clang/lib/Driver/Job.cpp - rust-lang/llvm-project - Git at Google

 //===- Job.cpp - Command to Execute ---------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Driver/Job.h"
 #include "InputInfo.h"
 #include "clang/Basic/LLVM.h"
 #include "clang/Driver/Driver.h"
 #include "clang/Driver/DriverDiagnostic.h"
 #include "clang/Driver/Tool.h"
 #include "clang/Driver/ToolChain.h"
 #include "llvm/ADT/ArrayRef.h"
 #include "llvm/ADT/SmallString.h"
 #include "llvm/ADT/SmallVector.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/ADT/StringSet.h"
 #include "llvm/ADT/StringSwitch.h"
 #include "llvm/Support/CrashRecoveryContext.h"
 #include "llvm/Support/FileSystem.h"
 #include "llvm/Support/Path.h"
 #include "llvm/Support/PrettyStackTrace.h"
 #include "llvm/Support/Program.h"
 #include "llvm/Support/raw_ostream.h"
 #include <algorithm>
 #include <cassert>
 #include <cstddef>
 #include <string>
 #include <system_error>
 #include <utility>

 using namespace clang;
 using namespace driver;

 Command::Command(const Action &Source, const Tool &Creator,
                  ResponseFileSupport ResponseSupport, const char *Executable,
                  const llvm::opt::ArgStringList &Arguments,
                  ArrayRef<InputInfo> Inputs)
     : Source(Source), Creator(Creator), ResponseSupport(ResponseSupport),
       Executable(Executable), Arguments(Arguments) {
   for (const auto &II : Inputs)
     if (II.isFilename())
       InputFilenames.push_back(II.getFilename());
 }

 /// Check if the compiler flag in question should be skipped when
 /// emitting a reproducer. Also track how many arguments it has and if the
 /// option is some kind of include path.
 static bool skipArgs(const char *Flag, bool HaveCrashVFS, int &SkipNum,
                      bool &IsInclude) {
   SkipNum = 2;
   // These flags are all of the form -Flag <Arg> and are treated as two
   // arguments.  Therefore, we need to skip the flag and the next argument.
   bool ShouldSkip = llvm::StringSwitch<bool>(Flag)
     .Cases("-MF", "-MT", "-MQ", "-serialize-diagnostic-file", true)
     .Cases("-o", "-dependency-file", true)
     .Cases("-fdebug-compilation-dir", "-diagnostic-log-file", true)
     .Cases("-dwarf-debug-flags", "-ivfsoverlay", true)
     .Default(false);
   if (ShouldSkip)
     return true;

   // Some include flags shouldn't be skipped if we have a crash VFS
   IsInclude = llvm::StringSwitch<bool>(Flag)
     .Cases("-include", "-header-include-file", true)
     .Cases("-idirafter", "-internal-isystem", "-iwithprefix", true)
     .Cases("-internal-externc-isystem", "-iprefix", true)
     .Cases("-iwithprefixbefore", "-isystem", "-iquote", true)
     .Cases("-isysroot", "-I", "-F", "-resource-dir", true)
     .Cases("-iframework", "-include-pch", true)
     .Default(false);
   if (IsInclude)
     return !HaveCrashVFS;

   // The remaining flags are treated as a single argument.

   // These flags are all of the form -Flag and have no second argument.
   ShouldSkip = llvm::StringSwitch<bool>(Flag)
     .Cases("-M", "-MM", "-MG", "-MP", "-MD", true)
     .Case("-MMD", true)
     .Default(false);

   // Match found.
   SkipNum = 1;
   if (ShouldSkip)
     return true;

   // These flags are treated as a single argument (e.g., -F<Dir>).
   StringRef FlagRef(Flag);
   IsInclude = FlagRef.startswith("-F") || FlagRef.startswith("-I");
   if (IsInclude)
     return !HaveCrashVFS;
   if (FlagRef.startswith("-fmodules-cache-path="))
     return true;

   SkipNum = 0;
   return false;
 }

 void Command::writeResponseFile(raw_ostream &OS) const {
   // In a file list, we only write the set of inputs to the response file
   if (ResponseSupport.ResponseKind == ResponseFileSupport::RF_FileList) {
     for (const auto *Arg : InputFileList) {
       OS << Arg << '\n';
     }
     return;
   }

   // In regular response files, we send all arguments to the response file.
   // Wrapping all arguments in double quotes ensures that both Unix tools and
   // Windows tools understand the response file.
   for (const auto *Arg : Arguments) {
     OS << '"';

     for (; *Arg != '\0'; Arg++) {
       if (*Arg == '\"' || *Arg == '\\') {
         OS << '\\';
       }
       OS << *Arg;
     }

