llvm-project/lld/MachO/Driver.cpp

1542 lines
56 KiB
C++

//===- Driver.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 "Driver.h"
#include "Config.h"
#include "ICF.h"
#include "InputFiles.h"
#include "LTO.h"
#include "MarkLive.h"
#include "ObjC.h"
#include "OutputSection.h"
#include "OutputSegment.h"
#include "SectionPriorities.h"
#include "SymbolTable.h"
#include "Symbols.h"
#include "SyntheticSections.h"
#include "Target.h"
#include "UnwindInfoSection.h"
#include "Writer.h"
#include "lld/Common/Args.h"
#include "lld/Common/Driver.h"
#include "lld/Common/ErrorHandler.h"
#include "lld/Common/LLVM.h"
#include "lld/Common/Memory.h"
#include "lld/Common/Reproduce.h"
#include "lld/Common/Version.h"
#include "llvm/ADT/DenseSet.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/BinaryFormat/MachO.h"
#include "llvm/BinaryFormat/Magic.h"
#include "llvm/Config/llvm-config.h"
#include "llvm/LTO/LTO.h"
#include "llvm/Object/Archive.h"
#include "llvm/Option/ArgList.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Host.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/Parallel.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/TarWriter.h"
#include "llvm/Support/TargetSelect.h"
#include "llvm/Support/TimeProfiler.h"
#include "llvm/TextAPI/PackedVersion.h"
#include <algorithm>
using namespace llvm;
using namespace llvm::MachO;
using namespace llvm::object;
using namespace llvm::opt;
using namespace llvm::sys;
using namespace lld;
using namespace lld::macho;
std::unique_ptr<Configuration> macho::config;
std::unique_ptr<DependencyTracker> macho::depTracker;
static HeaderFileType getOutputType(const InputArgList &args) {
// TODO: -r, -dylinker, -preload...
Arg *outputArg = args.getLastArg(OPT_bundle, OPT_dylib, OPT_execute);
if (outputArg == nullptr)
return MH_EXECUTE;
switch (outputArg->getOption().getID()) {
case OPT_bundle:
return MH_BUNDLE;
case OPT_dylib:
return MH_DYLIB;
case OPT_execute:
return MH_EXECUTE;
default:
llvm_unreachable("internal error");
}
}
static DenseMap<CachedHashStringRef, StringRef> resolvedLibraries;
static Optional<StringRef> findLibrary(StringRef name) {
CachedHashStringRef key(name);
auto entry = resolvedLibraries.find(key);
if (entry != resolvedLibraries.end())
return entry->second;
auto doFind = [&] {
if (config->searchDylibsFirst) {
if (Optional<StringRef> path = findPathCombination(
"lib" + name, config->librarySearchPaths, {".tbd", ".dylib"}))
return path;
return findPathCombination("lib" + name, config->librarySearchPaths,
{".a"});
}
return findPathCombination("lib" + name, config->librarySearchPaths,
{".tbd", ".dylib", ".a"});
};
Optional<StringRef> path = doFind();
if (path)
resolvedLibraries[key] = *path;
return path;
}
static DenseMap<CachedHashStringRef, StringRef> resolvedFrameworks;
static Optional<StringRef> findFramework(StringRef name) {
CachedHashStringRef key(name);
auto entry = resolvedFrameworks.find(key);
if (entry != resolvedFrameworks.end())
return entry->second;
SmallString<260> symlink;
StringRef suffix;
std::tie(name, suffix) = name.split(",");
for (StringRef dir : config->frameworkSearchPaths) {
symlink = dir;
path::append(symlink, name + ".framework", name);
if (!suffix.empty()) {
// NOTE: we must resolve the symlink before trying the suffixes, because
// there are no symlinks for the suffixed paths.
SmallString<260> location;
if (!fs::real_path(symlink, location)) {
// only append suffix if realpath() succeeds
Twine suffixed = location + suffix;
if (fs::exists(suffixed))
return resolvedFrameworks[key] = saver().save(suffixed.str());
}
// Suffix lookup failed, fall through to the no-suffix case.
}
if (Optional<StringRef> path = resolveDylibPath(symlink.str()))
return resolvedFrameworks[key] = *path;
}
return {};
}
static bool warnIfNotDirectory(StringRef option, StringRef path) {
if (!fs::exists(path)) {
warn("directory not found for option -" + option + path);
return false;
} else if (!fs::is_directory(path)) {
warn("option -" + option + path + " references a non-directory path");
return false;
}
return true;
}
static std::vector<StringRef>
getSearchPaths(unsigned optionCode, InputArgList &args,
const std::vector<StringRef> &roots,
const SmallVector<StringRef, 2> &systemPaths) {
std::vector<StringRef> paths;
StringRef optionLetter{optionCode == OPT_F ? "F" : "L"};
for (StringRef path : args::getStrings(args, optionCode)) {
// NOTE: only absolute paths are re-rooted to syslibroot(s)
bool found = false;
if (path::is_absolute(path, path::Style::posix)) {
for (StringRef root : roots) {
SmallString<261> buffer(root);
path::append(buffer, path);
// Do not warn about paths that are computed via the syslib roots
if (fs::is_directory(buffer)) {
paths.push_back(saver().save(buffer.str()));
found = true;
}
}
}
if (!found && warnIfNotDirectory(optionLetter, path))
paths.push_back(path);
}
// `-Z` suppresses the standard "system" search paths.
if (args.hasArg(OPT_Z))
return paths;
for (const StringRef &path : systemPaths) {
for (const StringRef &root : roots) {
SmallString<261> buffer(root);
path::append(buffer, path);
if (fs::is_directory(buffer))
paths.push_back(saver().save(buffer.str()));
}
}
return paths;
}
static std::vector<StringRef> getSystemLibraryRoots(InputArgList &args) {
std::vector<StringRef> roots;
for (const Arg *arg : args.filtered(OPT_syslibroot))
roots.push_back(arg->getValue());
// NOTE: the final `-syslibroot` being `/` will ignore all roots
if (!roots.empty() && roots.back() == "/")
roots.clear();
// NOTE: roots can never be empty - add an empty root to simplify the library
// and framework search path computation.
