PowerShell7/build.psm1
2016-05-24 15:02:24 -07:00

1016 lines
32 KiB
PowerShell

# 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]
$IsCore = $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 {
$IsCore = $false
$IsLinux = $false
$IsOSX = $false
$IsWindows = $true
}
catch { }
}
function Start-PSBuild {
[CmdletBinding(DefaultParameterSetName='CoreCLR')]
param(
[switch]$NoPath,
[switch]$Restore,
[string]$Output,
[Parameter(ParameterSetName='CoreCLR')]
[switch]$Publish,
# These runtimes must match those in project.json
# We do not use ValidateScript since we want tab completion
[ValidateSet("ubuntu.14.04-x64",
"centos.7.1-x64",
"win7-x64",
"win81-x64",
"win10-x64",
"osx.10.11-x64")]
[Parameter(ParameterSetName='CoreCLR')]
[string]$Runtime,
[Parameter(ParameterSetName='FullCLR')]
[switch]$FullCLR,
[Parameter(ParameterSetName='FullCLR')]
[string]$cmakeGenerator = "Visual Studio 14 2015",
[Parameter(ParameterSetName='FullCLR')]
[ValidateSet("Debug",
"Release")]
[string]$msbuildConfiguration = "Release"
)
git describe --dirty --abbrev=60 > "$psscriptroot/powershell.version"
# simplify ParameterSetNames
if ($PSCmdlet.ParameterSetName -eq 'FullCLR') {
$FullCLR = $true
}
if (-not $NoPath) {
Write-Verbose "Appending probable .NET CLI tool path"
if ($IsWindows) {
$env:Path += ";$env:LocalAppData\Microsoft\dotnet"
} elseif ($IsOSX) {
$env:PATH += ":/usr/local/share/dotnet"
}
}
if ($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"
}
# verify we have all tools in place to do the build
$precheck = precheck 'dotnet' "Build dependency 'dotnet' not found in PATH! See: https://dotnet.github.io/getting-started/"
if ($FullCLR) {
# cmake is needed to build powershell.exe
$precheck = $precheck -and (precheck 'cmake' 'cmake not found. You can install it from https://chocolatey.org/packages/cmake.portable')
# msbuild is needed to build powershell.exe
# msbuild is part of .NET Framework, we can try to get it from well-known location.
if (-not $NoPath -and -not (Get-Command -Name msbuild -ErrorAction Ignore)) {
Write-Verbose "Appending probable Visual C++ tools path"
$env:path += ";${env:SystemRoot}\Microsoft.Net\Framework\v4.0.30319"
}
$precheck = $precheck -and (precheck 'msbuild' 'msbuild not found. Install Visual Studio 2015.')
} elseif ($IsLinux -or $IsOSX) {
$InstallCommand = if ($IsLinux) {
'apt-get'
} elseif ($IsOSX) {
'brew'
}
foreach ($Dependency in 'cmake', 'make', 'g++') {
$precheck = $precheck -and (precheck $Dependency "Build dependency '$Dependency' not found. Run '$InstallCommand install $Dependency'")
}
}
# Abort if any precheck failed
if (-not $precheck) {
return
}
# set output options
$OptionsArguments = @{Publish=$Publish; Output=$Output; FullCLR=$FullCLR; Runtime=$Runtime}
$script:Options = New-PSOptions @OptionsArguments
# setup arguments
$Arguments = @()
if ($Publish) {
$Arguments += "publish"
} else {
$Arguments += "build"
}
if ($Output) {
$Arguments += "--output", (Join-Path $PSScriptRoot $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 $RestoreArguments }
}
# Build native components
if ($IsLinux -or $IsOSX) {
$Ext = if ($IsLinux) {
"so"
} elseif ($IsOSX) {
"dylib"
}
$Native = "$PSScriptRoot/src/libpsl-native"
$Lib = "$($Options.Top)/libpsl-native.$Ext"
log "Start building $Lib"
try {
Push-Location $Native
cmake -DCMAKE_BUILD_TYPE=Debug .
make -j
make test
} finally {
Pop-Location
}
if (-not (Test-Path $Lib)) {
throw "Compilation of $Lib failed"
}
} elseif ($FullCLR) {
log "Start building native powershell.exe"
try {
Push-Location "$PSScriptRoot\src\powershell-native"
if ($cmakeGenerator) {
cmake -G $cmakeGenerator .
