Mercurial > hg > CbC > CbC_llvm
view lld/COFF/DriverUtils.cpp @ 240:ca573705d418
merge
| author | matac |
|---|---|
| date | Fri, 28 Jul 2023 20:50:09 +0900 |
| parents | c4bab56944e8 |
| children | 1f2b6ac9f198 |
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//===- 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 // //===----------------------------------------------------------------------===// // // This file contains utility functions for the driver. Because there // are so many small functions, we created this separate file to make // Driver.cpp less cluttered. // //===----------------------------------------------------------------------===// #include "Config.h" #include "Driver.h" #include "Symbols.h" #include "lld/Common/ErrorHandler.h" #include "lld/Common/Memory.h" #include "llvm/ADT/Optional.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/StringSwitch.h" #include "llvm/BinaryFormat/COFF.h" #include "llvm/Object/COFF.h" #include "llvm/Object/WindowsResource.h" #include "llvm/Option/Arg.h" #include "llvm/Option/ArgList.h" #include "llvm/Option/Option.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/FileUtilities.h" #include "llvm/Support/MathExtras.h" #include "llvm/Support/Process.h" #include "llvm/Support/Program.h" #include "llvm/Support/raw_ostream.h" #include "llvm/WindowsManifest/WindowsManifestMerger.h" #include <limits> #include <memory> using namespace llvm::COFF; using namespace llvm; using llvm::sys::Process; namespace lld { namespace coff { namespace { const uint16_t SUBLANG_ENGLISH_US = 0x0409; const uint16_t RT_MANIFEST = 24; class Executor { public: explicit Executor(StringRef s) : prog(saver().save(s)) {} void add(StringRef s) { args.push_back(saver().save(s)); } void add(std::string &s) { args.push_back(saver().save(s)); } void add(Twine s) { args.push_back(saver().save(s)); } void add(const char *s) { args.push_back(saver().save(s)); } void run() { ErrorOr<std::string> exeOrErr = sys::findProgramByName(prog); if (auto ec = exeOrErr.getError()) fatal("unable to find " + prog + " in PATH: " + ec.message()); StringRef exe = saver().save(*exeOrErr); args.insert(args.begin(), exe); if (sys::ExecuteAndWait(args[0], args) != 0) fatal("ExecuteAndWait failed: " + llvm::join(args.begin(), args.end(), " ")); } private: StringRef prog; std::vector<StringRef> args; }; } // anonymous namespace // Parses a string in the form of "<integer>[,<integer>]". void parseNumbers(StringRef arg, uint64_t *addr, uint64_t *size) { auto [s1, s2] = arg.split(','); if (s1.getAsInteger(0, *addr)) fatal("invalid number: " + s1); if (size && !s2.empty() && s2.getAsInteger(0, *size)) fatal("invalid number: " + s2); } // Parses a string in the form of "<integer>[.<integer>]". // If second number is not present, Minor is set to 0. void parseVersion(StringRef arg, uint32_t *major, uint32_t *minor) { auto [s1, s2] = arg.split('.'); if (s1.getAsInteger(10, *major)) fatal("invalid number: " + s1); *minor = 0; if (!s2.empty() && s2.getAsInteger(10, *minor)) fatal("invalid number: " + s2); } void parseGuard(StringRef fullArg) { SmallVector<StringRef, 1> splitArgs; fullArg.split(splitArgs, ","); for (StringRef arg : splitArgs) { if (arg.equals_insensitive("no")) config->guardCF = GuardCFLevel::Off; else if (arg.equals_insensitive("nolongjmp")) config->guardCF &= ~GuardCFLevel::LongJmp; else if (arg.equals_insensitive("noehcont")) config->guardCF &= ~GuardCFLevel::EHCont; else if (arg.equals_insensitive("cf") || arg.equals_insensitive("longjmp")) config->guardCF |= GuardCFLevel::CF | GuardCFLevel::LongJmp; else if (arg.equals_insensitive("ehcont")) config->guardCF |= GuardCFLevel::CF | GuardCFLevel::EHCont; else fatal("invalid argument to /guard: " + arg); } } // Parses a string in the form of "<subsystem>[,<integer>[.