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dotnet-installer/scripts/dotnet-cli-build/CompileTargets.cs
Bryan 0fd81e0a2d Extract dotnet-compile-fsc into a standalone command 
Add basic Tests for dotnet-compile-fsc

Package Targets execute before TestTargets. Use Generated Nuget Packages in TestTargets. Generate Nuget packages on all platforms, and in C#

Fix bug in dotnet-restore, change fsharp new template, add support for native assets in DependencyContextCsvReader

copy fsc.exe to temp directory instead of package cache

fix rebase error

fix issue

fixes

fixes

fix

temporarily disable debian package e2e testing

fixes

bump fsc version

update fsc version

fix rebase errors

WIP update fsc tool

WIP, rebased and working again, need to solve issues with System.CommandLine

Working state for packaged, command, fsc.exe bugging out with dlopen(, 1): no suitable image found.

execute fsc like a unpublished standalone app

fixup after rebase

working? internet is out

working

cleanup

More cleanup, and run the debian package tests during the Test phase of the build.

update FSharp Test Projects NetStandard Library Version

Update Version Suffix when packing TestPackages. This will enable packing with the right dependency versions on Windows.

update dotnet-test version

Undo the reordering of the build

fix test package project pathsj

ignore net451 build failures for test packages which we need to build on non-windows

update dependency of desktop test app

add dotnetcli feed to nuget config for fsharp dotnet new

update deps after rebase

update dependency of dotnet-compile-fsc

pass args before commandPath when using muxer for tools

adjust testpackage cleaning not to clean packages which are also generated as part of the product from the nuget cache.

undo

Pass projectJson to pack instead of using WorkingDirectory

fix path separators using depsjsoncommandresolver on windows, fix building only specific frameworks for testpackages on non-windows.

