forked from OSchip/llvm-project
765 lines
25 KiB
C++
765 lines
25 KiB
C++
//===- Writer.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 "Config.h"
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#include "DLL.h"
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#include "Error.h"
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#include "InputFiles.h"
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#include "SymbolTable.h"
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#include "Symbols.h"
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#include "Writer.h"
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#include "lld/Core/Parallel.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/ADT/StringSwitch.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/FileOutputBuffer.h"
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#include "llvm/Support/raw_ostream.h"
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#include <algorithm>
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#include <cstdio>
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#include <map>
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#include <memory>
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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;
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using namespace llvm::support::endian;
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using namespace lld;
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using namespace lld::coff;
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static const int PageSize = 4096;
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static const int SectorSize = 512;
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static const int DOSStubSize = 64;
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static const int NumberfOfDataDirectory = 16;
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namespace {
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// The writer writes a SymbolTable result to a file.
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class Writer {
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public:
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Writer(SymbolTable *T) : Symtab(T) {}
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void run();
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private:
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void createSections();
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void createMiscChunks();
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void createImportTables();
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void createExportTable();
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void assignAddresses();
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void removeEmptySections();
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void createSymbolAndStringTable();
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void openFile(StringRef OutputPath);
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template <typename PEHeaderTy> void writeHeader();
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void fixSafeSEHSymbols();
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void writeSections();
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void sortExceptionTable();
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void applyRelocations();
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llvm::Optional<coff_symbol16> createSymbol(Defined *D);
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size_t addEntryToStringTable(StringRef Str);
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OutputSection *findSection(StringRef Name);
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OutputSection *createSection(StringRef Name);
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void addBaserels(OutputSection *Dest);
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void addBaserelBlocks(OutputSection *Dest, std::vector<Baserel> &V);
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uint32_t getSizeOfInitializedData();
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std::map<StringRef, std::vector<DefinedImportData *>> binImports();
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SymbolTable *Symtab;
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std::unique_ptr<llvm::FileOutputBuffer> Buffer;
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llvm::SpecificBumpPtrAllocator<OutputSection> CAlloc;
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llvm::SpecificBumpPtrAllocator<BaserelChunk> BAlloc;
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std::vector<OutputSection *> OutputSections;
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std::vector<char> Strtab;
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std::vector<llvm::object::coff_symbol16> OutputSymtab;
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IdataContents Idata;
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DelayLoadContents DelayIdata;
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EdataContents Edata;
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std::unique_ptr<SEHTableChunk> SEHTable;
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uint64_t FileSize;
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uint32_t PointerToSymbolTable = 0;
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uint64_t SizeOfImage;
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uint64_t SizeOfHeaders;
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std::vector<std::unique_ptr<Chunk>> Chunks;
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};
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} // anonymous namespace
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namespace lld {
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namespace coff {
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void writeResult(SymbolTable *T) { Writer(T).run(); }
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// OutputSection represents a section in an output file. It's a
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// container of chunks. OutputSection and Chunk are 1:N relationship.
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// Chunks cannot belong to more than one OutputSections. The writer
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// creates multiple OutputSections and assign them unique,
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// non-overlapping file offsets and RVAs.
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class OutputSection {
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public:
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OutputSection(StringRef N) : Name(N), Header({}) {}
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void setRVA(uint64_t);
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void setFileOffset(uint64_t);
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void addChunk(Chunk *C);
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StringRef getName() { return Name; }
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std::vector<Chunk *> &getChunks() { return Chunks; }
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void addPermissions(uint32_t C);
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uint32_t getPermissions() { return Header.Characteristics & PermMask; }
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uint32_t getCharacteristics() { return Header.Characteristics; }
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uint64_t getRVA() { return Header.VirtualAddress; }
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uint64_t getFileOff() { return Header.PointerToRawData; }
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void writeHeaderTo(uint8_t *Buf);
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// Returns the size of this section in an executable memory image.
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// This may be smaller than the raw size (the raw size is multiple
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// of disk sector size, so there may be padding at end), or may be
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// larger (if that's the case, the loader reserves spaces after end
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// of raw data).
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uint64_t getVirtualSize() { return Header.VirtualSize; }
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// Returns the size of the section in the output file.