     OS << "\" ";
   }
 }

 void Command::buildArgvForResponseFile(
     llvm::SmallVectorImpl<const char *> &Out) const {
   // When not a file list, all arguments are sent to the response file.
   // This leaves us to set the argv to a single parameter, requesting the tool
   // to read the response file.
   if (ResponseSupport.ResponseKind != ResponseFileSupport::RF_FileList) {
     Out.push_back(Executable);
     Out.push_back(ResponseFileFlag.c_str());
     return;
   }

   llvm::StringSet<> Inputs;
   for (const auto *InputName : InputFileList)
     Inputs.insert(InputName);
   Out.push_back(Executable);
   // In a file list, build args vector ignoring parameters that will go in the
   // response file (elements of the InputFileList vector)
   bool FirstInput = true;
   for (const auto *Arg : Arguments) {
     if (Inputs.count(Arg) == 0) {
       Out.push_back(Arg);
     } else if (FirstInput) {
       FirstInput = false;
       Out.push_back(ResponseSupport.ResponseFlag);
       Out.push_back(ResponseFile);
     }
   }
 }

 /// Rewrite relative include-like flag paths to absolute ones.
 static void
 rewriteIncludes(const llvm::ArrayRef<const char *> &Args, size_t Idx,
                 size_t NumArgs,
                 llvm::SmallVectorImpl<llvm::SmallString<128>> &IncFlags) {
   using namespace llvm;
   using namespace sys;

   auto getAbsPath = [](StringRef InInc, SmallVectorImpl<char> &OutInc) -> bool {
     if (path::is_absolute(InInc)) // Nothing to do here...
       return false;
     std::error_code EC = fs::current_path(OutInc);
     if (EC)
       return false;
     path::append(OutInc, InInc);
     return true;
   };

   SmallString<128> NewInc;
   if (NumArgs == 1) {
     StringRef FlagRef(Args[Idx + NumArgs - 1]);
     assert((FlagRef.startswith("-F") || FlagRef.startswith("-I")) &&
             "Expecting -I or -F");
     StringRef Inc = FlagRef.slice(2, StringRef::npos);
     if (getAbsPath(Inc, NewInc)) {
       SmallString<128> NewArg(FlagRef.slice(0, 2));
       NewArg += NewInc;
       IncFlags.push_back(std::move(NewArg));
     }
     return;
   }

   assert(NumArgs == 2 && "Not expecting more than two arguments");
   StringRef Inc(Args[Idx + NumArgs - 1]);
   if (!getAbsPath(Inc, NewInc))
     return;
   IncFlags.push_back(SmallString<128>(Args[Idx]));
   IncFlags.push_back(std::move(NewInc));
 }

 void Command::Print(raw_ostream &OS, const char *Terminator, bool Quote,
                     CrashReportInfo *CrashInfo) const {
   // Always quote the exe.
   OS << ' ';
   llvm::sys::printArg(OS, Executable, /*Quote=*/true);

   ArrayRef<const char *> Args = Arguments;
   SmallVector<const char *, 128> ArgsRespFile;
   if (ResponseFile != nullptr) {
     buildArgvForResponseFile(ArgsRespFile);
     Args = ArrayRef<const char *>(ArgsRespFile).slice(1); // no executable name
   }

   bool HaveCrashVFS = CrashInfo && !CrashInfo->VFSPath.empty();
   for (size_t i = 0, e = Args.size(); i < e; ++i) {
     const char *const Arg = Args[i];

     if (CrashInfo) {
       int NumArgs = 0;
       bool IsInclude = false;
       if (skipArgs(Arg, HaveCrashVFS, NumArgs, IsInclude)) {
         i += NumArgs - 1;
         continue;
       }

       // Relative includes need to be expanded to absolute paths.
       if (HaveCrashVFS && IsInclude) {
         SmallVector<SmallString<128>, 2> NewIncFlags;
         rewriteIncludes(Args, i, NumArgs, NewIncFlags);
         if (!NewIncFlags.empty()) {
           for (auto &F : NewIncFlags) {
             OS << ' ';
             llvm::sys::printArg(OS, F.c_str(), Quote);
           }
           i += NumArgs - 1;
           continue;
         }
       }

       auto Found = llvm::find_if(InputFilenames,
                                  [&Arg](StringRef IF) { return IF == Arg; });
       if (Found != InputFilenames.end() &&
           (i == 0 || StringRef(Args[i - 1]) != "-main-file-name")) {
         // Replace the input file name with the crashinfo's file name.
         OS << ' ';
         StringRef ShortName = llvm::sys::path::filename(CrashInfo->Filename);
         llvm::sys::printArg(OS, ShortName.str(), Quote);
         continue;
       }
     }

