llvm-project/lld/ELF/Driver.cpp

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//===- Driver.cpp ---------------------------------------------------------===//
//
// The LLVM Linker
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// The driver drives the entire linking process. It is responsible for
// parsing command line options and doing whatever it is instructed to do.
//
// One notable thing in the LLD's driver when compared to other linkers is
// that the LLD's driver is agnostic on the host operating system.
// Other linkers usually have implicit default values (such as a dynamic
// linker path or library paths) for each host OS.
//
// I don't think implicit default values are useful because they are
// usually explicitly specified by the compiler driver. They can even
// be harmful when you are doing cross-linking. Therefore, in LLD, we
// simply trust the compiler driver to pass all required options to us
// and don't try to make effort on our side.
//
//===----------------------------------------------------------------------===//
#include "Driver.h"
#include "Config.h"
#include "Error.h"
#include "ICF.h"
#include "InputFiles.h"
#include "InputSection.h"
#include "LinkerScript.h"
#include "Memory.h"
#include "Strings.h"
#include "SymbolTable.h"
#include "Target.h"
#include "Threads.h"
#include "Writer.h"
#include "lld/Config/Version.h"
#include "lld/Driver/Driver.h"
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#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/Object/Decompressor.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/FileOutputBuffer.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/TarWriter.h"
#include "llvm/Support/TargetSelect.h"
#include "llvm/Support/raw_ostream.h"
#include <cstdlib>
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#include <utility>
using namespace llvm;
using namespace llvm::ELF;
using namespace llvm::object;
using namespace llvm::sys;
using namespace lld;
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using namespace lld::elf;
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Configuration *elf::Config;
LinkerDriver *elf::Driver;
BumpPtrAllocator elf::BAlloc;
StringSaver elf::Saver{BAlloc};
std::vector<SpecificAllocBase *> elf::SpecificAllocBase::Instances;
bool elf::link(ArrayRef<const char *> Args, bool CanExitEarly,
raw_ostream &Error) {
ErrorCount = 0;
ErrorOS = &Error;
Argv0 = Args[0];
InputSections.clear();
Tar = nullptr;
Config = make<Configuration>();
Driver = make<LinkerDriver>();
ScriptConfig = make<ScriptConfiguration>();
Driver->main(Args, CanExitEarly);
freeArena();
return !ErrorCount;
}
// Parses a linker -m option.
static std::tuple<ELFKind, uint16_t, uint8_t> parseEmulation(StringRef Emul) {
uint8_t OSABI = 0;
StringRef S = Emul;
if (S.endswith("_fbsd")) {
S = S.drop_back(5);
OSABI = ELFOSABI_FREEBSD;
}
std::pair<ELFKind, uint16_t> Ret =
StringSwitch<std::pair<ELFKind, uint16_t>>(S)
.Cases("aarch64elf", "aarch64linux", {ELF64LEKind, EM_AARCH64})
.Case("armelf_linux_eabi", {ELF32LEKind, EM_ARM})
.Case("elf32_x86_64", {ELF32LEKind, EM_X86_64})
.Cases("elf32btsmip", "elf32btsmipn32", {ELF32BEKind, EM_MIPS})
.Cases("elf32ltsmip", "elf32ltsmipn32", {ELF32LEKind, EM_MIPS})
.Case("elf32ppc", {ELF32BEKind, EM_PPC})
.Case("elf64btsmip", {ELF64BEKind, EM_MIPS})
.Case("elf64ltsmip", {ELF64LEKind, EM_MIPS})
.Case("elf64ppc", {ELF64BEKind, EM_PPC64})
.Cases("elf_amd64", "elf_x86_64", {ELF64LEKind, EM_X86_64})
.Case("elf_i386", {ELF32LEKind, EM_386})
.Case("elf_iamcu", {ELF32LEKind, EM_IAMCU})
.Default({ELFNoneKind, EM_NONE});
if (Ret.first == ELFNoneKind) {
if (S == "i386pe" || S == "i386pep" || S == "thumb2pe")
error("Windows targets are not supported on the ELF frontend: " + Emul);
else
error("unknown emulation: " + Emul);
}
return std::make_tuple(Ret.first, Ret.second, OSABI);
}
// Returns slices of MB by parsing MB as an archive file.
