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llvm-mirror/tools/llvm-dwp/llvm-dwp.cpp
Rafael Espindola abf9b1c7a5 Don't pass the code model to MC 
I was surprised to see the code model being passed to MC. After all,
it assembles code, it doesn't create it.

The one place it is used is in the expansion of .cfi directives to
handle .eh_frame being more that 2gb away from the code.

As far as I can tell, gnu assembler doesn't even have an option to
enable this. Compiling a c file with gcc -mcmodel=large produces a
regular looking .eh_frame. This is probably because in practice linker
parse and recreate .eh_frames.

In llvm this is used because the JIT can place the code and .eh_frame
very far apart. Ideally we would fix the jit and delete this
option. This is hard.

Apart from confusion another problem with the current interface is
that most callers pass CodeModel::Default, which is bad since MC has
no way to map it to the target default if it actually needed to.

This patch then replaces the argument with a boolean with a default
value. The vast majority of users don't ever need to look at it. In
fact, only CodeGen and llvm-mc use it and llvm-mc just to enable more
testing.

llvm-svn: 309884
2017-08-02 20:32:26 +00:00

686 lines
24 KiB
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//===-- llvm-dwp.cpp - Split DWARF merging tool for llvm ------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// A utility for merging DWARF 5 Split DWARF .dwo files into .dwp (DWARF
// package files).
//
//===----------------------------------------------------------------------===//
#include "DWPError.h"
#include "DWPStringPool.h"
#include "llvm/ADT/MapVector.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/StringSet.h"
#include "llvm/CodeGen/AsmPrinter.h"
#include "llvm/DebugInfo/DWARF/DWARFFormValue.h"
#include "llvm/DebugInfo/DWARF/DWARFUnitIndex.h"
#include "llvm/MC/MCAsmInfo.h"
#include "llvm/MC/MCContext.h"
#include "llvm/MC/MCInstrInfo.h"
#include "llvm/MC/MCObjectFileInfo.h"
#include "llvm/MC/MCRegisterInfo.h"
#include "llvm/MC/MCSectionELF.h"
#include "llvm/MC/MCStreamer.h"
#include "llvm/MC/MCTargetOptionsCommandFlags.h"
#include "llvm/Object/Decompressor.h"
#include "llvm/Object/ObjectFile.h"
#include "llvm/Support/Compression.h"
#include "llvm/Support/DataExtractor.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/MathExtras.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/Options.h"
#include "llvm/Support/TargetRegistry.h"
#include "llvm/Support/TargetSelect.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/Target/TargetMachine.h"
#include <deque>
#include <iostream>
#include <memory>
using namespace llvm;
using namespace llvm::object;
using namespace cl;
OptionCategory DwpCategory("Specific Options");
static list<std::string> InputFiles(Positional, OneOrMore,
desc("<input files>"), cat(DwpCategory));
static opt<std::string> OutputFilename(Required, "o",
desc("Specify the output file."),
value_desc("filename"),
cat(DwpCategory));
static void writeStringsAndOffsets(MCStreamer &Out, DWPStringPool &Strings,
MCSection *StrOffsetSection,
StringRef CurStrSection,
StringRef CurStrOffsetSection) {
// Could possibly produce an error or warning if one of these was non-null but
// the other was null.