     OS << ' ';
     llvm::sys::printArg(OS, Arg, Quote);
   }

   if (CrashInfo && HaveCrashVFS) {
     OS << ' ';
     llvm::sys::printArg(OS, "-ivfsoverlay", Quote);
     OS << ' ';
     llvm::sys::printArg(OS, CrashInfo->VFSPath.str(), Quote);

     // The leftover modules from the crash are stored in
     //  <name>.cache/vfs/modules
     // Leave it untouched for pcm inspection and provide a clean/empty dir
     // path to contain the future generated module cache:
     //  <name>.cache/vfs/repro-modules
     SmallString<128> RelModCacheDir = llvm::sys::path::parent_path(
         llvm::sys::path::parent_path(CrashInfo->VFSPath));
     llvm::sys::path::append(RelModCacheDir, "repro-modules");

     std::string ModCachePath = "-fmodules-cache-path=";
     ModCachePath.append(RelModCacheDir.c_str());

     OS << ' ';
     llvm::sys::printArg(OS, ModCachePath, Quote);
   }

   if (ResponseFile != nullptr) {
     OS << "\n Arguments passed via response file:\n";
     writeResponseFile(OS);
     // Avoiding duplicated newline terminator, since FileLists are
     // newline-separated.
     if (ResponseSupport.ResponseKind != ResponseFileSupport::RF_FileList)
       OS << "\n";
     OS << " (end of response file)";
   }

   OS << Terminator;
 }

 void Command::setResponseFile(const char *FileName) {
   ResponseFile = FileName;
   ResponseFileFlag = ResponseSupport.ResponseFlag;
   ResponseFileFlag += FileName;
 }

 void Command::setEnvironment(llvm::ArrayRef<const char *> NewEnvironment) {
   Environment.reserve(NewEnvironment.size() + 1);
   Environment.assign(NewEnvironment.begin(), NewEnvironment.end());
   Environment.push_back(nullptr);
 }

 void Command::PrintFileNames() const {
   if (PrintInputFilenames) {
     for (const char *Arg : InputFilenames)
       llvm::outs() << llvm::sys::path::filename(Arg) << "\n";
     llvm::outs().flush();
   }
 }

 int Command::Execute(ArrayRef<llvm::Optional<StringRef>> Redirects,
                      std::string *ErrMsg, bool *ExecutionFailed) const {
   PrintFileNames();

   SmallVector<const char *, 128> Argv;
   if (ResponseFile == nullptr) {
     Argv.push_back(Executable);
     Argv.append(Arguments.begin(), Arguments.end());
     Argv.push_back(nullptr);
   } else {
     // If the command is too large, we need to put arguments in a response file.
     std::string RespContents;
     llvm::raw_string_ostream SS(RespContents);

     // Write file contents and build the Argv vector
     writeResponseFile(SS);
     buildArgvForResponseFile(Argv);
     Argv.push_back(nullptr);
     SS.flush();

     // Save the response file in the appropriate encoding
     if (std::error_code EC = writeFileWithEncoding(
             ResponseFile, RespContents, ResponseSupport.ResponseEncoding)) {
       if (ErrMsg)
         *ErrMsg = EC.message();
       if (ExecutionFailed)
         *ExecutionFailed = true;
       // Return -1 by convention (see llvm/include/llvm/Support/Program.h) to
       // indicate the requested executable cannot be started.
       return -1;
     }
   }

   Optional<ArrayRef<StringRef>> Env;
   std::vector<StringRef> ArgvVectorStorage;
   if (!Environment.empty()) {
     assert(Environment.back() == nullptr &&
            "Environment vector should be null-terminated by now");
     ArgvVectorStorage = llvm::toStringRefArray(Environment.data());
     Env = makeArrayRef(ArgvVectorStorage);
   }

   auto Args = llvm::toStringRefArray(Argv.data());
   return llvm::sys::ExecuteAndWait(Executable, Args, Env, Redirects,
                                    /*secondsToWait*/ 0,
                                    /*memoryLimit*/ 0, ErrMsg, ExecutionFailed);
 }

 CC1Command::CC1Command(const Action &Source, const Tool &Creator,
                        ResponseFileSupport ResponseSupport,
                        const char *Executable,
                        const llvm::opt::ArgStringList &Arguments,
                        ArrayRef<InputInfo> Inputs)
     : Command(Source, Creator, ResponseSupport, Executable, Arguments, Inputs) {
   InProcess = true;
 }

 void CC1Command::Print(raw_ostream &OS, const char *Terminator, bool Quote,
                        CrashReportInfo *CrashInfo) const {
   if (InProcess)
     OS << " (in-process)\n";
   Command::Print(OS, Terminator, Quote, CrashInfo);
 }

 int CC1Command::Execute(ArrayRef<llvm::Optional<StringRef>> Redirects,
                         std::string *ErrMsg, bool *ExecutionFailed) const {
   // FIXME: Currently, if there're more than one job, we disable
   // -fintegrate-cc1. If we're no longer a integrated-cc1 job, fallback to
   // out-of-process execution. See discussion in https://reviews.llvm.org/D74447
   if (!InProcess)
     return Command::Execute(Redirects, ErrMsg, ExecutionFailed);

