forked from OSchip/llvm-project
502 lines
17 KiB
C++
502 lines
17 KiB
C++
//===- InputFiles.cpp -----------------------------------------------------===//
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//
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// The LLVM Linker
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "InputFiles.h"
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#include "Chunks.h"
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#include "Config.h"
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#include "Driver.h"
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#include "SymbolTable.h"
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#include "Symbols.h"
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#include "lld/Common/ErrorHandler.h"
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#include "lld/Common/Memory.h"
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#include "llvm-c/lto.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ADT/Triple.h"
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#include "llvm/ADT/Twine.h"
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#include "llvm/BinaryFormat/COFF.h"
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#include "llvm/Object/Binary.h"
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#include "llvm/Object/COFF.h"
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#include "llvm/Support/Casting.h"
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#include "llvm/Support/Endian.h"
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#include "llvm/Support/Error.h"
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#include "llvm/Support/ErrorOr.h"
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#include "llvm/Support/FileSystem.h"
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#include "llvm/Target/TargetOptions.h"
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#include <cstring>
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#include <system_error>
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#include <utility>
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using namespace llvm;
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using namespace llvm::COFF;
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using namespace llvm::object;
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using namespace llvm::support::endian;
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using llvm::Triple;
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using llvm::support::ulittle32_t;
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namespace lld {
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namespace coff {
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std::vector<ObjFile *> ObjFile::Instances;
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std::vector<ImportFile *> ImportFile::Instances;
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std::vector<BitcodeFile *> BitcodeFile::Instances;
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/// Checks that Source is compatible with being a weak alias to Target.
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/// If Source is Undefined and has no weak alias set, makes it a weak
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/// alias to Target.
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static void checkAndSetWeakAlias(SymbolTable *Symtab, InputFile *F,
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Symbol *Source, Symbol *Target) {
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if (auto *U = dyn_cast<Undefined>(Source)) {
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if (U->WeakAlias && U->WeakAlias != Target)
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Symtab->reportDuplicate(Source, F);
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U->WeakAlias = Target;
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}
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}
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ArchiveFile::ArchiveFile(MemoryBufferRef M) : InputFile(ArchiveKind, M) {}
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void ArchiveFile::parse() {
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// Parse a MemoryBufferRef as an archive file.
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File = CHECK(Archive::create(MB), this);
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// Read the symbol table to construct Lazy objects.
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for (const Archive::Symbol &Sym : File->symbols())
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Symtab->addLazy(this, Sym);
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}
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// Returns a buffer pointing to a member file containing a given symbol.
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void ArchiveFile::addMember(const Archive::Symbol *Sym) {
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const Archive::Child &C =
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CHECK(Sym->getMember(),
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"could not get the member for symbol " + Sym->getName());
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// Return an empty buffer if we have already returned the same buffer.
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if (!Seen.insert(C.getChildOffset()).second)
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return;
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Driver->enqueueArchiveMember(C, Sym->getName(), getName());
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}
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std::vector<MemoryBufferRef> getArchiveMembers(Archive *File) {
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std::vector<MemoryBufferRef> V;
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Error Err = Error::success();
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for (const ErrorOr<Archive::Child> &COrErr : File->children(Err)) {
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Archive::Child C =
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CHECK(COrErr,
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File->getFileName() + ": could not get the child of the archive");
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MemoryBufferRef MBRef =
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CHECK(C.getMemoryBufferRef(),
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File->getFileName() +
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": could not get the buffer for a child of the archive");
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V.push_back(MBRef);
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}
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if (Err)
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fatal(File->getFileName() +
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": Archive::children failed: " + toString(std::move(Err)));
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return V;
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}
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void ObjFile::parse() {
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// Parse a memory buffer as a COFF file.
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std::unique_ptr<Binary> Bin = CHECK(createBinary(MB), this);
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if (auto *Obj = dyn_cast<COFFObjectFile>(Bin.get())) {
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Bin.release();
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COFFObj.reset(Obj);
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} else {
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fatal(toString(this) + " is not a COFF file");
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}
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// Read section and symbol tables.
