ldc/driver/linker.cpp

//===-- linker.cpp --------------------------------------------------------===//
//
//                         LDC – the LLVM D compiler
//
// This file is distributed under the BSD-style LDC license. See the LICENSE
// file for details.
//
//===----------------------------------------------------------------------===//

#include "driver/linker.h"
#include "mars.h"
#include "module.h"
#include "root.h"
#include "driver/cl_options.h"
#include "driver/exe_path.h"
#include "driver/tool.h"
#include "gen/llvm.h"
#include "gen/logger.h"
#include "gen/optimizer.h"
#include "gen/programs.h"
#include "llvm/ADT/Triple.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Program.h"
#include "llvm/Support/Path.h"
#if _WIN32
#include "llvm/Support/SystemUtils.h"
#include <Windows.h>
#endif

//////////////////////////////////////////////////////////////////////////////

static bool endsWith(const std::string &str, const std::string &end) {
  return (str.length() >= end.length() &&
          std::equal(end.rbegin(), end.rend(), str.rbegin()));
}

//////////////////////////////////////////////////////////////////////////////

static void CreateDirectoryOnDisk(llvm::StringRef fileName) {
  auto dir = llvm::sys::path::parent_path(fileName);
  if (!dir.empty() && !llvm::sys::fs::exists(dir)) {
    if (auto ec = llvm::sys::fs::create_directory(dir)) {
      error(Loc(), "failed to create path to file: %s\n%s", dir.data(),
            ec.message().c_str());
      fatal();
    }
  }
}

//////////////////////////////////////////////////////////////////////////////

static std::string getOutputName(bool const sharedLib) {
  if (!sharedLib && global.params.exefile) {
    return global.params.exefile;
  }

  if (sharedLib && global.params.objname) {
    return global.params.objname;
  }

  // Output name is inferred.
  std::string result;

  // try root module name
  if (Module::rootModule) {
    result = Module::rootModule->toChars();
  } else if (global.params.objfiles->dim) {
    result = FileName::removeExt(
        static_cast<const char *>(global.params.objfiles->data[0]));
  } else {
    result = "a.out";
  }
  if (sharedLib) {
    std::string libExt = std::string(".") + global.dll_ext;
    if (!endsWith(result, libExt)) {
      if (global.params.targetTriple->getOS() != llvm::Triple::Win32) {
        result = "lib" + result + libExt;
      } else {
        result.append(libExt);
      }
    }
  } else if (global.params.targetTriple->isOSWindows() &&
             !endsWith(result, ".exe")) {
    result.append(".exe");
  }

  return result;
}

//////////////////////////////////////////////////////////////////////////////

static std::string gExePath;

static int linkObjToBinaryGcc(bool sharedLib, bool fullyStatic) {
  Logger::println("*** Linking executable ***");

  // find gcc for linking
  std::string gcc(getGcc());

  // build arguments
  std::vector<std::string> args;

  // object files
  for (unsigned i = 0; i < global.params.objfiles->dim; i++) {
    const char *p = static_cast<const char *>(global.params.objfiles->data[i]);
    args.push_back(p);
  }

  // user libs
  for (unsigned i = 0; i < global.params.libfiles->dim; i++) {
    const char *p = static_cast<const char *>(global.params.libfiles->data[i]);
    args.push_back(p);
  }

  // output filename
  std::string output = getOutputName(sharedLib);

  if (sharedLib) {
    args.push_back("-shared");
  }

  if (fullyStatic) {
    args.push_back("-static");
  }

  args.push_back("-o");
  args.push_back(output);

  // set the global gExePath
  gExePath = output;
  // assert(gExePath.isValid());

  // create path to exe
  CreateDirectoryOnDisk(gExePath);

  // Pass sanitizer arguments to linker. Requires clang.
  if (opts::sanitize == opts::AddressSanitizer) {
    args.push_back("-fsanitize=address");
  }

  if (opts::sanitize == opts::MemorySanitizer) {
    args.push_back("-fsanitize=memory");
  }

  if (opts::sanitize == opts::ThreadSanitizer) {
    args.push_back("-fsanitize=thread");
  }