// Each slice consists of a member file in the archive.
std::vector<MemoryBufferRef>
LinkerDriver::getArchiveMembers(MemoryBufferRef MB) {
std::unique_ptr<Archive> File =
check(Archive::create(MB),
MB.getBufferIdentifier() + ": failed to parse archive");
std::vector<MemoryBufferRef> V;
Error Err = Error::success();
for (const ErrorOr<Archive::Child> &COrErr : File->children(Err)) {
Archive::Child C =
check(COrErr, MB.getBufferIdentifier() +
": could not get the child of the archive");
MemoryBufferRef MBRef =
check(C.getMemoryBufferRef(),
MB.getBufferIdentifier() +
": could not get the buffer for a child of the archive");
V.push_back(MBRef);
}
if (Err)
fatal(MB.getBufferIdentifier() + ": Archive::children failed: " +
toString(std::move(Err)));
// Take ownership of memory buffers created for members of thin archives.
for (std::unique_ptr<MemoryBuffer> &MB : File->takeThinBuffers())
make<std::unique_ptr<MemoryBuffer>>(std::move(MB));
return V;
}
// Opens and parses a file. Path has to be resolved already.
// Newly created memory buffers are owned by this driver.
void LinkerDriver::addFile(StringRef Path) {
using namespace sys::fs;
Optional<MemoryBufferRef> Buffer = readFile(Path);
if (!Buffer.hasValue())
return;
MemoryBufferRef MBRef = *Buffer;
if (InBinary) {
Files.push_back(make<BinaryFile>(MBRef));
return;
}
switch (identify_magic(MBRef.getBuffer())) {
case file_magic::unknown:
readLinkerScript(MBRef);
return;
case file_magic::archive:
if (InWholeArchive) {
for (MemoryBufferRef MB : getArchiveMembers(MBRef))
Files.push_back(createObjectFile(MB, Path));
return;
}
Files.push_back(make<ArchiveFile>(MBRef));
return;
case file_magic::elf_shared_object:
if (Config->Relocatable) {
error("attempted static link of dynamic object " + Path);
return;
}
Files.push_back(createSharedFile(MBRef));
return;
default:
if (InLib)
Files.push_back(make<LazyObjectFile>(MBRef));
else
Files.push_back(createObjectFile(MBRef));
}
}
// Add a given library by searching it from input search paths.
void LinkerDriver::addLibrary(StringRef Name) {
if (Optional<std::string> Path = searchLibrary(Name))
addFile(*Path);
else
error("unable to find library -l" + Name);
}
// 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(opt::InputArgList &Args) {
InitializeAllTargets();
InitializeAllTargetMCs();
InitializeAllAsmPrinters();
InitializeAllAsmParsers();
// Parse and evaluate -mllvm options.
std::vector<const char *> V;
V.push_back("lld (LLVM option parsing)");
for (auto *Arg : Args.filtered(OPT_mllvm))
V.push_back(Arg->getValue());
cl::ParseCommandLineOptions(V.size(), V.data());
}
// Some command line options or some combinations of them are not allowed.
// This function checks for such errors.
static void checkOptions(opt::InputArgList &Args) {
// The MIPS ABI as of 2016 does not support the GNU-style symbol lookup
// table which is a relatively new feature.
if (Config->EMachine == EM_MIPS && Config->GnuHash)
error("the .gnu.hash section is not compatible with the MIPS target.");
if (Config->Pie && Config->Shared)
error("-shared and -pie may not be used together");
if (Config->Relocatable) {
if (Config->Shared)
error("-r and -shared may not be used together");
if (Config->GcSections)
error("-r and --gc-sections may not be used together");
if (Config->ICF)
error("-r and --icf may not be used together");
if (Config->Pie)
error("-r and -pie may not be used together");
}
}
static StringRef getString(opt::InputArgList &Args, unsigned Key,
StringRef Default = "") {
if (auto *Arg = Args.getLastArg(Key))
return Arg->getValue();
return Default;
}
static int getInteger(opt::InputArgList &Args, unsigned Key, int Default) {
int V = Default;
if (auto *Arg = Args.getLastArg(Key)) {
StringRef S = Arg->getValue();
if (S.getAsInteger(10, V))
error(Arg->getSpelling() + ": number expected, but got " + S);
}
return V;
}
static const char *getReproduceOption(opt::InputArgList &Args) {
if (auto *Arg = Args.getLastArg(OPT_reproduce))
return Arg->getValue();
return getenv("LLD_REPRODUCE");
}
static bool hasZOption(opt::InputArgList &Args, StringRef Key) {
for (auto *Arg : Args.filtered(OPT_z))
if (Key == Arg->getValue())
return true;
return false;
}
static uint64_t getZOptionValue(opt::InputArgList &Args, StringRef Key,
uint64_t Default) {
for (auto *Arg : Args.filtered(OPT_z)) {
StringRef Value = Arg->getValue();
size_t Pos = Value.find("=");
if (Pos != StringRef::npos && Key == Value.substr(0, Pos)) {
Value = Value.substr(Pos + 1);
uint64_t Result;
if (Value.getAsInteger(0, Result))
error("invalid " + Key + ": " + Value);
return Result;
}
}
return Default;
}
void LinkerDriver::main(ArrayRef<const char *> ArgsArr, bool CanExitEarly) {
ELFOptTable Parser;
opt::InputArgList Args = Parser.parse(ArgsArr.slice(1));
// Interpret this flag early because error() depends on them.
