forked from OSchip/llvm-project
837 lines
27 KiB
C++
837 lines
27 KiB
C++
//===- Writer.cpp ---------------------------------------------------------===//
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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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#include "Writer.h"
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#include "Config.h"
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#include "InputFiles.h"
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#include "InputSection.h"
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#include "MergedOutputSection.h"
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#include "OutputSection.h"
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#include "OutputSegment.h"
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#include "SymbolTable.h"
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#include "Symbols.h"
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#include "SyntheticSections.h"
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#include "Target.h"
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#include "UnwindInfoSection.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/BinaryFormat/MachO.h"
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#include "llvm/Config/llvm-config.h"
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#include "llvm/Support/LEB128.h"
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#include "llvm/Support/MathExtras.h"
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#include "llvm/Support/Path.h"
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#include "llvm/Support/xxhash.h"
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#include <algorithm>
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using namespace llvm;
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using namespace llvm::MachO;
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using namespace llvm::sys;
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using namespace lld;
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using namespace lld::macho;
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namespace {
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class LCUuid;
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class Writer {
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public:
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Writer() : buffer(errorHandler().outputBuffer) {}
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void scanRelocations();
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void scanSymbols();
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void createOutputSections();
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void createLoadCommands();
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void assignAddresses(OutputSegment *);
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void openFile();
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void writeSections();
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void writeUuid();
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void run();
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std::unique_ptr<FileOutputBuffer> &buffer;
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uint64_t addr = 0;
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uint64_t fileOff = 0;
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MachHeaderSection *header = nullptr;
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StringTableSection *stringTableSection = nullptr;
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SymtabSection *symtabSection = nullptr;
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IndirectSymtabSection *indirectSymtabSection = nullptr;
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UnwindInfoSection *unwindInfoSection = nullptr;
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LCUuid *uuidCommand = nullptr;
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};
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// LC_DYLD_INFO_ONLY stores the offsets of symbol import/export information.
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class LCDyldInfo : public LoadCommand {
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public:
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LCDyldInfo(RebaseSection *rebaseSection, BindingSection *bindingSection,
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WeakBindingSection *weakBindingSection,
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LazyBindingSection *lazyBindingSection,
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ExportSection *exportSection)
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: rebaseSection(rebaseSection), bindingSection(bindingSection),
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weakBindingSection(weakBindingSection),
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lazyBindingSection(lazyBindingSection), exportSection(exportSection) {}
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uint32_t getSize() const override { return sizeof(dyld_info_command); }
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void writeTo(uint8_t *buf) const override {
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auto *c = reinterpret_cast<dyld_info_command *>(buf);
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c->cmd = LC_DYLD_INFO_ONLY;
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c->cmdsize = getSize();
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if (rebaseSection->isNeeded()) {
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c->rebase_off = rebaseSection->fileOff;
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c->rebase_size = rebaseSection->getFileSize();
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}
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if (bindingSection->isNeeded()) {
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c->bind_off = bindingSection->fileOff;
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c->bind_size = bindingSection->getFileSize();
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}
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if (weakBindingSection->isNeeded()) {
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c->weak_bind_off = weakBindingSection->fileOff;
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c->weak_bind_size = weakBindingSection->getFileSize();
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}
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if (lazyBindingSection->isNeeded()) {
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c->lazy_bind_off = lazyBindingSection->fileOff;
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c->lazy_bind_size = lazyBindingSection->getFileSize();
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}
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if (exportSection->isNeeded()) {
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c->export_off = exportSection->fileOff;
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c->export_size = exportSection->getFileSize();
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}
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}
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RebaseSection *rebaseSection;
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BindingSection *bindingSection;
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WeakBindingSection *weakBindingSection;
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LazyBindingSection *lazyBindingSection;
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ExportSection *exportSection;
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};
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class LCDysymtab : public LoadCommand {
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public:
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LCDysymtab(SymtabSection *symtabSection,
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IndirectSymtabSection *indirectSymtabSection)
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: symtabSection(symtabSection),
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indirectSymtabSection(indirectSymtabSection) {}
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uint32_t getSize() const override { return sizeof(dysymtab_command); }
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void writeTo(uint8_t *buf) const override {