  // additional linker switches
  for (unsigned i = 0; i < global.params.linkswitches->dim; i++) {
    const char *p =
        static_cast<const char *>(global.params.linkswitches->data[i]);
    // Don't push -l and -L switches using -Xlinker, but pass them indirectly
    // via GCC. This makes sure user-defined paths take precedence over
    // GCC's builtin LIBRARY_PATHs.
    if (!p[0] || !(p[0] == '-' && (p[1] == 'l' || p[1] == 'L'))) {
      args.push_back("-Xlinker");
    }
    args.push_back(p);
  }

  // default libs
  bool addSoname = false;
  switch (global.params.targetTriple->getOS()) {
  case llvm::Triple::Linux:
    addSoname = true;
    if (!opts::disableLinkerStripDead) {
      args.push_back("-Wl,--gc-sections");
    }
    if (global.params.targetTriple.getEnvironment() == llvm::Triple::Android) {
        args.push_back("-ldl");
        args.push_back("-lm");
        break;
    }
    args.push_back("-lrt");
  // fallthrough
  case llvm::Triple::Darwin:
  case llvm::Triple::MacOSX:
    args.push_back("-ldl");
  // fallthrough
  case llvm::Triple::FreeBSD:
  case llvm::Triple::NetBSD:
  case llvm::Triple::OpenBSD:
  case llvm::Triple::DragonFly:
    addSoname = true;
    args.push_back("-lpthread");
    args.push_back("-lm");
    break;

  case llvm::Triple::Solaris:
    args.push_back("-lm");
    args.push_back("-lumem");
    args.push_back("-lsocket");
    args.push_back("-lnsl");
    break;

  default:
    // OS not yet handled, will probably lead to linker errors.
    // FIXME: Win32.
    break;
  }

  if (global.params.targetTriple->isWindowsGNUEnvironment()) {
    // This is really more of a kludge, as linking in the Winsock functions
    // should be handled by the pragma(lib, ...) in std.socket, but it
    // makes LDC behave as expected for now.
    args.push_back("-lws2_32");
  }

  // Only specify -m32/-m64 for architectures where the two variants actually
  // exist (as e.g. the GCC ARM toolchain doesn't recognize the switches).
  // MIPS does not have -m32/-m64 but requires -mabi=.
  if (global.params.targetTriple->get64BitArchVariant().getArch() !=
          llvm::Triple::UnknownArch &&
      global.params.targetTriple->get32BitArchVariant().getArch() !=
          llvm::Triple::UnknownArch) {
    if (global.params.targetTriple->get64BitArchVariant().getArch() ==
            llvm::Triple::mips64 ||
        global.params.targetTriple->get64BitArchVariant().getArch() ==
            llvm::Triple::mips64el) {
      switch (getMipsABI()) {
      case MipsABI::EABI:
        args.push_back("-mabi=eabi");
        break;
      case MipsABI::O32:
        args.push_back("-mabi=32");
        break;
      case MipsABI::N32:
        args.push_back("-mabi=n32");
        break;
      case MipsABI::N64:
        args.push_back("-mabi=64");
        break;
      case MipsABI::Unknown:
        break;
      }
    } else {
      switch (global.params.targetTriple->getArch()) {
      case llvm::Triple::arm:
      case llvm::Triple::armeb:
      case llvm::Triple::aarch64:
      case llvm::Triple::aarch64_be:
#if LDC_LLVM_VER == 305
      case llvm::Triple::arm64:
      case llvm::Triple::arm64_be:
#endif
        break;
      default:
        if (global.params.is64bit) {
          args.push_back("-m64");
        }
        else {
          args.push_back("-m32");
        }
      }
    }
  }

  if (opts::createSharedLib && addSoname) {
    std::string soname = opts::soname;
    if (!soname.empty()) {
      args.push_back("-Wl,-soname," + soname);
    }
  }

  Logger::println("Linking with: ");
  Stream logstr = Logger::cout();
  for (const auto &arg : args) {
    if (!arg.empty()) {
      logstr << "'" << arg << "'"
             << " ";
    }
  }
  logstr << "\n"; // FIXME where's flush ?

