//===--- DWARFAcceleratorTable.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/DWARFAcceleratorTable.h" #include "llvm/Support/Dwarf.h" #include "llvm/Support/Format.h" #include "llvm/Support/raw_ostream.h" namespace llvm { bool DWARFAcceleratorTable::extract() { uint32_t Offset = 0; // Check that we can at least read the header. if (!AccelSection.isValidOffset(offsetof(Header, HeaderDataLength)+4)) return false; Hdr.Magic = AccelSection.getU32(&Offset); Hdr.Version = AccelSection.getU16(&Offset); Hdr.HashFunction = AccelSection.getU16(&Offset); Hdr.NumBuckets = AccelSection.getU32(&Offset); Hdr.NumHashes = AccelSection.getU32(&Offset); Hdr.HeaderDataLength = AccelSection.getU32(&Offset); // Check that we can read all the hashes and offsets from the // section (see SourceLevelDebugging.rst for the structure of the index). if (!AccelSection.isValidOffset(sizeof(Hdr) + Hdr.HeaderDataLength + Hdr.NumBuckets*4 + Hdr.NumHashes*8)) return false; HdrData.DIEOffsetBase = AccelSection.getU32(&Offset); uint32_t NumAtoms = AccelSection.getU32(&Offset); for (unsigned i = 0; i < NumAtoms; ++i) { uint16_t AtomType = AccelSection.getU16(&Offset); uint16_t AtomForm = AccelSection.getU16(&Offset); HdrData.Atoms.push_back(std::make_pair(AtomType, AtomForm)); } return true; } void DWARFAcceleratorTable::dump(raw_ostream &OS) const { // Dump the header. OS << "Magic = " << format("0x%08x", Hdr.Magic) << '\n' << "Version = " << format("0x%04x", Hdr.Version) << '\n' << "Hash function = " << format("0x%08x", Hdr.HashFunction) << '\n' << "Bucket count = " << Hdr.NumBuckets << '\n' << "Hashes count = " << Hdr.NumHashes << '\n' << "HeaderData length = " << Hdr.HeaderDataLength << '\n' << "DIE offset base = " << HdrData.DIEOffsetBase << '\n' << "Number of atoms = " << HdrData.Atoms.size() << '\n'; unsigned i = 0; SmallVector<DWARFFormValue, 3> AtomForms; for (const auto &Atom: HdrData.Atoms) { OS << format("Atom[%d] Type: ", i++); if (const char *TypeString = dwarf::AtomTypeString(Atom.first)) OS << TypeString; else OS << format("DW_ATOM_Unknown_0x%x", Atom.first); OS << " Form: "; if (const char *FormString = dwarf::FormEncodingString(Atom.second)) OS << FormString; else OS << format("DW_FORM_Unknown_0x%x", Atom.second); OS << '\n'; AtomForms.push_back(DWARFFormValue(Atom.second)); } // Now go through the actual tables and dump them. uint32_t Offset = sizeof(Hdr) + Hdr.HeaderDataLength; unsigned HashesBase = Offset + Hdr.NumBuckets * 4; unsigned OffsetsBase = HashesBase + Hdr.NumHashes * 4; for (unsigned Bucket = 0; Bucket < Hdr.NumBuckets; ++Bucket) { unsigned Index = AccelSection.getU32(&Offset); OS << format("Bucket[%d]\n", Bucket); if (Index == UINT32_MAX) { OS << " EMPTY\n"; continue; } for (unsigned HashIdx = Index; HashIdx < Hdr.NumHashes; ++HashIdx) { unsigned HashOffset = HashesBase + HashIdx*4; unsigned OffsetsOffset = OffsetsBase + HashIdx*4; uint32_t Hash = AccelSection.getU32(&HashOffset); if (Hash % Hdr.NumBuckets != Bucket) break; unsigned DataOffset = AccelSection.getU32(&OffsetsOffset); OS << format(" Hash = 0x%08x Offset = 0x%08x\n", Hash, DataOffset); if (!AccelSection.isValidOffset(DataOffset)) { OS << " Invalid section offset\n"; continue; } while (AccelSection.isValidOffsetForDataOfSize(DataOffset, 4)) { unsigned StringOffset = AccelSection.getU32(&DataOffset); RelocAddrMap::const_iterator Reloc = Relocs.find(DataOffset-4); if (Reloc != Relocs.end()) StringOffset += Reloc->second.second; if (!StringOffset) break; OS << format(" Name: %08x \"%s\"\n", StringOffset, StringSection.getCStr(&StringOffset)); unsigned NumData = AccelSection.getU32(&DataOffset); for (unsigned Data = 0; Data < NumData; ++Data) { OS << format(" Data[%d] => ", Data); unsigned i = 0; for (auto &Atom : AtomForms) { OS << format("{Atom[%d]: ", i++); if (Atom.extractValue(AccelSection, &DataOffset, nullptr)) Atom.dump(OS, nullptr); else OS << "Error extracting the value"; OS << "} "; } OS << '\n'; } } } } } }