   PrintFileNames();

   SmallVector<const char *, 128> Argv;
   Argv.push_back(getExecutable());
   Argv.append(getArguments().begin(), getArguments().end());
   Argv.push_back(nullptr);

   // This flag simply indicates that the program couldn't start, which isn't
   // applicable here.
   if (ExecutionFailed)
     *ExecutionFailed = false;

   llvm::CrashRecoveryContext CRC;
   CRC.DumpStackAndCleanupOnFailure = true;

   const void *PrettyState = llvm::SavePrettyStackState();
   const Driver &D = getCreator().getToolChain().getDriver();

   int R = 0;
   // Enter ExecuteCC1Tool() instead of starting up a new process
   if (!CRC.RunSafely([&]() { R = D.CC1Main(Argv); })) {
     llvm::RestorePrettyStackState(PrettyState);
     return CRC.RetCode;
   }
   return R;
 }

 void CC1Command::setEnvironment(llvm::ArrayRef<const char *> NewEnvironment) {
   // We don't support set a new environment when calling into ExecuteCC1Tool()
   llvm_unreachable(
       "The CC1Command doesn't support changing the environment vars!");
 }

 FallbackCommand::FallbackCommand(const Action &Source_, const Tool &Creator_,
                                  ResponseFileSupport ResponseSupport,
                                  const char *Executable_,
                                  const llvm::opt::ArgStringList &Arguments_,
                                  ArrayRef<InputInfo> Inputs,
                                  std::unique_ptr<Command> Fallback_)
     : Command(Source_, Creator_, ResponseSupport, Executable_, Arguments_,
               Inputs),
       Fallback(std::move(Fallback_)) {}

 void FallbackCommand::Print(raw_ostream &OS, const char *Terminator,
                             bool Quote, CrashReportInfo *CrashInfo) const {
   Command::Print(OS, "", Quote, CrashInfo);
   OS << " ||";
   Fallback->Print(OS, Terminator, Quote, CrashInfo);
 }

 static bool ShouldFallback(int ExitCode) {
   // FIXME: We really just want to fall back for internal errors, such
   // as when some symbol cannot be mangled, when we should be able to
   // parse something but can't, etc.
   return ExitCode != 0;
 }

 int FallbackCommand::Execute(ArrayRef<llvm::Optional<StringRef>> Redirects,
                              std::string *ErrMsg, bool *ExecutionFailed) const {
   int PrimaryStatus = Command::Execute(Redirects, ErrMsg, ExecutionFailed);
   if (!ShouldFallback(PrimaryStatus))
     return PrimaryStatus;

   // Clear ExecutionFailed and ErrMsg before falling back.
   if (ErrMsg)
     ErrMsg->clear();
   if (ExecutionFailed)
     *ExecutionFailed = false;

   const Driver &D = getCreator().getToolChain().getDriver();
   D.Diag(diag::warn_drv_invoking_fallback) << Fallback->getExecutable();

   int SecondaryStatus = Fallback->Execute(Redirects, ErrMsg, ExecutionFailed);
   return SecondaryStatus;
 }

 ForceSuccessCommand::ForceSuccessCommand(
     const Action &Source_, const Tool &Creator_,
     ResponseFileSupport ResponseSupport, const char *Executable_,
     const llvm::opt::ArgStringList &Arguments_, ArrayRef<InputInfo> Inputs)
     : Command(Source_, Creator_, ResponseSupport, Executable_, Arguments_,
               Inputs) {}

 void ForceSuccessCommand::Print(raw_ostream &OS, const char *Terminator,
                             bool Quote, CrashReportInfo *CrashInfo) const {
   Command::Print(OS, "", Quote, CrashInfo);
   OS << " || (exit 0)" << Terminator;
 }

 int ForceSuccessCommand::Execute(ArrayRef<llvm::Optional<StringRef>> Redirects,
                                  std::string *ErrMsg,
                                  bool *ExecutionFailed) const {
   int Status = Command::Execute(Redirects, ErrMsg, ExecutionFailed);
   (void)Status;
   if (ExecutionFailed)
     *ExecutionFailed = false;
   return 0;
 }

 void JobList::Print(raw_ostream &OS, const char *Terminator, bool Quote,
                     CrashReportInfo *CrashInfo) const {
   for (const auto &Job : *this)
     Job.Print(OS, Terminator, Quote, CrashInfo);
 }

