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9459104c4d
It returns just a section_iterator currently and have a report_fatal_error call inside. This change adds a way to return errors and handle them on caller sides. The patch also changes/improves current users and adds test cases. Differential revision: https://reviews.llvm.org/D69167 llvm-svn: 375408
562 lines
21 KiB
C++
562 lines
21 KiB
C++
//===- llvm-cxxdump.cpp - Dump C++ data in an Object File -------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// Dumps C++ data resident in object files and archives.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm-cxxdump.h"
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#include "Error.h"
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/Object/Archive.h"
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#include "llvm/Object/ObjectFile.h"
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#include "llvm/Object/SymbolSize.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/Endian.h"
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#include "llvm/Support/FileSystem.h"
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#include "llvm/Support/InitLLVM.h"
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#include "llvm/Support/TargetRegistry.h"
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#include "llvm/Support/TargetSelect.h"
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#include "llvm/Support/WithColor.h"
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#include "llvm/Support/raw_ostream.h"
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#include <map>
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#include <string>
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#include <system_error>
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using namespace llvm;
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using namespace llvm::object;
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using namespace llvm::support;
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namespace opts {
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cl::list<std::string> InputFilenames(cl::Positional,
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cl::desc("<input object files>"),
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cl::ZeroOrMore);
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} // namespace opts
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namespace llvm {
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static void error(std::error_code EC) {
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if (!EC)
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return;
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WithColor::error(outs(), "") << "reading file: " << EC.message() << ".\n";
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outs().flush();
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exit(1);
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}
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LLVM_ATTRIBUTE_NORETURN static void error(Error Err) {
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logAllUnhandledErrors(std::move(Err), WithColor::error(outs()),
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"reading file: ");
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outs().flush();
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exit(1);
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}
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template <typename T>
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T unwrapOrError(Expected<T> EO) {
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if (!EO)
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error(EO.takeError());
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return std::move(*EO);
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}
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} // namespace llvm
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static void reportError(StringRef Input, StringRef Message) {
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if (Input == "-")
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Input = "<stdin>";
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WithColor::error(errs(), Input) << Message << "\n";
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errs().flush();
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exit(1);
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}
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static void reportError(StringRef Input, std::error_code EC) {
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reportError(Input, EC.message());
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}
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static std::map<SectionRef, SmallVector<SectionRef, 1>> SectionRelocMap;
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static void collectRelocatedSymbols(const ObjectFile *Obj,
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const SectionRef &Sec, uint64_t SecAddress,
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uint64_t SymAddress, uint64_t SymSize,
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StringRef *I, StringRef *E) {
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uint64_t SymOffset = SymAddress - SecAddress;
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uint64_t SymEnd = SymOffset + SymSize;
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for (const SectionRef &SR : SectionRelocMap[Sec]) {
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for (const object::RelocationRef &Reloc : SR.relocations()) {
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if (I == E)
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break;
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const object::symbol_iterator RelocSymI = Reloc.getSymbol();
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if (RelocSymI == Obj->symbol_end())
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continue;
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Expected<StringRef> RelocSymName = RelocSymI->getName();
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error(errorToErrorCode(RelocSymName.takeError()));
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uint64_t Offset = Reloc.getOffset();
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if (Offset >= SymOffset && Offset < SymEnd) {
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*I = *RelocSymName;
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++I;
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}
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}
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}
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}
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static void collectRelocationOffsets(
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const ObjectFile *Obj, const SectionRef &Sec, uint64_t SecAddress,
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uint64_t SymAddress, uint64_t SymSize, StringRef SymName,
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std::map<std::pair<StringRef, uint64_t>, StringRef> &Collection) {
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uint64_t SymOffset = SymAddress - SecAddress;
