# Initialize variables if they aren't already defined. # These may be defined as parameters of the importing script, or set after importing this script. # CI mode - set to true on CI server for PR validation build or official build. [bool]$ci = if (Test-Path variable:ci) { $ci } else { $false } # Build configuration. Common values include 'Debug' and 'Release', but the repository may use other names. [string]$configuration = if (Test-Path variable:configuration) { $configuration } else { "Debug" } # Set to true to output binary log from msbuild. Note that emitting binary log slows down the build. # Binary log must be enabled on CI. [bool]$binaryLog = if (Test-Path variable:binaryLog) { $binaryLog } else { $ci } # Set to true to use the pipelines logger which will enable Azure logging output. # https://github.com/Microsoft/azure-pipelines-tasks/blob/master/docs/authoring/commands.md # This flag is meant as a temporary opt-opt for the feature while validate it across # our consumers. It will be deleted in the future. [bool]$pipelinesLog = if (Test-Path variable:pipelinesLog) { $pipelinesLog } else { $ci } # Turns on machine preparation/clean up code that changes the machine state (e.g. kills build processes). [bool]$prepareMachine = if (Test-Path variable:prepareMachine) { $prepareMachine } else { $false } # True to restore toolsets and dependencies. [bool]$restore = if (Test-Path variable:restore) { $restore } else { $true } # Adjusts msbuild verbosity level. [string]$verbosity = if (Test-Path variable:verbosity) { $verbosity } else { "minimal" } # Set to true to reuse msbuild nodes. Recommended to not reuse on CI. [bool]$nodeReuse = if (Test-Path variable:nodeReuse) { $nodeReuse } else { !$ci } # Configures warning treatment in msbuild. [bool]$warnAsError = if (Test-Path variable:warnAsError) { $warnAsError } else { $true } # Specifies which msbuild engine to use for build: 'vs', 'dotnet' or unspecified (determined based on presence of tools.vs in global.json). [string]$msbuildEngine = if (Test-Path variable:msbuildEngine) { $msbuildEngine } else { $null } # True to attempt using .NET Core already that meets requirements specified in global.json # installed on the machine instead of downloading one. [bool]$useInstalledDotNetCli = if (Test-Path variable:useInstalledDotNetCli) { $useInstalledDotNetCli } else { $true } # True to use global NuGet cache instead of restoring packages to repository-local directory. [bool]$useGlobalNuGetCache = if (Test-Path variable:useGlobalNuGetCache) { $useGlobalNuGetCache } else { !$ci } # An array of names of processes to stop on script exit if prepareMachine is true. $processesToStopOnExit = if (Test-Path variable:processesToStopOnExit) { $processesToStopOnExit } else { @("msbuild", "dotnet", "vbcscompiler") } set-strictmode -version 2.0 $ErrorActionPreference = "Stop" [Net.ServicePointManager]::SecurityProtocol = [Net.SecurityProtocolType]::Tls12 function Create-Directory([string[]] $path) { if (!