if (CurStrSection.empty() || CurStrOffsetSection.empty())
return;
DenseMap<uint32_t, uint32_t> OffsetRemapping;
DataExtractor Data(CurStrSection, true, 0);
uint32_t LocalOffset = 0;
uint32_t PrevOffset = 0;
while (const char *s = Data.getCStr(&LocalOffset)) {
OffsetRemapping[PrevOffset] =
Strings.getOffset(s, LocalOffset - PrevOffset);
PrevOffset = LocalOffset;
}
Data = DataExtractor(CurStrOffsetSection, true, 0);
Out.SwitchSection(StrOffsetSection);
uint32_t Offset = 0;
uint64_t Size = CurStrOffsetSection.size();
while (Offset < Size) {
auto OldOffset = Data.getU32(&Offset);
auto NewOffset = OffsetRemapping[OldOffset];
Out.EmitIntValue(NewOffset, 4);
}
}
static uint32_t getCUAbbrev(StringRef Abbrev, uint64_t AbbrCode) {
uint64_t CurCode;
uint32_t Offset = 0;
DataExtractor AbbrevData(Abbrev, true, 0);
while ((CurCode = AbbrevData.getULEB128(&Offset)) != AbbrCode) {
// Tag
AbbrevData.getULEB128(&Offset);
// DW_CHILDREN
AbbrevData.getU8(&Offset);
// Attributes
while (AbbrevData.getULEB128(&Offset) | AbbrevData.getULEB128(&Offset))
;
}
return Offset;
}
struct CompileUnitIdentifiers {
uint64_t Signature = 0;
const char *Name = "";
const char *DWOName = "";
};
static Expected<const char *>
getIndexedString(dwarf::Form Form, DataExtractor InfoData,
uint32_t &InfoOffset, StringRef StrOffsets, StringRef Str) {
if (Form == dwarf::DW_FORM_string)
return InfoData.getCStr(&InfoOffset);
if (Form != dwarf::DW_FORM_GNU_str_index)
return make_error<DWPError>(
"string field encoded without DW_FORM_string or DW_FORM_GNU_str_index");
auto StrIndex = InfoData.getULEB128(&InfoOffset);
DataExtractor StrOffsetsData(StrOffsets, true, 0);
uint32_t StrOffsetsOffset = 4 * StrIndex;
uint32_t StrOffset = StrOffsetsData.getU32(&StrOffsetsOffset);
DataExtractor StrData(Str, true, 0);
return StrData.getCStr(&StrOffset);
}
static Expected<CompileUnitIdentifiers> getCUIdentifiers(StringRef Abbrev,
StringRef Info,
StringRef StrOffsets,
StringRef Str) {
uint32_t Offset = 0;
DataExtractor InfoData(Info, true, 0);
dwarf::DwarfFormat Format = dwarf::DwarfFormat::DWARF32;
uint64_t Length = InfoData.getU32(&Offset);
// If the length is 0xffffffff, then this indictes that this is a DWARF 64
// stream and the length is actually encoded into a 64 bit value that follows.
if (Length == 0xffffffffU) {
Format = dwarf::DwarfFormat::DWARF64;
Length = InfoData.getU64(&Offset);
}
uint16_t Version = InfoData.getU16(&Offset);
InfoData.getU32(&Offset); // Abbrev offset (should be zero)
uint8_t AddrSize = InfoData.getU8(&Offset);
uint32_t AbbrCode = InfoData.getULEB128(&Offset);
DataExtractor AbbrevData(Abbrev, true, 0);
uint32_t AbbrevOffset = getCUAbbrev(Abbrev, AbbrCode);
auto Tag = static_cast<dwarf::Tag>(AbbrevData.getULEB128(&AbbrevOffset));
if (Tag != dwarf::DW_TAG_compile_unit)
return make_error<DWPError>("top level DIE is not a compile unit");