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initializeChunks();
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initializeSymbols();
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}
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// We set SectionChunk pointers in the SparseChunks vector to this value
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// temporarily to mark comdat sections as having an unknown resolution. As we
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// walk the object file's symbol table, once we visit either a leader symbol or
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// an associative section definition together with the parent comdat's leader,
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// we set the pointer to either nullptr (to mark the section as discarded) or a
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// valid SectionChunk for that section.
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static SectionChunk *const PendingComdat = reinterpret_cast<SectionChunk *>(1);
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void ObjFile::initializeChunks() {
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uint32_t NumSections = COFFObj->getNumberOfSections();
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Chunks.reserve(NumSections);
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SparseChunks.resize(NumSections + 1);
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for (uint32_t I = 1; I < NumSections + 1; ++I) {
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const coff_section *Sec;
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if (auto EC = COFFObj->getSection(I, Sec))
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fatal("getSection failed: #" + Twine(I) + ": " + EC.message());
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if (Sec->Characteristics & IMAGE_SCN_LNK_COMDAT)
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SparseChunks[I] = PendingComdat;
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else
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SparseChunks[I] = readSection(I, nullptr);
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}
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}
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SectionChunk *ObjFile::readSection(uint32_t SectionNumber,
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const coff_aux_section_definition *Def) {
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const coff_section *Sec;
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StringRef Name;
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if (auto EC = COFFObj->getSection(SectionNumber, Sec))
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fatal("getSection failed: #" + Twine(SectionNumber) + ": " + EC.message());
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if (auto EC = COFFObj->getSectionName(Sec, Name))
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fatal("getSectionName failed: #" + Twine(SectionNumber) + ": " +
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EC.message());
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if (Name == ".drectve") {
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ArrayRef<uint8_t> Data;
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COFFObj->getSectionContents(Sec, Data);
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Directives = std::string((const char *)Data.data(), Data.size());
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return nullptr;
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}
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// Object files may have DWARF debug info or MS CodeView debug info
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// (or both).
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//
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// DWARF sections don't need any special handling from the perspective
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// of the linker; they are just a data section containing relocations.
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// We can just link them to complete debug info.
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//
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// CodeView needs a linker support. We need to interpret and debug
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// info, and then write it to a separate .pdb file.
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// Ignore debug info unless /debug is given.
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if (!Config->Debug && Name.startswith(".debug"))
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return nullptr;
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if (Sec->Characteristics & llvm::COFF::IMAGE_SCN_LNK_REMOVE)
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return nullptr;
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auto *C = make<SectionChunk>(this, Sec);
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if (Def)
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C->Checksum = Def->CheckSum;
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// CodeView sections are stored to a different vector because they are not
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// linked in the regular manner.
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if (C->isCodeView())
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DebugChunks.push_back(C);
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else if (Config->GuardCF != GuardCFLevel::Off && Name == ".gfids$y")
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GuardFidChunks.push_back(C);
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else if (Config->GuardCF != GuardCFLevel::Off && Name == ".gljmp$y")
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GuardLJmpChunks.push_back(C);
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else if (Name == ".sxdata")
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SXDataChunks.push_back(C);
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else
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Chunks.push_back(C);
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return C;
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}
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void ObjFile::readAssociativeDefinition(
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COFFSymbolRef Sym, const coff_aux_section_definition *Def) {
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SectionChunk *Parent = SparseChunks[Def->getNumber(Sym.isBigObj())];
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// If the parent is pending, it probably means that its section definition
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// appears after us in the symbol table. Leave the associated section as
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// pending; we will handle it during the second pass in initializeSymbols().
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if (Parent == PendingComdat)
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return;
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// Check whether the parent is prevailing. If it is, so are we, and we read
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// the section; otherwise mark it as discarded.
