//===- DriverUtils.cpp ----------------------------------------------------===// // // 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 "Config.h" #include "Driver.h" #include "InputFiles.h" #include "ObjC.h" #include "Target.h" #include "lld/Common/Args.h" #include "lld/Common/CommonLinkerContext.h" #include "lld/Common/Reproduce.h" #include "llvm/ADT/CachedHashString.h" #include "llvm/ADT/DenseMap.h" #include "llvm/LTO/LTO.h" #include "llvm/Option/Arg.h" #include "llvm/Option/ArgList.h" #include "llvm/Option/Option.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Path.h" #include "llvm/TextAPI/InterfaceFile.h" #include "llvm/TextAPI/TextAPIReader.h" using namespace llvm; using namespace llvm::MachO; using namespace llvm::opt; using namespace llvm::sys; using namespace lld; using namespace lld::macho; // Create prefix string literals used in Options.td #define PREFIX(NAME, VALUE) \ static constexpr StringLiteral NAME##_init[] = VALUE; \ static constexpr ArrayRef NAME(NAME##_init, \ std::size(NAME##_init) - 1); #include "Options.inc" #undef PREFIX // Create table mapping all options defined in Options.td static constexpr OptTable::Info optInfo[] = { #define OPTION(PREFIX, NAME, ID, KIND, GROUP, ALIAS, ALIASARGS, FLAGS, \ VISIBILITY, PARAM, HELPTEXT, HELPTEXTSFORVARIANTS, METAVAR, \ VALUES) \ {PREFIX, \ NAME, \ HELPTEXT, \ HELPTEXTSFORVARIANTS, \ METAVAR, \ OPT_##ID, \ opt::Option::KIND##Class, \ PARAM, \ FLAGS, \ VISIBILITY, \ OPT_##GROUP, \ OPT_##ALIAS, \ ALIASARGS, \ VALUES}, #include "Options.inc" #undef OPTION }; MachOOptTable::MachOOptTable() : GenericOptTable(optInfo) {} // Set color diagnostics according to --color-diagnostics={auto,always,never} // or --no-color-diagnostics flags. static void handleColorDiagnostics(InputArgList &args) { const Arg *arg = args.getLastArg(OPT_color_diagnostics, OPT_color_diagnostics_eq, OPT_no_color_diagnostics); if (!arg) return; if (arg->getOption().getID() == OPT_color_diagnostics) { lld::errs().enable_colors(true); } else if (arg->getOption().getID() == OPT_no_color_diagnostics) { lld::errs().enable_colors(false); } else { StringRef s = arg->getValue(); if (s == "always") lld::errs().enable_colors(true); else if (s == "never") lld::errs().enable_colors(false); else if (s != "auto") error("unknown option: --color-diagnostics=" + s); } } InputArgList MachOOptTable::parse(ArrayRef argv) { // Make InputArgList from string vectors. unsigned missingIndex; unsigned missingCount; SmallVector vec(argv.data(), argv.data() + argv.size()); // Expand response files (arguments in the form of @) // and then parse the argument again. cl::ExpandResponseFiles(saver(), cl::TokenizeGNUCommandLine, vec); InputArgList args = ParseArgs(vec, missingIndex, missingCount); // Handle -fatal_warnings early since it converts missing argument warnings // to errors. errorHandler().fatalWarnings = args.hasArg(OPT_fatal_warnings); errorHandler().suppressWarnings = args.hasArg(OPT_w); if (missingCount) error(Twine(args.getArgString(missingIndex)) + ": missing argument"); handleColorDiagnostics(args); for (const Arg *arg : args.filtered(OPT_UNKNOWN)) { std::string nearest; if (findNearest(arg->getAsString(args), nearest) > 1) error("unknown argument '" + arg->getAsString(args) + "'"); else error("unknown argument '" + arg->getAsString(args) + "', did you mean '" + nearest + "'"); } return args; } void MachOOptTable::printHelp(const char *argv0, bool showHidden) const { OptTable::printHelp(lld::outs(), (std::string(argv0) + " [options] file...").c_str(), "LLVM Linker", showHidden); lld::outs() << "\n"; } static std::string rewritePath(StringRef s) { if (fs::exists(s)) return relativeToRoot(s); return std::string(s); } static std::string rewriteInputPath(StringRef s) { // Don't bother rewriting "absolute" paths that are actually under the // syslibroot; simply rewriting the syslibroot is sufficient. if (rerootPath(s) == s && fs::exists(s)) return relativeToRoot(s); return std::string(s); } // Reconstructs command line arguments so that so that you can re-run // the same command with the same inputs. This is for --reproduce. std::string macho::createResponseFile(const InputArgList &args) { SmallString<0> data; raw_svector_ostream os(data); // Copy the command line to the output while rewriting paths. for (const Arg *arg : args) { switch (arg->getOption().getID()) { case OPT_reproduce: break; case OPT_INPUT: os << quote(rewriteInputPath(arg->getValue())) << "\n"; break; case OPT_o: os << "-o " << quote(path::filename(arg->getValue())) << "\n"; break; case OPT_filelist: if (std::optional buffer = readFile(arg->getValue())) for (StringRef path : args::getLines(*buffer)) os << quote(rewriteInputPath(path)) << "\n"; break; case OPT_force_load: case OPT_weak_library: case OPT_load_hidden: os << arg->getSpelling() << " " << quote(rewriteInputPath(arg->getValue())) << "\n"; break; case OPT_F: case OPT_L: case OPT_bundle_loader: case OPT_exported_symbols_list: case OPT_order_file: case OPT_syslibroot: case OPT_unexported_symbols_list: os << arg->getSpelling() << " " << quote(rewritePath(arg->getValue())) << "\n"; break; case OPT_sectcreate: os << arg->getSpelling() << " " << quote(arg->getValue(0)) << " " << quote(arg->getValue(1)) << " " << quote(rewritePath(arg->getValue(2))) << "\n"; break; default: os << toString(*arg) << "\n"; } } return std::string(data); } static void searchedDylib(const Twine &path, bool found) { if (config->printDylibSearch) message("searched " + path + (found ? ", found " : ", not found")); if (!found) depTracker->logFileNotFound(path); } std::optional macho::resolveDylibPath(StringRef dylibPath) { // TODO: if a tbd and dylib are both present, we should check to make sure // they are consistent. SmallString<261> tbdPath = dylibPath; path::replace_extension(tbdPath, ".tbd"); bool tbdExists = fs::exists(tbdPath); searchedDylib(tbdPath, tbdExists); if (tbdExists) return saver().save(tbdPath.str()); bool dylibExists = fs::exists(dylibPath); searchedDylib(dylibPath, dylibExists); if (dylibExists) return saver().save(dylibPath); return {}; } // It's not uncommon to have multiple attempts to load a single dylib, // especially if it's a commonly re-exported core library. static DenseMap loadedDylibs; DylibFile *macho::loadDylib(MemoryBufferRef mbref, DylibFile *umbrella, bool isBundleLoader, bool explicitlyLinked) { CachedHashStringRef path(mbref.getBufferIdentifier()); DylibFile *&file = loadedDylibs[path]; if (file) { if (explicitlyLinked) file->setExplicitlyLinked(); return file; } DylibFile *newFile; file_magic magic = identify_magic(mbref.getBuffer()); if (magic == file_magic::tapi_file) { Expected> result = TextAPIReader::get(mbref); if (!result) { error("could not load TAPI file at " + mbref.getBufferIdentifier() + ": " + toString(result.takeError())); return nullptr; } file = make(**result, umbrella, isBundleLoader, explicitlyLinked); // parseReexports() can recursively call loadDylib(). That's fine since // we wrote the DylibFile we just loaded to the loadDylib cache via the // `file` reference. But the recursive load can grow loadDylibs, so the // `file` reference might become invalid after parseReexports() -- so copy // the pointer it refers to before continuing. newFile = file; if (newFile->exportingFile) newFile->parseReexports(**result); } else { assert(magic == file_magic::macho_dynamically_linked_shared_lib || magic == file_magic::macho_dynamically_linked_shared_lib_stub || magic == file_magic::macho_executable || magic == file_magic::macho_bundle); file = make(mbref, umbrella, isBundleLoader, explicitlyLinked); // parseLoadCommands() can also recursively call loadDylib(). See comment // in previous block for why this means we must copy `file` here. newFile = file; if (newFile->exportingFile) newFile->parseLoadCommands(mbref); } return newFile; } void macho::resetLoadedDylibs() { loadedDylibs.clear(); } std::optional macho::findPathCombination(const Twine &name, const std::vector &roots, ArrayRef extensions) { SmallString<261> base; for (StringRef dir : roots) { base = dir; path::append(base, name); for (StringRef ext : extensions) { Twine location = base + ext; bool exists = fs::exists(location); searchedDylib(location, exists); if (exists) return saver().save(location.str()); } } return {}; } StringRef macho::rerootPath(StringRef path) { if (!path::is_absolute(path, path::Style::posix) || path.ends_with(".o")) return path; if (std::optional rerootedPath = findPathCombination(path, config->systemLibraryRoots)) return *rerootedPath; return path; } uint32_t macho::getModTime(StringRef path) { if (config->zeroModTime) return 0; fs::file_status stat; if (!fs::status(path, stat)) if (fs::exists(stat)) return toTimeT(stat.getLastModificationTime()); warn("failed to get modification time of " + path); return 0; } void macho::printArchiveMemberLoad(StringRef reason, const InputFile *f) { if (config->printEachFile) message(toString(f)); if (config->printWhyLoad) message(reason + " forced load of " + toString(f)); } macho::DependencyTracker::DependencyTracker(StringRef path) : path(path), active(!path.empty()) { if (active && fs::exists(path) && !fs::can_write(path)) { warn("Ignoring dependency_info option since specified path is not " "writeable."); active = false; } } void macho::DependencyTracker::write(StringRef version, const SetVector &inputs, StringRef output) { if (!active) return; std::error_code ec; raw_fd_ostream os(path, ec, fs::OF_None); if (ec) { warn("Error writing dependency info to file"); return; } auto addDep = [&os](DepOpCode opcode, const StringRef &path) { // XXX: Even though DepOpCode's underlying type is uint8_t, // this cast is still needed because Clang older than 10.x has a bug, // where it doesn't know to cast the enum to its underlying type. // Hence `<< DepOpCode` is ambiguous to it. os << static_cast(opcode); os << path; os << '\0'; }; addDep(DepOpCode::Version, version); // Sort the input by its names. std::vector inputNames; inputNames.reserve(inputs.size()); for (InputFile *f : inputs) inputNames.push_back(f->getName()); llvm::sort(inputNames); for (const StringRef &in : inputNames) addDep(DepOpCode::Input, in); for (const std::string &f : notFounds) addDep(DepOpCode::NotFound, f); addDep(DepOpCode::Output, output); }