if (roots.empty())
roots.emplace_back("");
return roots;
}
static std::vector<StringRef>
getLibrarySearchPaths(InputArgList &args, const std::vector<StringRef> &roots) {
return getSearchPaths(OPT_L, args, roots, {"/usr/lib", "/usr/local/lib"});
}
static std::vector<StringRef>
getFrameworkSearchPaths(InputArgList &args,
const std::vector<StringRef> &roots) {
return getSearchPaths(OPT_F, args, roots,
{"/Library/Frameworks", "/System/Library/Frameworks"});
}
static llvm::CachePruningPolicy getLTOCachePolicy(InputArgList &args) {
SmallString<128> ltoPolicy;
auto add = [&ltoPolicy](Twine val) {
if (!ltoPolicy.empty())
ltoPolicy += ":";
val.toVector(ltoPolicy);
};
for (const Arg *arg :
args.filtered(OPT_thinlto_cache_policy, OPT_prune_interval_lto,
OPT_prune_after_lto, OPT_max_relative_cache_size_lto)) {
switch (arg->getOption().getID()) {
case OPT_thinlto_cache_policy:
add(arg->getValue());
break;
case OPT_prune_interval_lto:
if (!strcmp("-1", arg->getValue()))
add("prune_interval=87600h"); // 10 years
else
add(Twine("prune_interval=") + arg->getValue() + "s");
break;
case OPT_prune_after_lto:
add(Twine("prune_after=") + arg->getValue() + "s");
break;
case OPT_max_relative_cache_size_lto:
add(Twine("cache_size=") + arg->getValue() + "%");
break;
}
}
return CHECK(parseCachePruningPolicy(ltoPolicy), "invalid LTO cache policy");
}
static DenseMap<StringRef, ArchiveFile *> loadedArchives;
static InputFile *addFile(StringRef path, ForceLoad forceLoadArchive,
bool isLazy = false, bool isExplicit = true,
bool isBundleLoader = false) {
Optional<MemoryBufferRef> buffer = readFile(path);
if (!buffer)
return nullptr;
MemoryBufferRef mbref = *buffer;
InputFile *newFile = nullptr;
file_magic magic = identify_magic(mbref.getBuffer());
switch (magic) {
case file_magic::archive: {
// Avoid loading archives twice. If the archives are being force-loaded,
// loading them twice would create duplicate symbol errors. In the
// non-force-loading case, this is just a minor performance optimization.
// We don't take a reference to cachedFile here because the
// loadArchiveMember() call below may recursively call addFile() and
// invalidate this reference.
auto entry = loadedArchives.find(path);
if (entry != loadedArchives.end())
return entry->second;
std::unique_ptr<object::Archive> archive = CHECK(
object::Archive::create(mbref), path + ": failed to parse archive");
if (!archive->isEmpty() && !archive->hasSymbolTable())
error(path + ": archive has no index; run ranlib to add one");
auto *file = make<ArchiveFile>(std::move(archive));
if ((forceLoadArchive == ForceLoad::Default && config->allLoad) ||
forceLoadArchive == ForceLoad::Yes) {
if (Optional<MemoryBufferRef> buffer = readFile(path)) {
Error e = Error::success();
for (const object::Archive::Child &c : file->getArchive().children(e)) {
StringRef reason =
forceLoadArchive == ForceLoad::Yes ? "-force_load" : "-all_load";
if (Error e = file->fetch(c, reason))
error(toString(file) + ": " + reason +
" failed to load archive member: " + toString(std::move(e)));
}
if (e)
error(toString(file) +
": Archive::children failed: " + toString(std::move(e)));
}
} else if (forceLoadArchive == ForceLoad::Default &&
config->forceLoadObjC) {
for (const object::Archive::Symbol &sym : file->getArchive().symbols())
if (sym.getName().startswith(objc::klass))
file->fetch(sym);
// TODO: no need to look for ObjC sections for a given archive member if
// we already found that it contains an ObjC symbol.
if (Optional<MemoryBufferRef> buffer = readFile(path)) {
Error e = Error::success();
for (const object::Archive::Child &c : file->getArchive().children(e)) {
Expected<MemoryBufferRef> mb = c.getMemoryBufferRef();
if (!mb || !hasObjCSection(*mb))
continue;
if (Error e = file->fetch(c, "-ObjC"))
error(toString(file) + ": -ObjC failed to load archive member: " +
toString(std::move(e)));
}
if (e)
error(toString(file) +
": Archive::children failed: " + toString(std::move(e)));
}
}
file->addLazySymbols();
newFile = loadedArchives[path] = file;
break;
}
case file_magic::macho_object:
newFile = make<ObjFile>(mbref, getModTime(path), "", isLazy);
break;
case file_magic::macho_dynamically_linked_shared_lib:
case file_magic::macho_dynamically_linked_shared_lib_stub:
case file_magic::tapi_file:
if (DylibFile *dylibFile = loadDylib(mbref)) {
if (isExplicit)
dylibFile->explicitlyLinked = true;
newFile = dylibFile;
}
break;
case file_magic::bitcode:
newFile = make<BitcodeFile>(mbref, "", 0, isLazy);
break;
case file_magic::macho_executable:
case file_magic::macho_bundle:
// We only allow executable and bundle type here if it is used
// as a bundle loader.
if (!isBundleLoader)
error(path + ": unhandled file type");
if (DylibFile *dylibFile = loadDylib(mbref, nullptr, isBundleLoader))
newFile = dylibFile;
break;
default:
error(path + ": unhandled file type");
}
if (newFile && !isa<DylibFile>(newFile)) {
if ((isa<ObjFile>(newFile) || isa<BitcodeFile>(newFile)) && newFile->lazy &&
config->forceLoadObjC) {
for (Symbol *sym : newFile->symbols)
if (sym && sym->getName().startswith(objc::klass)) {
extract(*newFile, "-ObjC");
break;
}
if (newFile->lazy && hasObjCSection(mbref))
extract(*newFile, "-ObjC");
}
// printArchiveMemberLoad() prints both .a and .o names, so no need to
// print the .a name here. Similarly skip lazy files.
if (config->printEachFile && magic != file_magic::archive && !isLazy)
message(toString(newFile));
inputFiles.insert(newFile);
}
return newFile;
}
static void addLibrary(StringRef name, bool isNeeded, bool isWeak,
bool isReexport, bool isExplicit,
ForceLoad forceLoadArchive) {
if (Optional<StringRef> path = findLibrary(name)) {
if (auto *dylibFile = dyn_cast_or_null<DylibFile>(
addFile(*path, forceLoadArchive, /*isLazy=*/false, isExplicit))) {
if (isNeeded)
dylibFile->forceNeeded = true;
if (isWeak)
dylibFile->forceWeakImport = true;
if (isReexport) {
config->hasReexports = true;
dylibFile->reexport = true;
}
}
return;
}
error("library not found for -l" + name);
}
static DenseSet<StringRef> loadedObjectFrameworks;
static void addFramework(StringRef name, bool isNeeded, bool isWeak,
bool isReexport, bool isExplicit,
ForceLoad forceLoadArchive) {
if (Optional<StringRef> path = findFramework(name)) {
if (loadedObjectFrameworks.contains(*path))
return;
InputFile *file =
addFile(*path, forceLoadArchive, /*isLazy=*/false, isExplicit);
if (auto *dylibFile = dyn_cast_or_null<DylibFile>(file)) {
if (isNeeded)
dylibFile->forceNeeded = true;
if (isWeak)
dylibFile->forceWeakImport = true;
if (isReexport) {
config->hasReexports = true;
dylibFile->reexport = true;
}
} else if (isa<ObjFile>(file) || isa<BitcodeFile>(file)) {
// Cache frameworks containing object or bitcode files to avoid duplicate
// symbols. Frameworks containing static archives are cached separately
// in addFile() to share caching with libraries, and frameworks
// containing dylibs should allow overwriting of attributes such as
// forceNeeded by subsequent loads
loadedObjectFrameworks.insert(*path);
}
return;
}
error("framework not found for -framework " + name);
}
// Parses LC_LINKER_OPTION contents, which can add additional command line
// flags. This directly parses the flags instead of using the standard argument
// parser to improve performance.