PR Feedback

rebase

overwrite fsc runtimeconfig
2016-03-31 14:01:08 -07:00

604 lines
27 KiB
C#
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using System;
using System.Collections.Generic;
using System.IO;
using System.Runtime.InteropServices;
using Microsoft.DotNet.Cli.Build.Framework;
using Microsoft.Extensions.PlatformAbstractions;
using static Microsoft.DotNet.Cli.Build.FS;
using static Microsoft.DotNet.Cli.Build.Framework.BuildHelpers;
using System.Text.RegularExpressions;
using System.Reflection.PortableExecutable;
namespace Microsoft.DotNet.Cli.Build
{
public class CompileTargets
{
public static readonly string CoreCLRVersion = "1.0.2-rc2-23931";
public static readonly string AppDepSdkVersion = "1.0.6-prerelease-00003";
public static readonly bool IsWinx86 = CurrentPlatform.IsWindows && CurrentArchitecture.Isx86;
public static readonly string[] BinariesForCoreHost = new[]
{
"csc"
};
public static readonly string[] ProjectsToPublish = new[]
{
"dotnet"
};
public static readonly string[] FilesToClean = new[]
{
"vbc.exe"
};
public const string SharedFrameworkName = "Microsoft.NETCore.App";
private static string CoreHostBaseName => $"corehost{Constants.ExeSuffix}";
private static string DotnetHostFxrBaseName => $"{Constants.DynamicLibPrefix}hostfxr{Constants.DynamicLibSuffix}";
private static string HostPolicyBaseName => $"{Constants.DynamicLibPrefix}hostpolicy{Constants.DynamicLibSuffix}";
// Updates the stage 2 with recent changes.
[Target(nameof(PrepareTargets.Init), nameof(CompileStage2))]
public static BuildTargetResult UpdateBuild(BuildTargetContext c)
{
return c.Success();
}
[Target(nameof(PrepareTargets.Init), nameof(PackageCoreHost), nameof(CompileStage1), nameof(CompileStage2))]
public static BuildTargetResult Compile(BuildTargetContext c)
{
return c.Success();
}
private static string HostVer = "1.0.1";
private static string HostPolicyVer = "1.0.1";
private static string HostFxrVer = "1.0.1";
[Target]
public static BuildTargetResult CompileCoreHost(BuildTargetContext c)
{
var buildVersion = c.BuildContext.Get<BuildVersion>("BuildVersion");
var versionTag = buildVersion.ReleaseSuffix;
var buildMajor = buildVersion.CommitCountString;
var hostPolicyFullVer = $"{HostPolicyVer}-{versionTag}-{buildMajor}";
// Generate build files
var cmakeOut = Path.Combine(Dirs.Corehost, "cmake");
Rmdir(cmakeOut);
Mkdirp(cmakeOut);
var configuration = c.BuildContext.Get<string>("Configuration");
// Run the build
string rid = GetRuntimeId();
string corehostSrcDir = Path.Combine(c.BuildContext.BuildDirectory, "src", "corehost");
if (RuntimeInformation.IsOSPlatform(OSPlatform.Windows))
{
// Why does Windows directly call cmake but Linux/Mac calls "build.sh" in the corehost dir?
// See the comment in "src/corehost/build.sh" for details. It doesn't work for some reason.
var visualStudio = IsWinx86 ? "Visual Studio 14 2015" : "Visual Studio 14 2015 Win64";
var archMacro = IsWinx86 ? "-DCLI_CMAKE_PLATFORM_ARCH_I386=1" : "-DCLI_CMAKE_PLATFORM_ARCH_AMD64=1";
var ridMacro = $"-DCLI_CMAKE_RUNTIME_ID:STRING={rid}";
var arch = IsWinx86 ? "x86" : "x64";
var baseSupportedRid = $"win7-{arch}";
var cmakeHostPolicyVer = $"-DCLI_CMAKE_HOST_POLICY_VER:STRING={hostPolicyFullVer}";
var cmakeBaseRid = $"-DCLI_CMAKE_PKG_RID:STRING={baseSupportedRid}";
ExecIn(cmakeOut, "cmake",
corehostSrcDir,
archMacro,
ridMacro,
cmakeHostPolicyVer,
cmakeBaseRid,
"-G",
visualStudio);
var pf32 = RuntimeInformation.OSArchitecture == Architecture.X64 ?
Environment.GetEnvironmentVariable("ProgramFiles(x86)") :