} else {
cmake .
}
Start-NativeExecution { msbuild powershell.vcxproj /p:Configuration=$msbuildConfiguration }
} finally {
Pop-Location
}
}
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 }
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",
"centos.7.1-x64",
"win7-x64",
"win81-x64",
"win10-x64",
"osx.10.11-x64")]
[string]$Runtime,
[switch]$Publish,
[string]$Output,
[switch]$FullCLR
)
if ($FullCLR) {
$Top = "$PSScriptRoot/src/Microsoft.PowerShell.ConsoleHost"
} else {
$Top = "$PSScriptRoot/src/powershell"
}
Write-Verbose "Top project directory is $Top"
if (-not $Configuration) {
$Configuration = if ($IsLinux -or $IsOSX) {
"Linux"
} elseif ($IsWindows) {
"Debug"
}
log "Using configuration '$Configuration'"
}
if (-not $Framework) {
$Framework = if ($FullCLR) {
"net451"
} else {
"netcoreapp1.0"
}
log "Using framework '$Framework'"
}
if (-not $Runtime) {
$Runtime = dotnet --info | % {
if ($_ -match "RID") {
$_ -split "\s+" | Select-Object -Last 1
}
}
if (-not $Runtime) {
Throw "Could not determine Runtime Identifier, please update dotnet"
} else {
log "Using runtime '$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)
# FullCLR only builds a library, so there is no runtime component
if (-not $FullCLR) {
$Output = [IO.Path]::Combine($Output, $Runtime)
}
# Publish injects the publish directory
if ($Publish) {
$Output = [IO.Path]::Combine($Output, "publish")
}
$Output = [IO.Path]::Combine($Output, $Executable)
}
return @{ Top = $Top;
Configuration = $Configuration;
Framework = $Framework;
Runtime = $Runtime;
Output = $Output }
}
function Get-PSOutput {
[CmdletBinding()]param(
[hashtable]$Options
)
if ($Options) {
return $Options.Output
} elseif ($script:Options) {
return $script:Options.Output
} else {
return (New-PSOptions).Output
}
}
function Start-PSPester {
[CmdletBinding()]param(
[string]$Flags = "-ExcludeTag 'Slow' -EnableExit -OutputFile pester-tests.xml -OutputFormat NUnitXml",
[string]$Tests = "*",
[ValidateScript({ Test-Path -PathType Container $_})]
[string]$Directory = "$PSScriptRoot/test/powershell"
)
& (Get-PSOutput) -noprofile -c "Invoke-Pester $Flags $Directory/$Tests"
if ($LASTEXITCODE -ne 0) {
throw "$LASTEXITCODE Pester tests failed"
}
}
function Start-PSxUnit {
[CmdletBinding()]param()
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
}
$Content = Split-Path -Parent (Get-PSOutput)
$Arguments = "--configuration", "Linux", "-verbose", "-parallel", "none"
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-Host "Output is $Output"
Start-NativeExecution { dotnet build $Arguments }
Copy-Item -ErrorAction SilentlyContinue -Recurse -Path $Content/* -Include Modules,libpsl-native* -Destination $Output
Start-NativeExecution { dotnet test $Arguments }
if ($LASTEXITCODE -ne 0) {
throw "$LASTEXITCODE xUnit tests failed"
}
} finally {
Pop-Location
}
}
function Start-PSBootstrap {
[CmdletBinding()]param()
Write-Host "Installing Open PowerShell build dependencies"
if ($IsLinux) {
precheck 'curl' "Bootstrap dependency 'curl' not found in PATH, please install!" > $null
precheck 'apt-get' "Bootstrap dependency 'apt-get' not found in PATH, this only supports Ubuntu 14.04!" > $null
# Setup LLVM feed
curl -s http://llvm.org/apt/llvm-snapshot.gpg.key | sudo apt-key add -
echo "deb http://llvm.org/apt/trusty/ llvm-toolchain-trusty-3.6 main" | sudo tee /etc/apt/sources.list.d/llvm.list
sudo apt-get update -qq
# Install ours and .NET's dependencies
sudo apt-get install -y make g++ cmake libc6 libgcc1 libstdc++6 libcurl3 libgssapi-krb5-2 libicu52 liblldb-3.6 liblttng-ust0 libssl1.0.0 libunwind8 libuuid1 zlib1g clang-3.5