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auto *c = reinterpret_cast<dysymtab_command *>(buf);
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c->cmd = LC_DYSYMTAB;
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c->cmdsize = getSize();
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c->ilocalsym = 0;
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c->iextdefsym = c->nlocalsym = symtabSection->getNumLocalSymbols();
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c->nextdefsym = symtabSection->getNumExternalSymbols();
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c->iundefsym = c->iextdefsym + c->nextdefsym;
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c->nundefsym = symtabSection->getNumUndefinedSymbols();
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c->indirectsymoff = indirectSymtabSection->fileOff;
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c->nindirectsyms = indirectSymtabSection->getNumSymbols();
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}
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SymtabSection *symtabSection;
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IndirectSymtabSection *indirectSymtabSection;
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};
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class LCSegment : public LoadCommand {
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public:
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LCSegment(StringRef name, OutputSegment *seg) : name(name), seg(seg) {}
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uint32_t getSize() const override {
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return sizeof(segment_command_64) +
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seg->numNonHiddenSections() * sizeof(section_64);
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}
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void writeTo(uint8_t *buf) const override {
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auto *c = reinterpret_cast<segment_command_64 *>(buf);
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buf += sizeof(segment_command_64);
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c->cmd = LC_SEGMENT_64;
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c->cmdsize = getSize();
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memcpy(c->segname, name.data(), name.size());
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c->fileoff = seg->fileOff;
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c->maxprot = seg->maxProt;
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c->initprot = seg->initProt;
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if (seg->getSections().empty())
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return;
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c->vmaddr = seg->firstSection()->addr;
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c->vmsize =
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seg->lastSection()->addr + seg->lastSection()->getSize() - c->vmaddr;
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c->nsects = seg->numNonHiddenSections();
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for (OutputSection *osec : seg->getSections()) {
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if (!isZeroFill(osec->flags)) {
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assert(osec->fileOff >= seg->fileOff);
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c->filesize = std::max(
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c->filesize, osec->fileOff + osec->getFileSize() - seg->fileOff);
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}
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if (osec->isHidden())
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continue;
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auto *sectHdr = reinterpret_cast<section_64 *>(buf);
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buf += sizeof(section_64);
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memcpy(sectHdr->sectname, osec->name.data(), osec->name.size());
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memcpy(sectHdr->segname, name.data(), name.size());
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sectHdr->addr = osec->addr;
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sectHdr->offset = osec->fileOff;
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sectHdr->align = Log2_32(osec->align);
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sectHdr->flags = osec->flags;
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sectHdr->size = osec->getSize();
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sectHdr->reserved1 = osec->reserved1;
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sectHdr->reserved2 = osec->reserved2;
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}
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}
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private:
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StringRef name;
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OutputSegment *seg;
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};
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class LCMain : public LoadCommand {
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uint32_t getSize() const override { return sizeof(entry_point_command); }
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void writeTo(uint8_t *buf) const override {
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auto *c = reinterpret_cast<entry_point_command *>(buf);
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c->cmd = LC_MAIN;
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c->cmdsize = getSize();
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if (config->entry->isInStubs())
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c->entryoff =
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in.stubs->fileOff + config->entry->stubsIndex * target->stubSize;
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else
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c->entryoff = config->entry->getFileOffset();
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c->stacksize = 0;
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}
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};
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class LCSymtab : public LoadCommand {
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public:
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LCSymtab(SymtabSection *symtabSection, StringTableSection *stringTableSection)
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: symtabSection(symtabSection), stringTableSection(stringTableSection) {}
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uint32_t getSize() const override { return sizeof(symtab_command); }
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void writeTo(uint8_t *buf) const override {
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auto *c = reinterpret_cast<symtab_command *>(buf);
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c->cmd = LC_SYMTAB;
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c->cmdsize = getSize();
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c->symoff = symtabSection->fileOff;
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c->nsyms = symtabSection->getNumSymbols();
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c->stroff = stringTableSection->fileOff;
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c->strsize = stringTableSection->getFileSize();
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}
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SymtabSection *symtabSection = nullptr;
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StringTableSection *stringTableSection = nullptr;
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};
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// There are several dylib load commands that share the same structure:
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// * LC_LOAD_DYLIB
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// * LC_ID_DYLIB
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// * LC_REEXPORT_DYLIB
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class LCDylib : public LoadCommand {
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public:
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LCDylib(LoadCommandType type, StringRef path,