Environment.GetEnvironmentVariable("ProgramFiles");
if (configuration.Equals("Release"))
{
// Cmake calls it "RelWithDebInfo" in the generated MSBuild
configuration = "RelWithDebInfo";
}
Exec(Path.Combine(pf32, "MSBuild", "14.0", "Bin", "MSBuild.exe"),
Path.Combine(cmakeOut, "ALL_BUILD.vcxproj"),
$"/p:Configuration={configuration}");
// Copy the output out
File.Copy(Path.Combine(cmakeOut, "cli", configuration, "dotnet.exe"), Path.Combine(Dirs.Corehost, "corehost.exe"), overwrite: true);
File.Copy(Path.Combine(cmakeOut, "cli", configuration, "dotnet.pdb"), Path.Combine(Dirs.Corehost, "corehost.pdb"), overwrite: true);
File.Copy(Path.Combine(cmakeOut, "cli", configuration, "dotnet.exe"), Path.Combine(Dirs.Corehost, "dotnet.exe"), overwrite: true);
File.Copy(Path.Combine(cmakeOut, "cli", configuration, "dotnet.pdb"), Path.Combine(Dirs.Corehost, "dotnet.pdb"), overwrite: true);
File.Copy(Path.Combine(cmakeOut, "cli", "dll", configuration, "hostpolicy.dll"), Path.Combine(Dirs.Corehost, "hostpolicy.dll"), overwrite: true);
File.Copy(Path.Combine(cmakeOut, "cli", "dll", configuration, "hostpolicy.pdb"), Path.Combine(Dirs.Corehost, "hostpolicy.pdb"), overwrite: true);
File.Copy(Path.Combine(cmakeOut, "cli", "fxr", configuration, "hostfxr.dll"), Path.Combine(Dirs.Corehost, "hostfxr.dll"), overwrite: true);
File.Copy(Path.Combine(cmakeOut, "cli", "fxr", configuration, "hostfxr.pdb"), Path.Combine(Dirs.Corehost, "hostfxr.pdb"), overwrite: true);
}
else
{
ExecIn(cmakeOut, Path.Combine(c.BuildContext.BuildDirectory, "src", "corehost", "build.sh"),
"--arch",
"x64",
"--policyver",
hostPolicyFullVer,
"--rid",
rid);
// Copy the output out
File.Copy(Path.Combine(cmakeOut, "cli", "dotnet"), Path.Combine(Dirs.Corehost, "dotnet"), overwrite: true);
File.Copy(Path.Combine(cmakeOut, "cli", "dotnet"), Path.Combine(Dirs.Corehost, CoreHostBaseName), overwrite: true);
File.Copy(Path.Combine(cmakeOut, "cli", "dll", HostPolicyBaseName), Path.Combine(Dirs.Corehost, HostPolicyBaseName), overwrite: true);
File.Copy(Path.Combine(cmakeOut, "cli", "fxr", DotnetHostFxrBaseName), Path.Combine(Dirs.Corehost, DotnetHostFxrBaseName), overwrite: true);
}
return c.Success();
}
[Target(nameof(CompileCoreHost))]
public static BuildTargetResult PackageCoreHost(BuildTargetContext c)
{
if (!string.Equals(Environment.GetEnvironmentVariable("BUILD_COREHOST_PACKAGES"), "1"))
{
return c.Success();
}
var buildVersion = c.BuildContext.Get<BuildVersion>("BuildVersion");
var versionTag = buildVersion.ReleaseSuffix;
var buildMajor = buildVersion.CommitCountString;
var arch = IsWinx86 ? "x86" : "x64";
var version = buildVersion.NuGetVersion;
var content = $@"{c.BuildContext["CommitHash"]}{Environment.NewLine}{version}{Environment.NewLine}";
File.WriteAllText(Path.Combine(c.BuildContext.BuildDirectory, "src", "corehost", "packaging", "version.txt"), content);
string corehostSrcDir = Path.Combine(c.BuildContext.BuildDirectory, "src", "corehost");
if (RuntimeInformation.IsOSPlatform(OSPlatform.Windows))
{
Command.Create(Path.Combine(corehostSrcDir, "packaging", "pack.cmd"))
// Workaround to arg escaping adding backslashes for arguments to .cmd scripts.
.Environment("__WorkaroundCliCoreHostBuildArch", arch)
.Environment("__WorkaroundCliCoreHostBinDir", Dirs.Corehost)
.Environment("__WorkaroundCliCoreHostPolicyVer", HostPolicyVer)
.Environment("__WorkaroundCliCoreHostFxrVer", HostFxrVer)
.Environment("__WorkaroundCliCoreHostVer", HostVer)
.Environment("__WorkaroundCliCoreHostBuildMajor", buildMajor)
