//===- DWARFDebugRnglists.cpp ---------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/DebugInfo/DWARF/DWARFDebugRnglists.h" #include "llvm/BinaryFormat/Dwarf.h" #include "llvm/DebugInfo/DWARF/DWARFUnit.h" #include "llvm/Support/Error.h" #include "llvm/Support/Format.h" #include "llvm/Support/raw_ostream.h" using namespace llvm; template static Error createError(char const *Fmt, const Ts &... Vals) { std::string Buffer; raw_string_ostream Stream(Buffer); Stream << format(Fmt, Vals...); return make_error(Stream.str(), inconvertibleErrorCode()); } namespace llvm { // workaround for gcc bug template <> Error DWARFListType::createError(const char *Fmt, const char *s, uint32_t Val) { return ::createError(Fmt, s, Val); } } Error RangeListEntry::extract(DWARFDataExtractor Data, uint32_t End, uint32_t *OffsetPtr) { Offset = *OffsetPtr; SectionIndex = -1ULL; // The caller should guarantee that we have at least 1 byte available, so // we just assert instead of revalidate. assert(*OffsetPtr < End && "not enough space to extract a rangelist encoding"); uint8_t Encoding = Data.getU8(OffsetPtr); switch (Encoding) { case dwarf::DW_RLE_end_of_list: Value0 = Value1 = 0; break; // TODO: Support other encodings. case dwarf::DW_RLE_base_addressx: return createError("unsupported rnglists encoding DW_RLE_base_addressx " "at offset 0x%" PRIx32, *OffsetPtr - 1); case dwarf::DW_RLE_startx_endx: return createError("unsupported rnglists encoding DW_RLE_startx_endx at " "offset 0x%" PRIx32, *OffsetPtr - 1); case dwarf::DW_RLE_startx_length: return createError("unsupported rnglists encoding DW_RLE_startx_length " "at offset 0x%" PRIx32, *OffsetPtr - 1); case dwarf::DW_RLE_offset_pair: { uint32_t PreviousOffset = *OffsetPtr - 1; Value0 = Data.getULEB128(OffsetPtr); Value1 = Data.getULEB128(OffsetPtr); if (End < *OffsetPtr) return createError("read past end of table when reading " "DW_RLE_offset_pair encoding at offset 0x%" PRIx32, PreviousOffset); break; } case dwarf::DW_RLE_base_address: { if ((End - *OffsetPtr) < Data.getAddressSize()) return createError("insufficient space remaining in table for " "DW_RLE_base_address encoding at offset 0x%" PRIx32, *OffsetPtr - 1); Value0 = Data.getRelocatedAddress(OffsetPtr, &SectionIndex); break; } case dwarf::DW_RLE_start_end: { if ((End - *OffsetPtr) < unsigned(Data.getAddressSize() * 2)) return createError("insufficient space remaining in table for " "DW_RLE_start_end encoding " "at offset 0x%" PRIx32, *OffsetPtr - 1); Value0 = Data.getRelocatedAddress(OffsetPtr, &SectionIndex); Value1 = Data.getRelocatedAddress(OffsetPtr); break; } case dwarf::DW_RLE_start_length: { uint32_t PreviousOffset = *OffsetPtr - 1; Value0 = Data.getRelocatedAddress(OffsetPtr, &SectionIndex); Value1 = Data.getULEB128(OffsetPtr); if (End < *OffsetPtr) return createError("read past end of table when reading " "DW_RLE_start_length encoding at offset 0x%" PRIx32, PreviousOffset); break; } default: return createError("unknown rnglists encoding 0x%" PRIx32 " at offset 0x%" PRIx32, uint32_t(Encoding), *OffsetPtr - 1); } EntryKind = Encoding; return Error::success(); } DWARFAddressRangesVector DWARFDebugRnglist::getAbsoluteRanges( llvm::Optional BaseAddr) const { DWARFAddressRangesVector Res; for (const RangeListEntry &RLE : Entries) { if (RLE.EntryKind == dwarf::DW_RLE_end_of_list) break; if (RLE.EntryKind == dwarf::DW_RLE_base_address) { BaseAddr = {RLE.Value0, RLE.SectionIndex}; continue; } DWARFAddressRange E; E.SectionIndex = RLE.SectionIndex; if (BaseAddr && E.SectionIndex == -1ULL) E.SectionIndex = BaseAddr->SectionIndex; switch (RLE.EntryKind) { case dwarf::DW_RLE_offset_pair: E.LowPC = RLE.Value0; E.HighPC = RLE.Value1; if (BaseAddr) { E.LowPC += BaseAddr->Address; E.HighPC += BaseAddr->Address; } break; case dwarf::DW_RLE_start_end: E.LowPC = RLE.Value0; E.HighPC = RLE.Value1; break; case dwarf::DW_RLE_start_length: E.LowPC = RLE.Value0; E.HighPC = E.LowPC + RLE.Value1; break; default: // Unsupported encodings should have been reported during extraction, // so we should not run into any here. llvm_unreachable("Unsupported range list encoding"); } Res.push_back(E); } return Res; } void RangeListEntry::dump(raw_ostream &OS, uint8_t AddrSize, uint8_t MaxEncodingStringLength, uint64_t &CurrentBase, DIDumpOptions DumpOpts) const { auto PrintRawEntry = [](raw_ostream &OS, const RangeListEntry &Entry, uint8_t AddrSize, DIDumpOptions DumpOpts) { if (DumpOpts.Verbose) { DumpOpts.DisplayRawContents = true; DWARFAddressRange(Entry.Value0, Entry.Value1) .dump(OS, AddrSize, DumpOpts); OS << " => "; } }; if (DumpOpts.Verbose) { // Print the section offset in verbose mode. OS << format("0x%8.8" PRIx32 ":", Offset); auto EncodingString = dwarf::RangeListEncodingString(EntryKind); // Unsupported encodings should have been reported during parsing. assert(!EncodingString.empty() && "Unknown range entry encoding"); OS << format(" [%s%*c", EncodingString.data(), MaxEncodingStringLength - EncodingString.size() + 1, ']'); if (EntryKind != dwarf::DW_RLE_end_of_list) OS << ": "; } switch (EntryKind) { case dwarf::DW_RLE_end_of_list: OS << (DumpOpts.Verbose ? "" : ""); break; case dwarf::DW_RLE_base_address: // In non-verbose mode we do not print anything for this entry. CurrentBase = Value0; if (!DumpOpts.Verbose) return; OS << format(" 0x%*.*" PRIx64, AddrSize * 2, AddrSize * 2, Value0); break; case dwarf::DW_RLE_start_length: PrintRawEntry(OS, *this, AddrSize, DumpOpts); DWARFAddressRange(Value0, Value0 + Value1).dump(OS, AddrSize, DumpOpts); break; case dwarf::DW_RLE_offset_pair: PrintRawEntry(OS, *this, AddrSize, DumpOpts); DWARFAddressRange(Value0 + CurrentBase, Value1 + CurrentBase) .dump(OS, AddrSize, DumpOpts); break; case dwarf::DW_RLE_start_end: DWARFAddressRange(Value0, Value1).dump(OS, AddrSize, DumpOpts); break; default: llvm_unreachable("Unsupported range list encoding"); } OS << "\n"; }