# Install .NET CLI packages
Remove-Item dotnet*.deb
wget https://dotnetcli.blob.core.windows.net/dotnet/beta/Installers/Latest/dotnet-host-ubuntu-x64.latest.deb
sudo dpkg -i dotnet-host-ubuntu-x64.latest.deb
wget https://dotnetcli.blob.core.windows.net/dotnet/beta/Installers/Latest/dotnet-sharedframework-ubuntu-x64.latest.deb
sudo dpkg -i dotnet-sharedframework-ubuntu-x64.latest.deb
wget https://dotnetcli.blob.core.windows.net/dotnet/beta/Installers/Latest/dotnet-sdk-ubuntu-x64.latest.deb
sudo dpkg -i dotnet-sdk-ubuntu-x64.latest.deb
} elseif ($IsOSX) {
precheck 'brew' "Bootstrap dependency 'brew' not found, must install Homebrew! See http://brew.sh/"
# Install ours and .NET's dependencies
brew install cmake wget openssl
# Install .NET CLI packages
Remove-Item dotnet*.pkg
wget https://dotnetcli.blob.core.windows.net/dotnet/beta/Installers/Latest/dotnet-dev-osx-x64.latest.pkg
sudo installer -pkg dotnet-dev-osx-x64.latest.pkg -target /
} elseif ($IsWindows -And -Not $IsCore) {
Remove-Item -ErrorAction SilentlyContinue -Recurse -Force ~\AppData\Local\Microsoft\dotnet
Invoke-WebRequest -Uri https://raw.githubusercontent.com/dotnet/cli/rel/1.0.0/scripts/obtain/dotnet-install.ps1 -OutFile dotnet-install.ps1
./dotnet-install.ps1
} else {
Write-Warning "Start-PSBootstrap cannot be run in Core PowerShell on Windows (need Invoke-WebRequest!)"
}
}
function Start-PSPackage {
[CmdletBinding()]param(
# PowerShell packages use Semantic Versioning http://semver.org/
[string]$Version,
# Package iteration version (rarely changed)
[int]$Iteration = 1,
# Ubuntu, CentOS, and OS X packages are supported
[ValidateSet("deb", "osxpkg", "rpm")]
[string]$Type
)
$Description = @"
Open PowerShell on .NET Core
PowerShell is an open-source, cross-platform, scripting language and rich object shell.
Built upon .NET Core, it is also a C# REPL.
"@
# Use Git tag if not given a version
if (-not $Version) {
$Version = (git --git-dir="$PSScriptRoot/.git" describe) -Replace '^v'
}
$Source = Split-Path -Parent (Get-PSOutput -Options (New-PSOptions -Publish))
Write-Verbose "Packaging $Source"
if ($IsWindows) {
return Create-MSIPackage -ProductSourcePath $Source -ProductVersion $Version -Verbose
}
if (-not (Get-Command "fpm" -ErrorAction SilentlyContinue)) {
throw "Build dependency 'fpm' not found in PATH! See: https://github.com/jordansissel/fpm"
}
# Decide package output type
if (-not $Type) {
$Type = if ($IsLinux) { "deb" } elseif ($IsOSX) { "osxpkg" }
Write-Warning "-Type was not specified, continuing with $Type"
}
# Follow the Filesystem Hierarchy Standard for Linux and OS X
$Destination = if ($IsLinux) {
"/opt/microsoft/powershell"
} elseif ($IsOSX) {
"/usr/local/microsoft/powershell"
}
# Destination for symlink to powershell executable
$Link = if ($IsLinux) {
"/usr/bin"
} elseif ($IsOSX) {
"/usr/local/bin"
}
New-Item -Force -ItemType SymbolicLink -Path /tmp/powershell -Target $Destination/powershell >$null
# there is a weired 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/powershell"
$hack_dest = "./_fpm_symlink_hack_powershell"
if ($IsOSX)
{
if (Test-Path $symlink_dest)
{
Write-Warning "Move $symlink_dest to $hack_dest (fpm utime bug)"
Move-Item $symlink_dest $hack_dest
}
}
# Change permissions for packaging
chmod -R go=u $Source /tmp/powershell
$libunwind = switch ($Type) {
"deb" { "libunwind8" }
"rpm" { "libunwind" }
}
$libicu = switch ($Type) {
"deb" { "libicu52" }
"rpm" { "libicu" }
}
$Arguments = @(
"--force", "--verbose",
"--name", "powershell",
"--version", $Version,
"--iteration", $Iteration,
"--maintainer", "Andrew Schwartzmeyer <andschwa@microsoft.com>",
"--vendor", "Microsoft <mageng@microsoft.com>",