 void JobList::clear() { Jobs.clear(); }
	//===- Job.cpp - Command to Execute ---------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Driver/Job.h"
	#include "InputInfo.h"
	#include "clang/Basic/LLVM.h"
	#include "clang/Driver/Driver.h"
	#include "clang/Driver/DriverDiagnostic.h"
	#include "clang/Driver/Tool.h"
	#include "clang/Driver/ToolChain.h"
	#include "llvm/ADT/ArrayRef.h"
	#include "llvm/ADT/SmallString.h"
	#include "llvm/ADT/SmallVector.h"
	#include "llvm/ADT/StringRef.h"
	#include "llvm/ADT/StringSet.h"
	#include "llvm/ADT/StringSwitch.h"
	#include "llvm/Support/CrashRecoveryContext.h"
	#include "llvm/Support/FileSystem.h"
	#include "llvm/Support/Path.h"
	#include "llvm/Support/PrettyStackTrace.h"
	#include "llvm/Support/Program.h"
	#include "llvm/Support/raw_ostream.h"
	#include <algorithm>
	#include <cassert>
	#include <cstddef>
	#include <string>
	#include <system_error>
	#include <utility>

	using namespace clang;
	using namespace driver;

	Command::Command(const Action &Source, const Tool &Creator,
	ResponseFileSupport ResponseSupport, const char *Executable,
	const llvm::opt::ArgStringList &Arguments,
	ArrayRef<InputInfo> Inputs)
	: Source(Source), Creator(Creator), ResponseSupport(ResponseSupport),
	Executable(Executable), Arguments(Arguments) {
	for (const auto &II : Inputs)
	if (II.isFilename())
	InputFilenames.push_back(II.getFilename());
	}

	/// Check if the compiler flag in question should be skipped when
	/// emitting a reproducer. Also track how many arguments it has and if the
	/// option is some kind of include path.
	static bool skipArgs(const char *Flag, bool HaveCrashVFS, int &SkipNum,
	bool &IsInclude) {
	SkipNum = 2;
	// These flags are all of the form -Flag <Arg> and are treated as two
	// arguments. Therefore, we need to skip the flag and the next argument.
	bool ShouldSkip = llvm::StringSwitch<bool>(Flag)
	.Cases("-MF", "-MT", "-MQ", "-serialize-diagnostic-file", true)
	.Cases("-o", "-dependency-file", true)
	.Cases("-fdebug-compilation-dir", "-diagnostic-log-file", true)
	.Cases("-dwarf-debug-flags", "-ivfsoverlay", true)
	.Default(false);
	if (ShouldSkip)
	return true;

	// Some include flags shouldn't be skipped if we have a crash VFS
	IsInclude = llvm::StringSwitch<bool>(Flag)
	.Cases("-include", "-header-include-file", true)
	.Cases("-idirafter", "-internal-isystem", "-iwithprefix", true)
	.Cases("-internal-externc-isystem", "-iprefix", true)
	.Cases("-iwithprefixbefore", "-isystem", "-iquote", true)
	.Cases("-isysroot", "-I", "-F", "-resource-dir", true)
	.Cases("-iframework", "-include-pch", true)
	.Default(false);
	if (IsInclude)
	return !HaveCrashVFS;

	// The remaining flags are treated as a single argument.

	// These flags are all of the form -Flag and have no second argument.
	ShouldSkip = llvm::StringSwitch<bool>(Flag)
	.Cases("-M", "-MM", "-MG", "-MP", "-MD", true)
	.Case("-MMD", true)
	.Default(false);

	// Match found.
	SkipNum = 1;
	if (ShouldSkip)
	return true;

	// These flags are treated as a single argument (e.g., -F<Dir>).
	StringRef FlagRef(Flag);
	IsInclude = FlagRef.startswith("-F") \|\| FlagRef.startswith("-I");
	if (IsInclude)
	return !HaveCrashVFS;
	if (FlagRef.startswith("-fmodules-cache-path="))
	return true;

	SkipNum = 0;
	return false;
	}

	void Command::writeResponseFile(raw_ostream &OS) const {
	// In a file list, we only write the set of inputs to the response file
	if (ResponseSupport.ResponseKind == ResponseFileSupport::RF_FileList) {
	for (const auto *Arg : InputFileList) {
	OS << Arg << '\n';
	}
	return;
	}

	// In regular response files, we send all arguments to the response file.
	// Wrapping all arguments in double quotes ensures that both Unix tools and
	// Windows tools understand the response file.
	for (const auto *Arg : Arguments) {
	OS << '"';

	for (; *Arg != '\0'; Arg++) {
	if (Arg == '\"' \|\| Arg == '\\') {
	OS << '\\';
	}
	OS << *Arg;
	}