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uint64_t getRawSize() { return Header.SizeOfRawData; }
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// Set offset into the string table storing this section name.
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// Used only when the name is longer than 8 bytes.
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void setStringTableOff(uint32_t V) { StringTableOff = V; }
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// N.B. The section index is one based.
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uint32_t SectionIndex = 0;
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private:
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StringRef Name;
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coff_section Header;
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uint32_t StringTableOff = 0;
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std::vector<Chunk *> Chunks;
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};
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void OutputSection::setRVA(uint64_t RVA) {
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Header.VirtualAddress = RVA;
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for (Chunk *C : Chunks)
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C->setRVA(C->getRVA() + RVA);
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}
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void OutputSection::setFileOffset(uint64_t Off) {
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// If a section has no actual data (i.e. BSS section), we want to
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// set 0 to its PointerToRawData. Otherwise the output is rejected
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// by the loader.
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if (Header.SizeOfRawData == 0)
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return;
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Header.PointerToRawData = Off;
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}
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void OutputSection::addChunk(Chunk *C) {
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Chunks.push_back(C);
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C->setOutputSection(this);
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uint64_t Off = Header.VirtualSize;
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Off = alignTo(Off, C->getAlign());
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C->setRVA(Off);
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C->setOutputSectionOff(Off);
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Off += C->getSize();
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Header.VirtualSize = Off;
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if (C->hasData())
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Header.SizeOfRawData = alignTo(Off, SectorSize);
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}
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void OutputSection::addPermissions(uint32_t C) {
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Header.Characteristics |= C & PermMask;
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}
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// Write the section header to a given buffer.
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void OutputSection::writeHeaderTo(uint8_t *Buf) {
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auto *Hdr = reinterpret_cast<coff_section *>(Buf);
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*Hdr = Header;
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if (StringTableOff) {
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// If name is too long, write offset into the string table as a name.
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sprintf(Hdr->Name, "/%d", StringTableOff);
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} else {
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assert(!Config->Debug || Name.size() <= COFF::NameSize);
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strncpy(Hdr->Name, Name.data(),
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std::min(Name.size(), (size_t)COFF::NameSize));
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}
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}
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uint64_t Defined::getSecrel() {
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if (auto *D = dyn_cast<DefinedRegular>(this))
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return getRVA() - D->getChunk()->getOutputSection()->getRVA();
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error("SECREL relocation points to a non-regular symbol");
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}
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uint64_t Defined::getSectionIndex() {
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if (auto *D = dyn_cast<DefinedRegular>(this))
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return D->getChunk()->getOutputSection()->SectionIndex;
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error("SECTION relocation points to a non-regular symbol");
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}
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bool Defined::isExecutable() {
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const auto X = IMAGE_SCN_MEM_EXECUTE;
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if (auto *D = dyn_cast<DefinedRegular>(this))
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return D->getChunk()->getOutputSection()->getPermissions() & X;
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return isa<DefinedImportThunk>(this);
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}
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} // namespace coff
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} // namespace lld
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// The main function of the writer.
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void Writer::run() {
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createSections();
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createMiscChunks();
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createImportTables();
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createExportTable();
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if (Config->Relocatable)
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createSection(".reloc");
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assignAddresses();
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removeEmptySections();
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createSymbolAndStringTable();
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openFile(Config->OutputFile);
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if (Config->is64()) {
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writeHeader<pe32plus_header>();
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} else {
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writeHeader<pe32_header>();
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}
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fixSafeSEHSymbols();
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writeSections();
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sortExceptionTable();
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error(Buffer->commit(), "Failed to write the output file");
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}
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static StringRef getOutputSection(StringRef Name) {
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StringRef S = Name.split('$').first;
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auto It = Config->Merge.find(S);
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if (It == Config->Merge.end())
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return S;
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return It->second;
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}
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// Create output section objects and add them to OutputSections.
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void Writer::createSections() {
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// First, bin chunks by name.
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std::map<StringRef, std::vector<Chunk *>> Map;
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for (Chunk *C : Symtab->getChunks()) {
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auto *SC = dyn_cast<SectionChunk>(C);
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if (SC && !SC->isLive()) {
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if (Config->Verbose)
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SC->printDiscardedMessage();
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continue;
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}
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Map[C->getSectionName()].push_back(C);
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}
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// Then create an OutputSection for each section.