void macho::parseLCLinkerOption(InputFile *f, unsigned argc, StringRef data) {
SmallVector<StringRef, 4> argv;
size_t offset = 0;
for (unsigned i = 0; i < argc && offset < data.size(); ++i) {
argv.push_back(data.data() + offset);
offset += strlen(data.data() + offset) + 1;
}
if (argv.size() != argc || offset > data.size())
fatal(toString(f) + ": invalid LC_LINKER_OPTION");
unsigned i = 0;
StringRef arg = argv[i];
if (arg.consume_front("-l")) {
ForceLoad forceLoadArchive =
config->forceLoadSwift && arg.startswith("swift") ? ForceLoad::Yes
: ForceLoad::No;
addLibrary(arg, /*isNeeded=*/false, /*isWeak=*/false,
/*isReexport=*/false, /*isExplicit=*/false, forceLoadArchive);
} else if (arg == "-framework") {
StringRef name = argv[++i];
addFramework(name, /*isNeeded=*/false, /*isWeak=*/false,
/*isReexport=*/false, /*isExplicit=*/false, ForceLoad::No);
} else {
error(arg + " is not allowed in LC_LINKER_OPTION");
}
}
static void addFileList(StringRef path, bool isLazy) {
Optional<MemoryBufferRef> buffer = readFile(path);
if (!buffer)
return;
MemoryBufferRef mbref = *buffer;
for (StringRef path : args::getLines(mbref))
addFile(rerootPath(path), ForceLoad::Default, isLazy);
}
// We expect sub-library names of the form "libfoo", which will match a dylib
// with a path of .*/libfoo.{dylib, tbd}.
// XXX ld64 seems to ignore the extension entirely when matching sub-libraries;
// I'm not sure what the use case for that is.
static bool markReexport(StringRef searchName, ArrayRef<StringRef> extensions) {
for (InputFile *file : inputFiles) {
if (auto *dylibFile = dyn_cast<DylibFile>(file)) {
StringRef filename = path::filename(dylibFile->getName());
if (filename.consume_front(searchName) &&
(filename.empty() ||
find(extensions, filename) != extensions.end())) {
dylibFile->reexport = true;
return true;
}
}
}
return false;
}
// This function is called on startup. We need this for LTO since
// LTO calls LLVM functions to compile bitcode files to native code.
// Technically this can be delayed until we read bitcode files, but
// we don't bother to do lazily because the initialization is fast.
static void initLLVM() {
InitializeAllTargets();
InitializeAllTargetMCs();
InitializeAllAsmPrinters();
InitializeAllAsmParsers();
}
static void compileBitcodeFiles() {
TimeTraceScope timeScope("LTO");
auto *lto = make<BitcodeCompiler>();
for (InputFile *file : inputFiles)
if (auto *bitcodeFile = dyn_cast<BitcodeFile>(file))
if (!file->lazy)
lto->add(*bitcodeFile);
for (ObjFile *file : lto->compile())
inputFiles.insert(file);
}
// Replaces common symbols with defined symbols residing in __common sections.
// This function must be called after all symbol names are resolved (i.e. after
// all InputFiles have been loaded.) As a result, later operations won't see
// any CommonSymbols.
static void replaceCommonSymbols() {
TimeTraceScope timeScope("Replace common symbols");
ConcatOutputSection *osec = nullptr;
for (Symbol *sym : symtab->getSymbols()) {
auto *common = dyn_cast<CommonSymbol>(sym);
if (common == nullptr)
continue;
// Casting to size_t will truncate large values on 32-bit architectures,
// but it's not really worth supporting the linking of 64-bit programs on
// 32-bit archs.
ArrayRef<uint8_t> data = {nullptr, static_cast<size_t>(common->size)};
// FIXME avoid creating one Section per symbol?
auto *section =
make<Section>(common->getFile(), segment_names::data,
section_names::common, S_ZEROFILL, /*addr=*/0);
auto *isec = make<ConcatInputSection>(*section, data, common->align);
if (!osec)
osec = ConcatOutputSection::getOrCreateForInput(isec);
isec->parent = osec;
inputSections.push_back(isec);
// FIXME: CommonSymbol should store isReferencedDynamically, noDeadStrip
// and pass them on here.
replaceSymbol<Defined>(sym, sym->getName(), common->getFile(), isec,
/*value=*/0,
/*size=*/0,
/*isWeakDef=*/false,
/*isExternal=*/true, common->privateExtern,
/*isThumb=*/false,
/*isReferencedDynamically=*/false,
/*noDeadStrip=*/false);
}
}
static void initializeSectionRenameMap() {
if (config->dataConst) {
SmallVector<StringRef> v{section_names::got,
section_names::authGot,
section_names::authPtr,
section_names::nonLazySymbolPtr,
section_names::const_,
section_names::cfString,
section_names::moduleInitFunc,
section_names::moduleTermFunc,
section_names::objcClassList,
section_names::objcNonLazyClassList,
section_names::objcCatList,
section_names::objcNonLazyCatList,
section_names::objcProtoList,
section_names::objcImageInfo};
for (StringRef s : v)
config->sectionRenameMap[{segment_names::data, s}] = {
segment_names::dataConst, s};
}
config->sectionRenameMap[{segment_names::text, section_names::staticInit}] = {
segment_names::text, section_names::text};
config->sectionRenameMap[{segment_names::import, section_names::pointers}] = {
config->dataConst ? segment_names::dataConst : segment_names::data,
section_names::nonLazySymbolPtr};
}
static inline char toLowerDash(char x) {
if (x >= 'A' && x <= 'Z')
return x - 'A' + 'a';
else if (x == ' ')
return '-';
return x;
}
static std::string lowerDash(StringRef s) {
return std::string(map_iterator(s.begin(), toLowerDash),
map_iterator(s.end(), toLowerDash));
}
// Has the side-effect of setting Config::platformInfo.
static PlatformType parsePlatformVersion(const ArgList &args) {
const Arg *arg = args.getLastArg(OPT_platform_version);
if (!arg) {
error("must specify -platform_version");
return PLATFORM_UNKNOWN;
}
StringRef platformStr = arg->getValue(0);
StringRef minVersionStr = arg->getValue(1);
StringRef sdkVersionStr = arg->getValue(2);
// TODO(compnerd) see if we can generate this case list via XMACROS
PlatformType platform =
StringSwitch<PlatformType>(lowerDash(platformStr))
.Cases("macos", "1", PLATFORM_MACOS)
.Cases("ios", "2", PLATFORM_IOS)
.Cases("tvos", "3", PLATFORM_TVOS)
.Cases("watchos", "4", PLATFORM_WATCHOS)
.Cases("bridgeos", "5", PLATFORM_BRIDGEOS)
.Cases("mac-catalyst", "6", PLATFORM_MACCATALYST)
.Cases("ios-simulator", "7", PLATFORM_IOSSIMULATOR)
.Cases("tvos-simulator", "8", PLATFORM_TVOSSIMULATOR)
.Cases("watchos-simulator", "9", PLATFORM_WATCHOSSIMULATOR)
.Cases("driverkit", "10", PLATFORM_DRIVERKIT)
.Default(PLATFORM_UNKNOWN);
if (platform == PLATFORM_UNKNOWN)
error(Twine("malformed platform: ") + platformStr);
// TODO: check validity of version strings, which varies by platform
// NOTE: ld64 accepts version strings with 5 components
// llvm::VersionTuple accepts no more than 4 components
// Has Apple ever published version strings with 5 components?
