll", "Microsoft.PowerShell.Security.dll", "Microsoft.PowerShell.CoreCLR.AssemblyLoadContext.dll", "Microsoft.PowerShell.CoreCLR.Eventing.dll", "Microsoft.PowerShell.ConsoleHost.dll", "Microsoft.PowerShell.PackageManagement.dll", "Microsoft.PowerShell.PSReadLine.dll", "System.Management.Automation.dll" ) # Add Windows specific libraries if ($IsWindows) { $psCoreAssemblyList += @( "Microsoft.WSMan.Management.dll", "Microsoft.WSMan.Runtime.dll", "Microsoft.PowerShell.LocalAccounts.dll", "Microsoft.PowerShell.Commands.Diagnostics.dll", "Microsoft.Management.Infrastructure.CimCmdlets.dll" ) } foreach ($assemblyName in $psCoreAssemblyList) { $assemblyPath = Join-Path $PublishPath $assemblyName Generate-CrossGenAssembly -CrossgenPath $crossGenPath -AssemblyPath $assemblyPath } Write-Verbose "PowerShell Ngen assemblies have been generated, deleting ILs..." -Verbose foreach ($assemblyName in $psCoreAssemblyList) { # Remove the IL assembly and its symbols. $assemblyPath = Join-Path $PublishPath $assemblyName $symbolsPath = $assemblyPath.Replace(".dll", ".pdb") Remove-Item $assemblyPath -Force -ErrorAction SilentlyContinue Remove-Item $symbolsPath -Force -ErrorAction SilentlyContinue } } $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} '@