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uint32_t compatibilityVersion = 0, uint32_t currentVersion = 0)
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: type(type), path(path), compatibilityVersion(compatibilityVersion),
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currentVersion(currentVersion) {
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instanceCount++;
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}
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uint32_t getSize() const override {
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return alignTo(sizeof(dylib_command) + path.size() + 1, 8);
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}
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void writeTo(uint8_t *buf) const override {
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auto *c = reinterpret_cast<dylib_command *>(buf);
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buf += sizeof(dylib_command);
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c->cmd = type;
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c->cmdsize = getSize();
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c->dylib.name = sizeof(dylib_command);
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c->dylib.timestamp = 0;
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c->dylib.compatibility_version = compatibilityVersion;
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c->dylib.current_version = currentVersion;
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memcpy(buf, path.data(), path.size());
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buf[path.size()] = '\0';
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}
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static uint32_t getInstanceCount() { return instanceCount; }
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private:
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LoadCommandType type;
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StringRef path;
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uint32_t compatibilityVersion;
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uint32_t currentVersion;
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static uint32_t instanceCount;
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};
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uint32_t LCDylib::instanceCount = 0;
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class LCLoadDylinker : public LoadCommand {
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public:
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uint32_t getSize() const override {
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return alignTo(sizeof(dylinker_command) + path.size() + 1, 8);
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}
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void writeTo(uint8_t *buf) const override {
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auto *c = reinterpret_cast<dylinker_command *>(buf);
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buf += sizeof(dylinker_command);
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c->cmd = LC_LOAD_DYLINKER;
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c->cmdsize = getSize();
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c->name = sizeof(dylinker_command);
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memcpy(buf, path.data(), path.size());
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buf[path.size()] = '\0';
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}
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private:
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// Recent versions of Darwin won't run any binary that has dyld at a
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// different location.
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const StringRef path = "/usr/lib/dyld";
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};
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class LCRPath : public LoadCommand {
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public:
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LCRPath(StringRef path) : path(path) {}
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uint32_t getSize() const override {
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return alignTo(sizeof(rpath_command) + path.size() + 1, WordSize);
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}
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void writeTo(uint8_t *buf) const override {
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auto *c = reinterpret_cast<rpath_command *>(buf);
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buf += sizeof(rpath_command);
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c->cmd = LC_RPATH;
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c->cmdsize = getSize();
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c->path = sizeof(rpath_command);
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memcpy(buf, path.data(), path.size());
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buf[path.size()] = '\0';
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}
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private:
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StringRef path;
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};
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class LCBuildVersion : public LoadCommand {
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public:
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LCBuildVersion(const PlatformInfo &platform) : platform(platform) {}
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const int ntools = 1;
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uint32_t getSize() const override {
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return sizeof(build_version_command) + ntools * sizeof(build_tool_version);
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}
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void writeTo(uint8_t *buf) const override {
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auto *c = reinterpret_cast<build_version_command *>(buf);
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c->cmd = LC_BUILD_VERSION;
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c->cmdsize = getSize();
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c->platform = static_cast<uint32_t>(platform.kind);
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c->minos = ((platform.minimum.getMajor() << 020) |
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(platform.minimum.getMinor().getValueOr(0) << 010) |
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platform.minimum.getSubminor().getValueOr(0));
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c->sdk = ((platform.sdk.getMajor() << 020) |
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(platform.sdk.getMinor().getValueOr(0) << 010) |
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platform.sdk.getSubminor().getValueOr(0));
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c->ntools = ntools;
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auto *t = reinterpret_cast<build_tool_version *>(&c[1]);
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t->tool = TOOL_LD;
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t->version = (LLVM_VERSION_MAJOR << 020) | (LLVM_VERSION_MINOR << 010) |
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LLVM_VERSION_PATCH;
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}
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const PlatformInfo &platform;
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};
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// Stores a unique identifier for the output file based on an MD5 hash of its
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// contents. In order to hash the contents, we must first write them, but
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// LC_UUID itself must be part of the written contents in order for all the
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// offsets to be calculated correctly. We resolve this circular paradox by
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// first writing an LC_UUID with an all-zero UUID, then updating the UUID with
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// its real value later.