.Environment("__WorkaroundCliCoreHostVersionTag", versionTag)
.ForwardStdOut()
.ForwardStdErr()
.Execute()
.EnsureSuccessful();
}
else
{
Exec(Path.Combine(corehostSrcDir, "packaging", "pack.sh"),
"--arch",
"x64",
"--hostbindir",
Dirs.Corehost,
"--policyver",
HostPolicyVer,
"--fxrver",
HostFxrVer,
"--hostver",
HostVer,
"--build",
buildMajor,
"--vertag",
versionTag);
}
int runtimeCount = 0;
foreach (var file in Directory.GetFiles(Path.Combine(corehostSrcDir, "packaging", "bin", "packages"), "*.nupkg"))
{
var fileName = Path.GetFileName(file);
File.Copy(file, Path.Combine(Dirs.Corehost, fileName));
runtimeCount += (fileName.StartsWith("runtime.") ? 1 : 0);
}
if (runtimeCount < 3)
{
throw new BuildFailureException("Not all corehost nupkgs were successfully created");
}
return c.Success();
}
private static string GetRuntimeId()
{
string info = DotNetCli.Stage0.Exec("", "--info").CaptureStdOut().Execute().StdOut;
string rid = Array.Find<string>(info.Split(Environment.NewLine.ToCharArray()), (e) => e.Contains("RID:"))?.Replace("RID:", "").Trim();
// TODO: when Stage0 is updated with the new --info, remove this legacy check for --version
if (string.IsNullOrEmpty(rid))
{
string version = DotNetCli.Stage0.Exec("", "--version").CaptureStdOut().Execute().StdOut;
rid = Array.Find<string>(version.Split(Environment.NewLine.ToCharArray()), (e) => e.Contains("Runtime Id:")).Replace("Runtime Id:", "").Trim();
}
if (string.IsNullOrEmpty(rid))
{
throw new BuildFailureException("Could not find the Runtime ID from Stage0 --info or --version");
}
return rid;
}
[Target]
public static BuildTargetResult CompileStage1(BuildTargetContext c)
{
CleanBinObj(c, Path.Combine(c.BuildContext.BuildDirectory, "src"));
CleanBinObj(c, Path.Combine(c.BuildContext.BuildDirectory, "test"));
if (Directory.Exists(Dirs.Stage1))
{
Utils.DeleteDirectory(Dirs.Stage1);
}
Directory.CreateDirectory(Dirs.Stage1);
CopySharedHost(Dirs.Stage1);
PublishSharedFramework(c, Dirs.Stage1, DotNetCli.Stage0);
var result = CompileCliSdk(c,
dotnet: DotNetCli.Stage0,
outputDir: Dirs.Stage1);
CleanOutputDir(Path.Combine(Dirs.Stage1, "sdk"));
return result;
}
[Target]
public static BuildTargetResult CompileStage2(BuildTargetContext c)
{
var configuration = c.BuildContext.Get<string>("Configuration");
CleanBinObj(c, Path.Combine(c.BuildContext.BuildDirectory, "src"));
CleanBinObj(c, Path.Combine(c.BuildContext.BuildDirectory, "test"));
if (Directory.Exists(Dirs.Stage2))
{
Utils.DeleteDirectory(Dirs.Stage2);
}
Directory.CreateDirectory(Dirs.Stage2);
PublishSharedFramework(c, Dirs.Stage2, DotNetCli.Stage1);
CopySharedHost(Dirs.Stage2);
var result = CompileCliSdk(c,
dotnet: DotNetCli.Stage1,
outputDir: Dirs.Stage2);
if (!result.Success)
{
return result;
}
if (CurrentPlatform.IsWindows)
{
// build projects for nuget packages
var packagingOutputDir = Path.Combine(Dirs.Stage2Compilation, "forPackaging");
Mkdirp(packagingOutputDir);
foreach (var project in PackageTargets.ProjectsToPack)
{
// Just build them, we'll pack later
var packBuildResult = DotNetCli.Stage1.Build(
"--build-base-path",
packagingOutputDir,
"--configuration",
configuration,
Path.Combine(c.BuildContext.BuildDirectory, "src", project))
.Execute();
packBuildResult.EnsureSuccessful();
}
}
CleanOutputDir(Path.Combine(Dirs.Stage2, "sdk"));
return c.Success();
}
private static void CleanOutputDir(string directory)
{
FS.RmFilesInDirRecursive(directory, "vbc.exe");
FS.RmFilesInDirRecursive(directory, "*.pdb");
}