	OS << "\" ";
	}
	}

	void Command::buildArgvForResponseFile(
	llvm::SmallVectorImpl<const char *> &Out) const {
	// When not a file list, all arguments are sent to the response file.
	// This leaves us to set the argv to a single parameter, requesting the tool
	// to read the response file.
	if (ResponseSupport.ResponseKind != ResponseFileSupport::RF_FileList) {
	Out.push_back(Executable);
	Out.push_back(ResponseFileFlag.c_str());
	return;
	}

	llvm::StringSet<> Inputs;
	for (const auto *InputName : InputFileList)
	Inputs.insert(InputName);
	Out.push_back(Executable);
	// In a file list, build args vector ignoring parameters that will go in the
	// response file (elements of the InputFileList vector)
	bool FirstInput = true;
	for (const auto *Arg : Arguments) {
	if (Inputs.count(Arg) == 0) {
	Out.push_back(Arg);
	} else if (FirstInput) {
	FirstInput = false;
	Out.push_back(ResponseSupport.ResponseFlag);
	Out.push_back(ResponseFile);
	}
	}
	}

	/// Rewrite relative include-like flag paths to absolute ones.
	static void
	rewriteIncludes(const llvm::ArrayRef<const char *> &Args, size_t Idx,
	size_t NumArgs,
	llvm::SmallVectorImpl<llvm::SmallString<128>> &IncFlags) {
	using namespace llvm;
	using namespace sys;

	auto getAbsPath = [](StringRef InInc, SmallVectorImpl<char> &OutInc) -> bool {
	if (path::is_absolute(InInc)) // Nothing to do here...
	return false;
	std::error_code EC = fs::current_path(OutInc);
	if (EC)
	return false;
	path::append(OutInc, InInc);
	return true;
	};

	SmallString<128> NewInc;
	if (NumArgs == 1) {
	StringRef FlagRef(Args[Idx + NumArgs - 1]);
	assert((FlagRef.startswith("-F") \|\| FlagRef.startswith("-I")) &&
	"Expecting -I or -F");
	StringRef Inc = FlagRef.slice(2, StringRef::npos);
	if (getAbsPath(Inc, NewInc)) {
	SmallString<128> NewArg(FlagRef.slice(0, 2));
	NewArg += NewInc;
	IncFlags.push_back(std::move(NewArg));
	}
	return;
	}

	assert(NumArgs == 2 && "Not expecting more than two arguments");
	StringRef Inc(Args[Idx + NumArgs - 1]);
	if (!getAbsPath(Inc, NewInc))
	return;
	IncFlags.push_back(SmallString<128>(Args[Idx]));
	IncFlags.push_back(std::move(NewInc));
	}

	void Command::Print(raw_ostream &OS, const char *Terminator, bool Quote,
	CrashReportInfo *CrashInfo) const {
	// Always quote the exe.
	OS << ' ';
	llvm::sys::printArg(OS, Executable, /Quote=/true);

	ArrayRef<const char *> Args = Arguments;
	SmallVector<const char *, 128> ArgsRespFile;
	if (ResponseFile != nullptr) {
	buildArgvForResponseFile(ArgsRespFile);
	Args = ArrayRef<const char *>(ArgsRespFile).slice(1); // no executable name
	}

	bool HaveCrashVFS = CrashInfo && !CrashInfo->VFSPath.empty();
	for (size_t i = 0, e = Args.size(); i < e; ++i) {
	const char *const Arg = Args[i];

	if (CrashInfo) {
	int NumArgs = 0;
	bool IsInclude = false;
	if (skipArgs(Arg, HaveCrashVFS, NumArgs, IsInclude)) {
	i += NumArgs - 1;
	continue;
	}

	// Relative includes need to be expanded to absolute paths.
	if (HaveCrashVFS && IsInclude) {
	SmallVector<SmallString<128>, 2> NewIncFlags;
	rewriteIncludes(Args, i, NumArgs, NewIncFlags);
	if (!NewIncFlags.empty()) {
	for (auto &F : NewIncFlags) {
	OS << ' ';
	llvm::sys::printArg(OS, F.c_str(), Quote);
	}
	i += NumArgs - 1;
	continue;
	}
	}

	auto Found = llvm::find_if(InputFilenames,
	[&Arg](StringRef IF) { return IF == Arg; });
	if (Found != InputFilenames.end() &&
	(i == 0 \|\| StringRef(Args[i - 1]) != "-main-file-name")) {
	// Replace the input file name with the crashinfo's file name.
	OS << ' ';
	StringRef ShortName = llvm::sys::path::filename(CrashInfo->Filename);
	llvm::sys::printArg(OS, ShortName.str(), Quote);
	continue;
	}
	}