// DW_CHILDREN
AbbrevData.getU8(&AbbrevOffset);
uint32_t Name;
dwarf::Form Form;
CompileUnitIdentifiers ID;
while ((Name = AbbrevData.getULEB128(&AbbrevOffset)) |
(Form = static_cast<dwarf::Form>(AbbrevData.getULEB128(&AbbrevOffset))) &&
(Name != 0 || Form != 0)) {
switch (Name) {
case dwarf::DW_AT_name: {
Expected<const char *> EName =
getIndexedString(Form, InfoData, Offset, StrOffsets, Str);
if (!EName)
return EName.takeError();
ID.Name = *EName;
break;
}
case dwarf::DW_AT_GNU_dwo_name: {
Expected<const char *> EName =
getIndexedString(Form, InfoData, Offset, StrOffsets, Str);
if (!EName)
return EName.takeError();
ID.DWOName = *EName;
break;
}
case dwarf::DW_AT_GNU_dwo_id:
ID.Signature = InfoData.getU64(&Offset);
break;
default:
DWARFFormValue::skipValue(Form, InfoData, &Offset,
DWARFFormParams({Version, AddrSize, Format}));
}
}
return ID;
}
struct UnitIndexEntry {
DWARFUnitIndex::Entry::SectionContribution Contributions[8];
std::string Name;
std::string DWOName;
StringRef DWPName;
};
static StringRef getSubsection(StringRef Section,
const DWARFUnitIndex::Entry &Entry,
DWARFSectionKind Kind) {
const auto *Off = Entry.getOffset(Kind);
if (!Off)
return StringRef();
return Section.substr(Off->Offset, Off->Length);
}
static void addAllTypesFromDWP(
MCStreamer &Out, MapVector<uint64_t, UnitIndexEntry> &TypeIndexEntries,
const DWARFUnitIndex &TUIndex, MCSection *OutputTypes, StringRef Types,
const UnitIndexEntry &TUEntry, uint32_t &TypesOffset) {
Out.SwitchSection(OutputTypes);
for (const DWARFUnitIndex::Entry &E : TUIndex.getRows()) {
auto *I = E.getOffsets();
if (!I)
continue;
auto P = TypeIndexEntries.insert(std::make_pair(E.getSignature(), TUEntry));
if (!P.second)
continue;
auto &Entry = P.first->second;
// Zero out the debug_info contribution
Entry.Contributions[0] = {};
for (auto Kind : TUIndex.getColumnKinds()) {
auto &C = Entry.Contributions[Kind - DW_SECT_INFO];
C.Offset += I->Offset;
C.Length = I->Length;
++I;
}
auto &C = Entry.Contributions[DW_SECT_TYPES - DW_SECT_INFO];
Out.EmitBytes(Types.substr(
C.Offset - TUEntry.Contributions[DW_SECT_TYPES - DW_SECT_INFO].Offset,
C.Length));
C.Offset = TypesOffset;
TypesOffset += C.Length;
}
}
static void addAllTypes(MCStreamer &Out,
MapVector<uint64_t, UnitIndexEntry> &TypeIndexEntries,
MCSection *OutputTypes,
const std::vector<StringRef> &TypesSections,
const UnitIndexEntry &CUEntry, uint32_t &TypesOffset) {
for (StringRef Types : TypesSections) {
Out.SwitchSection(OutputTypes);
uint32_t Offset = 0;
DataExtractor Data(Types, true, 0);
while (Data.isValidOffset(Offset)) {
UnitIndexEntry Entry = CUEntry;
// Zero out the debug_info contribution
Entry.Contributions[0] = {};
auto &C = Entry.Contributions[DW_SECT_TYPES - DW_SECT_INFO];
C.Offset = TypesOffset;
auto PrevOffset = Offset;
// Length of the unit, including the 4 byte length field.