Config->ErrorLimit = getInteger(Args, OPT_error_limit, 20);
// Handle -help
if (Args.hasArg(OPT_help)) {
printHelp(ArgsArr[0]);
return;
}
// GNU linkers disagree here. Though both -version and -v are mentioned
// in help to print the version information, GNU ld just normally exits,
// while gold can continue linking. We are compatible with ld.bfd here.
if (Args.hasArg(OPT_version) || Args.hasArg(OPT_v))
message(getLLDVersion());
if (Args.hasArg(OPT_version))
return;
Config->ExitEarly = CanExitEarly && !Args.hasArg(OPT_full_shutdown);
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 = ErrOrWriter->get();
Tar->append("response.txt", createResponseFile(Args));
Tar->append("version.txt", getLLDVersion() + "\n");
make<std::unique_ptr<TarWriter>>(std::move(*ErrOrWriter));
} else {
error(Twine("--reproduce: failed to open ") + Path + ": " +
toString(ErrOrWriter.takeError()));
}
}
readConfigs(Args);
initLLVM(Args);
createFiles(Args);
inferMachineType();
checkOptions(Args);
if (ErrorCount)
return;
switch (Config->EKind) {
case ELF32LEKind:
link<ELF32LE>(Args);
return;
case ELF32BEKind:
link<ELF32BE>(Args);
return;
case ELF64LEKind:
link<ELF64LE>(Args);
return;
case ELF64BEKind:
link<ELF64BE>(Args);
return;
default:
llvm_unreachable("unknown Config->EKind");
}
}
static bool getArg(opt::InputArgList &Args, unsigned K1, unsigned K2,
bool Default) {
if (auto *Arg = Args.getLastArg(K1, K2))
return Arg->getOption().getID() == K1;
return Default;
}
static std::vector<StringRef> getArgs(opt::InputArgList &Args, int Id) {
std::vector<StringRef> V;
for (auto *Arg : Args.filtered(Id))
V.push_back(Arg->getValue());
return V;
}
static std::string getRPath(opt::InputArgList &Args) {
std::vector<StringRef> V = getArgs(Args, OPT_rpath);
return llvm::join(V.begin(), V.end(), ":");
}
// Determines what we should do if there are remaining unresolved
// symbols after the name resolution.
static UnresolvedPolicy getUnresolvedSymbolPolicy(opt::InputArgList &Args) {
// -noinhibit-exec or -r imply some default values.
if (Args.hasArg(OPT_noinhibit_exec))
return UnresolvedPolicy::WarnAll;
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if (Args.hasArg(OPT_relocatable))
return UnresolvedPolicy::IgnoreAll;
UnresolvedPolicy ErrorOrWarn =
getArg(Args, OPT_error_undef, OPT_warn_undef, true)
? UnresolvedPolicy::ReportError
: UnresolvedPolicy::Warn;
// Process the last of -unresolved-symbols, -no-undefined or -z defs.
for (auto *Arg : llvm::reverse(Args)) {
switch (Arg->getOption().getID()) {
case OPT_unresolved_symbols: {
StringRef S = Arg->getValue();
if (S == "ignore-all" || S == "ignore-in-object-files")
return UnresolvedPolicy::Ignore;
if (S == "ignore-in-shared-libs" || S == "report-all")
return ErrorOrWarn;
error("unknown --unresolved-symbols value: " + S);
continue;
}
case OPT_no_undefined:
return ErrorOrWarn;
case OPT_z:
if (StringRef(Arg->getValue()) == "defs")
return ErrorOrWarn;
continue;
}
}
// -shared implies -unresolved-symbols=ignore-all because missing
// symbols are likely to be resolved at runtime using other DSOs.
