//===- ELFObjectReader.cpp ------------------------------------------------===// // // The MCLinker Project // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "mcld/LD/ELFObjectReader.h" #include "mcld/IRBuilder.h" #include "mcld/MC/Input.h" #include "mcld/LD/ELFReader.h" #include "mcld/LD/EhFrameReader.h" #include "mcld/LD/EhFrame.h" #include "mcld/LD/LDContext.h" #include "mcld/Target/GNULDBackend.h" #include "mcld/Support/MsgHandling.h" #include "mcld/Support/MemoryArea.h" #include "mcld/Object/ObjectBuilder.h" #include #include #include #include #include namespace mcld { //===----------------------------------------------------------------------===// // ELFObjectReader //===----------------------------------------------------------------------===// /// constructor ELFObjectReader::ELFObjectReader(GNULDBackend& pBackend, IRBuilder& pBuilder, const LinkerConfig& pConfig) : ObjectReader(), m_pELFReader(NULL), m_pEhFrameReader(NULL), m_Builder(pBuilder), m_ReadFlag(ParseEhFrame), m_Backend(pBackend), m_Config(pConfig) { if (pConfig.targets().is32Bits() && pConfig.targets().isLittleEndian()) { m_pELFReader = new ELFReader<32, true>(pBackend); } else if (pConfig.targets().is64Bits() && pConfig.targets().isLittleEndian()) { m_pELFReader = new ELFReader<64, true>(pBackend); } m_pEhFrameReader = new EhFrameReader(); } /// destructor ELFObjectReader::~ELFObjectReader() { delete m_pELFReader; delete m_pEhFrameReader; } /// isMyFormat bool ELFObjectReader::isMyFormat(Input& pInput, bool& pContinue) const { assert(pInput.hasMemArea()); // Don't warning about the frequently requests. // MemoryArea has a list of cache to handle this. size_t hdr_size = m_pELFReader->getELFHeaderSize(); if (pInput.memArea()->size() < hdr_size) return false; llvm::StringRef region = pInput.memArea()->request(pInput.fileOffset(), hdr_size); const char* ELF_hdr = region.begin(); bool result = true; if (!m_pELFReader->isELF(ELF_hdr)) { pContinue = true; result = false; } else if (Input::Object != m_pELFReader->fileType(ELF_hdr)) { pContinue = true; result = false; } else if (!m_pELFReader->isMyEndian(ELF_hdr)) { pContinue = false; result = false; } else if (!m_pELFReader->isMyMachine(ELF_hdr)) { pContinue = false; result = false; } return result; } /// readHeader - read section header and create LDSections. bool ELFObjectReader::readHeader(Input& pInput) { assert(pInput.hasMemArea()); size_t hdr_size = m_pELFReader->getELFHeaderSize(); if (pInput.memArea()->size() < hdr_size) return false; llvm::StringRef region = pInput.memArea()->request(pInput.fileOffset(), hdr_size); const char* ELF_hdr = region.begin(); m_Backend.mergeFlags(pInput, ELF_hdr); bool result = m_pELFReader->readSectionHeaders(pInput, ELF_hdr); return result; } /// readSections - read all regular sections. bool ELFObjectReader::readSections(Input& pInput) { // handle sections LDContext::sect_iterator section, sectEnd = pInput.context()->sectEnd(); for (section = pInput.context()->sectBegin(); section != sectEnd; ++section) { // ignore the section if the LDSection* in input context is NULL if (*section == NULL) continue; switch ((*section)->kind()) { /** group sections **/ case LDFileFormat::Group: { assert((*section)->getLink() != NULL); ResolveInfo* signature = m_pELFReader->readSignature( pInput, *(*section)->getLink(), (*section)->getInfo()); bool exist = false; if (signature->nameSize() == 0 && ResolveInfo::Section == signature->type()) { // if the signature is a section symbol in input object, we use the // section name as group signature. signatures().insert((*section)->name(), exist); } else { signatures().insert(signature->name(), exist); } if (exist) { // if this is not the first time we see this group signature, then // ignore all the members in this group (set Ignore) llvm::StringRef region = pInput.memArea()->request( pInput.fileOffset() + (*section)->offset(), (*section)->size()); const llvm::ELF::Elf32_Word* value = reinterpret_cast(region.begin()); size_t size = region.size() / sizeof(llvm::ELF::Elf32_Word); if (llvm::ELF::GRP_COMDAT == *value) { for (size_t index = 1; index < size; ++index) { pInput.context()->getSection(value[index])->setKind( LDFileFormat::Ignore); } } } ResolveInfo::Destroy(signature); break; } /** linkonce sections **/ case LDFileFormat::LinkOnce: { bool exist = false; // .gnu.linkonce + "." + type + "." + name llvm::StringRef name( llvm::StringRef((*section)->name()).drop_front(14)); signatures().insert(name.split(".").second, exist); if (!exist) { if (name.startswith("wi")) { (*section)->setKind(LDFileFormat::Debug); if (m_Config.options().stripDebug()) (*section)->setKind(LDFileFormat::Ignore); else { SectionData* sd = IRBuilder::CreateSectionData(**section); if (!m_pELFReader->readRegularSection(pInput, *sd)) fatal(diag::err_cannot_read_section) << (*section)->name(); } } else { if (((*section)->flag() & llvm::ELF::SHF_EXECINSTR) != 0) (*section)->setKind(LDFileFormat::TEXT); else (*section)->setKind(LDFileFormat::DATA); SectionData* sd = IRBuilder::CreateSectionData(**section); if (!m_pELFReader->readRegularSection(pInput, *sd)) fatal(diag::err_cannot_read_section) << (*section)->name(); } } else { (*section)->setKind(LDFileFormat::Ignore); } break; } /** relocation sections **/ case LDFileFormat::Relocation: { assert((*section)->getLink() != NULL); size_t link_index = (*section)->getLink()->index(); LDSection* link_sect = pInput.context()->getSection(link_index); if (link_sect == NULL || link_sect->kind() == LDFileFormat::Ignore) { // Relocation sections of group members should also be part of the // group. Thus, if the associated member sections are ignored, the // related relocations should be also ignored. (*section)->setKind(LDFileFormat::Ignore); } break; } /** normal sections **/ // FIXME: support Version Kind case LDFileFormat::Version: // FIXME: support GCCExceptTable Kind case LDFileFormat::GCCExceptTable: /** Fall through **/ case LDFileFormat::TEXT: case LDFileFormat::DATA: case LDFileFormat::Note: case LDFileFormat::MetaData: { SectionData* sd = IRBuilder::CreateSectionData(**section); if (!m_pELFReader->readRegularSection(pInput, *sd)) fatal(diag::err_cannot_read_section) << (*section)->name(); break; } case LDFileFormat::Debug: case LDFileFormat::DebugString: { if (m_Config.options().stripDebug()) { (*section)->setKind(LDFileFormat::Ignore); } else { SectionData* sd = IRBuilder::CreateSectionData(**section); if (!m_pELFReader->readRegularSection(pInput, *sd)) { fatal(diag::err_cannot_read_section) << (*section)->name(); } } break; } case LDFileFormat::EhFrame: { EhFrame* eh_frame = IRBuilder::CreateEhFrame(**section); // We don't really parse EhFrame if this is a partial linking if ((m_Config.codeGenType() != LinkerConfig::Object) && (m_ReadFlag & ParseEhFrame)) { if (!m_pEhFrameReader->read<32, true>(pInput, *eh_frame)) { // if we failed to parse a .eh_frame, we should not parse the rest // .eh_frame. m_ReadFlag ^= ParseEhFrame; } } else { if (!m_pELFReader->readRegularSection(pInput, *eh_frame->getSectionData())) { fatal(diag::err_cannot_read_section) << (*section)->name(); } } break; } /** target dependent sections **/ case LDFileFormat::Target: { SectionData* sd = IRBuilder::CreateSectionData(**section); if (!m_Backend.readSection(pInput, *sd)) { fatal(diag::err_cannot_read_target_section) << (*section)->name(); } break; } /** BSS sections **/ case LDFileFormat::BSS: { IRBuilder::CreateBSS(**section); break; } // ignore case LDFileFormat::Null: case LDFileFormat::NamePool: case LDFileFormat::Ignore: case LDFileFormat::StackNote: continue; // warning case LDFileFormat::EhFrameHdr: default: { warning(diag::warn_illegal_input_section) << (*section)->name() << pInput.name() << pInput.path(); break; } } } // end of for all sections return true; } /// readSymbols - read symbols from the input relocatable object. bool ELFObjectReader::readSymbols(Input& pInput) { assert(pInput.hasMemArea()); LDSection* symtab_shdr = pInput.context()->getSection(".symtab"); if (symtab_shdr == NULL) { note(diag::note_has_no_symtab) << pInput.name() << pInput.path() << ".symtab"; return true; } LDSection* strtab_shdr = symtab_shdr->getLink(); if (strtab_shdr == NULL) { fatal(diag::fatal_cannot_read_strtab) << pInput.name() << pInput.path() << ".symtab"; return false; } llvm::StringRef symtab_region = pInput.memArea()->request( pInput.fileOffset() + symtab_shdr->offset(), symtab_shdr->size()); llvm::StringRef strtab_region = pInput.memArea()->request( pInput.fileOffset() + strtab_shdr->offset(), strtab_shdr->size()); const char* strtab = strtab_region.begin(); bool result = m_pELFReader->readSymbols(pInput, m_Builder, symtab_region, strtab); return result; } bool ELFObjectReader::readRelocations(Input& pInput) { assert(pInput.hasMemArea()); MemoryArea* mem = pInput.memArea(); LDContext::sect_iterator rs, rsEnd = pInput.context()->relocSectEnd(); for (rs = pInput.context()->relocSectBegin(); rs != rsEnd; ++rs) { if (LDFileFormat::Ignore == (*rs)->kind()) continue; uint32_t offset = pInput.fileOffset() + (*rs)->offset(); uint32_t size = (*rs)->size(); llvm::StringRef region = mem->request(offset, size); IRBuilder::CreateRelocData( **rs); ///< create relocation data for the header switch ((*rs)->type()) { case llvm::ELF::SHT_RELA: { if (!m_pELFReader->readRela(pInput, **rs, region)) { return false; } break; } case llvm::ELF::SHT_REL: { if (!m_pELFReader->readRel(pInput, **rs, region)) { return false; } break; } default: { ///< should not enter return false; } } // end of switch } // end of for all relocation data return true; } } // namespace mcld