private static void CopySharedHost(string outputDir)
{
// corehost will be renamed to dotnet at some point and then this can be removed.
File.Copy(
Path.Combine(Dirs.Corehost, CoreHostBaseName),
Path.Combine(outputDir, $"dotnet{Constants.ExeSuffix}"), true);
File.Copy(
Path.Combine(Dirs.Corehost, DotnetHostFxrBaseName),
Path.Combine(outputDir, DotnetHostFxrBaseName), true);
}
public static void PublishSharedFramework(BuildTargetContext c, string outputDir, DotNetCli dotnetCli)
{
string SharedFrameworkSourceRoot = Path.Combine(Dirs.RepoRoot, "src", "sharedframework", "framework");
string SharedFrameworkNugetVersion = c.BuildContext.Get<string>("SharedFrameworkNugetVersion");
// We publish to a sub folder of the PublishRoot so tools like heat and zip can generate folder structures easier.
string SharedFrameworkNameAndVersionRoot = Path.Combine(outputDir, "shared", SharedFrameworkName, SharedFrameworkNugetVersion);
c.BuildContext["SharedFrameworkPath"] = SharedFrameworkNameAndVersionRoot;
if (Directory.Exists(SharedFrameworkNameAndVersionRoot))
{
Utils.DeleteDirectory(SharedFrameworkNameAndVersionRoot);
}
string publishFramework = "dnxcore50"; // Temporary, use "netcoreapp" when we update nuget.
string publishRuntime;
if (PlatformServices.Default.Runtime.OperatingSystemPlatform == Platform.Windows)
{
publishRuntime = $"win7-{PlatformServices.Default.Runtime.RuntimeArchitecture}";
}
else
{
publishRuntime = PlatformServices.Default.Runtime.GetRuntimeIdentifier();
}
dotnetCli.Publish(
"--output", SharedFrameworkNameAndVersionRoot,
"-r", publishRuntime,
"-f", publishFramework,
SharedFrameworkSourceRoot).Execute().EnsureSuccessful();
// Clean up artifacts that dotnet-publish generates which we don't need
DeleteMainPublishOutput(SharedFrameworkNameAndVersionRoot, "framework");
File.Delete(Path.Combine(SharedFrameworkNameAndVersionRoot, "framework.runtimeconfig.json"));
// Rename the .deps file
var destinationDeps = Path.Combine(SharedFrameworkNameAndVersionRoot, $"{SharedFrameworkName}.deps.json");
File.Move(Path.Combine(SharedFrameworkNameAndVersionRoot, "framework.deps.json"), destinationDeps);
// Generate RID fallback graph
string runtimeGraphGeneratorRuntime = null;
switch (PlatformServices.Default.Runtime.OperatingSystemPlatform)
{
case Platform.Windows:
runtimeGraphGeneratorRuntime = "win";
break;
case Platform.Linux:
runtimeGraphGeneratorRuntime = "linux";
break;
case Platform.Darwin:
runtimeGraphGeneratorRuntime = "osx";
break;
}
if (!string.IsNullOrEmpty(runtimeGraphGeneratorRuntime))
{
var runtimeGraphGeneratorName = "RuntimeGraphGenerator";
var runtimeGraphGeneratorProject = Path.Combine(Dirs.RepoRoot, "tools", runtimeGraphGeneratorName);
var runtimeGraphGeneratorOutput = Path.Combine(Dirs.Output, "tools", runtimeGraphGeneratorName);
dotnetCli.Publish(
"--output", runtimeGraphGeneratorOutput,
runtimeGraphGeneratorProject).Execute().EnsureSuccessful();
var runtimeGraphGeneratorExe = Path.Combine(runtimeGraphGeneratorOutput, $"{runtimeGraphGeneratorName}{Constants.ExeSuffix}");
Cmd(runtimeGraphGeneratorExe, "--project", SharedFrameworkSourceRoot, "--deps", destinationDeps, runtimeGraphGeneratorRuntime)
.Execute()
.EnsureSuccessful();
}
else
{
c.Error($"Could not determine rid graph generation runtime for platform {PlatformServices.Default.Runtime.OperatingSystemPlatform}");
}
// corehost will be renamed to dotnet at some point and then we will not need to rename it here.
File.Copy(
Path.Combine(Dirs.Corehost, CoreHostBaseName),