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uint64_t SymEnd = SymOffset + SymSize;
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for (const SectionRef &SR : SectionRelocMap[Sec]) {
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for (const object::RelocationRef &Reloc : SR.relocations()) {
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const object::symbol_iterator RelocSymI = Reloc.getSymbol();
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if (RelocSymI == Obj->symbol_end())
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continue;
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Expected<StringRef> RelocSymName = RelocSymI->getName();
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error(errorToErrorCode(RelocSymName.takeError()));
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uint64_t Offset = Reloc.getOffset();
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if (Offset >= SymOffset && Offset < SymEnd)
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Collection[std::make_pair(SymName, Offset - SymOffset)] = *RelocSymName;
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}
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}
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}
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static void dumpCXXData(const ObjectFile *Obj) {
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struct CompleteObjectLocator {
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StringRef Symbols[2];
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ArrayRef<little32_t> Data;
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};
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struct ClassHierarchyDescriptor {
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StringRef Symbols[1];
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ArrayRef<little32_t> Data;
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};
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struct BaseClassDescriptor {
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StringRef Symbols[2];
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ArrayRef<little32_t> Data;
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};
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struct TypeDescriptor {
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StringRef Symbols[1];
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uint64_t AlwaysZero;
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StringRef MangledName;
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};
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struct ThrowInfo {
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uint32_t Flags;
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};
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struct CatchableTypeArray {
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uint32_t NumEntries;
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};
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struct CatchableType {
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uint32_t Flags;
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uint32_t NonVirtualBaseAdjustmentOffset;
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int32_t VirtualBasePointerOffset;
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uint32_t VirtualBaseAdjustmentOffset;
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uint32_t Size;
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StringRef Symbols[2];
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};
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std::map<std::pair<StringRef, uint64_t>, StringRef> VFTableEntries;
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std::map<std::pair<StringRef, uint64_t>, StringRef> TIEntries;
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std::map<std::pair<StringRef, uint64_t>, StringRef> CTAEntries;
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std::map<StringRef, ArrayRef<little32_t>> VBTables;
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std::map<StringRef, CompleteObjectLocator> COLs;
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std::map<StringRef, ClassHierarchyDescriptor> CHDs;
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std::map<std::pair<StringRef, uint64_t>, StringRef> BCAEntries;
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std::map<StringRef, BaseClassDescriptor> BCDs;
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std::map<StringRef, TypeDescriptor> TDs;
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std::map<StringRef, ThrowInfo> TIs;
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std::map<StringRef, CatchableTypeArray> CTAs;
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std::map<StringRef, CatchableType> CTs;
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std::map<std::pair<StringRef, uint64_t>, StringRef> VTableSymEntries;
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std::map<std::pair<StringRef, uint64_t>, int64_t> VTableDataEntries;
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std::map<std::pair<StringRef, uint64_t>, StringRef> VTTEntries;
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std::map<StringRef, StringRef> TINames;
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SectionRelocMap.clear();
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for (const SectionRef &Section : Obj->sections()) {
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Expected<section_iterator> ErrOrSec = Section.getRelocatedSection();
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if (!ErrOrSec)
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error(ErrOrSec.takeError());
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section_iterator Sec2 = *ErrOrSec;
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if (Sec2 != Obj->section_end())
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SectionRelocMap[*Sec2].push_back(Section);
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}
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uint8_t BytesInAddress = Obj->getBytesInAddress();
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std::vector<std::pair<SymbolRef, uint64_t>> SymAddr =
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object::computeSymbolSizes(*Obj);
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for (auto &P : SymAddr) {
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object::SymbolRef Sym = P.first;
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uint64_t SymSize = P.second;
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Expected<StringRef> SymNameOrErr = Sym.getName();
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error(errorToErrorCode(SymNameOrErr.takeError()));
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StringRef SymName = *SymNameOrErr;
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Expected<object::section_iterator> SecIOrErr = Sym.getSection();
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error(errorToErrorCode(SecIOrErr.takeError()));
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object::section_iterator SecI = *SecIOrErr;
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// Skip external symbols.