	OS << ' ';
	llvm::sys::printArg(OS, Arg, Quote);
	}

	if (CrashInfo && HaveCrashVFS) {
	OS << ' ';
	llvm::sys::printArg(OS, "-ivfsoverlay", Quote);
	OS << ' ';
	llvm::sys::printArg(OS, CrashInfo->VFSPath.str(), Quote);

	// The leftover modules from the crash are stored in
	// <name>.cache/vfs/modules
	// Leave it untouched for pcm inspection and provide a clean/empty dir
	// path to contain the future generated module cache:
	// <name>.cache/vfs/repro-modules
	SmallString<128> RelModCacheDir = llvm::sys::path::parent_path(
	llvm::sys::path::parent_path(CrashInfo->VFSPath));
	llvm::sys::path::append(RelModCacheDir, "repro-modules");

	std::string ModCachePath = "-fmodules-cache-path=";
	ModCachePath.append(RelModCacheDir.c_str());

	OS << ' ';
	llvm::sys::printArg(OS, ModCachePath, Quote);
	}

	if (ResponseFile != nullptr) {
	OS << "\n Arguments passed via response file:\n";
	writeResponseFile(OS);
	// Avoiding duplicated newline terminator, since FileLists are
	// newline-separated.
	if (ResponseSupport.ResponseKind != ResponseFileSupport::RF_FileList)
	OS << "\n";
	OS << " (end of response file)";
	}

	OS << Terminator;
	}

	void Command::setResponseFile(const char *FileName) {
	ResponseFile = FileName;
	ResponseFileFlag = ResponseSupport.ResponseFlag;
	ResponseFileFlag += FileName;
	}

	void Command::setEnvironment(llvm::ArrayRef<const char *> NewEnvironment) {
	Environment.reserve(NewEnvironment.size() + 1);
	Environment.assign(NewEnvironment.begin(), NewEnvironment.end());
	Environment.push_back(nullptr);
	}

	void Command::PrintFileNames() const {
	if (PrintInputFilenames) {
	for (const char *Arg : InputFilenames)
	llvm::outs() << llvm::sys::path::filename(Arg) << "\n";
	llvm::outs().flush();
	}
	}

	int Command::Execute(ArrayRef<llvm::Optional<StringRef>> Redirects,
	std::string ErrMsg, bool ExecutionFailed) const {
	PrintFileNames();

	SmallVector<const char *, 128> Argv;
	if (ResponseFile == nullptr) {
	Argv.push_back(Executable);
	Argv.append(Arguments.begin(), Arguments.end());
	Argv.push_back(nullptr);
	} else {
	// If the command is too large, we need to put arguments in a response file.
	std::string RespContents;
	llvm::raw_string_ostream SS(RespContents);

	// Write file contents and build the Argv vector
	writeResponseFile(SS);
	buildArgvForResponseFile(Argv);
	Argv.push_back(nullptr);
	SS.flush();

	// Save the response file in the appropriate encoding
	if (std::error_code EC = writeFileWithEncoding(
	ResponseFile, RespContents, ResponseSupport.ResponseEncoding)) {
	if (ErrMsg)
	*ErrMsg = EC.message();
	if (ExecutionFailed)
	*ExecutionFailed = true;
	// Return -1 by convention (see llvm/include/llvm/Support/Program.h) to
	// indicate the requested executable cannot be started.
	return -1;
	}
	}

	Optional<ArrayRef<StringRef>> Env;
	std::vector<StringRef> ArgvVectorStorage;
	if (!Environment.empty()) {
	assert(Environment.back() == nullptr &&
	"Environment vector should be null-terminated by now");
	ArgvVectorStorage = llvm::toStringRefArray(Environment.data());
	Env = makeArrayRef(ArgvVectorStorage);
	}

	auto Args = llvm::toStringRefArray(Argv.data());
	return llvm::sys::ExecuteAndWait(Executable, Args, Env, Redirects,
	/secondsToWait/ 0,
	/memoryLimit/ 0, ErrMsg, ExecutionFailed);
	}

	CC1Command::CC1Command(const Action &Source, const Tool &Creator,
	ResponseFileSupport ResponseSupport,
	const char *Executable,
	const llvm::opt::ArgStringList &Arguments,
	ArrayRef<InputInfo> Inputs)
	: Command(Source, Creator, ResponseSupport, Executable, Arguments, Inputs) {
	InProcess = true;
	}

	void CC1Command::Print(raw_ostream &OS, const char *Terminator, bool Quote,
	CrashReportInfo *CrashInfo) const {
	if (InProcess)
	OS << " (in-process)\n";
	Command::Print(OS, Terminator, Quote, CrashInfo);
	}

	int CC1Command::Execute(ArrayRef<llvm::Optional<StringRef>> Redirects,
	std::string ErrMsg, bool ExecutionFailed) const {
	// FIXME: Currently, if there're more than one job, we disable
	// -fintegrate-cc1. If we're no longer a integrated-cc1 job, fallback to
	// out-of-process execution. See discussion in https://reviews.llvm.org/D74447
	if (!InProcess)
	return Command::Execute(Redirects, ErrMsg, ExecutionFailed);