(Test-Path $path)) { New-Item -path $path -force -itemType "Directory" | Out-Null } } function Unzip([string]$zipfile, [string]$outpath) { Add-Type -AssemblyName System.IO.Compression.FileSystem [System.IO.Compression.ZipFile]::ExtractToDirectory($zipfile, $outpath) } # This will exec a process using the console and return it's exit code. # This will not throw when the process fails. # Returns process exit code. function Exec-Process([string]$command, [string]$commandArgs) { $startInfo = New-Object System.Diagnostics.ProcessStartInfo $startInfo.FileName = $command $startInfo.Arguments = $commandArgs $startInfo.UseShellExecute = $false $startInfo.WorkingDirectory = Get-Location $process = New-Object System.Diagnostics.Process $process.StartInfo = $startInfo $process.Start() | Out-Null $finished = $false try { while (-not $process.WaitForExit(100)) { # Non-blocking loop done to allow ctr-c interrupts } $finished = $true return $global:LASTEXITCODE = $process.ExitCode } finally { # If we didn't finish then an error occured or the user hit ctrl-c. Either # way kill the process if (-not $finished) { $process.Kill() } } } function Write-PipelineTaskError { [CmdletBinding()] param( [Parameter(Mandatory = $true)] [string]$Message, [Parameter(Mandatory = $false)] [string]$Type = 'error', [string]$ErrCode, [string]$SourcePath, [string]$LineNumber, [string]$ColumnNumber, [switch]$AsOutput) if(!$ci) { if($Type -eq 'error') { Write-Host $Message -ForegroundColor Red return } elseif ($Type -eq 'warning') { Write-Host $Message -ForegroundColor Yellow return } } if(($Type -ne 'error') -and ($Type -ne 'warning')) { Write-Host $Message return } if(-not $PSBoundParameters.ContainsKey('Type')) { $PSBoundParameters.Add('Type', 'error') } Write-LogIssue @PSBoundParameters } function Write-PipelineSetVariable { [CmdletBinding()] param( [Parameter(Mandatory = $true)] [string]$Name, [string]$Value, [switch]$Secret, [switch]$AsOutput) if($ci) { Write-LoggingCommand -Area 'task' -Event 'setvariable' -Data $Value -Properties @{ 'variable' = $Name 'issecret' = $Secret } -AsOutput:$AsOutput } } function Write-PipelinePrependPath { [CmdletBinding()] param( [Parameter(Mandatory=$true)] [string]$Path, [switch]$AsOutput) if($ci) { Write-LoggingCommand -Area 'task' -Event 'prependpath' -Data $Path -AsOutput:$AsOutput } } function InitializeDotNetCli([bool]$install) { if (Test-Path variable:global:_DotNetInstallDir) { return $global:_DotNetInstallDir } # Don't resolve runtime, shared framework, or SDK from other locations to ensure build determinism $env:DOTNET_MULTILEVEL_LOOKUP=0 # Disable first run since we do not need all ASP.NET packages restored. $env:DOTNET_SKIP_FIRST_TIME_EXPERIENCE=1 # Disable telemetry on CI. if ($ci) { $env:DOTNET_CLI_TELEMETRY_OPTOUT=1 } # Source Build uses DotNetCoreSdkDir variable if ($env:DotNetCoreSdkDir -ne $null) { $env:DOTNET_INSTALL_DIR = $env:DotNetCoreSdkDir } # Find the first path on %PATH% that contains the dotnet.exe if ($useInstalledDotNetCli -and (-not $globalJsonHasRuntimes) -and ($env:DOTNET_INSTALL_DIR -eq $null)) { $dotnetCmd = Get-Command "dotnet.exe" -ErrorAction SilentlyContinue if ($dotnetCmd -ne $null) { $env:DOTNET_INSTALL_DIR = Split-Path $dotnetCmd.Path -Parent } } $dotnetSdkVersion = $GlobalJson.tools.dotnet # Use dotnet installation specified in DOTNET_INSTALL_DIR if it contains the required SDK version, # otherwise install the dotnet CLI and SDK to repo local .dotnet directory to avoid potential permission issues. if ((-not $globalJsonHasRuntimes) -and ($env:DOTNET_INSTALL_DIR -ne $null) -and (Test-Path(Join-Path $env:DOTNET_INSTALL_DIR "sdk\$dotnetSdkVersion"))) { $dotnetRoot = $env:DOTNET_INSTALL_DIR } else { $dotnetRoot = Join-Path $RepoRoot ".dotnet" if (-not (Test-Path(Join-Path $dotnetRoot "sdk\$dotnetSdkVersion"))) { if ($install) { InstallDotNetSdk $dotnetRoot $dotnetSdkVersion } else { Write-PipelineTaskError "Unable to find