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class LCUuid : public LoadCommand {
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public:
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uint32_t getSize() const override { return sizeof(uuid_command); }
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void writeTo(uint8_t *buf) const override {
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auto *c = reinterpret_cast<uuid_command *>(buf);
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c->cmd = LC_UUID;
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c->cmdsize = getSize();
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uuidBuf = c->uuid;
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}
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void writeUuid(uint64_t digest) const {
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// xxhash only gives us 8 bytes, so put some fixed data in the other half.
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static_assert(sizeof(uuid_command::uuid) == 16, "unexpected uuid size");
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memcpy(uuidBuf, "LLD\xa1UU1D", 8);
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memcpy(uuidBuf + 8, &digest, 8);
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// RFC 4122 conformance. We need to fix 4 bits in byte 6 and 2 bits in
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// byte 8. Byte 6 is already fine due to the fixed data we put in. We don't
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// want to lose bits of the digest in byte 8, so swap that with a byte of
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// fixed data that happens to have the right bits set.
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std::swap(uuidBuf[3], uuidBuf[8]);
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// Claim that this is an MD5-based hash. It isn't, but this signals that
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// this is not a time-based and not a random hash. MD5 seems like the least
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// bad lie we can put here.
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assert((uuidBuf[6] & 0xf0) == 0x30 && "See RFC 4122 Sections 4.2.2, 4.1.3");
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assert((uuidBuf[8] & 0xc0) == 0x80 && "See RFC 4122 Section 4.2.2");
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}
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mutable uint8_t *uuidBuf;
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};
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} // namespace
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static void prepareSymbolRelocation(lld::macho::Symbol *sym,
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const InputSection *isec, const Reloc &r) {
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const TargetInfo::RelocAttrs &relocAttrs = target->getRelocAttrs(r.type);
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if (relocAttrs.hasAttr(RelocAttrBits::BRANCH)) {
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prepareBranchTarget(sym);
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} else if (relocAttrs.hasAttr(RelocAttrBits::GOT | RelocAttrBits::LOAD)) {
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if (needsBinding(sym))
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in.got->addEntry(sym);
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} else if (relocAttrs.hasAttr(RelocAttrBits::GOT)) {
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in.got->addEntry(sym);
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} else if (relocAttrs.hasAttr(RelocAttrBits::TLV | RelocAttrBits::LOAD)) {
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if (needsBinding(sym))
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in.tlvPointers->addEntry(sym);
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} else if (relocAttrs.hasAttr(RelocAttrBits::TLV)) {
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// References from thread-local variable sections are treated as offsets
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// relative to the start of the referent section, and therefore have no
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// need of rebase opcodes.
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if (!(isThreadLocalVariables(isec->flags) && isa<Defined>(sym)))
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addNonLazyBindingEntries(sym, isec, r.offset, r.addend);
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}
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}
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void Writer::scanRelocations() {
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for (InputSection *isec : inputSections) {
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if (isec->segname == segment_names::ld) {
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prepareCompactUnwind(isec);
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continue;
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}
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for (Reloc &r : isec->relocs) {
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if (target->hasAttr(r.type, RelocAttrBits::SUBTRAHEND))
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continue;
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if (auto *sym = r.referent.dyn_cast<lld::macho::Symbol *>()) {
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if (auto *undefined = dyn_cast<Undefined>(sym))
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treatUndefinedSymbol(*undefined);
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else if (target->validateSymbolRelocation(sym, isec, r))
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prepareSymbolRelocation(sym, isec, r);
