//===- IndenticalCodeFolding.cpp ------------------------------------------===// // // The MCLinker Project // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "mcld/LD/IdenticalCodeFolding.h" #include "mcld/GeneralOptions.h" #include "mcld/Module.h" #include "mcld/Fragment/RegionFragment.h" #include "mcld/LD/LDContext.h" #include "mcld/LD/LDSection.h" #include "mcld/LD/RelocData.h" #include "mcld/LD/Relocator.h" #include "mcld/LD/ResolveInfo.h" #include "mcld/LD/SectionData.h" #include "mcld/LinkerConfig.h" #include "mcld/MC/Input.h" #include "mcld/Support/Demangle.h" #include "mcld/Support/MsgHandling.h" #include "mcld/Target/GNULDBackend.h" #include #include #include #include #include #include #include namespace mcld { static bool isSymCtorOrDtor(const ResolveInfo& pSym) { // We can always fold ctors and dtors since accessing function pointer in C++ // is forbidden. llvm::StringRef name(pSym.name(), pSym.nameSize()); if (!name.startswith("_ZZ") && !name.startswith("_ZN")) { return false; } return isCtorOrDtor(pSym.name(), pSym.nameSize()); } IdenticalCodeFolding::IdenticalCodeFolding(const LinkerConfig& pConfig, const TargetLDBackend& pBackend, Module& pModule) : m_Config(pConfig), m_Backend(pBackend), m_Module(pModule) { } void IdenticalCodeFolding::foldIdenticalCode() { // 1. Find folding candidates. FoldingCandidates candidate_list; findCandidates(candidate_list); // 2. Initialize constant section content for (size_t i = 0; i < candidate_list.size(); ++i) { candidate_list[i].initConstantContent(m_Backend, m_KeptSections); } // 3. Find identical code until convergence bool converged = false; size_t iterations = 0; while (!converged && (iterations < m_Config.options().getICFIterations())) { converged = matchCandidates(candidate_list); ++iterations; } if (m_Config.options().printICFSections()) { debug(diag::debug_icf_iterations) << iterations; } // 4. Fold the identical code typedef std::set FoldedObjects; FoldedObjects folded_objs; KeptSections::iterator kept, keptEnd = m_KeptSections.end(); size_t index = 0; for (kept = m_KeptSections.begin(); kept != keptEnd; ++kept, ++index) { LDSection* sect = (*kept).first; Input* obj = (*kept).second.first; size_t kept_index = (*kept).second.second; if (index != kept_index) { sect->setKind(LDFileFormat::Folded); folded_objs.insert(obj); if (m_Config.options().printICFSections()) { KeptSections::iterator it = m_KeptSections.begin() + kept_index; LDSection* kept_sect = (*it).first; Input* kept_obj = (*it).second.first; debug(diag::debug_icf_folded_section) << sect->name() << obj->name() << kept_sect->name() << kept_obj->name(); } } } // Adjust the fragment reference of the folded symbols. FoldedObjects::iterator fobj, fobjEnd = folded_objs.end(); for (fobj = folded_objs.begin(); fobj != fobjEnd; ++fobj) { LDContext::sym_iterator sym, symEnd = (*fobj)->context()->symTabEnd(); for (sym = (*fobj)->context()->symTabBegin(); sym != symEnd; ++sym) { if ((*sym)->hasFragRef() && ((*sym)->type() == ResolveInfo::Function)) { LDSymbol* out_sym = (*sym)->resolveInfo()->outSymbol(); FragmentRef* frag_ref = out_sym->fragRef(); LDSection* sect = &(frag_ref->frag()->getParent()->getSection()); if (sect->kind() == LDFileFormat::Folded) { size_t kept_index = m_KeptSections[sect].second; LDSection* kept_sect = (*(m_KeptSections.begin() + kept_index)).first; frag_ref->assign(kept_sect->getSectionData()->front(), frag_ref->offset()); } } } // for each symbol } // for each folded object } void IdenticalCodeFolding::findCandidates(FoldingCandidates& pCandidateList) { Module::obj_iterator obj, objEnd = m_Module.obj_end(); for (obj = m_Module.obj_begin(); obj != objEnd; ++obj) { std::set funcptr_access_set; typedef std::map CandidateMap; CandidateMap candidate_map; LDContext::sect_iterator sect, sectEnd = (*obj)->context()->sectEnd(); for (sect = (*obj)->context()->sectBegin(); sect != sectEnd; ++sect) { switch ((*sect)->kind()) { case LDFileFormat::TEXT: { candidate_map.insert( std::make_pair(*sect, reinterpret_cast(NULL))); break; } case LDFileFormat::Relocation: { LDSection* target = (*sect)->getLink(); if (target->kind() == LDFileFormat::TEXT) { candidate_map[target] = *sect; } // Safe icf if (m_Config.options().getICFMode() == GeneralOptions::ICF::Safe) { RelocData::iterator rel, relEnd = (*sect)->getRelocData()->end(); for (rel = (*sect)->getRelocData()->begin(); rel != relEnd; ++rel) { LDSymbol* sym = rel->symInfo()->outSymbol(); if (sym->hasFragRef() && (sym->type() == ResolveInfo::Function)) { const LDSection* def = &sym->fragRef()->frag()->getParent()->getSection(); if (!isSymCtorOrDtor(*rel->symInfo()) && m_Backend.mayHaveUnsafeFunctionPointerAccess(*target) && m_Backend.getRelocator() ->mayHaveFunctionPointerAccess(*rel)) { funcptr_access_set.insert(def); } } } // for each reloc } break; } default: { // skip break; } } // end of switch } // for each section CandidateMap::iterator candidate, candidateEnd = candidate_map.end(); for (candidate = candidate_map.begin(); candidate != candidateEnd; ++candidate) { if ((m_Config.options().getICFMode() == GeneralOptions::ICF::All) || (funcptr_access_set.count(candidate->first) == 0)) { size_t index = m_KeptSections.size(); m_KeptSections[candidate->first] = ObjectAndId(*obj, index); pCandidateList.push_back( FoldingCandidate(candidate->first, candidate->second, *obj)); } } // for each possible candidate } // for each obj } bool IdenticalCodeFolding::matchCandidates(FoldingCandidates& pCandidateList) { typedef std::multimap ChecksumMap; ChecksumMap checksum_map; std::vector contents(pCandidateList.size()); bool converged = true; for (size_t index = 0; index < pCandidateList.size(); ++index) { contents[index] = pCandidateList[index].getContentWithVariables( m_Backend, m_KeptSections); uint32_t checksum = ::crc32(0xFFFFFFFF, (const uint8_t*)contents[index].c_str(), contents[index].length()); size_t count = checksum_map.count(checksum); if (count == 0) { checksum_map.insert(std::make_pair(checksum, index)); } else { std::pair ret = checksum_map.equal_range(checksum); for (ChecksumMap::iterator it = ret.first; it != ret.second; ++it) { size_t kept_index = (*it).second; if (contents[index].compare(contents[kept_index]) == 0) { m_KeptSections[pCandidateList[index].sect].second = kept_index; converged = false; break; } } } } return converged; } void IdenticalCodeFolding::FoldingCandidate::initConstantContent( const TargetLDBackend& pBackend, const IdenticalCodeFolding::KeptSections& pKeptSections) { // Get the static content from text. assert(sect != NULL && sect->hasSectionData()); SectionData::const_iterator frag, fragEnd = sect->getSectionData()->end(); for (frag = sect->getSectionData()->begin(); frag != fragEnd; ++frag) { switch (frag->getKind()) { case Fragment::Region: { const RegionFragment& region = llvm::cast(*frag); content.append(region.getRegion().begin(), region.size()); break; } default: { // FIXME: Currently we only take care of RegionFragment. break; } } } // Get the static content from relocs. if (reloc_sect != NULL && reloc_sect->hasRelocData()) { for (Relocation& rel : *reloc_sect->getRelocData()) { llvm::format_object rel_info("%x%llx%llx%llx", rel.type(), rel.symValue(), rel.addend(), rel.place()); char rel_str[48]; rel_info.print(rel_str, sizeof(rel_str)); content.append(rel_str); // Handle the recursive call. LDSymbol* sym = rel.symInfo()->outSymbol(); if ((sym->type() == ResolveInfo::Function) && sym->hasFragRef()) { LDSection* def = &sym->fragRef()->frag()->getParent()->getSection(); if (def == sect) { continue; } } if (!pBackend.isSymbolPreemptible(*rel.symInfo()) && sym->hasFragRef() && (pKeptSections.find( &sym->fragRef()->frag()->getParent()->getSection()) != pKeptSections.end())) { // Mark this reloc as a variable. variable_relocs.push_back(&rel); } else { // TODO: Support inlining merge sections if possible (target-dependent). if ((sym->binding() == ResolveInfo::Local) || (sym->binding() == ResolveInfo::Absolute)) { // ABS or Local symbols. content.append(sym->name()).append(obj->name()).append( obj->path().native()); } else { content.append(sym->name()); } } } } } std::string IdenticalCodeFolding::FoldingCandidate::getContentWithVariables( const TargetLDBackend& pBackend, const IdenticalCodeFolding::KeptSections& pKeptSections) { std::string result(content); // Compute the variable content from relocs. std::vector::const_iterator rel, relEnd = variable_relocs.end(); for (rel = variable_relocs.begin(); rel != relEnd; ++rel) { LDSymbol* sym = (*rel)->symInfo()->outSymbol(); LDSection* def = &sym->fragRef()->frag()->getParent()->getSection(); // Use the kept section index. KeptSections::const_iterator it = pKeptSections.find(def); llvm::format_object kept_info("%x", (*it).second.second); char kept_str[8]; kept_info.print(kept_str, sizeof(kept_str)); result.append(kept_str); } return result; } } // namespace mcld