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// '$' and all following characters in input section names are
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// discarded when determining output section. So, .text$foo
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// contributes to .text, for example. See PE/COFF spec 3.2.
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SmallDenseMap<StringRef, OutputSection *> Sections;
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for (auto Pair : Map) {
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StringRef Name = getOutputSection(Pair.first);
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OutputSection *&Sec = Sections[Name];
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if (!Sec) {
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Sec = new (CAlloc.Allocate()) OutputSection(Name);
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OutputSections.push_back(Sec);
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}
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std::vector<Chunk *> &Chunks = Pair.second;
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for (Chunk *C : Chunks) {
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Sec->addChunk(C);
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Sec->addPermissions(C->getPermissions());
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}
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}
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}
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void Writer::createMiscChunks() {
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// Create thunks for locally-dllimported symbols.
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if (!Symtab->LocalImportChunks.empty()) {
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OutputSection *Sec = createSection(".rdata");
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for (Chunk *C : Symtab->LocalImportChunks)
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Sec->addChunk(C);
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}
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// Create SEH table. x86-only.
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if (Config->Machine != I386)
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return;
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std::set<Defined *> Handlers;
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for (lld::coff::ObjectFile *File : Symtab->ObjectFiles) {
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if (!File->SEHCompat)
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return;
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for (SymbolBody *B : File->SEHandlers)
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Handlers.insert(cast<Defined>(B->repl()));
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}
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SEHTable.reset(new SEHTableChunk(Handlers));
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createSection(".rdata")->addChunk(SEHTable.get());
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}
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// Create .idata section for the DLL-imported symbol table.
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// The format of this section is inherently Windows-specific.
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// IdataContents class abstracted away the details for us,
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// so we just let it create chunks and add them to the section.
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void Writer::createImportTables() {
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if (Symtab->ImportFiles.empty())
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return;
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// Initialize DLLOrder so that import entries are ordered in
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// the same order as in the command line. (That affects DLL
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// initialization order, and this ordering is MSVC-compatible.)
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for (ImportFile *File : Symtab->ImportFiles) {
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std::string DLL = StringRef(File->DLLName).lower();
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if (Config->DLLOrder.count(DLL) == 0)
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Config->DLLOrder[DLL] = Config->DLLOrder.size();
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}
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OutputSection *Text = createSection(".text");
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for (ImportFile *File : Symtab->ImportFiles) {
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if (DefinedImportThunk *Thunk = File->ThunkSym)
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Text->addChunk(Thunk->getChunk());
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if (Config->DelayLoads.count(StringRef(File->DLLName).lower())) {
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DelayIdata.add(File->ImpSym);
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} else {
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Idata.add(File->ImpSym);
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}
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}
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if (!Idata.empty()) {
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OutputSection *Sec = createSection(".idata");
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for (Chunk *C : Idata.getChunks())
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Sec->addChunk(C);
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}
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if (!DelayIdata.empty()) {
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Defined *Helper = cast<Defined>(Config->DelayLoadHelper->repl());
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DelayIdata.create(Helper);
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OutputSection *Sec = createSection(".didat");
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for (Chunk *C : DelayIdata.getChunks())
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Sec->addChunk(C);
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Sec = createSection(".data");
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for (Chunk *C : DelayIdata.getDataChunks())
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Sec->addChunk(C);
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Sec = createSection(".text");
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for (std::unique_ptr<Chunk> &C : DelayIdata.getCodeChunks())
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Sec->addChunk(C.get());
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}
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}
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void Writer::createExportTable() {
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if (Config->Exports.empty())
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return;
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OutputSection *Sec = createSection(".edata");
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for (std::unique_ptr<Chunk> &C : Edata.Chunks)
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Sec->addChunk(C.get());
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}
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// The Windows loader doesn't seem to like empty sections,
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// so we remove them if any.