if (Config->Shared)
return UnresolvedPolicy::Ignore;
return ErrorOrWarn;
}
static Target2Policy getTarget2(opt::InputArgList &Args) {
if (auto *Arg = Args.getLastArg(OPT_target2)) {
StringRef S = Arg->getValue();
if (S == "rel")
return Target2Policy::Rel;
if (S == "abs")
return Target2Policy::Abs;
if (S == "got-rel")
return Target2Policy::GotRel;
error("unknown --target2 option: " + S);
}
return Target2Policy::GotRel;
}
static bool isOutputFormatBinary(opt::InputArgList &Args) {
if (auto *Arg = Args.getLastArg(OPT_oformat)) {
StringRef S = Arg->getValue();
if (S == "binary")
return true;
error("unknown --oformat value: " + S);
}
return false;
}
static DiscardPolicy getDiscard(opt::InputArgList &Args) {
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if (Args.hasArg(OPT_relocatable))
return DiscardPolicy::None;
auto *Arg =
Args.getLastArg(OPT_discard_all, OPT_discard_locals, OPT_discard_none);
if (!Arg)
return DiscardPolicy::Default;
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if (Arg->getOption().getID() == OPT_discard_all)
return DiscardPolicy::All;
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if (Arg->getOption().getID() == OPT_discard_locals)
return DiscardPolicy::Locals;
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return DiscardPolicy::None;
}
static StringRef getDynamicLinker(opt::InputArgList &Args) {
auto *Arg = Args.getLastArg(OPT_dynamic_linker, OPT_no_dynamic_linker);
if (!Arg || Arg->getOption().getID() == OPT_no_dynamic_linker)
return "";
return Arg->getValue();
}
static StripPolicy getStrip(opt::InputArgList &Args) {
if (Args.hasArg(OPT_relocatable))
return StripPolicy::None;
auto *Arg = Args.getLastArg(OPT_strip_all, OPT_strip_debug);
if (!Arg)
return StripPolicy::None;
if (Arg->getOption().getID() == OPT_strip_all)
return StripPolicy::All;
return StripPolicy::Debug;
}
static uint64_t parseSectionAddress(StringRef S, opt::Arg *Arg) {
uint64_t VA = 0;
if (S.startswith("0x"))
S = S.drop_front(2);
if (S.getAsInteger(16, VA))
error("invalid argument: " + toString(Arg));
return VA;
}
static StringMap<uint64_t> getSectionStartMap(opt::InputArgList &Args) {
StringMap<uint64_t> Ret;
for (auto *Arg : Args.filtered(OPT_section_start)) {
StringRef Name;
StringRef Addr;
std::tie(Name, Addr) = StringRef(Arg->getValue()).split('=');
Ret[Name] = parseSectionAddress(Addr, Arg);
}
if (auto *Arg = Args.getLastArg(OPT_Ttext))
Ret[".text"] = parseSectionAddress(Arg->getValue(), Arg);
if (auto *Arg = Args.getLastArg(OPT_Tdata))
Ret[".data"] = parseSectionAddress(Arg->getValue(), Arg);
if (auto *Arg = Args.getLastArg(OPT_Tbss))
Ret[".bss"] = parseSectionAddress(Arg->getValue(), Arg);
return Ret;
}
static SortSectionPolicy getSortSection(opt::InputArgList &Args) {
StringRef S = getString(Args, OPT_sort_section);
if (S == "alignment")
return SortSectionPolicy::Alignment;
if (S == "name")
return SortSectionPolicy::Name;
if (!S.empty())
error("unknown --sort-section rule: " + S);
return SortSectionPolicy::Default;
}
static std::pair<bool, bool> getHashStyle(opt::InputArgList &Args) {
StringRef S = getString(Args, OPT_hash_style, "sysv");
if (S == "sysv")
return {true, false};
if (S == "gnu")
return {false, true};
if (S != "both")
error("unknown -hash-style: " + S);
return {true, true};
}
static std::vector<StringRef> getLines(MemoryBufferRef MB) {
SmallVector<StringRef, 0> Arr;
MB.getBuffer().split(Arr, '\n');
std::vector<StringRef> Ret;
for (StringRef S : Arr) {
S = S.trim();
if (!S.empty())
Ret.push_back(S);
}
return Ret;
}
// Initializes Config members by the command line options.