C.Length = Data.getU32(&Offset) + 4;
Data.getU16(&Offset); // Version
Data.getU32(&Offset); // Abbrev offset
Data.getU8(&Offset); // Address size
auto Signature = Data.getU64(&Offset);
Offset = PrevOffset + C.Length;
auto P = TypeIndexEntries.insert(std::make_pair(Signature, Entry));
if (!P.second)
continue;
Out.EmitBytes(Types.substr(PrevOffset, C.Length));
TypesOffset += C.Length;
}
}
}
static void
writeIndexTable(MCStreamer &Out, ArrayRef<unsigned> ContributionOffsets,
const MapVector<uint64_t, UnitIndexEntry> &IndexEntries,
uint32_t DWARFUnitIndex::Entry::SectionContribution::*Field) {
for (const auto &E : IndexEntries)
for (size_t i = 0; i != array_lengthof(E.second.Contributions); ++i)
if (ContributionOffsets[i])
Out.EmitIntValue(E.second.Contributions[i].*Field, 4);
}
static void
writeIndex(MCStreamer &Out, MCSection *Section,
ArrayRef<unsigned> ContributionOffsets,
const MapVector<uint64_t, UnitIndexEntry> &IndexEntries) {
if (IndexEntries.empty())
return;
unsigned Columns = 0;
for (auto &C : ContributionOffsets)
if (C)
++Columns;
std::vector<unsigned> Buckets(NextPowerOf2(3 * IndexEntries.size() / 2));
uint64_t Mask = Buckets.size() - 1;
size_t i = 0;
for (const auto &P : IndexEntries) {
auto S = P.first;
auto H = S & Mask;
auto HP = ((S >> 32) & Mask) | 1;
while (Buckets[H]) {
assert(S != IndexEntries.begin()[Buckets[H] - 1].first &&
"Duplicate unit");
H = (H + HP) & Mask;
}
Buckets[H] = i + 1;
++i;
}
Out.SwitchSection(Section);
Out.EmitIntValue(2, 4); // Version
Out.EmitIntValue(Columns, 4); // Columns
Out.EmitIntValue(IndexEntries.size(), 4); // Num Units
Out.EmitIntValue(Buckets.size(), 4); // Num Buckets
// Write the signatures.
for (const auto &I : Buckets)
Out.EmitIntValue(I ? IndexEntries.begin()[I - 1].first : 0, 8);
// Write the indexes.
for (const auto &I : Buckets)
Out.EmitIntValue(I, 4);
// Write the column headers (which sections will appear in the table)
for (size_t i = 0; i != ContributionOffsets.size(); ++i)
if (ContributionOffsets[i])
Out.EmitIntValue(i + DW_SECT_INFO, 4);
// Write the offsets.
writeIndexTable(Out, ContributionOffsets, IndexEntries,
&DWARFUnitIndex::Entry::SectionContribution::Offset);
// Write the lengths.
writeIndexTable(Out, ContributionOffsets, IndexEntries,
&DWARFUnitIndex::Entry::SectionContribution::Length);
}
std::string buildDWODescription(StringRef Name, StringRef DWPName, StringRef DWOName) {
std::string Text = "\'";
Text += Name;
Text += '\'';
if (!DWPName.empty()) {
Text += " (from ";
if (!DWOName.empty()) {
Text += '\'';
Text += DWOName;
Text += "' in ";
}
Text += '\'';
Text += DWPName;
Text += "')";
}
return Text;
}
static Error createError(StringRef Name, Error E) {
return make_error<DWPError>(
("failure while decompressing compressed section: '" + Name + "', " +
llvm::toString(std::move(E)))
.str());
}
static Error
handleCompressedSection(std::deque<SmallString<32>> &UncompressedSections,
StringRef &Name, StringRef &Contents) {
if (!Decompressor::isGnuStyle(Name))
return Error::success();
Expected<Decompressor> Dec =
Decompressor::create(Name, Contents, false /*IsLE*/, false /*Is64Bit*/);
if (!Dec)
return createError(Name, Dec.takeError());
UncompressedSections.emplace_back();
if (Error E = Dec->resizeAndDecompress(UncompressedSections.back()))
return createError(Name, std::move(E));
Name = Name.substr(2); // Drop ".z"