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} else {
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assert(r.referent.is<InputSection *>());
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if (!r.pcrel)
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in.rebase->addEntry(isec, r.offset);
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}
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}
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}
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}
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void Writer::scanSymbols() {
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for (const macho::Symbol *sym : symtab->getSymbols()) {
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if (const auto *defined = dyn_cast<Defined>(sym)) {
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if (defined->overridesWeakDef)
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in.weakBinding->addNonWeakDefinition(defined);
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} else if (const auto *dysym = dyn_cast<DylibSymbol>(sym)) {
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dysym->getFile()->refState =
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std::max(dysym->getFile()->refState, dysym->refState);
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}
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}
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}
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void Writer::createLoadCommands() {
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uint8_t segIndex = 0;
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for (OutputSegment *seg : outputSegments) {
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in.header->addLoadCommand(make<LCSegment>(seg->name, seg));
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seg->index = segIndex++;
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}
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in.header->addLoadCommand(make<LCDyldInfo>(
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in.rebase, in.binding, in.weakBinding, in.lazyBinding, in.exports));
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in.header->addLoadCommand(make<LCSymtab>(symtabSection, stringTableSection));
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in.header->addLoadCommand(
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make<LCDysymtab>(symtabSection, indirectSymtabSection));
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for (StringRef path : config->runtimePaths)
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in.header->addLoadCommand(make<LCRPath>(path));
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switch (config->outputType) {
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case MH_EXECUTE:
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in.header->addLoadCommand(make<LCLoadDylinker>());
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in.header->addLoadCommand(make<LCMain>());
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break;
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case MH_DYLIB:
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in.header->addLoadCommand(make<LCDylib>(LC_ID_DYLIB, config->installName,
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config->dylibCompatibilityVersion,
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config->dylibCurrentVersion));
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break;
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|
case MH_BUNDLE:
|
|
break;
|
|
default:
|
|
llvm_unreachable("unhandled output file type");
|
|
}
|
|
|
|
uuidCommand = make<LCUuid>();
|
|
in.header->addLoadCommand(uuidCommand);
|
|
|
|
in.header->addLoadCommand(make<LCBuildVersion>(config->platform));
|
|
|
|
uint64_t dylibOrdinal = 1;
|
|
for (InputFile *file : inputFiles) {
|
|
if (auto *dylibFile = dyn_cast<DylibFile>(file)) {
|
|
LoadCommandType lcType =
|
|
dylibFile->forceWeakImport || dylibFile->refState == RefState::Weak
|
|
? LC_LOAD_WEAK_DYLIB
|
|
: LC_LOAD_DYLIB;
|
|
in.header->addLoadCommand(make<LCDylib>(lcType, dylibFile->dylibName,
|
|
dylibFile->compatibilityVersion,
|
|
dylibFile->currentVersion));
|
|
dylibFile->ordinal = dylibOrdinal++;
|
|
|
|
if (dylibFile->reexport)
|
|
in.header->addLoadCommand(
|
|
make<LCDylib>(LC_REEXPORT_DYLIB, dylibFile->dylibName));
|
|
}
|
|
}
|
|
|
|
const uint32_t MACOS_MAXPATHLEN = 1024;
|
|
config->headerPad = std::max(
|
|
config->headerPad, (config->headerPadMaxInstallNames
|
|
? LCDylib::getInstanceCount() * MACOS_MAXPATHLEN
|
|
: 0));
|
|
}
|
|
|
|
static size_t getSymbolPriority(const SymbolPriorityEntry &entry,
|
|
const InputFile *f) {
|
|
// We don't use toString(InputFile *) here because it returns the full path
|
|
// for object files, and we only want the basename.
|
|
StringRef filename;
|
|
if (f->archiveName.empty())
|
|
filename = path::filename(f->getName());
|
|
else
|
|
filename = saver.save(path::filename(f->archiveName) + "(" +
|
|
path::filename(f->getName()) + ")");
|
|
return std::max(entry.objectFiles.lookup(filename), entry.anyObjectFile);
|
|
}
|
|
|
|
// Each section gets assigned the priority of the highest-priority symbol it
|
|
// contains.
|
|
static DenseMap<const InputSection *, size_t> buildInputSectionPriorities() {
|
|
DenseMap<const InputSection *, size_t> sectionPriorities;
|
|
|
|
if (config->priorities.empty())
|
|
return sectionPriorities;
|
|
|
|
auto addSym = [&](Defined &sym) {
|
|
auto it = config->priorities.find(sym.getName());
|
|
if (it == config->priorities.end())
|
|
return;
|
|
|
|
SymbolPriorityEntry &entry = it->second;
|
|
size_t &priority = sectionPriorities[sym.isec];
|
|
priority = std::max(priority, getSymbolPriority(entry, sym.isec->file));
|
|
};
|
|
|
|
// TODO: Make sure this handles weak symbols correctly.