void LinkerDriver::readConfigs(opt::InputArgList &Args) {
Config->AllowMultipleDefinition = Args.hasArg(OPT_allow_multiple_definition);
Config->AuxiliaryList = getArgs(Args, OPT_auxiliary);
Config->Bsymbolic = Args.hasArg(OPT_Bsymbolic);
Config->BsymbolicFunctions = Args.hasArg(OPT_Bsymbolic_functions);
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Config->DefineCommon = getArg(Args, OPT_define_common, OPT_no_define_common,
!Args.hasArg(OPT_relocatable));
Config->Demangle = getArg(Args, OPT_demangle, OPT_no_demangle, true);
Config->DisableVerify = Args.hasArg(OPT_disable_verify);
Config->Discard = getDiscard(Args);
Config->DynamicLinker = getDynamicLinker(Args);
Config->EhFrameHdr = Args.hasArg(OPT_eh_frame_hdr);
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Config->EmitRelocs = Args.hasArg(OPT_emit_relocs);
Config->EnableNewDtags = !Args.hasArg(OPT_disable_new_dtags);
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Config->Entry = getString(Args, OPT_entry);
Config->ExportDynamic =
getArg(Args, OPT_export_dynamic, OPT_no_export_dynamic, false);
Config->FatalWarnings =
getArg(Args, OPT_fatal_warnings, OPT_no_fatal_warnings, false);
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Config->Fini = getString(Args, OPT_fini, "_fini");
Config->GcSections = getArg(Args, OPT_gc_sections, OPT_no_gc_sections, false);
Config->GdbIndex = Args.hasArg(OPT_gdb_index);
Config->ICF = Args.hasArg(OPT_icf);
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Config->Init = getString(Args, OPT_init, "_init");
Config->LTOAAPipeline = getString(Args, OPT_lto_aa_pipeline);
Config->LTONewPmPasses = getString(Args, OPT_lto_newpm_passes);
Config->LTOO = getInteger(Args, OPT_lto_O, 2);
Config->LTOPartitions = getInteger(Args, OPT_lto_partitions, 1);
Config->MapFile = getString(Args, OPT_Map);
Config->NoGnuUnique = Args.hasArg(OPT_no_gnu_unique);
Config->NoUndefinedVersion = Args.hasArg(OPT_no_undefined_version);
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Config->Nostdlib = Args.hasArg(OPT_nostdlib);
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Config->OFormatBinary = isOutputFormatBinary(Args);
Config->Omagic = Args.hasArg(OPT_omagic);
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Config->OptRemarksFilename = getString(Args, OPT_opt_remarks_filename);
Config->OptRemarksWithHotness = Args.hasArg(OPT_opt_remarks_with_hotness);
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Config->Optimize = getInteger(Args, OPT_O, 1);
Config->OutputFile = getString(Args, OPT_o);
Config->Pie = getArg(Args, OPT_pie, OPT_nopie, false);
Config->PrintGcSections = Args.hasArg(OPT_print_gc_sections);
Config->RPath = getRPath(Args);
Config->Relocatable = Args.hasArg(OPT_relocatable);
Config->SaveTemps = Args.hasArg(OPT_save_temps);
Config->SearchPaths = getArgs(Args, OPT_L);
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Config->SectionStartMap = getSectionStartMap(Args);
Config->Shared = Args.hasArg(OPT_shared);
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Config->SingleRoRx = Args.hasArg(OPT_no_rosegment);
Config->SoName = getString(Args, OPT_soname);
Config->SortSection = getSortSection(Args);
Config->Strip = getStrip(Args);
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Config->Sysroot = getString(Args, OPT_sysroot);
Config->Target1Rel = getArg(Args, OPT_target1_rel, OPT_target1_abs, false);
Config->Target2 = getTarget2(Args);
Config->ThinLTOCacheDir = getString(Args, OPT_thinlto_cache_dir);
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Config->ThinLTOJobs = getInteger(Args, OPT_thinlto_jobs, -1u);
Config->Threads = getArg(Args, OPT_threads, OPT_no_threads, true);
Config->Trace = Args.hasArg(OPT_trace);
Config->Undefined = getArgs(Args, OPT_undefined);
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Config->UnresolvedSymbols = getUnresolvedSymbolPolicy(Args);
Config->Verbose = Args.hasArg(OPT_verbose);
Config->WarnCommon = Args.hasArg(OPT_warn_common);
Config->ZCombreloc = !hasZOption(Args, "nocombreloc");
Config->ZExecstack = hasZOption(Args, "execstack");
Config->ZNocopyreloc = hasZOption(Args, "nocopyreloc");
Config->ZNodelete = hasZOption(Args, "nodelete");
Config->ZNow = hasZOption(Args, "now");
Config->ZOrigin = hasZOption(Args, "origin");
Config->ZRelro = !hasZOption(Args, "norelro");
Config->ZStackSize = getZOptionValue(Args, "stack-size", 0);
Config->ZText = !hasZOption(Args, "notext");
Config->ZWxneeded = hasZOption(Args, "wxneeded");
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if (Config->LTOO > 3)
error("invalid optimization level for LTO: " + getString(Args, OPT_lto_O));
if (Config->LTOPartitions == 0)
error("--lto-partitions: number of threads must be > 0");
if (Config->ThinLTOJobs == 0)
error("--thinlto-jobs: number of threads must be > 0");
if (auto *Arg = Args.getLastArg(OPT_m)) {
// Parse ELF{32,64}{LE,BE} and CPU type.