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void Writer::removeEmptySections() {
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auto IsEmpty = [](OutputSection *S) { return S->getVirtualSize() == 0; };
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OutputSections.erase(
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std::remove_if(OutputSections.begin(), OutputSections.end(), IsEmpty),
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OutputSections.end());
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uint32_t Idx = 1;
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for (OutputSection *Sec : OutputSections)
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Sec->SectionIndex = Idx++;
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}
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size_t Writer::addEntryToStringTable(StringRef Str) {
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assert(Str.size() > COFF::NameSize);
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size_t OffsetOfEntry = Strtab.size() + 4; // +4 for the size field
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Strtab.insert(Strtab.end(), Str.begin(), Str.end());
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Strtab.push_back('\0');
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return OffsetOfEntry;
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}
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Optional<coff_symbol16> Writer::createSymbol(Defined *Def) {
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if (auto *D = dyn_cast<DefinedRegular>(Def))
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if (!D->getChunk()->isLive())
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return None;
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coff_symbol16 Sym;
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StringRef Name = Def->getName();
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if (Name.size() > COFF::NameSize) {
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Sym.Name.Offset.Zeroes = 0;
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Sym.Name.Offset.Offset = addEntryToStringTable(Name);
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} else {
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memset(Sym.Name.ShortName, 0, COFF::NameSize);
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memcpy(Sym.Name.ShortName, Name.data(), Name.size());
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}
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if (auto *D = dyn_cast<DefinedCOFF>(Def)) {
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COFFSymbolRef Ref = D->getCOFFSymbol();
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Sym.Type = Ref.getType();
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Sym.StorageClass = Ref.getStorageClass();
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} else {
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Sym.Type = IMAGE_SYM_TYPE_NULL;
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Sym.StorageClass = IMAGE_SYM_CLASS_EXTERNAL;
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}
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Sym.NumberOfAuxSymbols = 0;
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switch (Def->kind()) {
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case SymbolBody::DefinedAbsoluteKind:
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case SymbolBody::DefinedRelativeKind:
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Sym.Value = Def->getRVA();
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Sym.SectionNumber = IMAGE_SYM_ABSOLUTE;
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break;
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default: {
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uint64_t RVA = Def->getRVA();
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OutputSection *Sec = nullptr;
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for (OutputSection *S : OutputSections) {
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if (S->getRVA() > RVA)
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break;
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Sec = S;
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}
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Sym.Value = RVA - Sec->getRVA();
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Sym.SectionNumber = Sec->SectionIndex;
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break;
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}
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}
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return Sym;
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}
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void Writer::createSymbolAndStringTable() {
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if (!Config->Debug || !Config->WriteSymtab)
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return;
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// Name field in the section table is 8 byte long. Longer names need
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// to be written to the string table. First, construct string table.
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for (OutputSection *Sec : OutputSections) {
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StringRef Name = Sec->getName();
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if (Name.size() <= COFF::NameSize)
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continue;
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Sec->setStringTableOff(addEntryToStringTable(Name));
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}
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for (lld::coff::ObjectFile *File : Symtab->ObjectFiles)
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for (SymbolBody *B : File->getSymbols())
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if (auto *D = dyn_cast<Defined>(B))
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if (Optional<coff_symbol16> Sym = createSymbol(D))
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OutputSymtab.push_back(*Sym);
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for (ImportFile *File : Symtab->ImportFiles)
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for (SymbolBody *B : File->getSymbols())
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if (Optional<coff_symbol16> Sym = createSymbol(cast<Defined>(B)))
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OutputSymtab.push_back(*Sym);
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OutputSection *LastSection = OutputSections.back();
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// We position the symbol table to be adjacent to the end of the last section.
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uint64_t FileOff = LastSection->getFileOff() +
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alignTo(LastSection->getRawSize(), SectorSize);
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if (!OutputSymtab.empty()) {
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PointerToSymbolTable = FileOff;
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FileOff += OutputSymtab.size() * sizeof(coff_symbol16);
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}
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if (!Strtab.empty())
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FileOff += Strtab.size() + 4;
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FileSize = alignTo(FileOff, SectorSize);
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}
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// Visits all sections to assign incremental, non-overlapping RVAs and
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// file offsets.
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void Writer::assignAddresses() {
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SizeOfHeaders = DOSStubSize + sizeof(PEMagic) + sizeof(coff_file_header) +
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sizeof(data_directory) * NumberfOfDataDirectory +
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sizeof(coff_section) * OutputSections.size();
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SizeOfHeaders +=
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Config->is64() ? sizeof(pe32plus_header) : sizeof(pe32_header);
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SizeOfHeaders = alignTo(SizeOfHeaders, SectorSize);
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uint64_t RVA = 0x1000; // The first page is kept unmapped.