  // try to call linker
  return executeToolAndWait(gcc, args, global.params.verbose);
}

//////////////////////////////////////////////////////////////////////////////

#ifdef _WIN32

namespace windows {
bool needsQuotes(const llvm::StringRef &arg) {
  return // not already quoted
      !(arg.size() > 1 && arg[0] == '"' &&
        arg.back() == '"') && // empty or min 1 space or min 1 double quote
      (arg.empty() || arg.find(' ') != arg.npos || arg.find('"') != arg.npos);
}

size_t countPrecedingBackslashes(const std::string &arg, size_t index) {
  size_t count = 0;

  for (size_t i = index - 1; i >= 0; --i) {
    if (arg[i] != '\\')
      break;
    ++count;
  }

  return count;
}

std::string quoteArg(const std::string &arg) {
  if (!needsQuotes(arg))
    return arg;

  std::string quotedArg;
  quotedArg.reserve(3 + 2 * arg.size()); // worst case

  quotedArg.push_back('"');

  const size_t argLength = arg.length();
  for (size_t i = 0; i < argLength; ++i) {
    if (arg[i] == '"') {
      // Escape all preceding backslashes (if any).
      // Note that we *don't* need to escape runs of backslashes that don't
      // precede a double quote! See MSDN:
      // http://msdn.microsoft.com/en-us/library/17w5ykft%28v=vs.85%29.aspx
      quotedArg.append(countPrecedingBackslashes(arg, i), '\\');

      // Escape the double quote.
      quotedArg.push_back('\\');
    }

    quotedArg.push_back(arg[i]);
  }

  // Make sure our final double quote doesn't get escaped by a trailing
  // backslash.
  quotedArg.append(countPrecedingBackslashes(arg, argLength), '\\');
  quotedArg.push_back('"');

  return quotedArg;
}

int executeAndWait(const char *commandLine) {
  STARTUPINFO si;
  ZeroMemory(&si, sizeof(si));
  si.cb = sizeof(si);

  PROCESS_INFORMATION pi;
  ZeroMemory(&pi, sizeof(pi));

  DWORD exitCode;

  // according to MSDN, only CreateProcessW (unicode) may modify the passed
  // command line
  if (!CreateProcess(NULL, const_cast<char *>(commandLine), NULL, NULL, TRUE, 0,
                     NULL, NULL, &si, &pi)) {
    exitCode = -1;
  } else {
    if (WaitForSingleObject(pi.hProcess, INFINITE) != 0 ||
        !GetExitCodeProcess(pi.hProcess, &exitCode))
      exitCode = -2;

    CloseHandle(pi.hProcess);
    CloseHandle(pi.hThread);
  }

  return exitCode;
}
}

int executeMsvcToolAndWait(const std::string &tool,
                           const std::vector<std::string> &args, bool verbose) {
  llvm::SmallString<1024> commandLine; // full command line incl. executable

  // if the VSINSTALLDIR environment variable is NOT set,
  // the MSVC environment needs to be set up
  const bool needMsvcSetup = !getenv("VSINSTALLDIR");
  if (needMsvcSetup) {
    /* <command line> => %ComSpec% /s /c "<batch file> <command line>"
     *
     * cmd.exe /c treats the following string argument (the command)
     * in a very peculiar way if it starts with a double-quote.
     * By adding /s and enclosing the command in extra double-quotes
     * (WITHOUT additionally escaping the command), the command will
     * be parsed properly.
     */

    auto comspecEnv = getenv("ComSpec");
    if (!comspecEnv) {
      warning(Loc(), "'ComSpec' environment variable is not set, assuming 'cmd.exe'.");
      comspecEnv = "cmd.exe";
    }
    std::string cmdExecutable = comspecEnv;
    std::string batchFile = exe_path::prependBinDir(
        global.params.targetTriple->isArch64Bit() ? "amd64.bat" : "x86.bat");

    commandLine.append(windows::quoteArg(cmdExecutable));
    commandLine.append(" /s /c \"");
    commandLine.append(windows::quoteArg(batchFile));
    commandLine.push_back(' ');
    commandLine.append(windows::quoteArg(tool));
  } else {
    std::string toolPath = getProgram(tool.c_str());
    commandLine.append(windows::quoteArg(toolPath));
  }

  const size_t commandLineLengthAfterTool = commandLine.size();