StringRef S = Arg->getValue();
std::tie(Config->EKind, Config->EMachine, Config->OSABI) =
parseEmulation(S);
Config->MipsN32Abi = (S == "elf32btsmipn32" || S == "elf32ltsmipn32");
Config->Emulation = S;
}
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if (Args.hasArg(OPT_print_map))
Config->MapFile = "-";
// --omagic is an option to create old-fashioned executables in which
// .text segments are writable. Today, the option is still in use to
// create special-purpose programs such as boot loaders. It doesn't
// make sense to create PT_GNU_RELRO for such executables.
if (Config->Omagic)
Config->ZRelro = false;
std::tie(Config->SysvHash, Config->GnuHash) = getHashStyle(Args);
// Parse --build-id or --build-id=<style>. We handle "tree" as a
// synonym for "sha1" because all of our hash functions including
// -build-id=sha1 are tree hashes for performance reasons.
if (Args.hasArg(OPT_build_id))
Config->BuildId = BuildIdKind::Fast;
if (auto *Arg = Args.getLastArg(OPT_build_id_eq)) {
StringRef S = Arg->getValue();
if (S == "md5") {
Config->BuildId = BuildIdKind::Md5;
} else if (S == "sha1" || S == "tree") {
Config->BuildId = BuildIdKind::Sha1;
} else if (S == "uuid") {
Config->BuildId = BuildIdKind::Uuid;
} else if (S == "none") {
Config->BuildId = BuildIdKind::None;
} else if (S.startswith("0x")) {
Config->BuildId = BuildIdKind::Hexstring;
Config->BuildIdVector = parseHex(S.substr(2));
} else {
error("unknown --build-id style: " + S);
}
}
if (!Config->Shared && !Config->AuxiliaryList.empty())
error("-f may not be used without -shared");
for (auto *Arg : Args.filtered(OPT_dynamic_list))
if (Optional<MemoryBufferRef> Buffer = readFile(Arg->getValue()))
readDynamicList(*Buffer);
if (auto *Arg = Args.getLastArg(OPT_symbol_ordering_file))
if (Optional<MemoryBufferRef> Buffer = readFile(Arg->getValue()))
Config->SymbolOrderingFile = getLines(*Buffer);
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// If --retain-symbol-file is used, we'll keep only the symbols listed in
// the file and discard all others.
if (auto *Arg = Args.getLastArg(OPT_retain_symbols_file)) {
Config->DefaultSymbolVersion = VER_NDX_LOCAL;
if (Optional<MemoryBufferRef> Buffer = readFile(Arg->getValue()))
for (StringRef S : getLines(*Buffer))
Config->VersionScriptGlobals.push_back(
{S, /*IsExternCpp*/ false, /*HasWildcard*/ false});
}
for (auto *Arg : Args.filtered(OPT_export_dynamic_symbol))
Config->VersionScriptGlobals.push_back(
{Arg->getValue(), /*IsExternCpp*/ false, /*HasWildcard*/ false});
// Dynamic lists are a simplified linker script that doesn't need the
// "global:" and implicitly ends with a "local:*". Set the variables needed to
// simulate that.