"--url", "https://github.com/PowerShell/PowerShell",
"--license", "Unlicensed",
"--description", $Description,
"--category", "shells",
"--rpm-os", "linux",
"--depends", $libunwind,
"--depends", $libicu,
"--deb-build-depends", "dotnet",
"--deb-build-depends", "cmake",
"--deb-build-depends", "g++",
"-t", $Type,
"-s", "dir",
"$Source/=$Destination/",
"/tmp/powershell=$Link"
)
# Build package
fpm $Arguments
if ($IsOSX)
{
# this is continuation of a fpm hack for a weired bug
if (Test-Path $hack_dest)
{
Write-Warning "Move $hack_dest to $symlink_dest (fpm utime bug)"
Move-Item $hack_dest $symlink_dest
}
}
}
function Publish-NuGetFeed
{
param(
[string]$OutputPath = "$PSScriptRoot/nuget-artifacts",
[Parameter(Mandatory=$true)]
[string]$VersionSuffix
)
@(
'Microsoft.PowerShell.Commands.Management',
'Microsoft.PowerShell.Commands.Utility',
'Microsoft.PowerShell.ConsoleHost',
'Microsoft.PowerShell.PSReadLine',
'Microsoft.PowerShell.Security',
'System.Management.Automation'
) | % {
if ($VersionSuffix)
{
dotnet pack "src/$_" --output $OutputPath --version-suffix $VersionSuffix
}
else
{
dotnet pack "src/$_" --output $OutputPath
}
}
}
function Start-DevPSGitHub {
param(
[switch]$ZapDisable,
[string[]]$ArgumentList = '',
[switch]$LoadProfile,
[string]$binDir = "$PSScriptRoot\src\Microsoft.PowerShell.ConsoleHost\bin\Debug\net451",
[switch]$NoNewWindow
)
try {
if ($LoadProfile -eq $false) {
$ArgumentList = @('-noprofile') + $ArgumentList
}
$env:DEVPATH = $binDir
if ($ZapDisable) {
$env:COMPLUS_ZapDisable = 1
}
if (-not (Test-Path $binDir\powershell.exe.config)) {
$configContents = @"
<?xml version="1.0" encoding="utf-8" ?>
<configuration>
<runtime>
<developmentMode developerInstallation="true"/>
</runtime>
</configuration>
"@
$configContents | Out-File -Encoding Ascii $binDir\powershell.exe.config
}
# splatting for the win
$startProcessArgs = @{
FilePath = "$binDir\powershell.exe"
ArgumentList = "$ArgumentList"
}
if ($NoNewWindow) {
$startProcessArgs.NoNewWindow = $true
$startProcessArgs.Wait = $true
}
Start-Process @startProcessArgs
} finally {
ri env:DEVPATH
if ($ZapDisable) {
ri env:COMPLUS_ZapDisable
}
}
}
<#
.EXAMPLE Copy-SubmoduleFiles # copy files FROM submodule TO src/<project> folders
.EXAMPLE Copy-SubmoduleFiles -ToSubmodule # copy files FROM src/<project> folders TO submodule
#>
function Copy-SubmoduleFiles {
[CmdletBinding()]
param(
[string]$mappingFilePath = "$PSScriptRoot/mapping.json",
[switch]$ToSubmodule
)
if (-not (Test-Path $mappingFilePath)) {
throw "Mapping file not found in $mappingFilePath"
}
$m = cat -Raw $mappingFilePath | ConvertFrom-Json | Convert-PSObjectToHashtable
# mapping.json assumes the root folder
Push-Location $PSScriptRoot
try {
$m.GetEnumerator() | % {
if ($ToSubmodule) {
cp $_.Value $_.Key -Verbose:$Verbose
} else {
mkdir (Split-Path $_.Value) -ErrorAction SilentlyContinue > $null
cp $_.Key $_.Value -Verbose:$Verbose
}
}
} finally {
Pop-Location
}
}
<#
.EXAMPLE Create-MappingFile # create mapping.json in the root folder from project.json files
#>
function New-MappingFile {
param(
[string]$mappingFilePath = "$PSScriptRoot/mapping.json",
[switch]$IgnoreCompileFiles,
[switch]$Ignoreresource
)
function Get-MappingPath([string]$project, [string]$path) {
if ($project -match 'TypeCatalogGen') {
return Split-Path $path -Leaf
}
if ($project -match 'Microsoft.Management.Infrastructure') {
return Split-Path $path -Leaf
}
return ($path -replace '../monad/monad/src/', '')
}
$mapping = [ordered]@{}
# assumes the root folder
Push-Location $PSScriptRoot
try {
$projects = ls .\src\ -Recurse -Depth 2 -Filter 'project.json'