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FileSize = SizeOfHeaders;
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// Move DISCARDABLE (or non-memory-mapped) sections to the end of file because
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// the loader cannot handle holes.
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std::stable_partition(
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OutputSections.begin(), OutputSections.end(), [](OutputSection *S) {
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return (S->getPermissions() & IMAGE_SCN_MEM_DISCARDABLE) == 0;
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});
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for (OutputSection *Sec : OutputSections) {
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if (Sec->getName() == ".reloc")
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addBaserels(Sec);
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Sec->setRVA(RVA);
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Sec->setFileOffset(FileSize);
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RVA += alignTo(Sec->getVirtualSize(), PageSize);
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FileSize += alignTo(Sec->getRawSize(), SectorSize);
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}
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SizeOfImage = SizeOfHeaders + alignTo(RVA - 0x1000, PageSize);
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}
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template <typename PEHeaderTy> void Writer::writeHeader() {
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// Write DOS stub
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uint8_t *Buf = Buffer->getBufferStart();
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auto *DOS = reinterpret_cast<dos_header *>(Buf);
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Buf += DOSStubSize;
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DOS->Magic[0] = 'M';
|
|
DOS->Magic[1] = 'Z';
|
|
DOS->AddressOfRelocationTable = sizeof(dos_header);
|
|
DOS->AddressOfNewExeHeader = DOSStubSize;
|
|
|
|
// Write PE magic
|
|
memcpy(Buf, PEMagic, sizeof(PEMagic));
|
|
Buf += sizeof(PEMagic);
|
|
|
|
// Write COFF header
|
|
auto *COFF = reinterpret_cast<coff_file_header *>(Buf);
|
|
Buf += sizeof(*COFF);
|
|
COFF->Machine = Config->Machine;
|
|
COFF->NumberOfSections = OutputSections.size();
|
|
COFF->Characteristics = IMAGE_FILE_EXECUTABLE_IMAGE;
|
|
if (Config->LargeAddressAware)
|
|
COFF->Characteristics |= IMAGE_FILE_LARGE_ADDRESS_AWARE;
|
|
if (!Config->is64())
|
|
COFF->Characteristics |= IMAGE_FILE_32BIT_MACHINE;
|
|
if (Config->DLL)
|
|
COFF->Characteristics |= IMAGE_FILE_DLL;
|
|
if (!Config->Relocatable)
|
|
COFF->Characteristics |= IMAGE_FILE_RELOCS_STRIPPED;
|
|
COFF->SizeOfOptionalHeader =
|
|
sizeof(PEHeaderTy) + sizeof(data_directory) * NumberfOfDataDirectory;
|
|
|
|
// Write PE header
|
|
auto *PE = reinterpret_cast<PEHeaderTy *>(Buf);
|
|
Buf += sizeof(*PE);
|
|
PE->Magic = Config->is64() ? PE32Header::PE32_PLUS : PE32Header::PE32;
|
|
PE->ImageBase = Config->ImageBase;
|
|
PE->SectionAlignment = PageSize;
|
|
PE->FileAlignment = SectorSize;
|
|
PE->MajorImageVersion = Config->MajorImageVersion;
|
|
PE->MinorImageVersion = Config->MinorImageVersion;
|
|
PE->MajorOperatingSystemVersion = Config->MajorOSVersion;
|
|
PE->MinorOperatingSystemVersion = Config->MinorOSVersion;
|
|
PE->MajorSubsystemVersion = Config->MajorOSVersion;
|
|
PE->MinorSubsystemVersion = Config->MinorOSVersion;
|
|
PE->Subsystem = Config->Subsystem;
|
|
PE->SizeOfImage = SizeOfImage;
|
|
PE->SizeOfHeaders = SizeOfHeaders;
|
|
if (!Config->NoEntry) {
|
|
Defined *Entry = cast<Defined>(Config->Entry->repl());
|
|
PE->AddressOfEntryPoint = Entry->getRVA();
|
|
// Pointer to thumb code must have the LSB set, so adjust it.