if (Args.hasArg(OPT_dynamic_list) || Args.hasArg(OPT_export_dynamic_symbol)) {
Config->ExportDynamic = true;
if (!Config->Shared)
Config->DefaultSymbolVersion = VER_NDX_LOCAL;
}
if (auto *Arg = Args.getLastArg(OPT_version_script))
if (Optional<MemoryBufferRef> Buffer = readFile(Arg->getValue()))
readVersionScript(*Buffer);
}
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// Returns a value of "-format" option.
static bool getBinaryOption(StringRef S) {
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if (S == "binary")
return true;
if (S == "elf" || S == "default")
return false;
error("unknown -format value: " + S +
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" (supported formats: elf, default, binary)");
return false;
}
void LinkerDriver::createFiles(opt::InputArgList &Args) {
for (auto *Arg : Args) {
switch (Arg->getOption().getID()) {
case OPT_l:
addLibrary(Arg->getValue());
break;
case OPT_INPUT:
addFile(Arg->getValue());
break;
case OPT_alias_script_T:
case OPT_script:
if (Optional<MemoryBufferRef> MB = readFile(Arg->getValue()))
readLinkerScript(*MB);
break;
case OPT_as_needed:
Config->AsNeeded = true;
break;
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case OPT_format:
InBinary = getBinaryOption(Arg->getValue());
break;
case OPT_no_as_needed:
Config->AsNeeded = false;
break;
case OPT_Bstatic:
Config->Static = true;
break;
case OPT_Bdynamic:
Config->Static = false;
break;
case OPT_whole_archive:
InWholeArchive = true;
break;
case OPT_no_whole_archive:
InWholeArchive = false;
break;
case OPT_start_lib:
InLib = true;
break;
case OPT_end_lib:
InLib = false;
break;
}
}
if (Files.empty() && ErrorCount == 0)
error("no input files");
}
// If -m <machine_type> was not given, infer it from object files.
void LinkerDriver::inferMachineType() {
if (Config->EKind != ELFNoneKind)
return;
for (InputFile *F : Files) {
if (F->EKind == ELFNoneKind)
continue;
Config->EKind = F->EKind;
Config->EMachine = F->EMachine;
Config->OSABI = F->OSABI;
Config->MipsN32Abi = Config->EMachine == EM_MIPS && isMipsN32Abi(F);
return;
}
error("target emulation unknown: -m or at least one .o file required");
}
// Parse -z max-page-size=<value>. The default value is defined by
// each target.
static uint64_t getMaxPageSize(opt::InputArgList &Args) {
uint64_t Val =
getZOptionValue(Args, "max-page-size", Target->DefaultMaxPageSize);
if (!isPowerOf2_64(Val))
error("max-page-size: value isn't a power of 2");
return Val;
}
// Parses -image-base option.
static uint64_t getImageBase(opt::InputArgList &Args) {
// Use default if no -image-base option is given.
// Because we are using "Target" here, this function
// has to be called after the variable is initialized.
auto *Arg = Args.getLastArg(OPT_image_base);
if (!Arg)
return Config->pic() ? 0 : Target->DefaultImageBase;
StringRef S = Arg->getValue();
uint64_t V;
if (S.getAsInteger(0, V)) {
error("-image-base: number expected, but got " + S);
return 0;
}
if ((V % Config->MaxPageSize) != 0)
warn("-image-base: address isn't multiple of page size: " + S);
return V;
}
static void ensureWritable(StringRef Path) {
if (Path.empty())
return;
ErrorOr<std::unique_ptr<FileOutputBuffer>> Err =
FileOutputBuffer::create(Path, 1);
if (!Err)
error("cannot open output file " + Path + ": " +
Err.getError().message());
}
// Do actual linking. Note that when this function is called,
// all linker scripts have already been parsed.