if (config->platformInfo.minimum.tryParse(minVersionStr))
error(Twine("malformed minimum version: ") + minVersionStr);
if (config->platformInfo.sdk.tryParse(sdkVersionStr))
error(Twine("malformed sdk version: ") + sdkVersionStr);
return platform;
}
// Has the side-effect of setting Config::target.
static TargetInfo *createTargetInfo(InputArgList &args) {
StringRef archName = args.getLastArgValue(OPT_arch);
if (archName.empty()) {
error("must specify -arch");
return nullptr;
}
PlatformType platform = parsePlatformVersion(args);
config->platformInfo.target =
MachO::Target(getArchitectureFromName(archName), platform);
uint32_t cpuType;
uint32_t cpuSubtype;
std::tie(cpuType, cpuSubtype) = getCPUTypeFromArchitecture(config->arch());
switch (cpuType) {
case CPU_TYPE_X86_64:
return createX86_64TargetInfo();
case CPU_TYPE_ARM64:
return createARM64TargetInfo();
case CPU_TYPE_ARM64_32:
return createARM64_32TargetInfo();
case CPU_TYPE_ARM:
return createARMTargetInfo(cpuSubtype);
default:
error("missing or unsupported -arch " + archName);
return nullptr;
}
}
static UndefinedSymbolTreatment
getUndefinedSymbolTreatment(const ArgList &args) {
StringRef treatmentStr = args.getLastArgValue(OPT_undefined);
auto treatment =
StringSwitch<UndefinedSymbolTreatment>(treatmentStr)
.Cases("error", "", UndefinedSymbolTreatment::error)
.Case("warning", UndefinedSymbolTreatment::warning)
.Case("suppress", UndefinedSymbolTreatment::suppress)
.Case("dynamic_lookup", UndefinedSymbolTreatment::dynamic_lookup)
.Default(UndefinedSymbolTreatment::unknown);
if (treatment == UndefinedSymbolTreatment::unknown) {
warn(Twine("unknown -undefined TREATMENT '") + treatmentStr +
"', defaulting to 'error'");
treatment = UndefinedSymbolTreatment::error;
} else if (config->namespaceKind == NamespaceKind::twolevel &&
(treatment == UndefinedSymbolTreatment::warning ||
treatment == UndefinedSymbolTreatment::suppress)) {
if (treatment == UndefinedSymbolTreatment::warning)
error("'-undefined warning' only valid with '-flat_namespace'");
else
error("'-undefined suppress' only valid with '-flat_namespace'");
treatment = UndefinedSymbolTreatment::error;
}
return treatment;
}
static ICFLevel getICFLevel(const ArgList &args) {
StringRef icfLevelStr = args.getLastArgValue(OPT_icf_eq);
auto icfLevel = StringSwitch<ICFLevel>(icfLevelStr)
.Cases("none", "", ICFLevel::none)
.Case("safe", ICFLevel::safe)
.Case("all", ICFLevel::all)
.Default(ICFLevel::unknown);
if (icfLevel == ICFLevel::unknown) {
warn(Twine("unknown --icf=OPTION `") + icfLevelStr +
"', defaulting to `none'");
icfLevel = ICFLevel::none;
} else if (icfLevel == ICFLevel::safe) {
warn(Twine("`--icf=safe' is not yet implemented, reverting to `none'"));
icfLevel = ICFLevel::none;
}
return icfLevel;
}
static void warnIfDeprecatedOption(const Option &opt) {
if (!opt.getGroup().isValid())
return;
if (opt.getGroup().getID() == OPT_grp_deprecated) {
warn("Option `" + opt.getPrefixedName() + "' is deprecated in ld64:");
warn(opt.getHelpText());
}
}
static void warnIfUnimplementedOption(const Option &opt) {
if (!opt.getGroup().isValid() || !opt.hasFlag(DriverFlag::HelpHidden))
return;
switch (opt.getGroup().getID()) {
case OPT_grp_deprecated:
// warn about deprecated options elsewhere
break;
case OPT_grp_undocumented:
warn("Option `" + opt.getPrefixedName() +
"' is undocumented. Should lld implement it?");
break;
case OPT_grp_obsolete:
warn("Option `" + opt.getPrefixedName() +
"' is obsolete. Please modernize your usage.");
break;
case OPT_grp_ignored:
warn("Option `" + opt.getPrefixedName() + "' is ignored.");
break;
case OPT_grp_ignored_silently:
break;
default:
warn("Option `" + opt.getPrefixedName() +
"' is not yet implemented. Stay tuned...");
break;
}
}
static const char *getReproduceOption(InputArgList &args) {
if (const Arg *arg = args.getLastArg(OPT_reproduce))
return arg->getValue();
return getenv("LLD_REPRODUCE");
}
static void parseClangOption(StringRef opt, const Twine &msg) {
std::string err;
raw_string_ostream os(err);
const char *argv[] = {"lld", opt.data()};
if (cl::ParseCommandLineOptions(2, argv, "", &os))
return;
os.flush();
error(msg + ": " + StringRef(err).trim());
}
static uint32_t parseDylibVersion(const ArgList &args, unsigned id) {
const Arg *arg = args.getLastArg(id);
if (!arg)
return 0;
if (config->outputType != MH_DYLIB) {
error(arg->getAsString(args) + ": only valid with -dylib");
return 0;
}
PackedVersion version;
if (!version.parse32(arg->getValue())) {
error(arg->getAsString(args) + ": malformed version");
return 0;
}
return version.rawValue();
}
static uint32_t parseProtection(StringRef protStr) {
uint32_t prot = 0;
for (char c : protStr) {
switch (c) {
case 'r':
prot |= VM_PROT_READ;
break;
case 'w':
prot |= VM_PROT_WRITE;
break;
case 'x':
prot |= VM_PROT_EXECUTE;
break;
case '-':
break;
default:
error("unknown -segprot letter '" + Twine(c) + "' in " + protStr);
return 0;
}
}
return prot;
}
static std::vector<SectionAlign> parseSectAlign(const opt::InputArgList &args) {
std::vector<SectionAlign> sectAligns;
for (const Arg *arg : args.filtered(OPT_sectalign)) {
StringRef segName = arg->getValue(0);
StringRef sectName = arg->getValue(1);
StringRef alignStr = arg->getValue(2);
if (alignStr.startswith("0x") || alignStr.startswith("0X"))
alignStr = alignStr.drop_front(2);
uint32_t align;
if (alignStr.getAsInteger(16, align)) {
error("-sectalign: failed to parse '" + StringRef(arg->getValue(2)) +
"' as number");
continue;
}
if (!isPowerOf2_32(align)) {
error("-sectalign: '" + StringRef(arg->getValue(2)) +
"' (in base 16) not a power of two");
continue;
}
sectAligns.push_back({segName, sectName, align});
}
return sectAligns;
}
PlatformType macho::removeSimulator(PlatformType platform) {
switch (platform) {
case PLATFORM_IOSSIMULATOR:
return PLATFORM_IOS;
case PLATFORM_TVOSSIMULATOR:
return PLATFORM_TVOS;
case PLATFORM_WATCHOSSIMULATOR:
return PLATFORM_WATCHOS;
default:
return platform;
}
}
static bool dataConstDefault(const InputArgList &args) {
static const std::vector<std::pair<PlatformType, VersionTuple>> minVersion = {
{PLATFORM_MACOS, VersionTuple(10, 15)},
{PLATFORM_IOS, VersionTuple(13, 0)},
{PLATFORM_TVOS, VersionTuple(13, 0)},
{PLATFORM_WATCHOS, VersionTuple(6, 0)},
{PLATFORM_BRIDGEOS, VersionTuple(4, 0)}};
PlatformType platform = removeSimulator(config->platformInfo.target.Platform);
auto it = llvm::find_if(minVersion,
[&](const auto &p) { return p.first == platform; });
if (it != minVersion.end())
if (config->platformInfo.minimum < it->second)
return false;
switch (config->outputType) {
case MH_EXECUTE:
return !args.hasArg(OPT_no_pie);
case MH_BUNDLE:
// FIXME: return false when -final_name ...