Contents = UncompressedSections.back();
return Error::success();
}
static Error handleSection(
const StringMap<std::pair<MCSection *, DWARFSectionKind>> &KnownSections,
const MCSection *StrSection, const MCSection *StrOffsetSection,
const MCSection *TypesSection, const MCSection *CUIndexSection,
const MCSection *TUIndexSection, const SectionRef &Section, MCStreamer &Out,
std::deque<SmallString<32>> &UncompressedSections,
uint32_t (&ContributionOffsets)[8], UnitIndexEntry &CurEntry,
StringRef &CurStrSection, StringRef &CurStrOffsetSection,
std::vector<StringRef> &CurTypesSection, StringRef &InfoSection,
StringRef &AbbrevSection, StringRef &CurCUIndexSection,
StringRef &CurTUIndexSection) {
if (Section.isBSS())
return Error::success();
if (Section.isVirtual())
return Error::success();
StringRef Name;
if (std::error_code Err = Section.getName(Name))
return errorCodeToError(Err);
StringRef Contents;
if (auto Err = Section.getContents(Contents))
return errorCodeToError(Err);
if (auto Err = handleCompressedSection(UncompressedSections, Name, Contents))
return Err;
Name = Name.substr(Name.find_first_not_of("._"));
auto SectionPair = KnownSections.find(Name);
if (SectionPair == KnownSections.end())
return Error::success();
if (DWARFSectionKind Kind = SectionPair->second.second) {
auto Index = Kind - DW_SECT_INFO;
if (Kind != DW_SECT_TYPES) {
CurEntry.Contributions[Index].Offset = ContributionOffsets[Index];
ContributionOffsets[Index] +=
(CurEntry.Contributions[Index].Length = Contents.size());
}
switch (Kind) {
case DW_SECT_INFO:
InfoSection = Contents;
break;
case DW_SECT_ABBREV:
AbbrevSection = Contents;
break;
default:
break;
}
}
MCSection *OutSection = SectionPair->second.first;
if (OutSection == StrOffsetSection)
CurStrOffsetSection = Contents;
else if (OutSection == StrSection)
CurStrSection = Contents;
else if (OutSection == TypesSection)
CurTypesSection.push_back(Contents);
else if (OutSection == CUIndexSection)
CurCUIndexSection = Contents;
else if (OutSection == TUIndexSection)
CurTUIndexSection = Contents;
else {
Out.SwitchSection(OutSection);
Out.EmitBytes(Contents);
}
return Error::success();
}
static Error
buildDuplicateError(const std::pair<uint64_t, UnitIndexEntry> &PrevE,
const CompileUnitIdentifiers &ID, StringRef DWPName) {
return make_error<DWPError>(
std::string("Duplicate DWO ID (") + utohexstr(PrevE.first) + ") in " +
buildDWODescription(PrevE.second.Name, PrevE.second.DWPName,
PrevE.second.DWOName) +
" and " + buildDWODescription(ID.Name, DWPName, ID.DWOName));
}
static Error write(MCStreamer &Out, ArrayRef<std::string> Inputs) {
const auto &MCOFI = *Out.getContext().getObjectFileInfo();
MCSection *const StrSection = MCOFI.getDwarfStrDWOSection();
MCSection *const StrOffsetSection = MCOFI.getDwarfStrOffDWOSection();
MCSection *const TypesSection = MCOFI.getDwarfTypesDWOSection();
MCSection *const CUIndexSection = MCOFI.getDwarfCUIndexSection();
MCSection *const TUIndexSection = MCOFI.getDwarfTUIndexSection();
const StringMap<std::pair<MCSection *, DWARFSectionKind>> KnownSections = {
{"debug_info.dwo", {MCOFI.getDwarfInfoDWOSection(), DW_SECT_INFO}},
{"debug_types.dwo", {MCOFI.getDwarfTypesDWOSection(), DW_SECT_TYPES}},
{"debug_str_offsets.dwo", {StrOffsetSection, DW_SECT_STR_OFFSETS}},
{"debug_str.dwo", {StrSection, static_cast<DWARFSectionKind>(0)}},