template <class ELFT> void LinkerDriver::link(opt::InputArgList &Args) {
SymbolTable<ELFT> Symtab;
ELF: New symbol table design. This patch implements a new design for the symbol table that stores SymbolBodies within a memory region of the Symbol object. Symbols are mutated by constructing SymbolBodies in place over existing SymbolBodies, rather than by mutating pointers. As mentioned in the initial proposal [1], this memory layout helps reduce the cache miss rate by improving memory locality. Performance numbers: old(s) new(s) Without debug info: chrome 7.178 6.432 (-11.5%) LLVMgold.so 0.505 0.502 (-0.5%) clang 0.954 0.827 (-15.4%) llvm-as 0.052 0.045 (-15.5%) With debug info: scylla 5.695 5.613 (-1.5%) clang 14.396 14.143 (-1.8%) Performance counter results show that the fewer required indirections is indeed the cause of the improved performance. For example, when linking chrome, stalled cycles decreases from 14,556,444,002 to 12,959,238,310, and instructions per cycle increases from 0.78 to 0.83. We are also executing many fewer instructions (15,516,401,933 down to 15,002,434,310), probably because we spend less time allocating SymbolBodies. The new mechanism by which symbols are added to the symbol table is by calling add* functions on the SymbolTable. In this patch, I handle local symbols by storing them inside "unparented" SymbolBodies. This is suboptimal, but if we do want to try to avoid allocating these SymbolBodies, we can probably do that separately. I also removed a few members from the SymbolBody class that were only being used to pass information from the input file to the symbol table. This patch implements the new design for the ELF linker only. I intend to prepare a similar patch for the COFF linker. [1] http://lists.llvm.org/pipermail/llvm-dev/2016-April/098832.html Differential Revision: http://reviews.llvm.org/D19752 llvm-svn: 268178
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elf::Symtab<ELFT>::X = &Symtab;
Target = createTarget();
ScriptBase = Script<ELFT>::X = make<LinkerScript<ELFT>>();
Config->MaxPageSize = getMaxPageSize(Args);
Config->ImageBase = getImageBase(Args);
// Default output filename is "a.out" by the Unix tradition.
if (Config->OutputFile.empty())
Config->OutputFile = "a.out";
// Use default entry point name if no name was given via the command
// line nor linker scripts. For some reason, MIPS entry point name is
// different from others.
Config->WarnMissingEntry =
(!Config->Entry.empty() || (!Config->Shared && !Config->Relocatable));
if (Config->Entry.empty() && !Config->Relocatable)
Config->Entry = (Config->EMachine == EM_MIPS) ? "__start" : "_start";
// Fail early if the output file is not writable. If a user has a long link,
// e.g. due to a large LTO link, they do not wish to run it and find that it
// failed because there was a mistake in their command-line.
ensureWritable(Config->OutputFile);
if (ErrorCount)
return;
// Handle --trace-symbol.
for (auto *Arg : Args.filtered(OPT_trace_symbol))
Symtab.trace(Arg->getValue());
// Add all files to the symbol table. This will add almost all
// symbols that we need to the symbol table.
for (InputFile *F : Files)
Symtab.addFile(F);
// If an entry symbol is in a static archive, pull out that file now
// to complete the symbol table. After this, no new names except a
// few linker-synthesized ones will be added to the symbol table.
if (Symtab.find(Config->Entry))
Symtab.addUndefined(Config->Entry);
// Return if there were name resolution errors.
if (ErrorCount)
return;
Symtab.scanUndefinedFlags();
Symtab.scanShlibUndefined();
Symtab.scanVersionScript();
Symtab.addCombinedLTOObject();
if (ErrorCount)
return;
for (auto *Arg : Args.filtered(OPT_wrap))
Symtab.wrap(Arg->getValue());
// Now that we have a complete list of input files.
// Beyond this point, no new files are added.
// Aggregate all input sections into one place.
for (elf::ObjectFile<ELFT> *F : Symtab.getObjectFiles())
for (InputSectionBase *S : F->getSections())
if (S && S != &InputSection::Discarded)
InputSections.push_back(S);
for (BinaryFile *F : Symtab.getBinaryFiles())
for (InputSectionBase *S : F->getSections())
InputSections.push_back(cast<InputSection>(S));
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// Do size optimizations: garbage collection and identical code folding.
if (Config->GcSections)
markLive<ELFT>();
if (Config->ICF)
doIcf<ELFT>();
// MergeInputSection::splitIntoPieces needs to be called before
// any call of MergeInputSection::getOffset. Do that.
forEach(InputSections.begin(), InputSections.end(), [](InputSectionBase *S) {
if (!S->Live)
return;
if (Decompressor::isCompressedELFSection(S->Flags, S->Name))
S->uncompress<ELFT>();
if (auto *MS = dyn_cast<MergeInputSection>(S))
MS->splitIntoPieces();
});
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// Write the result to the file.
writeResult<ELFT>();
}