// has prefix "/System/Library/UserEventPlugins/"
// or matches "/usr/libexec/locationd" "/usr/libexec/terminusd"
return true;
case MH_DYLIB:
return true;
case MH_OBJECT:
return false;
default:
llvm_unreachable(
"unsupported output type for determining data-const default");
}
return false;
}
void SymbolPatterns::clear() {
literals.clear();
globs.clear();
}
void SymbolPatterns::insert(StringRef symbolName) {
if (symbolName.find_first_of("*?[]") == StringRef::npos)
literals.insert(CachedHashStringRef(symbolName));
else if (Expected<GlobPattern> pattern = GlobPattern::create(symbolName))
globs.emplace_back(*pattern);
else
error("invalid symbol-name pattern: " + symbolName);
}
bool SymbolPatterns::matchLiteral(StringRef symbolName) const {
return literals.contains(CachedHashStringRef(symbolName));
}
bool SymbolPatterns::matchGlob(StringRef symbolName) const {
for (const GlobPattern &glob : globs)
if (glob.match(symbolName))
return true;
return false;
}
bool SymbolPatterns::match(StringRef symbolName) const {
return matchLiteral(symbolName) || matchGlob(symbolName);
}
static void handleSymbolPatterns(InputArgList &args,
SymbolPatterns &symbolPatterns,
unsigned singleOptionCode,
unsigned listFileOptionCode) {
for (const Arg *arg : args.filtered(singleOptionCode))
symbolPatterns.insert(arg->getValue());
for (const Arg *arg : args.filtered(listFileOptionCode)) {
StringRef path = arg->getValue();
Optional<MemoryBufferRef> buffer = readFile(path);
if (!buffer) {
error("Could not read symbol file: " + path);
continue;
}
MemoryBufferRef mbref = *buffer;
for (StringRef line : args::getLines(mbref)) {
line = line.take_until([](char c) { return c == '#'; }).trim();
if (!line.empty())
symbolPatterns.insert(line);
}
}
}
static void createFiles(const InputArgList &args) {
TimeTraceScope timeScope("Load input files");
// This loop should be reserved for options whose exact ordering matters.
// Other options should be handled via filtered() and/or getLastArg().
bool isLazy = false;
for (const Arg *arg : args) {
const Option &opt = arg->getOption();
warnIfDeprecatedOption(opt);
warnIfUnimplementedOption(opt);
switch (opt.getID()) {
case OPT_INPUT:
addFile(rerootPath(arg->getValue()), ForceLoad::Default, isLazy);
break;
case OPT_needed_library:
if (auto *dylibFile = dyn_cast_or_null<DylibFile>(
addFile(rerootPath(arg->getValue()), ForceLoad::Default)))
dylibFile->forceNeeded = true;
break;
case OPT_reexport_library:
if (auto *dylibFile = dyn_cast_or_null<DylibFile>(
addFile(rerootPath(arg->getValue()), ForceLoad::Default))) {
config->hasReexports = true;
dylibFile->reexport = true;
}
break;
case OPT_weak_library:
if (auto *dylibFile = dyn_cast_or_null<DylibFile>(
addFile(rerootPath(arg->getValue()), ForceLoad::Default)))
dylibFile->forceWeakImport = true;
break;
case OPT_filelist:
addFileList(arg->getValue(), isLazy);
break;
case OPT_force_load:
addFile(rerootPath(arg->getValue()), ForceLoad::Yes);
break;
case OPT_l:
case OPT_needed_l:
case OPT_reexport_l:
case OPT_weak_l:
addLibrary(arg->getValue(), opt.getID() == OPT_needed_l,
opt.getID() == OPT_weak_l, opt.getID() == OPT_reexport_l,
/*isExplicit=*/true, ForceLoad::Default);
break;
case OPT_framework:
case OPT_needed_framework:
case OPT_reexport_framework:
case OPT_weak_framework:
addFramework(arg->getValue(), opt.getID() == OPT_needed_framework,
opt.getID() == OPT_weak_framework,
opt.getID() == OPT_reexport_framework, /*isExplicit=*/true,
ForceLoad::Default);
break;
case OPT_start_lib:
if (isLazy)
error("nested --start-lib");
isLazy = true;
break;
case OPT_end_lib:
if (!isLazy)
error("stray --end-lib");
isLazy = false;
break;
default:
break;
}
}
}
static void gatherInputSections() {
TimeTraceScope timeScope("Gathering input sections");
int inputOrder = 0;
for (const InputFile *file : inputFiles) {
for (const Section *section : file->sections) {
const Subsections &subsections = section->subsections;
if (subsections.empty())
continue;
if (subsections[0].isec->getName() == section_names::compactUnwind)
// Compact unwind entries require special handling elsewhere.
continue;
ConcatOutputSection *osec = nullptr;
for (const Subsection &subsection : subsections) {
if (auto *isec = dyn_cast<ConcatInputSection>(subsection.isec)) {
if (isec->isCoalescedWeak())
continue;
isec->outSecOff = inputOrder++;
if (!osec)
osec = ConcatOutputSection::getOrCreateForInput(isec);
isec->parent = osec;
inputSections.push_back(isec);
} else if (auto *isec =
dyn_cast<CStringInputSection>(subsection.isec)) {
if (in.cStringSection->inputOrder == UnspecifiedInputOrder)
in.cStringSection->inputOrder = inputOrder++;
in.cStringSection->addInput(isec);
} else if (auto *isec =
dyn_cast<WordLiteralInputSection>(subsection.isec)) {
if (in.wordLiteralSection->inputOrder == UnspecifiedInputOrder)
in.wordLiteralSection->inputOrder = inputOrder++;
in.wordLiteralSection->addInput(isec);
} else {
llvm_unreachable("unexpected input section kind");
}
}
}
}
assert(inputOrder <= UnspecifiedInputOrder);
}
static void foldIdenticalLiterals() {
// We always create a cStringSection, regardless of whether dedupLiterals is
// true. If it isn't, we simply create a non-deduplicating CStringSection.