|
|
for (InputFile *file : inputFiles)
|
|
if (isa<ObjFile>(file))
|
|
for (lld::macho::Symbol *sym : file->symbols)
|
|
if (auto *d = dyn_cast<Defined>(sym))
|
|
addSym(*d);
|
|
|
|
return sectionPriorities;
|
|
}
|
|
|
|
static int segmentOrder(OutputSegment *seg) {
|
|
return StringSwitch<int>(seg->name)
|
|
.Case(segment_names::pageZero, -4)
|
|
.Case(segment_names::text, -3)
|
|
.Case(segment_names::dataConst, -2)
|
|
.Case(segment_names::data, -1)
|
|
// Make sure __LINKEDIT is the last segment (i.e. all its hidden
|
|
// sections must be ordered after other sections).
|
|
.Case(segment_names::linkEdit, std::numeric_limits<int>::max())
|
|
.Default(0);
|
|
}
|
|
|
|
static int sectionOrder(OutputSection *osec) {
|
|
StringRef segname = osec->parent->name;
|
|
// Sections are uniquely identified by their segment + section name.
|
|
if (segname == segment_names::text) {
|
|
return StringSwitch<int>(osec->name)
|
|
.Case(section_names::header, -4)
|
|
.Case(section_names::text, -3)
|
|
.Case(section_names::stubs, -2)
|
|
.Case(section_names::stubHelper, -1)
|
|
.Case(section_names::unwindInfo, std::numeric_limits<int>::max() - 1)
|
|
.Case(section_names::ehFrame, std::numeric_limits<int>::max())
|
|
.Default(0);
|
|
} else if (segname == segment_names::data) {
|
|
// For each thread spawned, dyld will initialize its TLVs by copying the
|
|
// address range from the start of the first thread-local data section to
|
|
// the end of the last one. We therefore arrange these sections contiguously
|
|
// to minimize the amount of memory used. Additionally, since zerofill
|
|
// sections must be at the end of their segments, and since TLV data
|
|
// sections can be zerofills, we end up putting all TLV data sections at the
|
|
// end of the segment.
|
|
switch (sectionType(osec->flags)) {
|
|
case S_THREAD_LOCAL_REGULAR:
|
|
return std::numeric_limits<int>::max() - 2;
|
|
case S_THREAD_LOCAL_ZEROFILL:
|
|
return std::numeric_limits<int>::max() - 1;
|
|
case S_ZEROFILL:
|
|
return std::numeric_limits<int>::max();
|
|
default:
|
|
return StringSwitch<int>(osec->name)
|
|
.Case(section_names::laSymbolPtr, -2)
|
|
.Case(section_names::data, -1)
|
|
.Default(0);
|
|
}
|
|
} else if (segname == segment_names::linkEdit) {
|
|
return StringSwitch<int>(osec->name)
|
|
.Case(section_names::rebase, -8)
|
|
.Case(section_names::binding, -7)
|
|
.Case(section_names::weakBinding, -6)
|
|
.Case(section_names::lazyBinding, -5)
|
|
.Case(section_names::export_, -4)
|
|
.Case(section_names::symbolTable, -3)
|
|
.Case(section_names::indirectSymbolTable, -2)
|
|
.Case(section_names::stringTable, -1)
|
|
.Default(0);
|
|
}
|
|
// ZeroFill sections must always be the at the end of their segments,
|
|
// otherwise subsequent sections may get overwritten with zeroes at runtime.
|
|
if (sectionType(osec->flags) == S_ZEROFILL)
|
|
return std::numeric_limits<int>::max();
|
|
return 0;
|
|
}
|
|
|
|
template <typename T, typename F>
|
|
static std::function<bool(T, T)> compareByOrder(F ord) {
|
|
return [=](T a, T b) { return ord(a) < ord(b); };
|
|
}
|
|
|
|
// Sorting only can happen once all outputs have been collected. Here we sort
|
|
// segments, output sections within each segment, and input sections within each
|
|
// output segment.