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if (SecI == Obj->section_end())
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continue;
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const SectionRef &Sec = *SecI;
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// Skip virtual or BSS sections.
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if (Sec.isBSS() || Sec.isVirtual())
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continue;
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StringRef SecContents = unwrapOrError(Sec.getContents());
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Expected<uint64_t> SymAddressOrErr = Sym.getAddress();
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error(errorToErrorCode(SymAddressOrErr.takeError()));
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uint64_t SymAddress = *SymAddressOrErr;
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uint64_t SecAddress = Sec.getAddress();
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uint64_t SecSize = Sec.getSize();
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uint64_t SymOffset = SymAddress - SecAddress;
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StringRef SymContents = SecContents.substr(SymOffset, SymSize);
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// VFTables in the MS-ABI start with '??_7' and are contained within their
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// own COMDAT section. We then determine the contents of the VFTable by
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// looking at each relocation in the section.
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if (SymName.startswith("??_7")) {
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// Each relocation either names a virtual method or a thunk. We note the
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// offset into the section and the symbol used for the relocation.
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collectRelocationOffsets(Obj, Sec, SecAddress, SecAddress, SecSize,
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SymName, VFTableEntries);
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}
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// VBTables in the MS-ABI start with '??_8' and are filled with 32-bit
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// offsets of virtual bases.
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else if (SymName.startswith("??_8")) {
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ArrayRef<little32_t> VBTableData(
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reinterpret_cast<const little32_t *>(SymContents.data()),
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SymContents.size() / sizeof(little32_t));
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VBTables[SymName] = VBTableData;
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}
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// Complete object locators in the MS-ABI start with '??_R4'
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else if (SymName.startswith("??_R4")) {
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CompleteObjectLocator COL;
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COL.Data = makeArrayRef(
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reinterpret_cast<const little32_t *>(SymContents.data()), 3);
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StringRef *I = std::begin(COL.Symbols), *E = std::end(COL.Symbols);
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collectRelocatedSymbols(Obj, Sec, SecAddress, SymAddress, SymSize, I, E);
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COLs[SymName] = COL;
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}
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// Class hierarchy descriptors in the MS-ABI start with '??_R3'
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else if (SymName.startswith("??_R3")) {
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ClassHierarchyDescriptor CHD;
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CHD.Data = makeArrayRef(
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reinterpret_cast<const little32_t *>(SymContents.data()), 3);
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StringRef *I = std::begin(CHD.Symbols), *E = std::end(CHD.Symbols);
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collectRelocatedSymbols(Obj, Sec, SecAddress, SymAddress, SymSize, I, E);
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CHDs[SymName] = CHD;
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}
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// Class hierarchy descriptors in the MS-ABI start with '??_R2'
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else if (SymName.startswith("??_R2")) {
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// Each relocation names a base class descriptor. We note the offset into
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// the section and the symbol used for the relocation.
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collectRelocationOffsets(Obj, Sec, SecAddress, SymAddress, SymSize,
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SymName, BCAEntries);
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}
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// Base class descriptors in the MS-ABI start with '??_R1'
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else if (SymName.startswith("??_R1")) {
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BaseClassDescriptor BCD;
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BCD.Data = makeArrayRef(
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reinterpret_cast<const little32_t *>(SymContents.data()) + 1, 5);
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StringRef *I = std::begin(BCD.Symbols), *E = std::end(BCD.Symbols);
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collectRelocatedSymbols(Obj, Sec, SecAddress, SymAddress, SymSize, I, E);
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BCDs[SymName] = BCD;
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}
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// Type descriptors in the MS-ABI start with '??_R0'
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else if (SymName.startswith("??_R0")) {
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const char *DataPtr = SymContents.drop_front(BytesInAddress).data();
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TypeDescriptor TD;
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if (BytesInAddress == 8)
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TD.AlwaysZero = *reinterpret_cast<const little64_t *>(DataPtr);
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else
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TD.AlwaysZero = *reinterpret_cast<const little32_t *>(DataPtr);
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TD.MangledName = SymContents.drop_front(BytesInAddress * 2);
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StringRef *I = std::begin(TD.Symbols), *E = std::end(TD.Symbols);
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collectRelocatedSymbols(Obj, Sec, SecAddress, SymAddress, SymSize, I, E);
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TDs[SymName] = TD;
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}
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// Throw descriptors in the MS-ABI start with '_TI'
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else if (SymName.startswith("_TI") || SymName.startswith("__TI")) {
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ThrowInfo TI;
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TI.Flags = *reinterpret_cast<const little32_t *>(SymContents.data());
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collectRelocationOffsets(Obj, Sec, SecAddress, SymAddress, SymSize,
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SymName, TIEntries);
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TIs[SymName] = TI;
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}
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// Catchable type arrays in the MS-ABI start with _CTA or __CTA.