// Either way, we must unconditionally finalize it here.
in.cStringSection->finalizeContents();
if (in.wordLiteralSection)
in.wordLiteralSection->finalizeContents();
}
static void referenceStubBinder() {
bool needsStubHelper = config->outputType == MH_DYLIB ||
config->outputType == MH_EXECUTE ||
config->outputType == MH_BUNDLE;
if (!needsStubHelper || !symtab->find("dyld_stub_binder"))
return;
// dyld_stub_binder is used by dyld to resolve lazy bindings. This code here
// adds a opportunistic reference to dyld_stub_binder if it happens to exist.
// dyld_stub_binder is in libSystem.dylib, which is usually linked in. This
// isn't needed for correctness, but the presence of that symbol suppresses
// "no symbols" diagnostics from `nm`.
// StubHelperSection::setup() adds a reference and errors out if
// dyld_stub_binder doesn't exist in case it is actually needed.
symtab->addUndefined("dyld_stub_binder", /*file=*/nullptr, /*isWeak=*/false);
}
bool macho::link(ArrayRef<const char *> argsArr, llvm::raw_ostream &stdoutOS,
llvm::raw_ostream &stderrOS, bool exitEarly,
bool disableOutput) {
// This driver-specific context will be freed later by lldMain().
auto *ctx = new CommonLinkerContext;
ctx->e.initialize(stdoutOS, stderrOS, exitEarly, disableOutput);
ctx->e.cleanupCallback = []() {
resolvedFrameworks.clear();
resolvedLibraries.clear();
cachedReads.clear();
concatOutputSections.clear();
inputFiles.clear();
inputSections.clear();
loadedArchives.clear();
loadedObjectFrameworks.clear();
syntheticSections.clear();
thunkMap.clear();
firstTLVDataSection = nullptr;
tar = nullptr;
memset(&in, 0, sizeof(in));
resetLoadedDylibs();
resetOutputSegments();
resetWriter();
InputFile::resetIdCount();
};
ctx->e.logName = args::getFilenameWithoutExe(argsArr[0]);
MachOOptTable parser;
InputArgList args = parser.parse(argsArr.slice(1));
ctx->e.errorLimitExceededMsg = "too many errors emitted, stopping now "
"(use --error-limit=0 to see all errors)";
ctx->e.errorLimit = args::getInteger(args, OPT_error_limit_eq, 20);
ctx->e.verbose = args.hasArg(OPT_verbose);
if (args.hasArg(OPT_help_hidden)) {
parser.printHelp(argsArr[0], /*showHidden=*/true);
return true;
}
if (args.hasArg(OPT_help)) {
parser.printHelp(argsArr[0], /*showHidden=*/false);
return true;
}
if (args.hasArg(OPT_version)) {
message(getLLDVersion());
return true;
}
config = std::make_unique<Configuration>();
symtab = std::make_unique<SymbolTable>();
target = createTargetInfo(args);
depTracker = std::make_unique<DependencyTracker>(
args.getLastArgValue(OPT_dependency_info));
if (errorCount())
return false;
if (args.hasArg(OPT_pagezero_size)) {
uint64_t pagezeroSize = args::getHex(args, OPT_pagezero_size, 0);
// ld64 does something really weird. It attempts to realign the value to the
// page size, but assumes the the page size is 4K. This doesn't work with
// most of Apple's ARM64 devices, which use a page size of 16K. This means
// that it will first 4K align it by rounding down, then round up to 16K.
// This probably only happened because no one using this arg with anything
// other then 0, so no one checked if it did what is what it says it does.
// So we are not copying this weird behavior and doing the it in a logical
// way, by always rounding down to page size.
if (!isAligned(Align(target->getPageSize()), pagezeroSize)) {
pagezeroSize -= pagezeroSize % target->getPageSize();
warn("__PAGEZERO size is not page aligned, rounding down to 0x" +
Twine::utohexstr(pagezeroSize));
}
target->pageZeroSize = pagezeroSize;
}
config->osoPrefix = args.getLastArgValue(OPT_oso_prefix);
if (!config->osoPrefix.empty()) {
// Expand special characters, such as ".", "..", or "~", if present.
// Note: LD64 only expands "." and not other special characters.
// That seems silly to imitate so we will not try to follow it, but rather
// just use real_path() to do it.
// The max path length is 4096, in theory. However that seems quite long
// and seems unlikely that any one would want to strip everything from the
// path. Hence we've picked a reasonably large number here.
SmallString<1024> expanded;
if (!fs::real_path(config->osoPrefix, expanded,
/*expand_tilde=*/true)) {
// Note: LD64 expands "." to be `<current_dir>/`
// (ie., it has a slash suffix) whereas real_path() doesn't.
// So we have to append '/' to be consistent.
StringRef sep = sys::path::get_separator();
// real_path removes trailing slashes as part of the normalization, but
// these are meaningful for our text based stripping
if (config->osoPrefix.equals(".") || config->osoPrefix.endswith(sep))
expanded += sep;
config->osoPrefix = saver().save(expanded.str());
}
}
// Must be set before any InputSections and Symbols are created.
config->deadStrip = args.hasArg(OPT_dead_strip);
config->systemLibraryRoots = getSystemLibraryRoots(args);
if (const char *path = getReproduceOption(args)) {
// Note that --reproduce is a debug option so you can ignore it
// if you are trying to understand the whole picture of the code.