	PrintFileNames();

	SmallVector<const char *, 128> Argv;
	Argv.push_back(getExecutable());
	Argv.append(getArguments().begin(), getArguments().end());
	Argv.push_back(nullptr);

	// This flag simply indicates that the program couldn't start, which isn't
	// applicable here.
	if (ExecutionFailed)
	*ExecutionFailed = false;

	llvm::CrashRecoveryContext CRC;
	CRC.DumpStackAndCleanupOnFailure = true;

	const void *PrettyState = llvm::SavePrettyStackState();
	const Driver &D = getCreator().getToolChain().getDriver();

	int R = 0;
	// Enter ExecuteCC1Tool() instead of starting up a new process
	if (!CRC.RunSafely([&]() { R = D.CC1Main(Argv); })) {
	llvm::RestorePrettyStackState(PrettyState);
	return CRC.RetCode;
	}
	return R;
	}

	void CC1Command::setEnvironment(llvm::ArrayRef<const char *> NewEnvironment) {
	// We don't support set a new environment when calling into ExecuteCC1Tool()
	llvm_unreachable(
	"The CC1Command doesn't support changing the environment vars!");
	}

	FallbackCommand::FallbackCommand(const Action &Source_, const Tool &Creator_,
	ResponseFileSupport ResponseSupport,
	const char *Executable_,
	const llvm::opt::ArgStringList &Arguments_,
	ArrayRef<InputInfo> Inputs,
	std::unique_ptr<Command> Fallback_)
	: Command(Source_, Creator_, ResponseSupport, Executable_, Arguments_,
	Inputs),
	Fallback(std::move(Fallback_)) {}

	void FallbackCommand::Print(raw_ostream &OS, const char *Terminator,
	bool Quote, CrashReportInfo *CrashInfo) const {
	Command::Print(OS, "", Quote, CrashInfo);
	OS << " \|\|";
	Fallback->Print(OS, Terminator, Quote, CrashInfo);
	}

	static bool ShouldFallback(int ExitCode) {
	// FIXME: We really just want to fall back for internal errors, such
	// as when some symbol cannot be mangled, when we should be able to
	// parse something but can't, etc.
	return ExitCode != 0;
	}

	int FallbackCommand::Execute(ArrayRef<llvm::Optional<StringRef>> Redirects,
	std::string ErrMsg, bool ExecutionFailed) const {
	int PrimaryStatus = Command::Execute(Redirects, ErrMsg, ExecutionFailed);
	if (!ShouldFallback(PrimaryStatus))
	return PrimaryStatus;

	// Clear ExecutionFailed and ErrMsg before falling back.
	if (ErrMsg)
	ErrMsg->clear();
	if (ExecutionFailed)
	*ExecutionFailed = false;

	const Driver &D = getCreator().getToolChain().getDriver();
	D.Diag(diag::warn_drv_invoking_fallback) << Fallback->getExecutable();

	int SecondaryStatus = Fallback->Execute(Redirects, ErrMsg, ExecutionFailed);
	return SecondaryStatus;
	}

	ForceSuccessCommand::ForceSuccessCommand(
	const Action &Source_, const Tool &Creator_,
	ResponseFileSupport ResponseSupport, const char *Executable_,
	const llvm::opt::ArgStringList &Arguments_, ArrayRef<InputInfo> Inputs)
	: Command(Source_, Creator_, ResponseSupport, Executable_, Arguments_,
	Inputs) {}

	void ForceSuccessCommand::Print(raw_ostream &OS, const char *Terminator,
	bool Quote, CrashReportInfo *CrashInfo) const {
	Command::Print(OS, "", Quote, CrashInfo);
	OS << " \|\| (exit 0)" << Terminator;
	}

	int ForceSuccessCommand::Execute(ArrayRef<llvm::Optional<StringRef>> Redirects,
	std::string *ErrMsg,
	bool *ExecutionFailed) const {
	int Status = Command::Execute(Redirects, ErrMsg, ExecutionFailed);
	(void)Status;
	if (ExecutionFailed)
	*ExecutionFailed = false;
	return 0;
	}

	void JobList::Print(raw_ostream &OS, const char *Terminator, bool Quote,
	CrashReportInfo *CrashInfo) const {
	for (const auto &Job : *this)
	Job.Print(OS, Terminator, Quote, CrashInfo);
	}

	void JobList::clear() { Jobs.clear(); }