|
|
static void sortSegmentsAndSections() {
|
|
llvm::stable_sort(outputSegments,
|
|
compareByOrder<OutputSegment *>(segmentOrder));
|
|
|
|
DenseMap<const InputSection *, size_t> isecPriorities =
|
|
buildInputSectionPriorities();
|
|
|
|
uint32_t sectionIndex = 0;
|
|
for (OutputSegment *seg : outputSegments) {
|
|
seg->sortOutputSections(compareByOrder<OutputSection *>(sectionOrder));
|
|
for (OutputSection *osec : seg->getSections()) {
|
|
// Now that the output sections are sorted, assign the final
|
|
// output section indices.
|
|
if (!osec->isHidden())
|
|
osec->index = ++sectionIndex;
|
|
|
|
if (!firstTLVDataSection && isThreadLocalData(osec->flags))
|
|
firstTLVDataSection = osec;
|
|
|
|
if (!isecPriorities.empty()) {
|
|
if (auto *merged = dyn_cast<MergedOutputSection>(osec)) {
|
|
llvm::stable_sort(merged->inputs,
|
|
[&](InputSection *a, InputSection *b) {
|
|
return isecPriorities[a] > isecPriorities[b];
|
|
});
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
void Writer::createOutputSections() {
|
|
// First, create hidden sections
|
|
stringTableSection = make<StringTableSection>();
|
|
unwindInfoSection = make<UnwindInfoSection>(); // TODO(gkm): only when no -r
|
|
symtabSection = make<SymtabSection>(*stringTableSection);
|
|
indirectSymtabSection = make<IndirectSymtabSection>();
|
|
|
|
switch (config->outputType) {
|
|
case MH_EXECUTE:
|
|
make<PageZeroSection>();
|
|
break;
|
|
case MH_DYLIB:
|
|
case MH_BUNDLE:
|
|
break;
|
|
default:
|
|
llvm_unreachable("unhandled output file type");
|
|
}
|
|
|
|
// Then merge input sections into output sections.
|
|
MapVector<std::pair<StringRef, StringRef>, MergedOutputSection *>
|
|
mergedOutputSections;
|
|
for (InputSection *isec : inputSections) {
|
|
MergedOutputSection *&osec =
|
|
mergedOutputSections[{isec->segname, isec->name}];
|
|
if (osec == nullptr)
|
|
osec = make<MergedOutputSection>(isec->name);
|
|
osec->mergeInput(isec);
|
|
}
|
|
|
|
for (const auto &it : mergedOutputSections) {
|
|
StringRef segname = it.first.first;
|
|
MergedOutputSection *osec = it.second;
|
|
if (unwindInfoSection && segname == segment_names::ld) {
|
|
assert(osec->name == section_names::compactUnwind);
|
|
unwindInfoSection->setCompactUnwindSection(osec);
|
|
} else {
|
|
getOrCreateOutputSegment(segname)->addOutputSection(osec);
|
|
}
|
|
}
|
|
|
|
for (SyntheticSection *ssec : syntheticSections) {
|
|
auto it = mergedOutputSections.find({ssec->segname, ssec->name});
|
|
if (it == mergedOutputSections.end()) {
|
|
if (ssec->isNeeded())
|
|
getOrCreateOutputSegment(ssec->segname)->addOutputSection(ssec);
|
|
} else {
|
|
error("section from " + toString(it->second->firstSection()->file) +
|
|
" conflicts with synthetic section " + ssec->segname + "," +
|
|
ssec->name);
|
|
}
|
|
}
|
|
}
|
|
|
|
void Writer::assignAddresses(OutputSegment *seg) {
|
|
uint64_t pageSize = target->getPageSize();
|
|
addr = alignTo(addr, pageSize);
|
|
fileOff = alignTo(fileOff, pageSize);
|
|
seg->fileOff = fileOff;
|
|
|
|
for (OutputSection *osec : seg->getSections()) {
|
|
if (!osec->isNeeded())
|
|
continue;
|
|
addr = alignTo(addr, osec->align);
|
|
fileOff = alignTo(fileOff, osec->align);
|
|
osec->addr = addr;
|
|
osec->fileOff = isZeroFill(osec->flags) ? 0 : fileOff;