Expected<std::unique_ptr<TarWriter>> errOrWriter =
TarWriter::create(path, path::stem(path));
if (errOrWriter) {
tar = std::move(*errOrWriter);
tar->append("response.txt", createResponseFile(args));
tar->append("version.txt", getLLDVersion() + "\n");
} else {
error("--reproduce: " + toString(errOrWriter.takeError()));
}
}
if (auto *arg = args.getLastArg(OPT_threads_eq)) {
StringRef v(arg->getValue());
unsigned threads = 0;
if (!llvm::to_integer(v, threads, 0) || threads == 0)
error(arg->getSpelling() + ": expected a positive integer, but got '" +
arg->getValue() + "'");
parallel::strategy = hardware_concurrency(threads);
config->thinLTOJobs = v;
}
if (auto *arg = args.getLastArg(OPT_thinlto_jobs_eq))
config->thinLTOJobs = arg->getValue();
if (!get_threadpool_strategy(config->thinLTOJobs))
error("--thinlto-jobs: invalid job count: " + config->thinLTOJobs);
for (const Arg *arg : args.filtered(OPT_u)) {
config->explicitUndefineds.push_back(symtab->addUndefined(
arg->getValue(), /*file=*/nullptr, /*isWeakRef=*/false));
}
for (const Arg *arg : args.filtered(OPT_U))
config->explicitDynamicLookups.insert(arg->getValue());
config->mapFile = args.getLastArgValue(OPT_map);
config->optimize = args::getInteger(args, OPT_O, 1);
config->outputFile = args.getLastArgValue(OPT_o, "a.out");
config->finalOutput =
args.getLastArgValue(OPT_final_output, config->outputFile);
config->astPaths = args.getAllArgValues(OPT_add_ast_path);
config->headerPad = args::getHex(args, OPT_headerpad, /*Default=*/32);
config->headerPadMaxInstallNames =
args.hasArg(OPT_headerpad_max_install_names);
config->printDylibSearch =
args.hasArg(OPT_print_dylib_search) || getenv("RC_TRACE_DYLIB_SEARCHING");
config->printEachFile = args.hasArg(OPT_t);
config->printWhyLoad = args.hasArg(OPT_why_load);
config->omitDebugInfo = args.hasArg(OPT_S);
config->outputType = getOutputType(args);
config->errorForArchMismatch = args.hasArg(OPT_arch_errors_fatal);
if (const Arg *arg = args.getLastArg(OPT_bundle_loader)) {
if (config->outputType != MH_BUNDLE)
error("-bundle_loader can only be used with MachO bundle output");
addFile(arg->getValue(), ForceLoad::Default, /*isLazy=*/false,
/*isExplicit=*/false,
/*isBundleLoader=*/true);
}
if (const Arg *arg = args.getLastArg(OPT_umbrella)) {
if (config->outputType != MH_DYLIB)
warn("-umbrella used, but not creating dylib");
config->umbrella = arg->getValue();
}
config->ltoObjPath = args.getLastArgValue(OPT_object_path_lto);
config->ltoNewPassManager =
args.hasFlag(OPT_no_lto_legacy_pass_manager, OPT_lto_legacy_pass_manager,
LLVM_ENABLE_NEW_PASS_MANAGER);
config->ltoo = args::getInteger(args, OPT_lto_O, 2);
if (config->ltoo > 3)
error("--lto-O: invalid optimization level: " + Twine(config->ltoo));
config->thinLTOCacheDir = args.getLastArgValue(OPT_cache_path_lto);
config->thinLTOCachePolicy = getLTOCachePolicy(args);
config->runtimePaths = args::getStrings(args, OPT_rpath);
config->allLoad = args.hasFlag(OPT_all_load, OPT_noall_load, false);
config->archMultiple = args.hasArg(OPT_arch_multiple);
config->applicationExtension = args.hasFlag(
OPT_application_extension, OPT_no_application_extension, false);
config->exportDynamic = args.hasArg(OPT_export_dynamic);
config->forceLoadObjC = args.hasArg(OPT_ObjC);
config->forceLoadSwift = args.hasArg(OPT_force_load_swift_libs);
config->deadStripDylibs = args.hasArg(OPT_dead_strip_dylibs);
config->demangle = args.hasArg(OPT_demangle);
config->implicitDylibs = !args.hasArg(OPT_no_implicit_dylibs);
config->emitFunctionStarts =
args.hasFlag(OPT_function_starts, OPT_no_function_starts, true);
config->emitBitcodeBundle = args.hasArg(OPT_bitcode_bundle);
config->emitDataInCodeInfo =
args.hasFlag(OPT_data_in_code_info, OPT_no_data_in_code_info, true);
config->icfLevel = getICFLevel(args);
config->dedupLiterals =
args.hasFlag(OPT_deduplicate_literals, OPT_icf_eq, false) ||
config->icfLevel != ICFLevel::none;
config->warnDylibInstallName = args.hasFlag(
OPT_warn_dylib_install_name, OPT_no_warn_dylib_install_name, false);
config->callGraphProfileSort = args.hasFlag(
OPT_call_graph_profile_sort, OPT_no_call_graph_profile_sort, true);
config->printSymbolOrder = args.getLastArgValue(OPT_print_symbol_order);
// FIXME: Add a commandline flag for this too.
config->zeroModTime = getenv("ZERO_AR_DATE");
std::array<PlatformType, 3> encryptablePlatforms{
PLATFORM_IOS, PLATFORM_WATCHOS, PLATFORM_TVOS};
config->emitEncryptionInfo =
args.hasFlag(OPT_encryptable, OPT_no_encryption,
is_contained(encryptablePlatforms, config->platform()));
#ifndef LLVM_HAVE_LIBXAR
if (config->emitBitcodeBundle)
error("-bitcode_bundle unsupported because LLD wasn't built with libxar");
#endif
if (const Arg *arg = args.getLastArg(OPT_install_name)) {
if (config->warnDylibInstallName && config->outputType != MH_DYLIB)
warn(
arg->getAsString(args) +
": ignored, only has effect with -dylib [--warn-dylib-install-name]");
else
config->installName = arg->getValue();
} else if (config->outputType == MH_DYLIB) {
config->installName = config->finalOutput;
}
if (args.hasArg(OPT_mark_dead_strippable_dylib)) {
if (config->outputType != MH_DYLIB)
warn("-mark_dead_strippable_dylib: ignored, only has effect with -dylib");
else
config->markDeadStrippableDylib = true;
}
if (const Arg *arg = args.getLastArg(OPT_static, OPT_dynamic))
config->staticLink = (arg->getOption().getID() == OPT_static);
if (const Arg *arg =
args.getLastArg(OPT_flat_namespace, OPT_twolevel_namespace))
config->namespaceKind = arg->getOption().getID() == OPT_twolevel_namespace
? NamespaceKind::twolevel
: NamespaceKind::flat;
config->undefinedSymbolTreatment = getUndefinedSymbolTreatment(args);
if (config->outputType == MH_EXECUTE)
config->entry = symtab->addUndefined(args.getLastArgValue(OPT_e, "_main"),
/*file=*/nullptr,
/*isWeakRef=*/false);
config->librarySearchPaths =
getLibrarySearchPaths(args, config->systemLibraryRoots);
config->frameworkSearchPaths =
getFrameworkSearchPaths(args, config->systemLibraryRoots);
if (const Arg *arg =
args.getLastArg(OPT_search_paths_first, OPT_search_dylibs_first))
config->searchDylibsFirst =
arg->getOption().getID() == OPT_search_dylibs_first;
config->dylibCompatibilityVersion =
parseDylibVersion(args, OPT_compatibility_version);
config->dylibCurrentVersion = parseDylibVersion(args, OPT_current_version);
config->dataConst =
args.hasFlag(OPT_data_const, OPT_no_data_const, dataConstDefault(args));
// Populate config->sectionRenameMap with builtin default renames.