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else if (SymName.startswith("_CTA") || SymName.startswith("__CTA")) {
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CatchableTypeArray CTA;
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CTA.NumEntries =
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*reinterpret_cast<const little32_t *>(SymContents.data());
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collectRelocationOffsets(Obj, Sec, SecAddress, SymAddress, SymSize,
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SymName, CTAEntries);
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CTAs[SymName] = CTA;
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}
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// Catchable types in the MS-ABI start with _CT or __CT.
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else if (SymName.startswith("_CT") || SymName.startswith("__CT")) {
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const little32_t *DataPtr =
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reinterpret_cast<const little32_t *>(SymContents.data());
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CatchableType CT;
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CT.Flags = DataPtr[0];
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CT.NonVirtualBaseAdjustmentOffset = DataPtr[2];
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CT.VirtualBasePointerOffset = DataPtr[3];
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CT.VirtualBaseAdjustmentOffset = DataPtr[4];
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CT.Size = DataPtr[5];
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StringRef *I = std::begin(CT.Symbols), *E = std::end(CT.Symbols);
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collectRelocatedSymbols(Obj, Sec, SecAddress, SymAddress, SymSize, I, E);
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CTs[SymName] = CT;
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}
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// Construction vtables in the Itanium ABI start with '_ZTT' or '__ZTT'.
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else if (SymName.startswith("_ZTT") || SymName.startswith("__ZTT")) {
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collectRelocationOffsets(Obj, Sec, SecAddress, SymAddress, SymSize,
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SymName, VTTEntries);
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}
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// Typeinfo names in the Itanium ABI start with '_ZTS' or '__ZTS'.
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else if (SymName.startswith("_ZTS") || SymName.startswith("__ZTS")) {
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TINames[SymName] = SymContents.slice(0, SymContents.find('\0'));
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}
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// Vtables in the Itanium ABI start with '_ZTV' or '__ZTV'.
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else if (SymName.startswith("_ZTV") || SymName.startswith("__ZTV")) {
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collectRelocationOffsets(Obj, Sec, SecAddress, SymAddress, SymSize,
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SymName, VTableSymEntries);
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for (uint64_t SymOffI = 0; SymOffI < SymSize; SymOffI += BytesInAddress) {
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auto Key = std::make_pair(SymName, SymOffI);
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if (VTableSymEntries.count(Key))
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continue;
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const char *DataPtr =
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SymContents.substr(SymOffI, BytesInAddress).data();
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int64_t VData;
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if (BytesInAddress == 8)
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VData = *reinterpret_cast<const little64_t *>(DataPtr);
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else
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VData = *reinterpret_cast<const little32_t *>(DataPtr);
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VTableDataEntries[Key] = VData;
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}
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}
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// Typeinfo structures in the Itanium ABI start with '_ZTI' or '__ZTI'.
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else if (SymName.startswith("_ZTI") || SymName.startswith("__ZTI")) {
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// FIXME: Do something with these!