$projects | % {
$project = Split-Path $_.FullName
$json = cat -Raw -Path $_.FullName | ConvertFrom-Json
if (-not $IgnoreCompileFiles) {
$json.compileFiles | % {
if ($_) {
if (-not $_.EndsWith('AssemblyInfo.cs')) {
$fullPath = Join-Path $project (Get-MappingPath -project $project -path $_)
$mapping[$_.Replace('../', 'src/')] = ($fullPath.Replace("$($pwd.Path)\",'')).Replace('\', '/')
}
}
}
}
if ((-not $Ignoreresource) -and ($json.resource)) {
$json.resource | % {
if ($_) {
ls $_.Replace('../', 'src/') | % {
$fullPath = Join-Path $project (Join-Path 'resources' $_.Name)
$mapping[$_.FullName.Replace("$($pwd.Path)\", '').Replace('\', '/')] = ($fullPath.Replace("$($pwd.Path)\",'')).Replace('\', '/')
}
}
}
}
}
} finally {
Pop-Location
}
Set-Content -Value ($mapping | ConvertTo-Json) -Path $mappingFilePath -Encoding Ascii
}
<#
.EXAMPLE Send-GitDiffToSd -diffArg1 45555786714d656bd31cbce67dbccb89c433b9cb -diffArg2 45555786714d656bd31cbce67dbccb89c433b9cb~1 -pathToAdmin d:\e\ps_dev\admin
Apply a signle commit to admin folder
#>
function Send-GitDiffToSd {
param(
[Parameter(Mandatory)]
[string]$diffArg1,
[Parameter(Mandatory)]
[string]$diffArg2,
[Parameter(Mandatory)]
[string]$pathToAdmin,
[string]$mappingFilePath = "$PSScriptRoot/mapping.json",
[switch]$WhatIf
)
$patchPath = Join-Path (get-command git).Source ..\..\bin\patch
$m = cat -Raw $mappingFilePath | ConvertFrom-Json | Convert-PSObjectToHashtable
$affectedFiles = git diff --name-only $diffArg1 $diffArg2
$rev = Get-InvertedOrderedMap $m
foreach ($file in $affectedFiles) {
if ($rev.Contains) {
$sdFilePath = Join-Path $pathToAdmin $rev[$file].Substring('src/monad/'.Length)
$diff = git diff $diffArg1 $diffArg2 -- $file
if ($diff) {
Write-Host -Foreground Green "Apply patch to $sdFilePath"
Set-Content -Value $diff -Path $env:TEMP\diff -Encoding Ascii
if ($WhatIf) {
Write-Host -Foreground Green "Patch content"
cat $env:TEMP\diff
} else {
& $patchPath --binary -p1 $sdFilePath $env:TEMP\diff
}
} else {
Write-Host -Foreground Green "No changes in $file"
}
} else {
Write-Host -Foreground Green "Ignore changes in $file, because there is no mapping for it"
}
}
}
function Start-ResGen
{
@("Microsoft.PowerShell.Commands.Management",
"Microsoft.PowerShell.Commands.Utility",
"Microsoft.PowerShell.ConsoleHost",
"Microsoft.PowerShell.CoreCLR.Eventing",
"Microsoft.PowerShell.Security",
"System.Management.Automation") | % {
$module = $_
ls "$PSScriptRoot/src/$module/resources" | % {
$className = $_.Name.Replace('.resx', '')
$xml = [xml](cat -raw $_.FullName)
$genSource = Get-StronglyTypeCsFileForResx -xml $xml -ModuleName $module -ClassName $className
$outPath = "$PSScriptRoot/src/windows-build/gen/$module/$className.cs"
log "ResGen for $outPath"
mkdir -ErrorAction SilentlyContinue (Split-Path $outPath) > $null
Set-Content -Encoding Ascii -Path $outPath -Value $genSource
}
}
}
function script:log([string]$message) {
Write-Host -Foreground Green $message
}
function script:precheck([string]$command, [string]$missedMessage) {
$c = Get-Command $command -ErrorAction SilentlyContinue
if (-not $c) {
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 invokation, $LASTEXITCODE will
# point to the obsolete value
if ($LASTEXITCODE -ne 0)
{
throw "Execution of {$sb} failed with exit code $LASTEXITCODE"
}
}
finally
{
$script:ErrorActionPreference = $backupEAP
}
}
function script:Get-StronglyTypeCsFileForResx
{
param($xml, $ModuleName, $ClassName)
$body = @'
//------------------------------------------------------------------------------
// <auto-generated>
// This code was generated by a Start-ResGen funciton from build.psm1.