// Options -rename_section and -rename_segment are able to override.
initializeSectionRenameMap();
// Reject every special character except '.' and '$'
// TODO(gkm): verify that this is the proper set of invalid chars
StringRef invalidNameChars("!\"#%&'()*+,-/:;<=>?@[\\]^`{|}~");
auto validName = [invalidNameChars](StringRef s) {
if (s.find_first_of(invalidNameChars) != StringRef::npos)
error("invalid name for segment or section: " + s);
return s;
};
for (const Arg *arg : args.filtered(OPT_rename_section)) {
config->sectionRenameMap[{validName(arg->getValue(0)),
validName(arg->getValue(1))}] = {
validName(arg->getValue(2)), validName(arg->getValue(3))};
}
for (const Arg *arg : args.filtered(OPT_rename_segment)) {
config->segmentRenameMap[validName(arg->getValue(0))] =
validName(arg->getValue(1));
}
config->sectionAlignments = parseSectAlign(args);
for (const Arg *arg : args.filtered(OPT_segprot)) {
StringRef segName = arg->getValue(0);
uint32_t maxProt = parseProtection(arg->getValue(1));
uint32_t initProt = parseProtection(arg->getValue(2));
if (maxProt != initProt && config->arch() != AK_i386)
error("invalid argument '" + arg->getAsString(args) +
"': max and init must be the same for non-i386 archs");
if (segName == segment_names::linkEdit)
error("-segprot cannot be used to change __LINKEDIT's protections");
config->segmentProtections.push_back({segName, maxProt, initProt});
}
handleSymbolPatterns(args, config->exportedSymbols, OPT_exported_symbol,
OPT_exported_symbols_list);
handleSymbolPatterns(args, config->unexportedSymbols, OPT_unexported_symbol,
OPT_unexported_symbols_list);
if (!config->exportedSymbols.empty() && !config->unexportedSymbols.empty()) {
error("cannot use both -exported_symbol* and -unexported_symbol* options\n"
">>> ignoring unexports");
config->unexportedSymbols.clear();
}
// Explicitly-exported literal symbols must be defined, but might
// languish in an archive if unreferenced elsewhere. Light a fire
// under those lazy symbols!
for (const CachedHashStringRef &cachedName : config->exportedSymbols.literals)
symtab->addUndefined(cachedName.val(), /*file=*/nullptr,
/*isWeakRef=*/false);
for (const Arg *arg : args.filtered(OPT_why_live))
config->whyLive.insert(arg->getValue());
if (!config->whyLive.empty() && !config->deadStrip)
warn("-why_live has no effect without -dead_strip, ignoring");
config->saveTemps = args.hasArg(OPT_save_temps);
config->adhocCodesign = args.hasFlag(
OPT_adhoc_codesign, OPT_no_adhoc_codesign,
(config->arch() == AK_arm64 || config->arch() == AK_arm64e) &&
config->platform() == PLATFORM_MACOS);
if (args.hasArg(OPT_v)) {
message(getLLDVersion(), lld::errs());
message(StringRef("Library search paths:") +
(config->librarySearchPaths.empty()
? ""
: "\n\t" + join(config->librarySearchPaths, "\n\t")),
lld::errs());
message(StringRef("Framework search paths:") +
(config->frameworkSearchPaths.empty()
? ""
: "\n\t" + join(config->frameworkSearchPaths, "\n\t")),
lld::errs());
}
config->progName = argsArr[0];
config->timeTraceEnabled = args.hasArg(
OPT_time_trace, OPT_time_trace_granularity_eq, OPT_time_trace_file_eq);
config->timeTraceGranularity =
args::getInteger(args, OPT_time_trace_granularity_eq, 500);
// Initialize time trace profiler.
if (config->timeTraceEnabled)
timeTraceProfilerInitialize(config->timeTraceGranularity, config->progName);
{
TimeTraceScope timeScope("ExecuteLinker");
initLLVM(); // must be run before any call to addFile()
createFiles(args);
config->isPic = config->outputType == MH_DYLIB ||
config->outputType == MH_BUNDLE ||
(config->outputType == MH_EXECUTE &&
args.hasFlag(OPT_pie, OPT_no_pie, true));
// Now that all dylibs have been loaded, search for those that should be
// re-exported.
{
auto reexportHandler = [](const Arg *arg,
const std::vector<StringRef> &extensions) {
config->hasReexports = true;
StringRef searchName = arg->getValue();
if (!markReexport(searchName, extensions))
error(arg->getSpelling() + " " + searchName +
" does not match a supplied dylib");
};
std::vector<StringRef> extensions = {".tbd"};
for (const Arg *arg : args.filtered(OPT_sub_umbrella))
reexportHandler(arg, extensions);
extensions.push_back(".dylib");
for (const Arg *arg : args.filtered(OPT_sub_library))
reexportHandler(arg, extensions);
}
cl::ResetAllOptionOccurrences();
// Parse LTO options.
if (const Arg *arg = args.getLastArg(OPT_mcpu))
parseClangOption(saver().save("-mcpu=" + StringRef(arg->getValue())),
arg->getSpelling());
for (const Arg *arg : args.filtered(OPT_mllvm))
parseClangOption(arg->getValue(), arg->getSpelling());
compileBitcodeFiles();
replaceCommonSymbols();
StringRef orderFile = args.getLastArgValue(OPT_order_file);
if (!orderFile.empty())
parseOrderFile(orderFile);
referenceStubBinder();
// FIXME: should terminate the link early based on errors encountered so
// far?
createSyntheticSections();
createSyntheticSymbols();
if (!config->exportedSymbols.empty()) {
parallelForEach(symtab->getSymbols(), [](Symbol *sym) {
if (auto *defined = dyn_cast<Defined>(sym)) {
StringRef symbolName = defined->getName();
if (config->exportedSymbols.match(symbolName)) {
if (defined->privateExtern) {
if (defined->weakDefCanBeHidden) {
// weak_def_can_be_hidden symbols behave similarly to
// private_extern symbols in most cases, except for when
// it is explicitly exported.
// The former can be exported but the latter cannot.
defined->privateExtern = false;
} else {
warn("cannot export hidden symbol " + symbolName +
"\n>>> defined in " + toString(defined->getFile()));
}
}
} else {
defined->privateExtern = true;
}
}
});
} else if (!config->unexportedSymbols.empty()) {
parallelForEach(symtab->getSymbols(), [](Symbol *sym) {
if (auto *defined = dyn_cast<Defined>(sym))
if (config->unexportedSymbols.match(defined->getName()))
defined->privateExtern = true;
});
}
for (const Arg *arg : args.filtered(OPT_sectcreate)) {
StringRef segName = arg->getValue(0);
StringRef sectName = arg->getValue(1);
StringRef fileName = arg->getValue(2);
Optional<MemoryBufferRef> buffer = readFile(fileName);
if (buffer)
inputFiles.insert(make<OpaqueFile>(*buffer, segName, sectName));
}
for (const Arg *arg : args.filtered(OPT_add_empty_section)) {
StringRef segName = arg->getValue(0);
StringRef sectName = arg->getValue(1);
inputFiles.insert(make<OpaqueFile>(MemoryBufferRef(), segName, sectName));
}
gatherInputSections();
if (config->callGraphProfileSort)
extractCallGraphProfile();
if (config->deadStrip)
markLive();
// ICF assumes that all literals have been folded already, so we must run
// foldIdenticalLiterals before foldIdenticalSections.
foldIdenticalLiterals();
if (config->icfLevel != ICFLevel::none)
foldIdenticalSections();
// Write to an output file.
if (target->wordSize == 8)
writeResult<LP64>();
else
writeResult<ILP32>();
depTracker->write(getLLDVersion(), inputFiles, config->outputFile);
}
if (config->timeTraceEnabled) {
checkError(timeTraceProfilerWrite(
args.getLastArgValue(OPT_time_trace_file_eq).str(),
config->outputFile));
timeTraceProfilerCleanup();
}
return errorCount() == 0;
}