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int32_t SectionNumber = Sym.getSectionNumber();
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if (Parent) {
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SparseChunks[SectionNumber] = readSection(SectionNumber, Def);
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if (SparseChunks[SectionNumber])
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Parent->addAssociative(SparseChunks[SectionNumber]);
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} else {
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SparseChunks[SectionNumber] = nullptr;
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}
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}
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Symbol *ObjFile::createRegular(COFFSymbolRef Sym) {
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SectionChunk *SC = SparseChunks[Sym.getSectionNumber()];
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if (Sym.isExternal()) {
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StringRef Name;
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COFFObj->getSymbolName(Sym, Name);
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if (SC)
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return Symtab->addRegular(this, Name, Sym.getGeneric(), SC);
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return Symtab->addUndefined(Name, this, false);
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}
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if (SC)
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return make<DefinedRegular>(this, /*Name*/ "", false,
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/*IsExternal*/ false, Sym.getGeneric(), SC);
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return nullptr;
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}
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void ObjFile::initializeSymbols() {
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uint32_t NumSymbols = COFFObj->getNumberOfSymbols();
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Symbols.resize(NumSymbols);
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SmallVector<std::pair<Symbol *, uint32_t>, 8> WeakAliases;
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std::vector<uint32_t> PendingIndexes;
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PendingIndexes.reserve(NumSymbols);
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std::vector<const coff_aux_section_definition *> ComdatDefs(
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COFFObj->getNumberOfSections() + 1);
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for (uint32_t I = 0; I < NumSymbols; ++I) {
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COFFSymbolRef COFFSym = check(COFFObj->getSymbol(I));
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if (COFFSym.isUndefined()) {
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Symbols[I] = createUndefined(COFFSym);
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} else if (COFFSym.isWeakExternal()) {
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Symbols[I] = createUndefined(COFFSym);
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uint32_t TagIndex = COFFSym.getAux<coff_aux_weak_external>()->TagIndex;
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WeakAliases.emplace_back(Symbols[I], TagIndex);
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} else if (Optional<Symbol *> OptSym = createDefined(COFFSym, ComdatDefs)) {
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Symbols[I] = *OptSym;
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} else {
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// createDefined() returns None if a symbol belongs to a section that
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// was pending at the point when the symbol was read. This can happen in
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// two cases:
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// 1) section definition symbol for a comdat leader;
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// 2) symbol belongs to a comdat section associated with a section whose
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// section definition symbol appears later in the symbol table.
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// In both of these cases, we can expect the section to be resolved by
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// the time we finish visiting the remaining symbols in the symbol
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// table. So we postpone the handling of this symbol until that time.
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PendingIndexes.push_back(I);
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}
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I += COFFSym.getNumberOfAuxSymbols();
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}
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for (uint32_t I : PendingIndexes) {
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COFFSymbolRef Sym = check(COFFObj->getSymbol(I));
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if (auto *Def = Sym.getSectionDefinition())
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if (Def->Selection == IMAGE_COMDAT_SELECT_ASSOCIATIVE)
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readAssociativeDefinition(Sym, Def);
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Symbols[I] = createRegular(Sym);
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}
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for (auto &KV : WeakAliases) {
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Symbol *Sym = KV.first;
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uint32_t Idx = KV.second;
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checkAndSetWeakAlias(Symtab, this, Sym, Symbols[Idx]);
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}
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}
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Symbol *ObjFile::createUndefined(COFFSymbolRef Sym) {
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StringRef Name;
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COFFObj->getSymbolName(Sym, Name);
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return Symtab->addUndefined(Name, this, Sym.isWeakExternal());
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}
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Optional<Symbol *> ObjFile::createDefined(
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COFFSymbolRef Sym,
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std::vector<const coff_aux_section_definition *> &ComdatDefs) {
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StringRef Name;
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if (Sym.isCommon()) {
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auto *C = make<CommonChunk>(Sym);
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Chunks.push_back(C);
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COFFObj->getSymbolName(Sym, Name);
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Symbol *S =
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Symtab->addCommon(this, Name, Sym.getValue(), Sym.getGeneric(), C);
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return S;
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}
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if (Sym.isAbsolute()) {
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COFFObj->getSymbolName(Sym, Name);
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// Skip special symbols.