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}
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}
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for (const auto &VFTableEntry : VFTableEntries) {
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StringRef VFTableName = VFTableEntry.first.first;
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uint64_t Offset = VFTableEntry.first.second;
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StringRef SymName = VFTableEntry.second;
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outs() << VFTableName << '[' << Offset << "]: " << SymName << '\n';
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}
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for (const auto &VBTable : VBTables) {
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StringRef VBTableName = VBTable.first;
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uint32_t Idx = 0;
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for (little32_t Offset : VBTable.second) {
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outs() << VBTableName << '[' << Idx << "]: " << Offset << '\n';
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Idx += sizeof(Offset);
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}
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}
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for (const auto &COLPair : COLs) {
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StringRef COLName = COLPair.first;
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const CompleteObjectLocator &COL = COLPair.second;
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outs() << COLName << "[IsImageRelative]: " << COL.Data[0] << '\n';
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outs() << COLName << "[OffsetToTop]: " << COL.Data[1] << '\n';
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outs() << COLName << "[VFPtrOffset]: " << COL.Data[2] << '\n';
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outs() << COLName << "[TypeDescriptor]: " << COL.Symbols[0] << '\n';
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outs() << COLName << "[ClassHierarchyDescriptor]: " << COL.Symbols[1]
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<< '\n';
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}
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for (const auto &CHDPair : CHDs) {
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StringRef CHDName = CHDPair.first;
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const ClassHierarchyDescriptor &CHD = CHDPair.second;
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outs() << CHDName << "[AlwaysZero]: " << CHD.Data[0] << '\n';
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outs() << CHDName << "[Flags]: " << CHD.Data[1] << '\n';
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outs() << CHDName << "[NumClasses]: " << CHD.Data[2] << '\n';
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outs() << CHDName << "[BaseClassArray]: " << CHD.Symbols[0] << '\n';
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}
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for (const auto &BCAEntry : BCAEntries) {
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StringRef BCAName = BCAEntry.first.first;
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uint64_t Offset = BCAEntry.first.second;
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StringRef SymName = BCAEntry.second;
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outs() << BCAName << '[' << Offset << "]: " << SymName << '\n';
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}
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for (const auto &BCDPair : BCDs) {
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StringRef BCDName = BCDPair.first;
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const BaseClassDescriptor &BCD = BCDPair.second;
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outs() << BCDName << "[TypeDescriptor]: " << BCD.Symbols[0] << '\n';
