//===- SymbolizableObjectFile.cpp -----------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Implementation of SymbolizableObjectFile class. // //===----------------------------------------------------------------------===// #include "SymbolizableObjectFile.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/Triple.h" #include "llvm/BinaryFormat/COFF.h" #include "llvm/DebugInfo/DWARF/DWARFContext.h" #include "llvm/DebugInfo/Symbolize/SymbolizableModule.h" #include "llvm/Object/COFF.h" #include "llvm/Object/ObjectFile.h" #include "llvm/Object/SymbolSize.h" #include "llvm/Support/Casting.h" #include "llvm/Support/DataExtractor.h" #include "llvm/Support/Error.h" #include #include #include #include #include #include #include using namespace llvm; using namespace object; using namespace symbolize; static DILineInfoSpecifier getDILineInfoSpecifier(FunctionNameKind FNKind) { return DILineInfoSpecifier( DILineInfoSpecifier::FileLineInfoKind::AbsoluteFilePath, FNKind); } ErrorOr> SymbolizableObjectFile::create(object::ObjectFile *Obj, std::unique_ptr DICtx) { std::unique_ptr res( new SymbolizableObjectFile(Obj, std::move(DICtx))); std::unique_ptr OpdExtractor; uint64_t OpdAddress = 0; // Find the .opd (function descriptor) section if any, for big-endian // PowerPC64 ELF. if (Obj->getArch() == Triple::ppc64) { for (section_iterator Section : Obj->sections()) { StringRef Name; StringRef Data; if (auto EC = Section->getName(Name)) return EC; if (Name == ".opd") { if (auto EC = Section->getContents(Data)) return EC; OpdExtractor.reset(new DataExtractor(Data, Obj->isLittleEndian(), Obj->getBytesInAddress())); OpdAddress = Section->getAddress(); break; } } } std::vector> Symbols = computeSymbolSizes(*Obj); for (auto &P : Symbols) res->addSymbol(P.first, P.second, OpdExtractor.get(), OpdAddress); // If this is a COFF object and we didn't find any symbols, try the export // table. if (Symbols.empty()) { if (auto *CoffObj = dyn_cast(Obj)) if (auto EC = res->addCoffExportSymbols(CoffObj)) return EC; } return std::move(res); } SymbolizableObjectFile::SymbolizableObjectFile(ObjectFile *Obj, std::unique_ptr DICtx) : Module(Obj), DebugInfoContext(std::move(DICtx)) {} namespace { struct OffsetNamePair { uint32_t Offset; StringRef Name; bool operator<(const OffsetNamePair &R) const { return Offset < R.Offset; } }; } // end anonymous namespace std::error_code SymbolizableObjectFile::addCoffExportSymbols( const COFFObjectFile *CoffObj) { // Get all export names and offsets. std::vector ExportSyms; for (const ExportDirectoryEntryRef &Ref : CoffObj->export_directories()) { StringRef Name; uint32_t Offset; if (auto EC = Ref.getSymbolName(Name)) return EC; if (auto EC = Ref.getExportRVA(Offset)) return EC; ExportSyms.push_back(OffsetNamePair{Offset, Name}); } if (ExportSyms.empty()) return std::error_code(); // Sort by ascending offset. array_pod_sort(ExportSyms.begin(), ExportSyms.end()); // Approximate the symbol sizes by assuming they run to the next symbol. // FIXME: This assumes all exports are functions. uint64_t ImageBase = CoffObj->getImageBase(); for (auto I = ExportSyms.begin(), E = ExportSyms.end(); I != E; ++I) { OffsetNamePair &Export = *I; // FIXME: The last export has a one byte size now. uint32_t NextOffset = I != E ? I->Offset : Export.Offset + 1; uint64_t SymbolStart = ImageBase + Export.Offset; uint64_t SymbolSize = NextOffset - Export.Offset; SymbolDesc SD = {SymbolStart, SymbolSize}; Functions.insert(std::make_pair(SD, Export.Name)); } return std::error_code(); } std::error_code SymbolizableObjectFile::addSymbol(const SymbolRef &Symbol, uint64_t SymbolSize, DataExtractor *OpdExtractor, uint64_t OpdAddress) { Expected SymbolTypeOrErr = Symbol.getType(); if (!SymbolTypeOrErr) return errorToErrorCode(SymbolTypeOrErr.takeError()); SymbolRef::Type SymbolType = *SymbolTypeOrErr; if (SymbolType != SymbolRef::ST_Function && SymbolType != SymbolRef::ST_Data) return std::error_code(); Expected SymbolAddressOrErr = Symbol.getAddress(); if (!SymbolAddressOrErr) return errorToErrorCode(SymbolAddressOrErr.takeError()); uint64_t SymbolAddress = *SymbolAddressOrErr; if (OpdExtractor) { // For big-endian PowerPC64 ELF, symbols in the .opd section refer to // function descriptors. The first