  // append (quoted) args
  for (size_t i = 0; i < args.size(); ++i) {
    commandLine.push_back(' ');
    commandLine.append(windows::quoteArg(args[i]));
  }

  const bool useResponseFile = (!args.empty() && commandLine.size() > 2000);
  llvm::SmallString<128> responseFilePath;
  if (useResponseFile) {
    const size_t firstArgIndex = commandLineLengthAfterTool + 1;
    llvm::StringRef content(commandLine.data() + firstArgIndex,
                            commandLine.size() - firstArgIndex);

    if (llvm::sys::fs::createTemporaryFile("ldc_link", "rsp",
                                           responseFilePath) ||
        llvm::sys::writeFileWithEncoding(
            responseFilePath,
            content)) // keep encoding (LLVM assumes UTF-8 input)
    {
      error(Loc(), "cannot write temporary response file for %s", tool.c_str());
      return -1;
    }

    // replace all args by @<responseFilePath>
    std::string responseFileArg = ("@" + responseFilePath).str();
    commandLine.resize(firstArgIndex);
    commandLine.append(windows::quoteArg(responseFileArg));
  }

  if (needMsvcSetup)
    commandLine.push_back('"');

  const char *finalCommandLine = commandLine.c_str();

  if (verbose) {
    fprintf(global.stdmsg, finalCommandLine);
    fprintf(global.stdmsg, "\n");
    fflush(global.stdmsg);
  }

  const int exitCode = windows::executeAndWait(finalCommandLine);

  if (exitCode != 0) {
    commandLine.resize(commandLineLengthAfterTool);
    if (needMsvcSetup)
      commandLine.push_back('"');
    error(Loc(), "`%s` failed with status: %d", commandLine.c_str(), exitCode);
  }

  if (useResponseFile)
    llvm::sys::fs::remove(responseFilePath);

  return exitCode;
}

#else // !_WIN32

int executeMsvcToolAndWait(const std::string &,
                           const std::vector<std::string> &, bool) {
  assert(0);
  return -1;
}

#endif

//////////////////////////////////////////////////////////////////////////////

static int linkObjToBinaryWin(bool sharedLib) {
  Logger::println("*** Linking executable ***");

  std::string tool = "link.exe";

  // build arguments
  std::vector<std::string> args;

  args.push_back("/NOLOGO");

  // specify that the image will contain a table of safe exception handlers
  // (32bit only)
  if (!global.params.is64bit) {
    args.push_back("/SAFESEH");
  }

  // because of a LLVM bug, see LDC issue 442
  if (global.params.symdebug) {
    args.push_back("/LARGEADDRESSAWARE:NO");
  } else {
    args.push_back("/LARGEADDRESSAWARE");
  }

  // output debug information
  if (global.params.symdebug) {
    args.push_back("/DEBUG");
  }

  // enable Link-time Code Generation (aka. whole program optimization)
  if (global.params.optimize) {
    args.push_back("/LTCG");
  }

  // remove dead code and fold identical COMDATs
  if (opts::disableLinkerStripDead) {
    args.push_back("/OPT:NOREF");
  } else {
    args.push_back("/OPT:REF");
    args.push_back("/OPT:ICF");
  }

  // specify creation of DLL
  if (sharedLib) {
    args.push_back("/DLL");
  }

  // output filename
  std::string output = getOutputName(sharedLib);

  args.push_back("/OUT:" + output);

  // object files
  for (unsigned i = 0; i < global.params.objfiles->dim; i++) {
    const char *p = static_cast<const char *>(global.params.objfiles->data[i]);
    args.push_back(p);
  }

  // user libs
  for (unsigned i = 0; i < global.params.libfiles->dim; i++) {
    const char *p = static_cast<const char *>(global.params.libfiles->data[i]);
    args.push_back(p);
  }

  // set the global gExePath
  gExePath = output;
  // assert(gExePath.isValid());

  // create path to exe
  CreateDirectoryOnDisk(gExePath);

  // additional linker switches
  for (unsigned i = 0; i < global.params.linkswitches->dim; i++) {
    std::string str = global.params.linkswitches->data[i];
    if (str.length() > 2) {
      // rewrite common -L and -l switches
      if (str[0] == '-' && str[1] == 'L') {
        str = "/LIBPATH:" + str.substr(2);
      } else if (str[0] == '-' && str[1] == 'l') {
        str = str.substr(2) + ".lib";
      }
    }
    args.push_back(str);
  }

  // default libs
  // TODO check which libaries are necessary
  args.push_back("kernel32.lib");
  args.push_back("user32.lib");
  args.push_back("gdi32.lib");
  args.push_back("winspool.lib");
  args.push_back("shell32.lib"); // required for dmain2.d
  args.push_back("ole32.lib");
  args.push_back("oleaut32.lib");
  args.push_back("uuid.lib");
  args.push_back("comdlg32.lib");
  args.push_back("advapi32.lib");

  Logger::println("Linking with: ");
  Stream logstr = Logger::cout();
  for (const auto &arg : args) {
    if (!arg.empty()) {
      logstr << "'" << arg << "'"
             << " ";
    }
  }
  logstr << "\n"; // FIXME where's flush ?

