//===- DWARFDie.cpp -------------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "llvm/DebugInfo/DWARF/DWARFDie.h" #include "llvm/ADT/None.h" #include "llvm/ADT/Optional.h" #include "llvm/ADT/SmallSet.h" #include "llvm/ADT/StringRef.h" #include "llvm/BinaryFormat/Dwarf.h" #include "llvm/DebugInfo/DWARF/DWARFAbbreviationDeclaration.h" #include "llvm/DebugInfo/DWARF/DWARFContext.h" #include "llvm/DebugInfo/DWARF/DWARFDebugRangeList.h" #include "llvm/DebugInfo/DWARF/DWARFExpression.h" #include "llvm/DebugInfo/DWARF/DWARFFormValue.h" #include "llvm/DebugInfo/DWARF/DWARFUnit.h" #include "llvm/Object/ObjectFile.h" #include "llvm/Support/DataExtractor.h" #include "llvm/Support/Format.h" #include "llvm/Support/FormatAdapters.h" #include "llvm/Support/FormatVariadic.h" #include "llvm/Support/MathExtras.h" #include "llvm/Support/WithColor.h" #include "llvm/Support/raw_ostream.h" #include #include #include #include #include #include using namespace llvm; using namespace dwarf; using namespace object; static void dumpApplePropertyAttribute(raw_ostream &OS, uint64_t Val) { OS << " ("; do { uint64_t Shift = countTrailingZeros(Val); assert(Shift < 64 && "undefined behavior"); uint64_t Bit = 1ULL << Shift; auto PropName = ApplePropertyString(Bit); if (!PropName.empty()) OS << PropName; else OS << format("DW_APPLE_PROPERTY_0x%" PRIx64, Bit); if (!(Val ^= Bit)) break; OS << ", "; } while (true); OS << ")"; } static void dumpRanges(const DWARFObject &Obj, raw_ostream &OS, const DWARFAddressRangesVector &Ranges, unsigned AddressSize, unsigned Indent, const DIDumpOptions &DumpOpts) { if (!DumpOpts.ShowAddresses) return; for (const DWARFAddressRange &R : Ranges) { OS << '\n'; OS.indent(Indent); R.dump(OS, AddressSize, DumpOpts, &Obj); } } static void dumpLocation(raw_ostream &OS, DWARFFormValue &FormValue, DWARFUnit *U, unsigned Indent, DIDumpOptions DumpOpts) { DWARFContext &Ctx = U->getContext(); const MCRegisterInfo *MRI = Ctx.getRegisterInfo(); if (FormValue.isFormClass(DWARFFormValue::FC_Block) || FormValue.isFormClass(DWARFFormValue::FC_Exprloc)) { ArrayRef Expr = *FormValue.getAsBlock(); DataExtractor Data(StringRef((const char *)Expr.data(), Expr.size()), Ctx.isLittleEndian(), 0); DWARFExpression(Data, U->getVersion(), U->getAddressByteSize()) .print(OS, MRI, U); return; } if (FormValue.isFormClass(DWARFFormValue::FC_SectionOffset)) { uint64_t Offset = *FormValue.getAsSectionOffset(); if (FormValue.getForm() == DW_FORM_loclistx) { FormValue.dump(OS, DumpOpts); if (auto LoclistOffset = U->getLoclistOffset(Offset)) Offset = *LoclistOffset; else return; } U->getLocationTable().dumpLocationList(&Offset, OS, U->getBaseAddress(), MRI, Ctx.getDWARFObj(), U, DumpOpts, Indent); return; } FormValue.dump(OS, DumpOpts); } /// Dump the name encoded in the type tag. static void dumpTypeTagName(raw_ostream &OS, dwarf::Tag T) { StringRef TagStr = TagString(T); if (!TagStr.startswith("DW_TAG_") || !TagStr.endswith("_type")) return; OS << TagStr.substr(7, TagStr.size() - 12) << " "; } static void dumpArrayType(raw_ostream &OS, const DWARFDie &D) { Optional Bound; for (const DWARFDie &C : D.children()) if (C.getTag() == DW_TAG_subrange_type) { Optional LB; Optional Count; Optional UB; Optional DefaultLB; if (Optional L = C.find(DW_AT_lower_bound)) LB = L->getAsUnsignedConstant(); if (Optional CountV = C.find(DW_AT_count)) Count = CountV->getAsUnsignedConstant(); if (Optional UpperV = C.find(DW_AT_upper_bound)) UB = UpperV->getAsUnsignedConstant(); if (Optional LV = D.getDwarfUnit()->getUnitDIE().find(DW_AT_language)) if (Optional LC = LV->getAsUnsignedConstant()) if ((DefaultLB = LanguageLowerBound(static_cast(*LC)))) if (LB && *LB == *DefaultLB) LB = None; if (!LB && !Count && !UB) OS << "[]"; else if (!LB && (Count || UB) && DefaultLB) OS << '[' << (Count ? *Count : *UB - *DefaultLB + 1) << ']'; else { OS << "[["; if (LB) OS << *LB; else OS << '?'; OS << ", "; if (Count) if (LB) OS << *LB + *Count; else OS << "? + " << *Count; else if (UB) OS << *UB + 1; else OS << '?'; OS << ")]"; } } } /// Recursively dump the DIE type name when applicable. static void dumpTypeName(raw_ostream &OS, const DWARFDie &D) { if (!D.isValid()) return; if (const char *Name = D.getName(DINameKind::LinkageName)) { OS << Name; return; } // FIXME: We should have pretty printers per language. Currently we print // everything as if it was C++ and fall back to the TAG type name. const dwarf::Tag T = D.getTag(); switch (T) { case DW_TAG_array_type: case DW_TAG_pointer_type: case DW_TAG_ptr_to_member_type: case DW_TAG_reference_type: case DW_TAG_rvalue_reference_type: case DW_TAG_subroutine_type: break; default: dumpTypeTagName(OS, T); } // Follow the DW_AT_type if possible. DWARFDie TypeDie = D.getAttributeValueAsReferencedDie(DW_AT_type); dumpTypeName(OS, TypeDie); switch (T) { case DW_TAG_subroutine_type: { if (!TypeDie) OS << "void"; OS << '('; bool First = true; for (const DWARFDie &C : D.children()) { if (C.getTag() == DW_TAG_formal_parameter) { if (!First) OS << ", "; First = false; dumpTypeName(OS, C.getAttributeValueAsReferencedDie(DW_AT_type)); } } OS << ')'; break; } case DW_TAG_array_type: { dumpArrayType(OS, D); break; } case DW_TAG_pointer_type: OS << '*'; break; case DW_TAG_ptr_to_member_type: if (DWARFDie Cont = D.getAttributeValueAsReferencedDie(DW_AT_containing_type)) { dumpTypeName(OS << ' ', Cont); OS << "::"; } OS << '*'; break; case DW_TAG_reference_type: OS << '&'; break; case DW_TAG_rvalue_reference_type: OS << "&&"; break; default: break; } } static void dumpAttribute(raw_ostream &OS, const DWARFDie &Die, uint64_t *OffsetPtr, dwarf::Attribute Attr, dwarf::Form Form, unsigned Indent, DIDumpOptions DumpOpts) { if (!Die.isValid()) return; const char BaseIndent[] = " "; OS << BaseIndent; OS.indent(Indent + 2); WithColor(OS, HighlightColor::Attribute) << formatv("{0}", Attr); if (DumpOpts.Verbose || DumpOpts.ShowForm) OS << formatv(" [{0}]", Form); DWARFUnit *U = Die.getDwarfUnit(); DWARFFormValue FormValue = DWARFFormValue::createFromUnit(Form, U, OffsetPtr); OS << "\t("; StringRef Name; std::string File; auto Color = HighlightColor::Enumerator; if (Attr == DW_AT_decl_file || Attr == DW_AT_call_file) { Color = HighlightColor::String; if (const auto *LT = U->getContext().getLineTableForUnit(U)) if (LT->getFileNameByIndex( FormValue.getAsUnsignedConstant().getValue(), U->getCompilationDir(), DILineInfoSpecifier::FileLineInfoKind::AbsoluteFilePath, File)) { File = '"' + File + '"'; Name = File; } } else if (Optional Val = FormValue.getAsUnsignedConstant()) Name = AttributeValueString(Attr, *Val); if (!Name.empty()) WithColor(OS, Color) << Name; else if (Attr == DW_AT_decl_line || Attr == DW_AT_call_line) OS << *FormValue.getAsUnsignedConstant(); else