word of the descriptor is a pointer to // the function's code. // For the purposes of symbolization, pretend the symbol's address is that // of the function's code, not the descriptor. uint64_t OpdOffset = SymbolAddress - OpdAddress; uint32_t OpdOffset32 = OpdOffset; if (OpdOffset == OpdOffset32 && OpdExtractor->isValidOffsetForAddress(OpdOffset32)) SymbolAddress = OpdExtractor->getAddress(&OpdOffset32); } Expected SymbolNameOrErr = Symbol.getName(); if (!SymbolNameOrErr) return errorToErrorCode(SymbolNameOrErr.takeError()); StringRef SymbolName = *SymbolNameOrErr; // Mach-O symbol table names have leading underscore, skip it. if (Module->isMachO() && !SymbolName.empty() && SymbolName[0] == '_') SymbolName = SymbolName.drop_front(); // FIXME: If a function has alias, there are two entries in symbol table // with same address size. Make sure we choose the correct one. auto &M = SymbolType == SymbolRef::ST_Function ? Functions : Objects; SymbolDesc SD = { SymbolAddress, SymbolSize }; M.insert(std::make_pair(SD, SymbolName)); return std::error_code(); } // Return true if this is a 32-bit x86 PE COFF module. bool SymbolizableObjectFile::isWin32Module() const { auto *CoffObject = dyn_cast(Module); return CoffObject && CoffObject->getMachine() == COFF::IMAGE_FILE_MACHINE_I386; } uint64_t SymbolizableObjectFile::getModulePreferredBase() const { if (auto *CoffObject = dyn_cast(Module)) return CoffObject->getImageBase(); return 0; } bool SymbolizableObjectFile::getNameFromSymbolTable(SymbolRef::Type Type, uint64_t Address, std::string &Name, uint64_t &Addr, uint64_t &Size) const { const auto &SymbolMap = Type == SymbolRef::ST_Function ? Functions : Objects; if (SymbolMap.empty()) return false; SymbolDesc SD = { Address, Address }; auto SymbolIterator = SymbolMap.upper_bound(SD); if (SymbolIterator == SymbolMap.begin()) return false; --SymbolIterator; if (SymbolIterator->first.Size != 0 && SymbolIterator->first.Addr + SymbolIterator->first.Size <= Address) return false; Name = SymbolIterator->second.str(); Addr = SymbolIterator->first.Addr; Size = SymbolIterator->first.Size; return true; } bool SymbolizableObjectFile::shouldOverrideWithSymbolTable( FunctionNameKind FNKind, bool UseSymbolTable) const { // When DWARF is used with -gline-tables-only / -gmlt, the symbol table gives // better answers for linkage names than the DIContext. Otherwise, we are // probably using PEs and PDBs, and we shouldn't do the override. PE files // generally only contain the names of exported symbols. return FNKind == FunctionNameKind::LinkageName && UseSymbolTable && isa(DebugInfoContext.get()); } DILineInfo SymbolizableObjectFile::symbolizeCode(uint64_t ModuleOffset, FunctionNameKind FNKind, bool UseSymbolTable) const { DILineInfo LineInfo; if (DebugInfoContext) { LineInfo = DebugInfoContext->getLineInfoForAddress( ModuleOffset, getDILineInfoSpecifier(FNKind)); } // Override function name from symbol table if necessary. if (shouldOverrideWithSymbolTable(FNKind, UseSymbolTable)) { std::string FunctionName; uint64_t Start, Size; if (getNameFromSymbolTable(SymbolRef::ST_Function, ModuleOffset, FunctionName, Start, Size)) { LineInfo.FunctionName = FunctionName; } } return LineInfo; } DIInliningInfo SymbolizableObjectFile::symbolizeInlinedCode( uint64_t ModuleOffset, FunctionNameKind FNKind, bool UseSymbolTable) const { DIInliningInfo InlinedContext; if (DebugInfoContext) InlinedContext = DebugInfoContext->getInliningInfoForAddress( ModuleOffset, getDILineInfoSpecifier(FNKind)); // Make sure there is at least one frame in context. if (InlinedContext.getNumberOfFrames() == 0) InlinedContext.addFrame(DILineInfo()); // Override the function name in lower frame with name from symbol table. if (shouldOverrideWithSymbolTable(FNKind, UseSymbolTable)) { std::string FunctionName; uint64_t Start, Size; if (getNameFromSymbolTable(SymbolRef::ST_Function, ModuleOffset, FunctionName, Start, Size)) { InlinedContext.getMutableFrame(InlinedContext.getNumberOfFrames() - 1) ->FunctionName = FunctionName; } } return InlinedContext; } DIGlobal SymbolizableObjectFile::symbolizeData(uint64_t ModuleOffset) const { DIGlobal Res; getNameFromSymbolTable(SymbolRef::ST_Data, ModuleOffset, Res.Name, Res.Start, Res.Size); return Res; }