  // try to call linker
  return executeMsvcToolAndWait(tool, args, global.params.verbose);
}

//////////////////////////////////////////////////////////////////////////////

int linkObjToBinary(bool sharedLib, bool fullyStatic) {
  if (global.params.targetTriple->isWindowsMSVCEnvironment()) {
    // TODO: Choose dynamic/static MSVCRT version based on fullyStatic?
    return linkObjToBinaryWin(sharedLib);
  }

  return linkObjToBinaryGcc(sharedLib, fullyStatic);
}

//////////////////////////////////////////////////////////////////////////////

int createStaticLibrary() {
  Logger::println("*** Creating static library ***");

  const bool isTargetWindows =
      global.params.targetTriple->isWindowsMSVCEnvironment();

  // find archiver
  std::string tool(isTargetWindows ? "lib.exe" : getArchiver());

  // build arguments
  std::vector<std::string> args;

  // ask ar to create a new library
  if (!isTargetWindows) {
    args.push_back("rcs");
  }

  // ask lib to be quiet
  if (isTargetWindows) {
    args.push_back("/NOLOGO");
  }

  // enable Link-time Code Generation (aka. whole program optimization)
  if (isTargetWindows && global.params.optimize) {
    args.push_back("/LTCG");
  }

  // output filename
  std::string libName;
  if (global.params.objname) { // explicit
    libName = global.params.objname;
  } else { // inferred
    // try root module name
    if (Module::rootModule) {
      libName = Module::rootModule->toChars();
    } else if (global.params.objfiles->dim) {
      libName = FileName::removeExt(
          static_cast<const char *>(global.params.objfiles->data[0]));
    } else {
      libName = "a.out";
    }
  }
  // KN: The following lines were added to fix a test case failure
  // (runnable/test13774.sh).
  //     Root cause is that dmd handles it in this why.
  //     As a side effect this change broke compiling with dub.
  //    if (!FileName::absolute(libName.c_str()))
  //        libName = FileName::combine(global.params.objdir, libName.c_str());
  if (llvm::sys::path::extension(libName).empty()) {
    libName.append(std::string(".") + global.lib_ext);
  }
  if (isTargetWindows) {
    args.push_back("/OUT:" + libName);
  } else {
    args.push_back(libName);
  }

  // object files
  for (unsigned i = 0; i < global.params.objfiles->dim; i++) {
    const char *p = static_cast<const char *>(global.params.objfiles->data[i]);
    args.push_back(p);
  }

  // create path to the library
  CreateDirectoryOnDisk(libName);

  // try to call archiver
  int exitCode;
  if (isTargetWindows) {
    exitCode = executeMsvcToolAndWait(tool, args, global.params.verbose);
  } else {
    exitCode = executeToolAndWait(tool, args, global.params.verbose);
  }
  return exitCode;
}

//////////////////////////////////////////////////////////////////////////////

void deleteExecutable() {
  if (!gExePath.empty()) {
    // assert(gExePath.isValid());
    bool is_directory;
    assert(!(!llvm::sys::fs::is_directory(gExePath, is_directory) &&
             is_directory));
    llvm::sys::fs::remove(gExePath);
  }
}

//////////////////////////////////////////////////////////////////////////////

int runExecutable() {
  assert(!gExePath.empty());
  // assert(gExePath.isValid());

  // Run executable
  int status =
      executeToolAndWait(gExePath, opts::runargs, global.params.verbose);
  if (status < 0) {
#if defined(_MSC_VER) || defined(__MINGW32__)
    error(Loc(), "program received signal %d", -status);
#else
    error(Loc(), "program received signal %d (%s)", -status,
          strsignal(-status));
#endif
    return -status;
  }
  return status;
}