if (Attr == DW_AT_high_pc && !DumpOpts.ShowForm && !DumpOpts.Verbose && FormValue.getAsUnsignedConstant()) { if (DumpOpts.ShowAddresses) { // Print the actual address rather than the offset. uint64_t LowPC, HighPC, Index; if (Die.getLowAndHighPC(LowPC, HighPC, Index)) OS << format("0x%016" PRIx64, HighPC); else FormValue.dump(OS, DumpOpts); } } else if (Form == dwarf::Form::DW_FORM_exprloc || DWARFAttribute::mayHaveLocationDescription(Attr)) dumpLocation(OS, FormValue, U, sizeof(BaseIndent) + Indent + 4, DumpOpts); else FormValue.dump(OS, DumpOpts); std::string Space = DumpOpts.ShowAddresses ? " " : ""; // We have dumped the attribute raw value. For some attributes // having both the raw value and the pretty-printed value is // interesting. These attributes are handled below. if (Attr == DW_AT_specification || Attr == DW_AT_abstract_origin) { if (const char *Name = Die.getAttributeValueAsReferencedDie(FormValue).getName( DINameKind::LinkageName)) OS << Space << "\"" << Name << '\"'; } else if (Attr == DW_AT_type) { OS << Space << "\""; dumpTypeName(OS, Die.getAttributeValueAsReferencedDie(FormValue)); OS << '"'; } else if (Attr == DW_AT_APPLE_property_attribute) { if (Optional OptVal = FormValue.getAsUnsignedConstant()) dumpApplePropertyAttribute(OS, *OptVal); } else if (Attr == DW_AT_ranges) { const DWARFObject &Obj = Die.getDwarfUnit()->getContext().getDWARFObj(); // For DW_FORM_rnglistx we need to dump the offset separately, since // we have only dumped the index so far. if (FormValue.getForm() == DW_FORM_rnglistx) if (auto RangeListOffset = U->getRnglistOffset(*FormValue.getAsSectionOffset())) { DWARFFormValue FV = DWARFFormValue::createFromUValue( dwarf::DW_FORM_sec_offset, *RangeListOffset); FV.dump(OS, DumpOpts); } if (auto RangesOrError = Die.getAddressRanges()) dumpRanges(Obj, OS, RangesOrError.get(), U->getAddressByteSize(), sizeof(BaseIndent) + Indent + 4, DumpOpts); else WithColor::error() << "decoding address ranges: " << toString(RangesOrError.takeError()) << '\n'; } OS << ")\n"; } bool DWARFDie::isSubprogramDIE() const { return getTag() == DW_TAG_subprogram; } bool DWARFDie::isSubroutineDIE() const { auto Tag = getTag(); return Tag == DW_TAG_subprogram || Tag == DW_TAG_inlined_subroutine; } Optional DWARFDie::find(dwarf::Attribute Attr) const { if (!isValid()) return None; auto AbbrevDecl = getAbbreviationDeclarationPtr(); if (AbbrevDecl) return AbbrevDecl->getAttributeValue(getOffset(), Attr, *U); return None; } Optional DWARFDie::find(ArrayRef Attrs) const { if (!isValid()) return None; auto AbbrevDecl = getAbbreviationDeclarationPtr(); if (AbbrevDecl) { for (auto Attr : Attrs) { if (auto Value = AbbrevDecl->getAttributeValue(getOffset(), Attr, *U)) return Value; } } return None; } Optional DWARFDie::findRecursively(ArrayRef Attrs) const { std::vector Worklist; Worklist.push_back(*this); // Keep track if DIEs already seen to prevent infinite recursion. // Empirically we rarely see a depth of more than 3 when dealing with valid // DWARF. This corresponds to following the DW_AT_abstract_origin and // DW_AT_specification just once. SmallSet Seen; Seen.insert(*this); while (!Worklist.empty()) { DWARFDie Die = Worklist.back(); Worklist.pop_back(); if (!Die.isValid()) continue; if (auto Value = Die.find(Attrs)) return Value; if (auto D = Die.getAttributeValueAsReferencedDie(DW_AT_abstract_origin)) if (Seen.insert(D).second) Worklist.push_back(D); if (auto D = Die.getAttributeValueAsReferencedDie(DW_AT_specification)) if (Seen.insert(D).second) Worklist.push_back(D); } return None; } DWARFDie DWARFDie::getAttributeValueAsReferencedDie(dwarf::Attribute Attr) const { if (Optional F = find(Attr)) return getAttributeValueAsReferencedDie(*F); return DWARFDie(); } DWARFDie DWARFDie::getAttributeValueAsReferencedDie(const DWARFFormValue &V) const { if (auto SpecRef = V.getAsRelativeReference()) { if (SpecRef->Unit) return SpecRef->Unit->getDIEForOffset(SpecRef->Unit->getOffset() + SpecRef->Offset); if (auto SpecUnit = U->getUnitVector().getUnitForOffset(SpecRef->Offset)) return SpecUnit->getDIEForOffset(SpecRef->Offset); } return DWARFDie(); } Optional DWARFDie::getRangesBaseAttribute() const { return toSectionOffset(find({DW_AT_rnglists_base, DW_AT_GNU_ranges_base})); } Optional DWARFDie::getLocBaseAttribute() const { return toSectionOffset(find(DW_AT_loclists_base)); } Optional DWARFDie::getHighPC(uint64_t LowPC) const { if (auto FormValue = find(DW_AT_high_pc)) { if (auto Address = FormValue->getAsAddress()) { // High PC is an address. return Address; } if (auto Offset = FormValue->getAsUnsignedConstant()) { // High PC is an offset from LowPC. return LowPC + *Offset; } } return None; } bool DWARFDie::getLowAndHighPC(uint64_t &LowPC, uint64_t &HighPC, uint64_t &SectionIndex) const { auto F = find(DW_AT_low_pc); auto LowPcAddr = toSectionedAddress(F); if (!LowPcAddr) return false; if (auto HighPcAddr = getHighPC(LowPcAddr->Address)) { LowPC = LowPcAddr->Address; HighPC = *HighPcAddr; SectionIndex = LowPcAddr->SectionIndex; return true; } return false; } Expected DWARFDie::getAddressRanges() const { if (isNULL()) return DWARFAddressRangesVector(); // Single range specified by low/high PC. uint64_t LowPC, HighPC, Index; if (getLowAndHighPC(LowPC, HighPC, Index)) return DWARFAddressRangesVector{{LowPC, HighPC, Index}}; Optional Value = find(DW_AT_ranges); if (Value) { if (Value->getForm() == DW_FORM_rnglistx) return U->findRnglistFromIndex(*Value->getAsSectionOffset()); return U->findRnglistFromOffset(*Value->getAsSectionOffset()); } return DWARFAddressRangesVector(); } void DWARFDie::collectChildrenAddressRanges( DWARFAddressRangesVector &Ranges) const { if (isNULL()) return; if (isSubprogramDIE()) { if (auto DIERangesOrError = getAddressRanges()) Ranges.insert(Ranges.end(), DIERangesOrError.get().begin(), DIERangesOrError.get().end()); else llvm::consumeError(DIERangesOrError.takeError()); } for (auto Child : children()) Child.collectChildrenAddressRanges(Ranges); } bool DWARFDie::addressRangeContainsAddress(const uint64_t Address) const { auto RangesOrError = getAddressRanges(); if (!RangesOrError) { llvm::consumeError(RangesOrError.takeError()); return false; } for (const auto &R : RangesOrError.get()) if (R.LowPC <= Address && Address < R.HighPC) return true; return false; } Expected DWARFDie::getLocations(dwarf::Attribute Attr) const { Optional Location = find(Attr); if (!Location) return createStringError(inconvertibleErrorCode(), "No %s", dwarf::AttributeString(Attr).data()); if (Optional Off = Location->getAsSectionOffset()) { uint64_t Offset = *Off; if (Location->getForm() == DW_FORM_loclistx) { if (auto LoclistOffset = U->getLoclistOffset(Offset)) Offset = *LoclistOffset; else return