|
|
if (Config->Machine == ARMNT)
|
|
PE->AddressOfEntryPoint |= 1;
|
|
}
|
|
PE->SizeOfStackReserve = Config->StackReserve;
|
|
PE->SizeOfStackCommit = Config->StackCommit;
|
|
PE->SizeOfHeapReserve = Config->HeapReserve;
|
|
PE->SizeOfHeapCommit = Config->HeapCommit;
|
|
if (Config->DynamicBase)
|
|
PE->DLLCharacteristics |= IMAGE_DLL_CHARACTERISTICS_DYNAMIC_BASE;
|
|
if (Config->HighEntropyVA)
|
|
PE->DLLCharacteristics |= IMAGE_DLL_CHARACTERISTICS_HIGH_ENTROPY_VA;
|
|
if (!Config->AllowBind)
|
|
PE->DLLCharacteristics |= IMAGE_DLL_CHARACTERISTICS_NO_BIND;
|
|
if (Config->NxCompat)
|
|
PE->DLLCharacteristics |= IMAGE_DLL_CHARACTERISTICS_NX_COMPAT;
|
|
if (!Config->AllowIsolation)
|
|
PE->DLLCharacteristics |= IMAGE_DLL_CHARACTERISTICS_NO_ISOLATION;
|
|
if (Config->TerminalServerAware)
|
|
PE->DLLCharacteristics |= IMAGE_DLL_CHARACTERISTICS_TERMINAL_SERVER_AWARE;
|
|
PE->NumberOfRvaAndSize = NumberfOfDataDirectory;
|
|
if (OutputSection *Text = findSection(".text")) {
|
|
PE->BaseOfCode = Text->getRVA();
|
|
PE->SizeOfCode = Text->getRawSize();
|
|
}
|
|
PE->SizeOfInitializedData = getSizeOfInitializedData();
|
|
|
|
// Write data directory
|
|
auto *Dir = reinterpret_cast<data_directory *>(Buf);
|
|
Buf += sizeof(*Dir) * NumberfOfDataDirectory;
|
|
if (OutputSection *Sec = findSection(".edata")) {
|
|
Dir[EXPORT_TABLE].RelativeVirtualAddress = Sec->getRVA();
|
|
Dir[EXPORT_TABLE].Size = Sec->getVirtualSize();
|
|
}
|
|
if (!Idata.empty()) {
|
|
Dir[IMPORT_TABLE].RelativeVirtualAddress = Idata.getDirRVA();
|
|
Dir[IMPORT_TABLE].Size = Idata.getDirSize();
|
|
Dir[IAT].RelativeVirtualAddress = Idata.getIATRVA();
|
|
Dir[IAT].Size = Idata.getIATSize();
|
|
}
|
|
if (!DelayIdata.empty()) {
|
|
Dir[DELAY_IMPORT_DESCRIPTOR].RelativeVirtualAddress =
|
|
DelayIdata.getDirRVA();
|
|
Dir[DELAY_IMPORT_DESCRIPTOR].Size = DelayIdata.getDirSize();
|
|
}
|
|
if (OutputSection *Sec = findSection(".rsrc")) {
|
|
Dir[RESOURCE_TABLE].RelativeVirtualAddress = Sec->getRVA();
|
|
Dir[RESOURCE_TABLE].Size = Sec->getVirtualSize();
|
|
}
|
|
if (OutputSection *Sec = findSection(".reloc")) {
|
|
Dir[BASE_RELOCATION_TABLE].RelativeVirtualAddress = Sec->getRVA();
|
|
Dir[BASE_RELOCATION_TABLE].Size = Sec->getVirtualSize();
|
|
}
|
|
if (OutputSection *Sec = findSection(".pdata")) {
|
|
Dir[EXCEPTION_TABLE].RelativeVirtualAddress = Sec->getRVA();
|
|
Dir[EXCEPTION_TABLE].Size = Sec->getVirtualSize();
|
|
}
|
|
if (Symbol *Sym = Symtab->findUnderscore("_tls_used")) {
|
|
if (Defined *B = dyn_cast<Defined>(Sym->Body)) {
|
|