{"debug_loc.dwo", {MCOFI.getDwarfLocDWOSection(), DW_SECT_LOC}},
{"debug_line.dwo", {MCOFI.getDwarfLineDWOSection(), DW_SECT_LINE}},
{"debug_abbrev.dwo", {MCOFI.getDwarfAbbrevDWOSection(), DW_SECT_ABBREV}},
{"debug_cu_index", {CUIndexSection, static_cast<DWARFSectionKind>(0)}},
{"debug_tu_index", {TUIndexSection, static_cast<DWARFSectionKind>(0)}}};
MapVector<uint64_t, UnitIndexEntry> IndexEntries;
MapVector<uint64_t, UnitIndexEntry> TypeIndexEntries;
uint32_t ContributionOffsets[8] = {};
DWPStringPool Strings(Out, StrSection);
SmallVector<OwningBinary<object::ObjectFile>, 128> Objects;
Objects.reserve(Inputs.size());
std::deque<SmallString<32>> UncompressedSections;
for (const auto &Input : Inputs) {
auto ErrOrObj = object::ObjectFile::createObjectFile(Input);
if (!ErrOrObj)
return ErrOrObj.takeError();
auto &Obj = *ErrOrObj->getBinary();
Objects.push_back(std::move(*ErrOrObj));
UnitIndexEntry CurEntry = {};
StringRef CurStrSection;
StringRef CurStrOffsetSection;
std::vector<StringRef> CurTypesSection;
StringRef InfoSection;
StringRef AbbrevSection;
StringRef CurCUIndexSection;
StringRef CurTUIndexSection;
for (const auto &Section : Obj.sections())
if (auto Err = handleSection(
KnownSections, StrSection, StrOffsetSection, TypesSection,
CUIndexSection, TUIndexSection, Section, Out,
UncompressedSections, ContributionOffsets, CurEntry,
CurStrSection, CurStrOffsetSection, CurTypesSection, InfoSection,
AbbrevSection, CurCUIndexSection, CurTUIndexSection))
return Err;
if (InfoSection.empty())
continue;
writeStringsAndOffsets(Out, Strings, StrOffsetSection, CurStrSection,
CurStrOffsetSection);
if (CurCUIndexSection.empty()) {
Expected<CompileUnitIdentifiers> EID = getCUIdentifiers(
AbbrevSection, InfoSection, CurStrOffsetSection, CurStrSection);
if (!EID)
return EID.takeError();
const auto &ID = *EID;
auto P = IndexEntries.insert(std::make_pair(ID.Signature, CurEntry));
if (!P.second)
return buildDuplicateError(*P.first, ID, "");
P.first->second.Name = ID.Name;
P.first->second.DWOName = ID.DWOName;
addAllTypes(Out, TypeIndexEntries, TypesSection, CurTypesSection,
CurEntry, ContributionOffsets[DW_SECT_TYPES - DW_SECT_INFO]);
continue;
}
DWARFUnitIndex CUIndex(DW_SECT_INFO);
DataExtractor CUIndexData(CurCUIndexSection, Obj.isLittleEndian(), 0);
if (!CUIndex.parse(CUIndexData))
return make_error<DWPError>("Failed to parse cu_index");
for (const DWARFUnitIndex::Entry &E : CUIndex.getRows()) {
auto *I = E.getOffsets();
if (!I)
continue;
auto P = IndexEntries.insert(std::make_pair(E.getSignature(), CurEntry));
Expected<CompileUnitIdentifiers> EID = getCUIdentifiers(
getSubsection(AbbrevSection, E, DW_SECT_ABBREV),
getSubsection(InfoSection, E, DW_SECT_INFO),
getSubsection(CurStrOffsetSection, E, DW_SECT_STR_OFFSETS),
CurStrSection);
if (!EID)
return EID.takeError();
const auto &ID = *EID;
if (!P.second)
return buildDuplicateError(*P.first, ID, Input);
auto &NewEntry = P.first->second;
NewEntry.Name = ID.Name;
NewEntry.DWOName = ID.DWOName;
NewEntry.DWPName = Input;
for (auto Kind : CUIndex.getColumnKinds()) {
auto &C = NewEntry.Contributions[Kind - DW_SECT_INFO];
C.Offset += I->Offset;
C.Length = I->Length;
++I;
}
}
if (!CurTypesSection.empty()) {
if (CurTypesSection.size() != 1)
return make_error<DWPError>("multiple type unit sections in .dwp file");
DWARFUnitIndex TUIndex(DW_SECT_TYPES);