createStringError(inconvertibleErrorCode(), "Loclist table not found"); } return U->findLoclistFromOffset(Offset); } if (Optional> Expr = Location->getAsBlock()) { return DWARFLocationExpressionsVector{ DWARFLocationExpression{None, to_vector<4>(*Expr)}}; } return createStringError( inconvertibleErrorCode(), "Unsupported %s encoding: %s", dwarf::AttributeString(Attr).data(), dwarf::FormEncodingString(Location->getForm()).data()); } const char *DWARFDie::getSubroutineName(DINameKind Kind) const { if (!isSubroutineDIE()) return nullptr; return getName(Kind); } const char *DWARFDie::getName(DINameKind Kind) const { if (!isValid() || Kind == DINameKind::None) return nullptr; // Try to get mangled name only if it was asked for. if (Kind == DINameKind::LinkageName) { if (auto Name = dwarf::toString( findRecursively({DW_AT_MIPS_linkage_name, DW_AT_linkage_name}), nullptr)) return Name; } if (auto Name = dwarf::toString(findRecursively(DW_AT_name), nullptr)) return Name; return nullptr; } uint64_t DWARFDie::getDeclLine() const { return toUnsigned(findRecursively(DW_AT_decl_line), 0); } void DWARFDie::getCallerFrame(uint32_t &CallFile, uint32_t &CallLine, uint32_t &CallColumn, uint32_t &CallDiscriminator) const { CallFile = toUnsigned(find(DW_AT_call_file), 0); CallLine = toUnsigned(find(DW_AT_call_line), 0); CallColumn = toUnsigned(find(DW_AT_call_column), 0); CallDiscriminator = toUnsigned(find(DW_AT_GNU_discriminator), 0); } /// Helper to dump a DIE with all of its parents, but no siblings. static unsigned dumpParentChain(DWARFDie Die, raw_ostream &OS, unsigned Indent, DIDumpOptions DumpOpts, unsigned Depth = 0) { if (!Die) return Indent; if (DumpOpts.ParentRecurseDepth > 0 && Depth >= DumpOpts.ParentRecurseDepth) return Indent; Indent = dumpParentChain(Die.getParent(), OS, Indent, DumpOpts, Depth + 1); Die.dump(OS, Indent, DumpOpts); return Indent + 2; } void DWARFDie::dump(raw_ostream &OS, unsigned Indent, DIDumpOptions DumpOpts) const { if (!isValid()) return; DWARFDataExtractor debug_info_data = U->getDebugInfoExtractor(); const uint64_t Offset = getOffset(); uint64_t offset = Offset; if (DumpOpts.ShowParents) { DIDumpOptions ParentDumpOpts = DumpOpts; ParentDumpOpts.ShowParents = false; ParentDumpOpts.ShowChildren = false; Indent = dumpParentChain(getParent(), OS, Indent, ParentDumpOpts); } if (debug_info_data.isValidOffset(offset)) { uint32_t abbrCode = debug_info_data.getULEB128(&offset); if (DumpOpts.ShowAddresses) WithColor(OS, HighlightColor::Address).get() << format("\n0x%8.8" PRIx64 ": ", Offset); if (abbrCode) { auto AbbrevDecl = getAbbreviationDeclarationPtr(); if (AbbrevDecl) { WithColor(OS, HighlightColor::Tag).get().indent(Indent) << formatv("{0}", getTag()); if (DumpOpts.Verbose) OS << format(" [%u] %c", abbrCode, AbbrevDecl->hasChildren() ? '*' : ' '); OS << '\n'; // Dump all data in the DIE for the attributes. for (const auto &AttrSpec : AbbrevDecl->attributes()) { if (AttrSpec.Form == DW_FORM_implicit_const) { // We are dumping .debug_info section , // implicit_const attribute values are not really stored here, // but in .debug_abbrev section. So we just skip such attrs. continue; } dumpAttribute(OS, *this, &offset, AttrSpec.Attr, AttrSpec.Form, Indent, DumpOpts); } DWARFDie child = getFirstChild(); if (DumpOpts.ShowChildren && DumpOpts.ChildRecurseDepth > 0 && child) { DumpOpts.ChildRecurseDepth--; DIDumpOptions