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if (Name == "@comp.id")
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return nullptr;
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if (Name == "@feat.00") {
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Feat00Flags = Sym.getValue();
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return nullptr;
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}
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if (Sym.isExternal())
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return Symtab->addAbsolute(Name, Sym);
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else
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return make<DefinedAbsolute>(Name, Sym);
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}
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int32_t SectionNumber = Sym.getSectionNumber();
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if (SectionNumber == llvm::COFF::IMAGE_SYM_DEBUG)
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return nullptr;
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// Reserved sections numbers don't have contents.
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if (llvm::COFF::isReservedSectionNumber(SectionNumber))
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fatal("broken object file: " + toString(this));
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// This symbol references a section which is not present in the section
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// header.
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if ((uint32_t)SectionNumber >= SparseChunks.size())
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fatal("broken object file: " + toString(this));
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// Handle comdat leader symbols.
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if (const coff_aux_section_definition *Def = ComdatDefs[SectionNumber]) {
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ComdatDefs[SectionNumber] = nullptr;
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Symbol *Leader;
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bool Prevailing;
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if (Sym.isExternal()) {
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COFFObj->getSymbolName(Sym, Name);
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std::tie(Leader, Prevailing) =
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Symtab->addComdat(this, Name, Sym.getGeneric());
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} else {
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Leader = make<DefinedRegular>(this, /*Name*/ "", false,
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/*IsExternal*/ false, Sym.getGeneric());
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Prevailing = true;
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}
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if (Prevailing) {
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SectionChunk *C = readSection(SectionNumber, Def);
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SparseChunks[SectionNumber] = C;
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C->Sym = cast<DefinedRegular>(Leader);
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cast<DefinedRegular>(Leader)->Data = &C->Repl;
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} else {
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SparseChunks[SectionNumber] = nullptr;
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}
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return Leader;
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}
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// Read associative section definitions and prepare to handle the comdat
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// leader symbol by setting the section's ComdatDefs pointer if we encounter a
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// non-associative comdat.
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if (SparseChunks[SectionNumber] == PendingComdat) {
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if (auto *Def = Sym.getSectionDefinition()) {
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if (Def->Selection == IMAGE_COMDAT_SELECT_ASSOCIATIVE)
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readAssociativeDefinition(Sym, Def);
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else
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ComdatDefs[SectionNumber] = Def;
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}
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}
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if (SparseChunks[SectionNumber] == PendingComdat)
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return None;
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return createRegular(Sym);
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}
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MachineTypes ObjFile::getMachineType() {
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if (COFFObj)
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return static_cast<MachineTypes>(COFFObj->getMachine());
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return IMAGE_FILE_MACHINE_UNKNOWN;
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}
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StringRef ltrim1(StringRef S, const char *Chars) {
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if (!S.empty() && strchr(Chars, S[0]))
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return S.substr(1);
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return S;
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}
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void ImportFile::parse() {
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const char *Buf = MB.getBufferStart();
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const char *End = MB.getBufferEnd();
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const auto *Hdr = reinterpret_cast<const coff_import_header *>(Buf);
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// Check if the total size is valid.
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if ((size_t)(End - Buf) != (sizeof(*Hdr) + Hdr->SizeOfData))
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fatal("broken import library");
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// Read names and create an __imp_ symbol.