// To add or remove a member, edit your .ResX file then rerun Start-ResGen.
//
// Changes to this file may cause incorrect behavior and will be lost if
// the code is regenerated.
// </auto-generated>
//------------------------------------------------------------------------------
using System;
using System.Reflection;
/// <summary>
/// A strongly-typed resource class, for looking up localized strings, etc.
/// </summary>
[global::System.CodeDom.Compiler.GeneratedCodeAttribute("System.Resources.Tools.StronglyTypedResourceBuilder", "4.0.0.0")]
[global::System.Diagnostics.DebuggerNonUserCodeAttribute()]
[global::System.Runtime.CompilerServices.CompilerGeneratedAttribute()]
internal class {0} {{
private static global::System.Resources.ResourceManager resourceMan;
private static global::System.Globalization.CultureInfo resourceCulture;
[global::System.Diagnostics.CodeAnalysis.SuppressMessageAttribute("Microsoft.Performance", "CA1811:AvoidUncalledPrivateCode")]
internal {0}() {{
}}
/// <summary>
/// Returns the cached ResourceManager instance used by this class.
/// </summary>
[global::System.ComponentModel.EditorBrowsableAttribute(global::System.ComponentModel.EditorBrowsableState.Advanced)]
internal static global::System.Resources.ResourceManager ResourceManager {{
get {{
if (object.ReferenceEquals(resourceMan, null)) {{
global::System.Resources.ResourceManager temp = new global::System.Resources.ResourceManager("{1}.resources.{0}", typeof({0}).GetTypeInfo().Assembly);
resourceMan = temp;
}}
return resourceMan;
}}
}}
/// <summary>
/// Overrides the current thread's CurrentUICulture property for all
/// resource lookups using this strongly typed resource class.
/// </summary>
[global::System.ComponentModel.EditorBrowsableAttribute(global::System.ComponentModel.EditorBrowsableState.Advanced)]
internal static global::System.Globalization.CultureInfo Culture {{
get {{
return resourceCulture;
}}
set {{
resourceCulture = value;
}}
}}
{2}
}}
'@
$entry = @'
/// <summary>
/// Looks up a localized string similar to {1}
/// </summary>
internal static string {0} {{
get {{
return ResourceManager.GetString("{0}", resourceCulture);
}}
}}
'@
$entries = $xml.root.data | % {
if ($_) {
$val = $_.value.Replace("`n", "`n ///")
$name = $_.name.Replace(' ', '_')
$entry -f $name,$val
}
} | Out-String
$body -f $ClassName,$ModuleName,$entries
}
function Create-MSIPackage
{
[CmdletBinding()]
param (
# Name of the Product
[ValidateNotNullOrEmpty()]
[string] $ProductName = 'OpenPowerShell',
# 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 'Product.wxs')
)
$wixToolsetBinPath = "${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"
# Wix tooling does not like hyphen in the foldername
$ProductVersion = $ProductVersion.Replace('-', '_')
$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 -v | Write-Verbose
Remove-Item -ErrorAction SilentlyContinue *.wixpdb -Force
Write-Verbose "You can find the MSI @ $msiLocationPath"
return $msiLocationPath
}