Dir[TLS_TABLE].RelativeVirtualAddress = B->getRVA();
|
|
Dir[TLS_TABLE].Size = 40;
|
|
}
|
|
}
|
|
if (Symbol *Sym = Symtab->findUnderscore("_load_config_used")) {
|
|
if (Defined *B = dyn_cast<Defined>(Sym->Body)) {
|
|
Dir[LOAD_CONFIG_TABLE].RelativeVirtualAddress = B->getRVA();
|
|
Dir[LOAD_CONFIG_TABLE].Size = Config->is64() ? 112 : 64;
|
|
}
|
|
}
|
|
|
|
// Write section table
|
|
for (OutputSection *Sec : OutputSections) {
|
|
Sec->writeHeaderTo(Buf);
|
|
Buf += sizeof(coff_section);
|
|
}
|
|
|
|
if (OutputSymtab.empty())
|
|
return;
|
|
|
|
COFF->PointerToSymbolTable = PointerToSymbolTable;
|
|
uint32_t NumberOfSymbols = OutputSymtab.size();
|
|
COFF->NumberOfSymbols = NumberOfSymbols;
|
|
auto *SymbolTable = reinterpret_cast<coff_symbol16 *>(
|
|
Buffer->getBufferStart() + COFF->PointerToSymbolTable);
|
|
for (size_t I = 0; I != NumberOfSymbols; ++I)
|
|
SymbolTable[I] = OutputSymtab[I];
|
|
// Create the string table, it follows immediately after the symbol table.
|
|
// The first 4 bytes is length including itself.
|
|
Buf = reinterpret_cast<uint8_t *>(&SymbolTable[NumberOfSymbols]);
|
|
write32le(Buf, Strtab.size() + 4);
|
|
memcpy(Buf + 4, Strtab.data(), Strtab.size());
|
|
}
|
|
|
|
void Writer::openFile(StringRef Path) {
|
|
ErrorOr<std::unique_ptr<FileOutputBuffer>> BufferOrErr =
|
|
FileOutputBuffer::create(Path, FileSize, FileOutputBuffer::F_executable);
|
|
error(BufferOrErr, Twine("failed to open ") + Path);
|
|
Buffer = std::move(*BufferOrErr);
|
|
}
|
|
|
|
void Writer::fixSafeSEHSymbols() {
|
|
if (!SEHTable)
|
|
return;
|
|
Config->SEHTable->setRVA(SEHTable->getRVA());
|
|
Config->SEHCount->setVA(SEHTable->getSize() / 4);
|
|
}
|
|
|
|
// Write section contents to a mmap'ed file.
|
|
void Writer::writeSections() {
|
|
uint8_t *Buf = Buffer->getBufferStart();
|
|
for (OutputSection *Sec : OutputSections) {
|
|
uint8_t *SecBuf = Buf + Sec->getFileOff();
|
|
// Fill gaps between functions in .text with INT3 instructions
|
|
// instead of leaving as NUL bytes (which can be interpreted as
|
|
// ADD instructions).
|
|
if (Sec->getPermissions() & IMAGE_SCN_CNT_CODE)
|
|
memset(SecBuf, 0xCC, Sec->getRawSize());
|
|
parallel_for_each(Sec->getChunks().begin(), Sec->getChunks().end(),
|
|
[&](Chunk *C) { C->writeTo(SecBuf); });
|
|
}
|
|
}
|
|
|
|
// Sort .pdata section contents according to PE/COFF spec 5.5.
|
|
void Writer::sortExceptionTable() {
|
|
OutputSection *Sec = findSection(".pdata");
|
|
if (!Sec)
|
|
return;
|
|
// We assume .pdata contains function table entries only.