|
|
osec->finalize();
|
|
|
|
addr += osec->getSize();
|
|
fileOff += osec->getFileSize();
|
|
}
|
|
}
|
|
|
|
void Writer::openFile() {
|
|
Expected<std::unique_ptr<FileOutputBuffer>> bufferOrErr =
|
|
FileOutputBuffer::create(config->outputFile, fileOff,
|
|
FileOutputBuffer::F_executable);
|
|
|
|
if (!bufferOrErr)
|
|
error("failed to open " + config->outputFile + ": " +
|
|
llvm::toString(bufferOrErr.takeError()));
|
|
else
|
|
buffer = std::move(*bufferOrErr);
|
|
}
|
|
|
|
void Writer::writeSections() {
|
|
uint8_t *buf = buffer->getBufferStart();
|
|
for (OutputSegment *seg : outputSegments)
|
|
for (OutputSection *osec : seg->getSections())
|
|
osec->writeTo(buf + osec->fileOff);
|
|
}
|
|
|
|
void Writer::writeUuid() {
|
|
uint64_t digest =
|
|
xxHash64({buffer->getBufferStart(), buffer->getBufferEnd()});
|
|
uuidCommand->writeUuid(digest);
|
|
}
|
|
|
|
void Writer::run() {
|
|
// dyld requires __LINKEDIT segment to always exist (even if empty).
|
|
OutputSegment *linkEditSegment =
|
|
getOrCreateOutputSegment(segment_names::linkEdit);
|
|
|
|
prepareBranchTarget(config->entry);
|
|
scanRelocations();
|
|
if (in.stubHelper->isNeeded())
|
|
in.stubHelper->setup();
|
|
scanSymbols();
|
|
|
|
// Sort and assign sections to their respective segments. No more sections nor
|
|
// segments may be created after these methods run.
|
|
createOutputSections();
|
|
sortSegmentsAndSections();
|
|
|
|
createLoadCommands();
|
|
|
|
// Ensure that segments (and the sections they contain) are allocated
|
|
// addresses in ascending order, which dyld requires.
|
|
//
|
|
// Note that at this point, __LINKEDIT sections are empty, but we need to
|
|
// determine addresses of other segments/sections before generating its
|
|
// contents.
|
|
for (OutputSegment *seg : outputSegments)
|
|
if (seg != linkEditSegment)
|
|
assignAddresses(seg);
|
|
|
|
// Fill __LINKEDIT contents.
|
|
in.rebase->finalizeContents();
|
|
in.binding->finalizeContents();
|
|
in.weakBinding->finalizeContents();
|
|
in.lazyBinding->finalizeContents();
|
|
in.exports->finalizeContents();
|
|
symtabSection->finalizeContents();
|
|
indirectSymtabSection->finalizeContents();
|
|
|
|
// Now that __LINKEDIT is filled out, do a proper calculation of its
|
|
// addresses and offsets.
|
|
assignAddresses(linkEditSegment);
|
|
|
|
openFile();
|
|
if (errorCount())
|
|
return;
|
|
|
|
writeSections();
|
|
writeUuid();
|
|
|
|
if (auto e = buffer->commit())
|
|
error("failed to write to the output file: " + toString(std::move(e)));
|
|
}
|
|
|
|
void macho::writeResult() { Writer().run(); }
|
|
|
|
void macho::createSyntheticSections() {
|
|
in.header = make<MachHeaderSection>();
|
|
in.rebase = make<RebaseSection>();
|
|
in.binding = make<BindingSection>();
|
|
in.weakBinding = make<WeakBindingSection>();
|
|
in.lazyBinding = make<LazyBindingSection>();
|
|
in.exports = make<ExportSection>();
|
|
in.got = make<GotSection>();
|
|
in.tlvPointers = make<TlvPointerSection>();
|
|
in.lazyPointers = make<LazyPointerSection>();
|
|
in.stubs = make<StubsSection>();
|
|
in.stubHelper = make<StubHelperSection>();
|
|
in.imageLoaderCache = make<ImageLoaderCacheSection>();
|
|
}
|
|
|
|
OutputSection *macho::firstTLVDataSection = nullptr;
|