<integer>]]". void parseSubsystem(StringRef arg, WindowsSubsystem *sys, uint32_t *major, uint32_t *minor, bool *gotVersion) { auto [sysStr, ver] = arg.split(','); std::string sysStrLower = sysStr.lower(); *sys = StringSwitch<WindowsSubsystem>(sysStrLower) .Case("boot_application", IMAGE_SUBSYSTEM_WINDOWS_BOOT_APPLICATION) .Case("console", IMAGE_SUBSYSTEM_WINDOWS_CUI) .Case("default", IMAGE_SUBSYSTEM_UNKNOWN) .Case("efi_application", IMAGE_SUBSYSTEM_EFI_APPLICATION) .Case("efi_boot_service_driver", IMAGE_SUBSYSTEM_EFI_BOOT_SERVICE_DRIVER) .Case("efi_rom", IMAGE_SUBSYSTEM_EFI_ROM) .Case("efi_runtime_driver", IMAGE_SUBSYSTEM_EFI_RUNTIME_DRIVER) .Case("native", IMAGE_SUBSYSTEM_NATIVE) .Case("posix", IMAGE_SUBSYSTEM_POSIX_CUI) .Case("windows", IMAGE_SUBSYSTEM_WINDOWS_GUI) .Default(IMAGE_SUBSYSTEM_UNKNOWN); if (*sys == IMAGE_SUBSYSTEM_UNKNOWN && sysStrLower != "default") fatal("unknown subsystem: " + sysStr); if (!ver.empty()) parseVersion(ver, major, minor); if (gotVersion) *gotVersion = !ver.empty(); } // Parse a string of the form of "<from>=<to>". // Results are directly written to Config. void parseAlternateName(StringRef s) { auto [from, to] = s.split('='); if (from.empty() || to.empty()) fatal("/alternatename: invalid argument: " + s); auto it = config->alternateNames.find(from); if (it != config->alternateNames.end() && it->second != to) fatal("/alternatename: conflicts: " + s); config->alternateNames.insert(it, std::make_pair(from, to)); } // Parse a string of the form of "<from>=<to>". // Results are directly written to Config. void parseMerge(StringRef s) { auto [from, to] = s.split('='); if (from.empty() || to.empty()) fatal("/merge: invalid argument: " + s); if (from == ".rsrc" || to == ".rsrc") fatal("/merge: cannot merge '.rsrc' with any section"); if (from == ".reloc" || to == ".reloc") fatal("/merge: cannot merge '.reloc' with any section"); auto pair = config->merge.insert(std::make_pair(from, to)); bool inserted = pair.second; if (!inserted) { StringRef existing = pair.first->second; if (existing != to) warn(s + ": already merged into " + existing); } } void parsePDBPageSize(StringRef s) { int v; if (s.getAsInteger(0, v)) { error("/pdbpagesize: invalid argument: " + s); return; } if (v != 4096 && v != 8192 && v != 16384 && v != 32768) { error("/pdbpagesize: invalid argument: " + s); return; } config->pdbPageSize = v; } static uint32_t parseSectionAttributes(StringRef s) { uint32_t ret = 0; for (char c : s.lower()) { switch (c) { case 'd': ret |= IMAGE_SCN_MEM_DISCARDABLE; break; case 'e': ret |= IMAGE_SCN_MEM_EXECUTE; break; case 'k': ret |= IMAGE_SCN_MEM_NOT_CACHED; break; case 'p': ret |= IMAGE_SCN_MEM_NOT_PAGED; break; case 'r': ret |= IMAGE_SCN_MEM_READ; break; case 's': ret |= IMAGE_SCN_MEM_SHARED; break; case 'w': ret |= IMAGE_SCN_MEM_WRITE; break; default: fatal("/section: invalid argument: " + s); } } return ret; } // Parses /section option argument. void parseSection(StringRef s) { auto [name, attrs] = s.split(','); if (name.empty() || attrs.empty()) fatal("/section: invalid argument: " + s); config->section[name] = parseSectionAttributes(attrs); } // Parses /aligncomm option argument. void parseAligncomm(StringRef s) { auto [name, align] = s.split(','); if (name.empty() || align.empty()) { error("/aligncomm: invalid argument: " + s); return; } int v; if (align.getAsInteger(0, v)) { error("/aligncomm: invalid argument: " + s); return; } config->alignComm[std::string(name)] = std::max(config->alignComm[std::string(name)], 1 << v); } // Parses /functionpadmin option argument. void parseFunctionPadMin(llvm::opt::Arg *a, llvm::COFF::MachineTypes machine) { StringRef arg = a->getNumValues() ? a->getValue() : ""; if (!arg.empty()) { // Optional padding in bytes is given. if (arg.getAsInteger(0, config->functionPadMin)) error("/functionpadmin: invalid argument: " + arg); return; } // No optional argument given. // Set default padding based on machine, similar to link.exe. // There is no default padding for ARM platforms. if (machine == I386) { config->functionPadMin = 5; } else if (machine == AMD64) { config->functionPadMin = 6; } else { error("/functionpadmin: invalid argument for this machine: " + arg); } } // Parses a string in the form of "EMBED[,=<integer>]|NO". // Results are directly written to Config. void parseManifest(StringRef arg) { if (arg.equals_insensitive("no")) { config->manifest = Configuration::No; return; } if (!arg.startswith_insensitive("embed")) fatal("invalid option " + arg); config->manifest = Configuration::Embed; arg = arg.substr(strlen("embed")); if (arg.empty()) return; if (!arg.startswith_insensitive(",id=")) fatal("invalid option " + arg); arg = arg.substr(strlen(",id=")); if (arg.getAsInteger(0, config->manifestID)) fatal("invalid option " + arg); } // Parses a string in the form of "level=<string>|uiAccess=<string>|NO". // Results are directly written to Config. void parseManifestUAC(StringRef arg) { if (arg.equals_insensitive("no")) { config->manifestUAC = false; return; } for (;;) { arg = arg.ltrim(); if (arg.empty()) return; if (arg.startswith_insensitive("level=")) { arg = arg.substr(strlen("level=")); std::tie(config->manifestLevel, arg) = arg.split(" "); continue; } if (arg.startswith_insensitive("uiaccess=")) { arg = arg.substr(strlen("uiaccess=")); std::tie(config->manifestUIAccess, arg) = arg.split(" "); continue; } fatal("invalid option " + arg); } } // Parses a string in the form of "cd|net[,(cd|net)]*" // Results are directly written to Config. void parseSwaprun(StringRef arg) { do { auto [swaprun, newArg] = arg.split(','); if (swaprun.equals_insensitive("cd")) config->swaprunCD = true; else if (swaprun.equals_insensitive("net")) config->swaprunNet = true; else if (swaprun.empty()) error("/swaprun: missing argument"); else error("/swaprun: invalid argument: " + swaprun); // To catch trailing commas, e.g. `/spawrun:cd,` if (newArg.empty() && arg.endswith(",")) error("/swaprun: missing argument"); arg = newArg; } while (!arg.empty()); } // An RAII temporary file class that automatically removes a temporary file. namespace { class TemporaryFile { public: TemporaryFile(StringRef prefix, StringRef extn, StringRef contents = "") { SmallString<128> s; if (auto ec = sys::fs::createTemporaryFile("lld-" + prefix, extn, s)) fatal("cannot create a temporary file: " + ec.message()); path = std::string(s.str()); if (!contents.empty()) { std::error_code ec; raw_fd_ostream os(path, ec, sys::fs::OF_None); if (ec) fatal("failed to open " + path + ": " + ec.message()); os << contents; } } TemporaryFile(TemporaryFile &&obj) { std::swap(path, obj.path); } ~TemporaryFile() { if (path.empty()) return; if (sys::fs::remove(path)) fatal("failed to remove " + path); } // Returns a memory buffer of this temporary file. // Note that this function does not leave the file open, // so it is safe to remove the file immediately after this function // is called (you cannot remove an