dotnet with SDK version '$dotnetSdkVersion'" ExitWithExitCode 1 } } $env:DOTNET_INSTALL_DIR = $dotnetRoot } # Add dotnet to PATH. This prevents any bare invocation of dotnet in custom # build steps from using anything other than what we've downloaded. # It also ensures that VS msbuild will use the downloaded sdk targets. $env:PATH = "$dotnetRoot;$env:PATH" # Make Sure that our bootstrapped dotnet cli is avaliable in future steps of the Azure Pipelines build Write-PipelinePrependPath -Path $dotnetRoot Write-PipelineSetVariable -Name 'DOTNET_MULTILEVEL_LOOKUP' -Value '0' Write-PipelineSetVariable -Name 'DOTNET_SKIP_FIRST_TIME_EXPERIENCE' -Value '1' return $global:_DotNetInstallDir = $dotnetRoot } function GetDotNetInstallScript([string] $dotnetRoot) { $installScript = Join-Path $dotnetRoot "dotnet-install.ps1" if (!(Test-Path $installScript)) { Create-Directory $dotnetRoot Invoke-WebRequest "https://dot.net/v1/dotnet-install.ps1" -OutFile $installScript } return $installScript } function InstallDotNetSdk([string] $dotnetRoot, [string] $version, [string] $architecture = "") { InstallDotNet $dotnetRoot $version $architecture } function InstallDotNet([string] $dotnetRoot, [string] $version, [string] $architecture = "", [string] $runtime = "", [bool] $skipNonVersionedFiles = $false) { $installScript = GetDotNetInstallScript $dotnetRoot $installScript = GetDotNetInstallScript $dotnetRoot $installParameters = @{ Version = $version InstallDir = $dotnetRoot } if ($architecture) { $installParameters.Architecture = $architecture } if ($runtime) { $installParameters.Runtime = $runtime } if ($skipNonVersionedFiles) { $installParameters.SkipNonVersionedFiles = $skipNonVersionedFiles } & $installScript @installParameters if ($lastExitCode -ne 0) { Write-PipelineTaskError -Message "Failed to install dotnet cli (exit code '$lastExitCode')." ExitWithExitCode $lastExitCode } } # # Locates Visual Studio MSBuild installation. # The preference order for MSBuild to use is as follows: # # 1. MSBuild from an active VS command prompt # 2. MSBuild from a compatible VS installation # 3. MSBuild from the xcopy tool package # # Returns full path to msbuild.exe. # Throws on failure. # function InitializeVisualStudioMSBuild([bool]$install, [object]$vsRequirements = $null) { if (Test-Path variable:global:_MSBuildExe) { return $global:_MSBuildExe } if (!$vsRequirements) { $vsRequirements = $GlobalJson.tools.vs } $vsMinVersionStr = if ($vsRequirements.version) { $vsRequirements.version } else { "15.9" } $vsMinVersion = [Version]::new($vsMinVersionStr) # Try msbuild command available in the environment. if ($env:VSINSTALLDIR -ne $null) { $msbuildCmd = Get-Command "msbuild.exe" -ErrorAction SilentlyContinue if ($msbuildCmd -ne $null) { # Workaround for https://github.com/dotnet/roslyn/issues/35793 # Due to this issue $msbuildCmd.Version returns 0.0.0.0 for msbuild.exe 16.2+ $msbuildVersion = [Version]::new((Get-Item $msbuildCmd.Path).VersionInfo.ProductVersion.Split(@('-', '+'))[0]) if ($msbuildVersion -ge $vsMinVersion) { return $global:_MSBuildExe = $msbuildCmd.Path } # Report error - the developer environment is initialized with incompatible VS version. throw "Developer Command Prompt for VS $($env:VisualStudioVersion) is not recent enough. Please upgrade to $vsMinVersionStr or build from a plain CMD window" } } # Locate Visual Studio installation or download x-copy msbuild. $vsInfo = LocateVisualStudio $vsRequirements if ($vsInfo -ne $null) { $vsInstallDir = $vsInfo.installationPath $vsMajorVersion = $vsInfo.installationVersion.Split('.')