Path.Combine(SharedFrameworkNameAndVersionRoot, $"dotnet{Constants.ExeSuffix}"), true);
File.Copy(
Path.Combine(Dirs.Corehost, CoreHostBaseName),
Path.Combine(SharedFrameworkNameAndVersionRoot, CoreHostBaseName), true);
File.Copy(
Path.Combine(Dirs.Corehost, HostPolicyBaseName),
Path.Combine(SharedFrameworkNameAndVersionRoot, HostPolicyBaseName), true);
if (File.Exists(Path.Combine(SharedFrameworkNameAndVersionRoot, "mscorlib.ni.dll")))
{
// Publish already places the crossgen'd version of mscorlib into the output, so we can
// remove the IL version
File.Delete(Path.Combine(SharedFrameworkNameAndVersionRoot, "mscorlib.dll"));
}
CrossgenSharedFx(c, SharedFrameworkNameAndVersionRoot);
// Generate .version file for sharedfx
var version = SharedFrameworkNugetVersion;
var content = $@"{c.BuildContext["CommitHash"]}{Environment.NewLine}{version}{Environment.NewLine}";
File.WriteAllText(Path.Combine(SharedFrameworkNameAndVersionRoot, ".version"), content);
}
private static BuildTargetResult CompileCliSdk(BuildTargetContext c, DotNetCli dotnet, string outputDir)
{
var configuration = c.BuildContext.Get<string>("Configuration");
var buildVersion = c.BuildContext.Get<BuildVersion>("BuildVersion");
outputDir = Path.Combine(outputDir, "sdk", buildVersion.NuGetVersion);
Rmdir(outputDir);
Mkdirp(outputDir);
foreach (var project in ProjectsToPublish)
{
// TODO: Use the flag once we get a full build round tripped
// --version-suffix buildVesion.VersionSuffix
dotnet.Publish(
"--native-subdirectory",
"--output",
outputDir,
"--configuration",
configuration,
Path.Combine(c.BuildContext.BuildDirectory, "src", project))
.Environment("DOTNET_BUILD_VERSION", buildVersion.VersionSuffix)
.Execute()
.EnsureSuccessful();
}
FixModeFlags(outputDir);
string compilersProject = Path.Combine(Dirs.RepoRoot, "src", "compilers");
dotnet.Publish(compilersProject,
"--output",
outputDir,
"--framework",
"netstandard1.5")
.Execute()
.EnsureSuccessful();
var compilersDeps = Path.Combine(outputDir, "compilers.deps.json");
var compilersRuntimeConfig = Path.Combine(outputDir, "compilers.runtimeconfig.json");
// Copy corehost
File.Copy(Path.Combine(Dirs.Corehost, $"corehost{Constants.ExeSuffix}"), Path.Combine(outputDir, $"corehost{Constants.ExeSuffix}"), overwrite: true);
File.Copy(Path.Combine(Dirs.Corehost, $"{Constants.DynamicLibPrefix}hostpolicy{Constants.DynamicLibSuffix}"), Path.Combine(outputDir, $"{Constants.DynamicLibPrefix}hostpolicy{Constants.DynamicLibSuffix}"), overwrite: true);
File.Copy(Path.Combine(Dirs.Corehost, $"{Constants.DynamicLibPrefix}hostfxr{Constants.DynamicLibSuffix}"), Path.Combine(outputDir, $"{Constants.DynamicLibPrefix}hostfxr{Constants.DynamicLibSuffix}"), overwrite: true);
var binaryToCorehostifyOutDir = Path.Combine(outputDir, "runtimes", "any", "native");
// Corehostify binaries
foreach (var binaryToCorehostify in BinariesForCoreHost)
{
try
{
// Yes, it is .exe even on Linux. This is the managed exe we're working with
File.Copy(Path.Combine(binaryToCorehostifyOutDir, $"{binaryToCorehostify}.exe"), Path.Combine(outputDir, $"{binaryToCorehostify}.dll"));
File.Delete(Path.Combine(binaryToCorehostifyOutDir, $"{binaryToCorehostify}.exe"));
File.Copy(compilersDeps, Path.Combine(outputDir, binaryToCorehostify + ".deps.json"));
File.Copy(compilersRuntimeConfig, Path.Combine(outputDir, binaryToCorehostify + ".runtimeconfig.json"));
}
catch (Exception ex)
{
return c.Failed($"Failed to corehostify '{binaryToCorehostify}': {ex.ToString()}");
}
}
// cleanup compilers project output we don't need