|
|
uint8_t *Begin = Buffer->getBufferStart() + Sec->getFileOff();
|
|
uint8_t *End = Begin + Sec->getVirtualSize();
|
|
if (Config->Machine == AMD64) {
|
|
struct Entry { ulittle32_t Begin, End, Unwind; };
|
|
parallel_sort(
|
|
(Entry *)Begin, (Entry *)End,
|
|
[](const Entry &A, const Entry &B) { return A.Begin < B.Begin; });
|
|
return;
|
|
}
|
|
if (Config->Machine == ARMNT) {
|
|
struct Entry { ulittle32_t Begin, Unwind; };
|
|
parallel_sort(
|
|
(Entry *)Begin, (Entry *)End,
|
|
[](const Entry &A, const Entry &B) { return A.Begin < B.Begin; });
|
|
return;
|
|
}
|
|
errs() << "warning: don't know how to handle .pdata.\n";
|
|
}
|
|
|
|
OutputSection *Writer::findSection(StringRef Name) {
|
|
for (OutputSection *Sec : OutputSections)
|
|
if (Sec->getName() == Name)
|
|
return Sec;
|
|
return nullptr;
|
|
}
|
|
|
|
uint32_t Writer::getSizeOfInitializedData() {
|
|
uint32_t Res = 0;
|
|
for (OutputSection *S : OutputSections)
|
|
if (S->getPermissions() & IMAGE_SCN_CNT_INITIALIZED_DATA)
|
|
Res += S->getRawSize();
|
|
return Res;
|
|
}
|
|
|
|
// Returns an existing section or create a new one if not found.
|
|
OutputSection *Writer::createSection(StringRef Name) {
|
|
if (auto *Sec = findSection(Name))
|
|
return Sec;
|
|
const auto DATA = IMAGE_SCN_CNT_INITIALIZED_DATA;
|
|
const auto BSS = IMAGE_SCN_CNT_UNINITIALIZED_DATA;
|
|
const auto CODE = IMAGE_SCN_CNT_CODE;
|
|
const auto DISCARDABLE = IMAGE_SCN_MEM_DISCARDABLE;
|
|
const auto R = IMAGE_SCN_MEM_READ;
|
|
const auto W = IMAGE_SCN_MEM_WRITE;
|
|
const auto X = IMAGE_SCN_MEM_EXECUTE;
|
|
uint32_t Perms = StringSwitch<uint32_t>(Name)
|
|
.Case(".bss", BSS | R | W)
|
|
.Case(".data", DATA | R | W)
|
|
.Case(".didat", DATA | R)
|
|
.Case(".edata", DATA | R)
|
|
.Case(".idata", DATA | R)
|
|
.Case(".rdata", DATA | R)
|
|
.Case(".reloc", DATA | DISCARDABLE | R)
|
|
.Case(".text", CODE | R | X)
|
|
.Default(0);
|
|
if (!Perms)
|
|
llvm_unreachable("unknown section name");
|
|
auto Sec = new (CAlloc.Allocate()) OutputSection(Name);
|
|
Sec->addPermissions(Perms);
|
|
OutputSections.push_back(Sec);
|
|
return Sec;
|
|
}
|
|
|
|
// Dest is .reloc section. Add contents to that section.
|
|
void Writer::addBaserels(OutputSection *Dest) {
|
|
std::vector<Baserel> V;
|
|
for (OutputSection *Sec : OutputSections) {
|
|
if (Sec == Dest)
|
|
continue;
|
|
// Collect all locations for base relocations.
|
|
for (Chunk *C : Sec->getChunks())
|
|
C->getBaserels(&V);
|
|
// Add the addresses to .reloc section.
|
|
if (!V.empty())
|
|
addBaserelBlocks(Dest, V);
|
|
V.clear();
|
|
}
|
|
}
|
|
|
|
// Add addresses to .reloc section. Note that addresses are grouped by page.
|
|
void Writer::addBaserelBlocks(OutputSection *Dest, std::vector<Baserel> &V) {
|
|
const uint32_t Mask = ~uint32_t(PageSize - 1);
|
|
uint32_t Page = V[0].RVA & Mask;
|
|
size_t I = 0, J = 1;
|
|
for (size_t E = V.size(); J < E; ++J) {
|
|
uint32_t P = V[J].RVA & Mask;
|
|
if (P == Page)
|
|
continue;
|
|
BaserelChunk *Buf = BAlloc.Allocate();
|
|
Dest->addChunk(new (Buf) BaserelChunk(Page, &V[I], &V[0] + J));
|
|
I = J;
|
|
Page = P;
|
|
}
|
|
if (I == J)
|
|
return;
|
|
BaserelChunk *Buf = BAlloc.Allocate();
|
|
Dest->addChunk(new (Buf) BaserelChunk(Page, &V[I], &V[0] + J));
|
|
}
|