[0] InitializeVisualStudioEnvironmentVariables $vsInstallDir $vsMajorVersion } else { if (Get-Member -InputObject $GlobalJson.tools -Name "xcopy-msbuild") { $xcopyMSBuildVersion = $GlobalJson.tools.'xcopy-msbuild' $vsMajorVersion = $xcopyMSBuildVersion.Split('.')[0] } else { $vsMajorVersion = $vsMinVersion.Major $xcopyMSBuildVersion = "$vsMajorVersion.$($vsMinVersion.Minor).0-alpha" } $vsInstallDir = InitializeXCopyMSBuild $xcopyMSBuildVersion $install if ($vsInstallDir -eq $null) { throw "Unable to find Visual Studio that has required version and components installed" } } $msbuildVersionDir = if ([int]$vsMajorVersion -lt 16) { "$vsMajorVersion.0" } else { "Current" } return $global:_MSBuildExe = Join-Path $vsInstallDir "MSBuild\$msbuildVersionDir\Bin\msbuild.exe" } function InitializeVisualStudioEnvironmentVariables([string] $vsInstallDir, [string] $vsMajorVersion) { $env:VSINSTALLDIR = $vsInstallDir Set-Item "env:VS$($vsMajorVersion)0COMNTOOLS" (Join-Path $vsInstallDir "Common7\Tools\") $vsSdkInstallDir = Join-Path $vsInstallDir "VSSDK\" if (Test-Path $vsSdkInstallDir) { Set-Item "env:VSSDK$($vsMajorVersion)0Install" $vsSdkInstallDir $env:VSSDKInstall = $vsSdkInstallDir } } function InstallXCopyMSBuild([string]$packageVersion) { return InitializeXCopyMSBuild $packageVersion -install $true } function InitializeXCopyMSBuild([string]$packageVersion, [bool]$install) { $packageName = "RoslynTools.MSBuild" $packageDir = Join-Path $ToolsDir "msbuild\$packageVersion" $packagePath = Join-Path $packageDir "$packageName.$packageVersion.nupkg" if (!(Test-Path $packageDir)) { if (!$install) { return $null } Create-Directory $packageDir Write-Host "Downloading $packageName $packageVersion" Invoke-WebRequest "https://dotnet.myget.org/F/roslyn-tools/api/v2/package/$packageName/$packageVersion/" -OutFile $packagePath Unzip $packagePath $packageDir } return Join-Path $packageDir "tools" } # # Locates Visual Studio instance that meets the minimal requirements specified by tools.vs object in global.json. # # The following properties of tools.vs are recognized: # "version": "{major}.{minor}" # Two part minimal VS version, e.g. "15.9", "16.0", etc. # "components": ["componentId1", "componentId2", ...] # Array of ids of workload components that must be available in the VS instance. # See e.g. https://docs.microsoft.com/en-us/visualstudio/install/workload-component-id-vs-enterprise?view=vs-2017 # # Returns JSON describing the located VS instance (same format as returned by vswhere), # or $null if no instance meeting the requirements is found on the machine. # function LocateVisualStudio([object]$vsRequirements = $null){ if (Get-Member -InputObject $GlobalJson.tools -Name "vswhere") { $vswhereVersion = $GlobalJson.tools.vswhere } else { $vswhereVersion = "2.5.2" } $vsWhereDir = Join-Path $ToolsDir "vswhere\$vswhereVersion" $vsWhereExe = Join-Path $vsWhereDir "vswhere.exe" if (!(Test-Path $vsWhereExe)) { Create-Directory $vsWhereDir Write-Host "Downloading vswhere" Invoke-WebRequest "https://github.com/Microsoft/vswhere/releases/download/$vswhereVersion/vswhere.exe" -OutFile $vswhereExe } if (!