opened file on Windows.) std::unique_ptr<MemoryBuffer> getMemoryBuffer() { // IsVolatile=true forces MemoryBuffer to not use mmap(). return CHECK(MemoryBuffer::getFile(path, /*IsText=*/false, /*RequiresNullTerminator=*/false, /*IsVolatile=*/true), "could not open " + path); } std::string path; }; } static std::string createDefaultXml() { std::string ret; raw_string_ostream os(ret); // Emit the XML. Note that we do *not* verify that the XML attributes are // syntactically correct. This is intentional for link.exe compatibility. os << "<?xml version=\"1.0\" standalone=\"yes\"?>\n" << "<assembly xmlns=\"urn:schemas-microsoft-com:asm.v1\"\n" << " manifestVersion=\"1.0\">\n"; if (config->manifestUAC) { os << " <trustInfo>\n" << " <security>\n" << " <requestedPrivileges>\n" << " <requestedExecutionLevel level=" << config->manifestLevel << " uiAccess=" << config->manifestUIAccess << "/>\n" << " </requestedPrivileges>\n" << " </security>\n" << " </trustInfo>\n"; } for (auto manifestDependency : config->manifestDependencies) { os << " <dependency>\n" << " <dependentAssembly>\n" << " <assemblyIdentity " << manifestDependency << " />\n" << " </dependentAssembly>\n" << " </dependency>\n"; } os << "</assembly>\n"; return os.str(); } static std::string createManifestXmlWithInternalMt(StringRef defaultXml) { std::unique_ptr<MemoryBuffer> defaultXmlCopy = MemoryBuffer::getMemBufferCopy(defaultXml); windows_manifest::WindowsManifestMerger merger; if (auto e = merger.merge(*defaultXmlCopy.get())) fatal("internal manifest tool failed on default xml: " + toString(std::move(e))); for (StringRef filename : config->manifestInput) { std::unique_ptr<MemoryBuffer> manifest = check(MemoryBuffer::getFile(filename)); // Call takeBuffer to include in /reproduce: output if applicable. if (auto e = merger.merge(driver->takeBuffer(std::move(manifest)))) fatal("internal manifest tool failed on file " + filename + ": " + toString(std::move(e))); } return std::string(merger.getMergedManifest().get()->getBuffer()); } static std::string createManifestXmlWithExternalMt(StringRef defaultXml) { // Create the default manifest file as a temporary file. TemporaryFile Default("defaultxml", "manifest"); std::error_code ec; raw_fd_ostream os(Default.path, ec, sys::fs::OF_TextWithCRLF); if (ec) fatal("failed to open " + Default.path + ": " + ec.message()); os << defaultXml; os.close(); // Merge user-supplied manifests if they are given. Since libxml2 is not // enabled, we must shell out to Microsoft's mt.exe tool. TemporaryFile user("user", "manifest"); Executor e("mt.exe"); e.add("/manifest"); e.add(Default.path); for (StringRef filename : config->manifestInput) { e.add("/manifest"); e.add(filename); // Manually add the file to the /reproduce: tar if needed. if (driver->tar) if (auto mbOrErr = MemoryBuffer::getFile(filename)) driver->takeBuffer(std::move(*mbOrErr)); } e.add("/nologo"); e.add("/out:" + StringRef(user.path)); e.run(); return std::string( CHECK(MemoryBuffer::getFile(user.path), "could not open " + user.path) .get() ->getBuffer()); } static std::string createManifestXml() { std::string defaultXml = createDefaultXml(); if (config->manifestInput.empty()) return defaultXml; if (windows_manifest::isAvailable()) return createManifestXmlWithInternalMt(defaultXml); return createManifestXmlWithExternalMt(defaultXml); } static std::unique_ptr<WritableMemoryBuffer> createMemoryBufferForManifestRes(size_t manifestSize) { size_t resSize = alignTo( object::WIN_RES_MAGIC_SIZE + object::WIN_RES_NULL_ENTRY_SIZE + sizeof(object::WinResHeaderPrefix) + sizeof(object::WinResIDs) + sizeof(object::WinResHeaderSuffix) + manifestSize, object::WIN_RES_DATA_ALIGNMENT); return WritableMemoryBuffer::getNewMemBuffer(resSize, config->outputFile + ".manifest.res"); } static void writeResFileHeader(char *&buf) { memcpy(buf, COFF::WinResMagic, sizeof(COFF::WinResMagic)); buf += sizeof(COFF::WinResMagic); memset(buf, 0, object::WIN_RES_NULL_ENTRY_SIZE); buf += object::WIN_RES_NULL_ENTRY_SIZE; } static void writeResEntryHeader(char *&buf, size_t manifestSize) { // Write the prefix. auto *prefix = reinterpret_cast<object::WinResHeaderPrefix *>(buf); prefix->DataSize = manifestSize; prefix->HeaderSize = sizeof(object::WinResHeaderPrefix) + sizeof(object::WinResIDs) + sizeof(object::WinResHeaderSuffix); buf += sizeof(object::WinResHeaderPrefix); // Write the Type/Name IDs. auto *iDs = reinterpret_cast<object::WinResIDs *>(buf); iDs->setType(RT_MANIFEST); iDs->setName(config->manifestID); buf += sizeof(object::WinResIDs); // Write the suffix. auto *suffix = reinterpret_cast<object::WinResHeaderSuffix *>(buf); suffix->DataVersion = 0; suffix->MemoryFlags = object::WIN_RES_PURE_MOVEABLE; suffix->Language = SUBLANG_ENGLISH_US; suffix->Version = 0; suffix->Characteristics = 0; buf += sizeof(object::WinResHeaderSuffix); } // Create a resource file containing a manifest XML. std::unique_ptr<MemoryBuffer> createManifestRes() { std::string manifest = createManifestXml(); std::unique_ptr<WritableMemoryBuffer> res = createMemoryBufferForManifestRes(manifest.size()); char *buf = res->getBufferStart(); writeResFileHeader(buf); writeResEntryHeader(buf, manifest.size()); // Copy the manifest data into the .res file. std::copy(manifest.begin(), manifest.end(), buf); return std::move(res); } void createSideBySideManifest() { std::string path = std::string(config->manifestFile); if (path == "") path = config->outputFile + ".manifest"; std::error_code ec; raw_fd_ostream out(path, ec, sys::fs::OF_TextWithCRLF); if (ec) fatal("failed to create manifest: " + ec.message()); out << createManifestXml(); } // Parse a string in the form of // "<name>[=<internalname>][,@ordinal[,NONAME]][,DATA][,PRIVATE]" // or "<name>=<dllname>.<name>". // Used for parsing /export arguments. Export parseExport(StringRef arg) { Export e; StringRef rest; std::tie(e.name, rest) = arg.split(","); if (e.name.empty()) goto err; if (e.name.contains('=')) { auto [x, y] = e.name.split("="); // If "<name>=<dllname>.<name>". if (y.contains(".")) { e.name = x; e.forwardTo = y; return e; } e.extName = x; e.name = y; if (e.name.empty()) goto err; } // If "<name>=<internalname>[,@ordinal[,NONAME]][,DATA][,PRIVATE]" while (!rest.empty()) { StringRef tok; std::tie(tok, rest) = rest.split(","); if (tok.equals_insensitive("noname")) { if (e.ordinal == 0) goto err; e.noname = true; continue; } if (tok.equals_insensitive("data")) { e.data = true; continue; } if (tok.equals_insensitive("constant")) { e.constant = true; continue; } if (tok.equals_insensitive("private")) { e.isPrivate = true; continue; } if (tok.startswith("@")) { int32_t ord; if (tok.substr(1).getAsInteger(0, ord)) goto err; if (ord <= 0 || 65535 < ord) goto err; e.ordinal = ord; continue; } goto err; } return e; err: fatal("invalid /export: " + arg); } static StringRef undecorate(StringRef sym) { if (config->machine != I386) return sym; // In MSVC mode, a fully decorated stdcall function is exported // as-is with the leading underscore (with type IMPORT_NAME). // In MinGW mode, a decorated stdcall function gets the underscore // removed, just like normal cdecl functions. if (sym.startswith("_") && sym.contains('@') && !config->mingw) return sym; return sym.startswith("_") ? sym.substr(1) : sym; } // Convert stdcall/fastcall style symbols into unsuffixed symbols, // with or without a leading underscore. (MinGW specific.) static StringRef killAt(StringRef sym, bool prefix) { if (sym.empty()) return sym; // Strip any trailing stdcall suffix sym = sym.substr(0, sym.find('@', 1)); if (!sym.startswith("@")) { if (prefix && !sym.startswith("_")) return saver().save("_" + sym); return sym; } // For fastcall, remove the leading @ and replace it with an // underscore, if prefixes are used. sym = sym.substr(1); if (prefix) sym = saver().save("_" + sym); return sym; } // Performs error checking on all /export arguments. // It also sets ordinals. void fixupExports() { // Symbol ordinals must be unique. std::set<uint16_t> ords; for (Export &e : config->exports) { if (e.ordinal == 0) continue; if (!ords.insert(e.ordinal).second) fatal("duplicate export ordinal: " + e.name); } for (Export &e : config->exports) { if (!e.forwardTo.empty()) { e.exportName = undecorate(e.name); } else { e.exportName = undecorate(e.extName.empty() ? e.name : e.extName); } } if (config->killAt && config->machine == I386) { for (Export &e : config->exports) { e.name = killAt(e.name, true); e.exportName = killAt(e.exportName, false); e.extName = killAt(e.extName, true); e.symbolName = killAt(e.symbolName, true); } } // Uniquefy by name. DenseMap<StringRef, Export *> map(config->exports.size()); std::vector<Export> v; for (Export &e : config->exports) { auto pair = map.insert(std::make_pair(e.exportName, &e)); bool inserted = pair.second; if (inserted) { v.push_back(e); continue; } Export *existing = pair.first->second; if (e == *existing || e.name != existing->name) continue; warn("duplicate /export option: " + e.name); } config->exports = std::move(v); // Sort by name. llvm::sort(config->exports, [](const Export &a, const Export &b) { return a.exportName < b.exportName; }); } void assignExportOrdinals() { // Assign unique ordinals if default (= 0). uint32_t max = 0; for (Export &e : config->exports) max = std::max(max, (uint32_t)e.ordinal); for (Export &e : config->exports) if (e.ordinal == 0) e.ordinal = ++max; if (max > std::numeric_limits<uint16_t>::max()) fatal("too many exported symbols (got " + Twine(max) + ", max " + Twine(std::numeric_limits<uint16_t>::max()) + ")"); } // Parses a string in the form of "key=value" and check // if value matches previous values for the same key. void checkFailIfMismatch(StringRef arg, InputFile *source) { auto [k, v] = arg.split('='); if (k.empty() || v.empty()) fatal("/failifmismatch: invalid argument: " + arg); std::pair<StringRef, InputFile *> existing = config->mustMatch[k]; if (!existing.first.empty() && v != existing.first) { std::string sourceStr = source ? toString(source) : "cmd-line"; std::string existingStr = existing.second ? toString(existing.second) : "cmd-line"; fatal("/failifmismatch: mismatch detected for '" + k + "':\n>>> " + existingStr + " has value " + existing.first + "\n>>> " + sourceStr + " has value " + v); } config->mustMatch[k] = {v, source}; } // Convert Windows resource files (.res files) to a .obj file. // Does what cvtres.exe does, but in-process and cross-platform. MemoryBufferRef convertResToCOFF(ArrayRef<MemoryBufferRef> mbs, ArrayRef<ObjFile *> objs) { object::WindowsResourceParser parser(/* MinGW */ config->mingw); std::vector<std::string> duplicates; for (MemoryBufferRef mb : mbs) { std::unique_ptr<object::Binary> bin = check(object::createBinary(mb)); object::WindowsResource *rf = dyn_cast<object::WindowsResource>(bin.get()); if (!rf) fatal("cannot compile non-resource file as resource"); if (auto ec = parser.parse(rf, duplicates)) fatal(toString(std::move(ec))); } // Note: This processes all .res files before all objs. Ideally they'd be // handled in the same order they were linked (to keep the right one, if // there are duplicates that are tolerated due to forceMultipleRes). for (ObjFile *f : objs) { object::ResourceSectionRef rsf; if (auto ec = rsf.load(f->getCOFFObj())) fatal(toString(f) + ": " + toString(std::move(ec))); if (auto ec = parser.parse(rsf, f->getName(), duplicates)) fatal(toString(std::move(ec))); } if (config->mingw) parser.cleanUpManifests(duplicates); for (const auto &dupeDiag : duplicates) if (config->forceMultipleRes) warn(dupeDiag); else error(dupeDiag); Expected<std::unique_ptr<MemoryBuffer>> e = llvm::object::writeWindowsResourceCOFF(config->machine, parser, config->timestamp); if (!e) fatal("failed to write .res to COFF: " + toString(e.takeError())); MemoryBufferRef mbref = **e; make<std::unique_ptr<MemoryBuffer>>(std::move(*e)); // take ownership return mbref; } // Create OptTable // Create prefix string literals used in Options.td #define PREFIX(NAME, VALUE) const char *const NAME[] = VALUE; #include "Options.inc" #undef PREFIX // Create table mapping all options defined in Options.td static const llvm::opt::OptTable::Info infoTable[] = { #define OPTION(X1, X2, ID, KIND, GROUP, ALIAS, X7, X8, X9, X10, X11, X12) \ {X1, X2, X10, X11, OPT_##ID, llvm::opt::Option::KIND##Class, \ X9, X8, OPT_##GROUP, OPT_##ALIAS, X7, X12}, #include "Options.inc" #undef OPTION }; COFFOptTable::COFFOptTable() : OptTable(infoTable, true) {} COFFOptTable optTable; // Set color diagnostics according to --color-diagnostics={auto,always,never} // or --no-color-diagnostics flags. static void handleColorDiagnostics(opt::InputArgList &args) { auto *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); } } static cl::TokenizerCallback getQuotingStyle(opt::InputArgList &args) { if (auto *arg = args.getLastArg(OPT_rsp_quoting)) { StringRef s = arg->getValue(); if (s != "windows" && s != "posix") error("invalid response file quoting: " + s); if (s == "windows") return cl::TokenizeWindowsCommandLine; return cl::TokenizeGNUCommandLine; } // The COFF linker always defaults to Windows quoting. return cl::TokenizeWindowsCommandLine; } // Parses a given list of options. opt::InputArgList ArgParser::parse(ArrayRef<const char *> argv) { // Make InputArgList from string vectors. unsigned missingIndex; unsigned missingCount; // We need to get the quoting style for response files before parsing all // options so we parse here before and ignore all the options but // --rsp-quoting and /lldignoreenv. // (This means --rsp-quoting can't be added through %LINK%.) opt::InputArgList args = optTable.ParseArgs(argv, missingIndex, missingCount); // Expand response files (arguments in the form of @<filename>) and insert // flags from %LINK% and %_LINK_%, and then parse the argument again. SmallVector<const char *, 256> expandedArgv(argv.data(), argv.data() + argv.size()); if (!args.hasArg(OPT_lldignoreenv)) addLINK(expandedArgv); cl::ExpandResponseFiles(saver(), getQuotingStyle(args), expandedArgv); args = optTable.ParseArgs(makeArrayRef(expandedArgv).drop_front(), missingIndex, missingCount); // Print the real command line if response files are expanded. if (args.hasArg(OPT_verbose) && argv.size() != expandedArgv.size()) { std::string msg = "Command line:"; for (const char *s : expandedArgv) msg += " " + std::string(s); message(msg); } // Save the command line after response file expansion so we can write it to // the PDB if necessary. config->argv = {expandedArgv.begin(), expandedArgv.end()}; // Handle /WX early since it converts missing argument warnings to errors. errorHandler().fatalWarnings = args.hasFlag(OPT_WX, OPT_WX_no, false); if (missingCount) fatal(Twine(args.getArgString(missingIndex)) + ": missing argument"); handleColorDiagnostics(args); for (opt::Arg *arg : args.filtered(OPT_UNKNOWN)) { std::string nearest; if (optTable.findNearest(arg->getAsString(args), nearest) > 1) warn("ignoring unknown argument '" + arg->getAsString(args) + "'"); else warn("ignoring unknown argument '" + arg->getAsString(args) + "', did you mean '" + nearest + "'"); } if (args.hasArg(OPT_lib)) warn("ignoring /lib since it's not the first argument"); return args; } // Tokenizes and parses a given string as command line in .drective section. ParsedDirectives ArgParser::parseDirectives(StringRef s) { ParsedDirectives result; SmallVector<const char *, 16> rest; // Handle /EXPORT and /INCLUDE in a fast path. These directives can appear for // potentially every symbol in the object, so they must be handled quickly. SmallVector<StringRef, 16> tokens; cl::TokenizeWindowsCommandLineNoCopy(s, saver(), tokens); for (StringRef tok : tokens) { if (tok.startswith_insensitive("/export:") || tok.startswith_insensitive("-export:")) result.exports.push_back(tok.substr(strlen("/export:"))); else if (tok.startswith_insensitive("/include:") || tok.startswith_insensitive("-include:")) result.includes.push_back(tok.substr(strlen("/include:"))); else if (tok.startswith_insensitive("/exclude-symbols:") || tok.startswith_insensitive("-exclude-symbols:")) result.excludes.push_back(tok.substr(strlen("/exclude-symbols:"))); else { // Copy substrings that are not valid C strings. The tokenizer may have // already copied quoted arguments for us, so those do not need to be // copied again. bool HasNul = tok.end() != s.end() && tok.data()[tok.size()] == '\0'; rest.push_back(HasNul ? tok.data() : saver().save(tok).data()); } } // Make InputArgList from unparsed string vectors. unsigned missingIndex; unsigned missingCount; result.args = optTable.ParseArgs(rest, missingIndex, missingCount); if (missingCount) fatal(Twine(result.args.getArgString(missingIndex)) + ": missing argument"); for (auto *arg : result.args.filtered(OPT_UNKNOWN)) warn("ignoring unknown argument: " + arg->getAsString(result.args)); return result; } // link.exe has an interesting feature. If LINK or _LINK_ environment // variables exist, their contents are handled as command line strings. // So you can pass extra arguments using them. void ArgParser::addLINK(SmallVector<const char *, 256> &argv) { // Concatenate LINK env and command line arguments, and then parse them. if (Optional<std::string> s = Process::GetEnv("LINK")) { std::vector<const char *> v = tokenize(*s); argv.insert(std::next(argv.begin()), v.begin(), v.end()); } if (Optional<std::string> s = Process::GetEnv("_LINK_")) { std::vector<const char *> v = tokenize(*s); argv.insert(std::next(argv.begin()), v.begin(), v.end()); } } std::vector<const char *> ArgParser::tokenize(StringRef s) { SmallVector<const char *, 16> tokens; cl::TokenizeWindowsCommandLine(s, saver(), tokens); return std::vector<const char *>(tokens.begin(), tokens.end()); } void printHelp(const char *argv0) { optTable.printHelp(lld::outs(), (std::string(argv0) + " [options] file...").c_str(), "LLVM Linker", false); } } // namespace coff } // namespace lld