ChildDumpOpts = DumpOpts; ChildDumpOpts.ShowParents = false; while (child) { child.dump(OS, Indent + 2, ChildDumpOpts); child = child.getSibling(); } } } else { OS << "Abbreviation code not found in 'debug_abbrev' class for code: " << abbrCode << '\n'; } } else { OS.indent(Indent) << "NULL\n"; } } } LLVM_DUMP_METHOD void DWARFDie::dump() const { dump(llvm::errs(), 0); } DWARFDie DWARFDie::getParent() const { if (isValid()) return U->getParent(Die); return DWARFDie(); } DWARFDie DWARFDie::getSibling() const { if (isValid()) return U->getSibling(Die); return DWARFDie(); } DWARFDie DWARFDie::getPreviousSibling() const { if (isValid()) return U->getPreviousSibling(Die); return DWARFDie(); } DWARFDie DWARFDie::getFirstChild() const { if (isValid()) return U->getFirstChild(Die); return DWARFDie(); } DWARFDie DWARFDie::getLastChild() const { if (isValid()) return U->getLastChild(Die); return DWARFDie(); } iterator_range DWARFDie::attributes() const { return make_range(attribute_iterator(*this, false), attribute_iterator(*this, true)); } DWARFDie::attribute_iterator::attribute_iterator(DWARFDie D, bool End) : Die(D), Index(0) { auto AbbrDecl = Die.getAbbreviationDeclarationPtr(); assert(AbbrDecl && "Must have abbreviation declaration"); if (End) { // This is the end iterator so we set the index to the attribute count. Index = AbbrDecl->getNumAttributes(); } else { // This is the begin iterator so we extract the value for this->Index. AttrValue.Offset = D.getOffset() + AbbrDecl->getCodeByteSize(); updateForIndex(*AbbrDecl, 0); } } void DWARFDie::attribute_iterator::updateForIndex( const DWARFAbbreviationDeclaration &AbbrDecl, uint32_t I) { Index = I; // AbbrDecl must be valid before calling this function. auto NumAttrs = AbbrDecl.getNumAttributes(); if (Index < NumAttrs) { AttrValue.Attr = AbbrDecl.getAttrByIndex(Index); // Add the previous byte size of any previous attribute value. AttrValue.Offset += AttrValue.ByteSize; uint64_t ParseOffset = AttrValue.Offset; auto U = Die.getDwarfUnit(); assert(U && "Die must have valid DWARF unit"); AttrValue.Value = DWARFFormValue::createFromUnit( AbbrDecl.getFormByIndex(Index), U, &ParseOffset); AttrValue.ByteSize = ParseOffset - AttrValue.Offset; } else { assert(Index == NumAttrs && "Indexes should be [0, NumAttrs) only"); AttrValue = {}; } } DWARFDie::attribute_iterator &DWARFDie::attribute_iterator::operator++() { if (auto AbbrDecl = Die.getAbbreviationDeclarationPtr()) updateForIndex(*AbbrDecl, Index + 1); return *this; } bool DWARFAttribute::mayHaveLocationDescription(dwarf::Attribute Attr) { switch (Attr) { // From the DWARF v5 specification. case DW_AT_location: case DW_AT_byte_size: case DW_AT_bit_size: case DW_AT_string_length: case DW_AT_lower_bound: case DW_AT_return_addr: case DW_AT_bit_stride: case DW_AT_upper_bound: case DW_AT_count: case DW_AT_data_member_location: case DW_AT_frame_base: case DW_AT_segment: case DW_AT_static_link: case DW_AT_use_location: case DW_AT_vtable_elem_location: case DW_AT_allocated: case DW_AT_associated: case DW_AT_byte_stride: case DW_AT_rank: case DW_AT_call_value: case DW_AT_call_origin: case DW_AT_call_target: case DW_AT_call_target_clobbered: case DW_AT_call_data_location: case DW_AT_call_data_value: // Extensions. case DW_AT_GNU_call_site_value: case DW_AT_GNU_call_site_target: return true; default: return false; } }