$vsRequirements) { $vsRequirements = $GlobalJson.tools.vs } $args = @("-latest", "-prerelease", "-format", "json", "-requires", "Microsoft.Component.MSBuild") if (Get-Member -InputObject $vsRequirements -Name "version") { $args += "-version" $args += $vsRequirements.version } if (Get-Member -InputObject $vsRequirements -Name "components") { foreach ($component in $vsRequirements.components) { $args += "-requires" $args += $component } } $vsInfo =& $vsWhereExe $args | ConvertFrom-Json if ($lastExitCode -ne 0) { return $null } # use first matching instance return $vsInfo[0] } function InitializeBuildTool() { if (Test-Path variable:global:_BuildTool) { return $global:_BuildTool } if (-not $msbuildEngine) { $msbuildEngine = GetDefaultMSBuildEngine } # Initialize dotnet cli if listed in 'tools' $dotnetRoot = $null if (Get-Member -InputObject $GlobalJson.tools -Name "dotnet") { $dotnetRoot = InitializeDotNetCli -install:$restore } if ($msbuildEngine -eq "dotnet") { if (!$dotnetRoot) { Write-PipelineTaskError "/global.json must specify 'tools.dotnet'." ExitWithExitCode 1 } $buildTool = @{ Path = Join-Path $dotnetRoot "dotnet.exe"; Command = "msbuild"; Tool = "dotnet"; Framework = "netcoreapp2.1" } } elseif ($msbuildEngine -eq "vs") { try { $msbuildPath = InitializeVisualStudioMSBuild -install:$restore } catch { Write-PipelineTaskError $_ ExitWithExitCode 1 } $buildTool = @{ Path = $msbuildPath; Command = ""; Tool = "vs"; Framework = "net472" } } else { Write-PipelineTaskError "Unexpected value of -msbuildEngine: '$msbuildEngine'." ExitWithExitCode 1 } return $global:_BuildTool = $buildTool } function GetDefaultMSBuildEngine() { # Presence of tools.vs indicates the repo needs to build using VS msbuild on Windows. if (Get-Member -InputObject $GlobalJson.tools -Name "vs") { return "vs" } if (Get-Member -InputObject $GlobalJson.tools -Name "dotnet") { return "dotnet" } Write-PipelineTaskError "-msbuildEngine must be specified, or /global.json must specify 'tools.dotnet' or 'tools.vs'." ExitWithExitCode 1 } function GetNuGetPackageCachePath() { if ($env:NUGET_PACKAGES -eq $null) { # Use local cache on CI to ensure deterministic build, # use global cache in dev builds to avoid cost of downloading packages. if ($useGlobalNuGetCache) { $env:NUGET_PACKAGES = Join-Path $env:UserProfile ".nuget\packages" } else { $env:NUGET_PACKAGES = Join-Path $RepoRoot ".packages" } } return $env:NUGET_PACKAGES } # Returns a full path to an Arcade SDK task project file. function GetSdkTaskProject([string]$taskName) { return Join-Path (Split-Path (InitializeToolset) -Parent) "SdkTasks\$taskName.proj" } function InitializeNativeTools() { if (Get-Member -InputObject $GlobalJson -Name "native-tools") { $nativeArgs= @{} if ($ci) { $nativeArgs = @{ InstallDirectory = "$ToolsDir" } } & "$PSScriptRoot/init-tools-native.ps1" @nativeArgs } } function InitializeToolset() { if (Test-Path variable:global:_ToolsetBuildProj) { return $global:_ToolsetBuildProj } $nugetCache = GetNuGetPackageCachePath $toolsetVersion = $GlobalJson.'msbuild-sdks'.'Microsoft.DotNet.Arcade.Sdk' $toolsetLocationFile = Join-Path $ToolsetDir "$toolsetVersion.txt" if (Test-Path $toolsetLocationFile) { $path = Get-Content $toolsetLocationFile -TotalCount 1 if (Test-Path $path) { return $global:_ToolsetBuildProj = $path } } if (-not $restore) { Write-PipelineTaskError "Toolset version $toolsetVersion has not been restored." ExitWithExitCode 1 } $buildTool = InitializeBuildTool $proj = Join-Path $ToolsetDir "restore.proj" $bl = if ($binaryLog) { "/bl:" + (Join-Path $LogDir "ToolsetRestore.binlog") } else { "" } '' | Set-Content $proj MSBuild-Core $proj $bl /t:__WriteToolsetLocation /clp:ErrorsOnly`;NoSummary /p:__ToolsetLocationOutputFile=$toolsetLocationFile $path = Get-Content $toolsetLocationFile -TotalCount 1 if (!