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outs() << BCDName << "[NumBases]: " << BCD.Data[0] << '\n';
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outs() << BCDName << "[OffsetInVBase]: " << BCD.Data[1] << '\n';
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outs() << BCDName << "[VBPtrOffset]: " << BCD.Data[2] << '\n';
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outs() << BCDName << "[OffsetInVBTable]: " << BCD.Data[3] << '\n';
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outs() << BCDName << "[Flags]: " << BCD.Data[4] << '\n';
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outs() << BCDName << "[ClassHierarchyDescriptor]: " << BCD.Symbols[1]
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<< '\n';
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}
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for (const auto &TDPair : TDs) {
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StringRef TDName = TDPair.first;
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const TypeDescriptor &TD = TDPair.second;
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outs() << TDName << "[VFPtr]: " << TD.Symbols[0] << '\n';
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outs() << TDName << "[AlwaysZero]: " << TD.AlwaysZero << '\n';
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outs() << TDName << "[MangledName]: ";
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outs().write_escaped(TD.MangledName.rtrim(StringRef("\0", 1)),
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/*UseHexEscapes=*/true)
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<< '\n';
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}
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for (const auto &TIPair : TIs) {
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StringRef TIName = TIPair.first;
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const ThrowInfo &TI = TIPair.second;
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auto dumpThrowInfoFlag = [&](const char *Name, uint32_t Flag) {
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outs() << TIName << "[Flags." << Name
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<< "]: " << (TI.Flags & Flag ? "true" : "false") << '\n';
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};
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auto dumpThrowInfoSymbol = [&](const char *Name, int Offset) {
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outs() << TIName << '[' << Name << "]: ";
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auto Entry = TIEntries.find(std::make_pair(TIName, Offset));
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outs() << (Entry == TIEntries.end() ? "null" : Entry->second) << '\n';
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};
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outs() << TIName << "[Flags]: " << TI.Flags << '\n';
|
|
dumpThrowInfoFlag("Const", 1);
|
|
dumpThrowInfoFlag("Volatile", 2);
|
|
dumpThrowInfoSymbol("CleanupFn", 4);
|
|
dumpThrowInfoSymbol("ForwardCompat", 8);
|
|
dumpThrowInfoSymbol("CatchableTypeArray", 12);
|
|
}
|
|
for (const auto &CTAPair : CTAs) {
|
|
StringRef CTAName = CTAPair.first;
|
|
const CatchableTypeArray &CTA = CTAPair.second;
|
|
|
|
outs() << CTAName << "[NumEntries]: " << CTA.NumEntries << '\n';
|
|
|
|
unsigned Idx = 0;
|
|
for (auto I = CTAEntries.lower_bound(std::make_pair(CTAName, 0)),
|
|
E = CTAEntries.upper_bound(std::make_pair(CTAName, UINT64_MAX));
|
|
I != E; ++I)
|
|
outs() << CTAName << '[' << Idx++ << "]: " << I->second << '\n';
|
|
}
|
|
for (const auto &CTPair : CTs) {
|
|
StringRef CTName = CTPair.first;
|
|
const CatchableType &CT = CTPair.second;
|
|
auto dumpCatchableTypeFlag = [&](const char *Name, uint32_t Flag) {
|
|
outs() << CTName << "[Flags." << Name
|
|
<< "]: " << (CT.Flags & Flag ? "true" : "false") << '\n';
|
|
};
|
|
outs() << CTName << "[Flags]: " << CT.Flags << '\n';
|
|
dumpCatchableTypeFlag("ScalarType", 1);