DataExtractor TUIndexData(CurTUIndexSection, Obj.isLittleEndian(), 0);
if (!TUIndex.parse(TUIndexData))
return make_error<DWPError>("Failed to parse tu_index");
addAllTypesFromDWP(Out, TypeIndexEntries, TUIndex, TypesSection,
CurTypesSection.front(), CurEntry,
ContributionOffsets[DW_SECT_TYPES - DW_SECT_INFO]);
}
}
// Lie about there being no info contributions so the TU index only includes
// the type unit contribution
ContributionOffsets[0] = 0;
writeIndex(Out, MCOFI.getDwarfTUIndexSection(), ContributionOffsets,
TypeIndexEntries);
// Lie about the type contribution
ContributionOffsets[DW_SECT_TYPES - DW_SECT_INFO] = 0;
// Unlie about the info contribution
ContributionOffsets[0] = 1;
writeIndex(Out, MCOFI.getDwarfCUIndexSection(), ContributionOffsets,
IndexEntries);
return Error::success();
}
static int error(const Twine &Error, const Twine &Context) {
errs() << Twine("while processing ") + Context + ":\n";
errs() << Twine("error: ") + Error + "\n";
return 1;
}
int main(int argc, char **argv) {
ParseCommandLineOptions(argc, argv, "merge split dwarf (.dwo) files");
llvm::InitializeAllTargetInfos();
llvm::InitializeAllTargetMCs();
llvm::InitializeAllTargets();
llvm::InitializeAllAsmPrinters();
std::string ErrorStr;
StringRef Context = "dwarf streamer init";
Triple TheTriple("x86_64-linux-gnu");
// Get the target.
const Target *TheTarget =
TargetRegistry::lookupTarget("", TheTriple, ErrorStr);
if (!TheTarget)
return error(ErrorStr, Context);
std::string TripleName = TheTriple.getTriple();
// Create all the MC Objects.
std::unique_ptr<MCRegisterInfo> MRI(TheTarget->createMCRegInfo(TripleName));
if (!MRI)
return error(Twine("no register info for target ") + TripleName, Context);
std::unique_ptr<MCAsmInfo> MAI(TheTarget->createMCAsmInfo(*MRI, TripleName));
if (!MAI)
return error("no asm info for target " + TripleName, Context);
MCObjectFileInfo MOFI;
MCContext MC(MAI.get(), MRI.get(), &MOFI);
MOFI.InitMCObjectFileInfo(TheTriple, /*PIC*/ false, MC);
MCTargetOptions Options;
auto MAB = TheTarget->createMCAsmBackend(*MRI, TripleName, "", Options);
if (!MAB)
return error("no asm backend for target " + TripleName, Context);
std::unique_ptr<MCInstrInfo> MII(TheTarget->createMCInstrInfo());
if (!MII)
return error("no instr info info for target " + TripleName, Context);
std::unique_ptr<MCSubtargetInfo> MSTI(
TheTarget->createMCSubtargetInfo(TripleName, "", ""));
if (!MSTI)
return error("no subtarget info for target " + TripleName, Context);
MCCodeEmitter *MCE = TheTarget->createMCCodeEmitter(*MII, *MRI, MC);
if (!MCE)
return error("no code emitter for target " + TripleName, Context);
// Create the output file.
std::error_code EC;
raw_fd_ostream OutFile(OutputFilename, EC, sys::fs::F_None);
if (EC)
return error(Twine(OutputFilename) + ": " + EC.message(), Context);
MCTargetOptions MCOptions = InitMCTargetOptionsFromFlags();
std::unique_ptr<MCStreamer> MS(TheTarget->createMCObjectStreamer(
TheTriple, MC, *MAB, OutFile, MCE, *MSTI, MCOptions.MCRelaxAll,
MCOptions.MCIncrementalLinkerCompatible,
/*DWARFMustBeAtTheEnd*/ false));
if (!MS)
return error("no object streamer for target " + TripleName, Context);
if (auto Err = write(*MS, InputFiles)) {
logAllUnhandledErrors(std::move(Err), errs(), "error: ");
return 1;
}
MS->Finish();
}
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