(Test-Path $path)) { throw "Invalid toolset path: $path" } return $global:_ToolsetBuildProj = $path } function ExitWithExitCode([int] $exitCode) { if ($ci -and $prepareMachine) { Stop-Processes } exit $exitCode } function Stop-Processes() { Write-Host "Killing running build processes..." foreach ($processName in $processesToStopOnExit) { Get-Process -Name $processName -ErrorAction SilentlyContinue | Stop-Process } } # # Executes msbuild (or 'dotnet msbuild') with arguments passed to the function. # The arguments are automatically quoted. # Terminates the script if the build fails. # function MSBuild() { if ($pipelinesLog) { $buildTool = InitializeBuildTool $toolsetBuildProject = InitializeToolset $path = Split-Path -parent $toolsetBuildProject $path = Join-Path $path (Join-Path $buildTool.Framework "Microsoft.DotNet.Arcade.Sdk.dll") $args += "/logger:$path" } MSBuild-Core @args } # # Executes msbuild (or 'dotnet msbuild') with arguments passed to the function. # The arguments are automatically quoted. # Terminates the script if the build fails. # function MSBuild-Core() { if ($ci) { if (!$binaryLog) { throw "Binary log must be enabled in CI build." } if ($nodeReuse) { throw "Node reuse must be disabled in CI build." } } $buildTool = InitializeBuildTool $cmdArgs = "$($buildTool.Command) /m /nologo /clp:Summary /v:$verbosity /nr:$nodeReuse /p:ContinuousIntegrationBuild=$ci" if ($warnAsError) { $cmdArgs += " /warnaserror /p:TreatWarningsAsErrors=true" } foreach ($arg in $args) { if ($arg -ne $null -and $arg.Trim() -ne "") { $cmdArgs += " `"$arg`"" } } $exitCode = Exec-Process $buildTool.Path $cmdArgs if ($exitCode -ne 0) { Write-PipelineTaskError "Build failed." $buildLog = GetMSBuildBinaryLogCommandLineArgument $args if ($buildLog -ne $null) { Write-Host "See log: $buildLog" -ForegroundColor DarkGray } ExitWithExitCode $exitCode } } function GetMSBuildBinaryLogCommandLineArgument($arguments) { foreach ($argument in $arguments) { if ($argument -ne $null) { $arg = $argument.Trim() if ($arg.StartsWith("/bl:", "OrdinalIgnoreCase")) { return $arg.Substring("/bl:".Length) } if ($arg.StartsWith("/binaryLogger:", "OrdinalIgnoreCase")) { return $arg.Substring("/binaryLogger:".Length) } } } return $null } . $PSScriptRoot\LoggingCommandFunctions.ps1 $RepoRoot = Resolve-Path (Join-Path $PSScriptRoot "..\..") $EngRoot = Resolve-Path (Join-Path $PSScriptRoot "..") $ArtifactsDir = Join-Path $RepoRoot "artifacts" $ToolsetDir = Join-Path $ArtifactsDir "toolset" $ToolsDir = Join-Path $RepoRoot ".tools" $LogDir = Join-Path (Join-Path $ArtifactsDir "log") $configuration $TempDir = Join-Path (Join-Path $ArtifactsDir "tmp") $configuration $GlobalJson = Get-Content -Raw -Path (Join-Path $RepoRoot "global.json") | ConvertFrom-Json # true if global.json contains a "runtimes" section $globalJsonHasRuntimes = if ($GlobalJson.tools.PSObject.Properties.Name -Match 'runtimes') { $true } else { $false } Create-Directory $ToolsetDir Create-Directory $TempDir Create-Directory $LogDir Write-PipelineSetVariable -Name 'Artifacts' -Value $ArtifactsDir Write-PipelineSetVariable -Name 'Artifacts.Toolset' -Value $ToolsetDir Write-PipelineSetVariable -Name 'Artifacts.Log' -Value $LogDir Write-PipelineSetVariable -Name 'TEMP' -Value $TempDir Write-PipelineSetVariable -Name 'TMP' -Value $TempDir