|
|
dumpCatchableTypeFlag("VirtualInheritance", 4);
|
|
outs() << CTName << "[TypeDescriptor]: " << CT.Symbols[0] << '\n';
|
|
outs() << CTName << "[NonVirtualBaseAdjustmentOffset]: "
|
|
<< CT.NonVirtualBaseAdjustmentOffset << '\n';
|
|
outs() << CTName
|
|
<< "[VirtualBasePointerOffset]: " << CT.VirtualBasePointerOffset
|
|
<< '\n';
|
|
outs() << CTName << "[VirtualBaseAdjustmentOffset]: "
|
|
<< CT.VirtualBaseAdjustmentOffset << '\n';
|
|
outs() << CTName << "[Size]: " << CT.Size << '\n';
|
|
outs() << CTName
|
|
<< "[CopyCtor]: " << (CT.Symbols[1].empty() ? "null" : CT.Symbols[1])
|
|
<< '\n';
|
|
}
|
|
for (const auto &VTTPair : VTTEntries) {
|
|
StringRef VTTName = VTTPair.first.first;
|
|
uint64_t VTTOffset = VTTPair.first.second;
|
|
StringRef VTTEntry = VTTPair.second;
|
|
outs() << VTTName << '[' << VTTOffset << "]: " << VTTEntry << '\n';
|
|
}
|
|
for (const auto &TIPair : TINames) {
|
|
StringRef TIName = TIPair.first;
|
|
outs() << TIName << ": " << TIPair.second << '\n';
|
|
}
|
|
auto VTableSymI = VTableSymEntries.begin();
|
|
auto VTableSymE = VTableSymEntries.end();
|
|
auto VTableDataI = VTableDataEntries.begin();
|
|
auto VTableDataE = VTableDataEntries.end();
|
|
for (;;) {
|
|
bool SymDone = VTableSymI == VTableSymE;
|
|
bool DataDone = VTableDataI == VTableDataE;
|
|
if (SymDone && DataDone)
|
|
break;
|
|
if (!SymDone && (DataDone || VTableSymI->first < VTableDataI->first)) {
|
|
StringRef VTableName = VTableSymI->first.first;
|
|
uint64_t Offset = VTableSymI->first.second;
|
|
StringRef VTableEntry = VTableSymI->second;
|
|
outs() << VTableName << '[' << Offset << "]: ";
|
|
outs() << VTableEntry;
|
|
outs() << '\n';
|
|
++VTableSymI;
|
|
continue;
|
|
}
|
|
if (!DataDone && (SymDone || VTableDataI->first < VTableSymI->first)) {
|
|
StringRef VTableName = VTableDataI->first.first;
|
|
uint64_t Offset = VTableDataI->first.second;
|
|
int64_t VTableEntry = VTableDataI->second;
|
|
outs() << VTableName << '[' << Offset << "]: ";
|
|
outs() << VTableEntry;
|
|
outs() << '\n';
|
|
++VTableDataI;
|
|
continue;
|
|
}
|
|
}
|
|
}
|
|
|
|
static void dumpArchive(const Archive *Arc) {
|
|
Error Err = Error::success();
|
|
for (auto &ArcC : Arc->children(Err)) {
|
|
Expected<std::unique_ptr<Binary>> ChildOrErr = ArcC.getAsBinary();
|
|
if (!ChildOrErr) {
|
|
// Ignore non-object files.
|
|
if (auto E = isNotObjectErrorInvalidFileType(ChildOrErr.takeError())) {
|
|
std::string Buf;
|
|
raw_string_ostream OS(Buf);
|
|
logAllUnhandledErrors(std::move(E), OS);
|
|
OS.flush();
|
|
reportError(Arc->getFileName(), Buf);
|
|
}
|
|
consumeError(ChildOrErr.takeError());
|
|
continue;
|
|
}
|
|
|
|
if (ObjectFile *Obj = dyn_cast<ObjectFile>(&*ChildOrErr.get()))
|
|
dumpCXXData(Obj);
|
|
else
|
|
reportError(Arc->getFileName(), cxxdump_error::unrecognized_file_format);
|
|
}
|
|
if (Err)
|
|
error(std::move(Err));
|
|
}
|
|
|
|
static void dumpInput(StringRef File) {
|
|
// Attempt to open the binary.
|
|
Expected<OwningBinary<Binary>> BinaryOrErr = createBinary(File);
|
|
if (!BinaryOrErr) {
|
|
auto EC = errorToErrorCode(BinaryOrErr.takeError());
|
|
reportError(File, EC);
|
|
return;
|
|
}
|
|
Binary &Binary = *BinaryOrErr.get().getBinary();
|
|
|
|
if (Archive *Arc = dyn_cast<Archive>(&Binary))
|
|
dumpArchive(Arc);
|
|
else if (ObjectFile *Obj = dyn_cast<ObjectFile>(&Binary))
|
|
dumpCXXData(Obj);
|
|
else
|
|
reportError(File, cxxdump_error::unrecognized_file_format);
|
|
}
|
|
|
|
int main(int argc, const char *argv[]) {
|
|
InitLLVM X(argc, argv);
|
|
|
|
// Initialize targets.
|
|
llvm::InitializeAllTargetInfos();
|
|
|
|
// Register the target printer for --version.
|
|
cl::AddExtraVersionPrinter(TargetRegistry::printRegisteredTargetsForVersion);
|
|
|
|
cl::ParseCommandLineOptions(argc, argv, "LLVM C++ ABI Data Dumper\n");
|
|
|
|
// Default to stdin if no filename is specified.
|
|
if (opts::InputFilenames.size() == 0)
|
|
opts::InputFilenames.push_back("-");
|
|
|
|
llvm::for_each(opts::InputFilenames, dumpInput);
|
|
|
|
return EXIT_SUCCESS;
|
|
}
|