DeleteMainPublishOutput(outputDir, "compilers");
File.Delete(compilersDeps);
File.Delete(compilersRuntimeConfig);
// Copy AppDeps
var result = CopyAppDeps(c, outputDir);
if (!result.Success)
{
return result;
}
// Generate .version file
var version = buildVersion.NuGetVersion;
var content = $@"{c.BuildContext["CommitHash"]}{Environment.NewLine}{version}{Environment.NewLine}";
File.WriteAllText(Path.Combine(outputDir, ".version"), content);
return c.Success();
}
private static BuildTargetResult CopyAppDeps(BuildTargetContext c, string outputDir)
{
var appDepOutputDir = Path.Combine(outputDir, "appdepsdk");
Rmdir(appDepOutputDir);
Mkdirp(appDepOutputDir);
// Find toolchain package
string packageId;
if (CurrentPlatform.IsWindows)
{
if (CurrentArchitecture.Isx86)
{
// https://github.com/dotnet/cli/issues/1550
c.Warn("Native compilation is not yet working on Windows x86");
return c.Success();
}
packageId = "toolchain.win7-x64.Microsoft.DotNet.AppDep";
}
else if (CurrentPlatform.IsUbuntu)
{
packageId = "toolchain.ubuntu.14.04-x64.Microsoft.DotNet.AppDep";
}
else if (CurrentPlatform.IsCentOS || CurrentPlatform.IsRHEL || CurrentPlatform.IsDebian)
{
c.Warn($"Native compilation is not yet working on {CurrentPlatform.Current}");
return c.Success();
}
else if (CurrentPlatform.IsOSX)
{
packageId = "toolchain.osx.10.10-x64.Microsoft.DotNet.AppDep";
}
else
{
return c.Failed("Unsupported OS Platform");
}
var appDepPath = Path.Combine(
Dirs.NuGetPackages,
packageId,
AppDepSdkVersion);
CopyRecursive(appDepPath, appDepOutputDir, overwrite: true);
return c.Success();
}
public static BuildTargetResult CrossgenSharedFx(BuildTargetContext c, string pathToAssemblies)
{
// Check if we need to skip crossgen
if (string.Equals(Environment.GetEnvironmentVariable("DONT_CROSSGEN_SHAREDFRAMEWORK"), "1"))
{
c.Warn("Skipping crossgen for SharedFx because DONT_CROSSGEN_SHAREDFRAMEWORK is set to 1");
return c.Success();
}
foreach (var file in Directory.GetFiles(pathToAssemblies))
{
string fileName = Path.GetFileName(file);
if (fileName == "mscorlib.dll" || fileName == "mscorlib.ni.dll" || !HasMetadata(file))
{
continue;
}
string tempPathName = Path.ChangeExtension(file, "readytorun");
// This is not always correct. The version of crossgen we need to pick up is whatever one was restored as part
// of the Microsoft.NETCore.Runtime.CoreCLR package that is part of the shared library. For now, the version hardcoded
// in CompileTargets and the one in the shared library project.json match and are updated in lock step, but long term
// we need to be able to look at the project.lock.json file and figure out what version of Microsoft.NETCore.Runtime.CoreCLR
// was used, and then select that version.
ExecSilent(Crossgen.GetCrossgenPathForVersion(CompileTargets.CoreCLRVersion),
"-readytorun", "-in", file, "-out", tempPathName, "-platform_assemblies_paths", pathToAssemblies);
File.Delete(file);
File.Move(tempPathName, file);
}
return c.Success();
}
private static void DeleteMainPublishOutput(string path, string name)
{
File.Delete(Path.Combine(path, $"{name}{Constants.ExeSuffix}"));
File.Delete(Path.Combine(path, $"{name}.dll"));
File.Delete(Path.Combine(path, $"{name}.pdb"));
}
private static bool HasMetadata(string pathToFile)
{
try
{
using (var inStream = File.OpenRead(pathToFile))
{
using (var peReader = new PEReader(inStream))
{
return peReader.HasMetadata;
}
}
}
catch (BadImageFormatException) { }
return false;
}
}
}
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