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StringRef Name = Saver.save(StringRef(Buf + sizeof(*Hdr)));
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StringRef ImpName = Saver.save("__imp_" + Name);
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const char *NameStart = Buf + sizeof(coff_import_header) + Name.size() + 1;
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DLLName = StringRef(NameStart);
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StringRef ExtName;
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switch (Hdr->getNameType()) {
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case IMPORT_ORDINAL:
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ExtName = "";
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break;
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case IMPORT_NAME:
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ExtName = Name;
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break;
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case IMPORT_NAME_NOPREFIX:
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ExtName = ltrim1(Name, "?@_");
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break;
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case IMPORT_NAME_UNDECORATE:
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ExtName = ltrim1(Name, "?@_");
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ExtName = ExtName.substr(0, ExtName.find('@'));
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break;
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}
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this->Hdr = Hdr;
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ExternalName = ExtName;
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ImpSym = Symtab->addImportData(ImpName, this);
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if (Hdr->getType() == llvm::COFF::IMPORT_CONST)
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static_cast<void>(Symtab->addImportData(Name, this));
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// If type is function, we need to create a thunk which jump to an
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// address pointed by the __imp_ symbol. (This allows you to call
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// DLL functions just like regular non-DLL functions.)
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if (Hdr->getType() == llvm::COFF::IMPORT_CODE)
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ThunkSym = Symtab->addImportThunk(Name, ImpSym, Hdr->Machine);
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}
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void BitcodeFile::parse() {
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Obj = check(lto::InputFile::create(MemoryBufferRef(
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MB.getBuffer(), Saver.save(ParentName + MB.getBufferIdentifier()))));
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std::vector<std::pair<Symbol *, bool>> Comdat(Obj->getComdatTable().size());
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for (size_t I = 0; I != Obj->getComdatTable().size(); ++I)
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Comdat[I] = Symtab->addComdat(this, Saver.save(Obj->getComdatTable()[I]));
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for (const lto::InputFile::Symbol &ObjSym : Obj->symbols()) {
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StringRef SymName = Saver.save(ObjSym.getName());
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int ComdatIndex = ObjSym.getComdatIndex();
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Symbol *Sym;
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if (ObjSym.isUndefined()) {
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Sym = Symtab->addUndefined(SymName, this, false);
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} else if (ObjSym.isCommon()) {
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Sym = Symtab->addCommon(this, SymName, ObjSym.getCommonSize());
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} else if (ObjSym.isWeak() && ObjSym.isIndirect()) {
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// Weak external.
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Sym = Symtab->addUndefined(SymName, this, true);
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std::string Fallback = ObjSym.getCOFFWeakExternalFallback();
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Symbol *Alias = Symtab->addUndefined(Saver.save(Fallback));
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checkAndSetWeakAlias(Symtab, this, Sym, Alias);
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} else if (ComdatIndex != -1) {
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if (SymName == Obj->getComdatTable()[ComdatIndex])
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Sym = Comdat[ComdatIndex].first;
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else if (Comdat[ComdatIndex].second)
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Sym = Symtab->addRegular(this, SymName);
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else
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Sym = Symtab->addUndefined(SymName, this, false);
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} else {
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Sym = Symtab->addRegular(this, SymName);
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}
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SymbolBodies.push_back(Sym);
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}
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Directives = Obj->getCOFFLinkerOpts();
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}
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MachineTypes BitcodeFile::getMachineType() {
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switch (Triple(Obj->getTargetTriple()).getArch()) {
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case Triple::x86_64:
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return AMD64;
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case Triple::x86:
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return I386;
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case Triple::arm:
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return ARMNT;
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case Triple::aarch64:
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return ARM64;
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default:
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return IMAGE_FILE_MACHINE_UNKNOWN;
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}
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}
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} // namespace coff
|
|
} // namespace lld
|
|
|
|
// Returns the last element of a path, which is supposed to be a filename.
|
|
static StringRef getBasename(StringRef Path) {
|
|
size_t Pos = Path.find_last_of("\\/");
|
|
if (Pos == StringRef::npos)
|
|
return Path;
|
|
return Path.substr(Pos + 1);
|
|
}
|
|
|
|
// Returns a string in the format of "foo.obj" or "foo.obj(bar.lib)".
|
|
std::string lld::toString(const coff::InputFile *File) {
|
|
if (!File)
|
|
return "<internal>";
|
|
if (File->ParentName.empty())
|
|
return File->getName();
|
|
|
|
return (getBasename(File->ParentName) + "(" + getBasename(File->getName()) +
|
|
")")
|
|
.str();
|
|
}
|