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- //===- DWARFUnit.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/DWARFUnit.h"
- #include "llvm/ADT/SmallString.h"
- #include "llvm/ADT/StringRef.h"
- #include "llvm/DebugInfo/DWARF/DWARFAbbreviationDeclaration.h"
- #include "llvm/DebugInfo/DWARF/DWARFCompileUnit.h"
- #include "llvm/DebugInfo/DWARF/DWARFContext.h"
- #include "llvm/DebugInfo/DWARF/DWARFDebugAbbrev.h"
- #include "llvm/DebugInfo/DWARF/DWARFDebugInfoEntry.h"
- #include "llvm/DebugInfo/DWARF/DWARFDebugRnglists.h"
- #include "llvm/DebugInfo/DWARF/DWARFDie.h"
- #include "llvm/DebugInfo/DWARF/DWARFFormValue.h"
- #include "llvm/DebugInfo/DWARF/DWARFTypeUnit.h"
- #include "llvm/Support/DataExtractor.h"
- #include "llvm/Support/Errc.h"
- #include "llvm/Support/Path.h"
- #include <algorithm>
- #include <cassert>
- #include <cstddef>
- #include <cstdint>
- #include <cstdio>
- #include <utility>
- #include <vector>
- using namespace llvm;
- using namespace dwarf;
- void DWARFUnitVector::addUnitsForSection(DWARFContext &C,
- const DWARFSection &Section,
- DWARFSectionKind SectionKind) {
- const DWARFObject &D = C.getDWARFObj();
- addUnitsImpl(C, D, Section, C.getDebugAbbrev(), &D.getRangesSection(),
- &D.getLocSection(), D.getStrSection(),
- D.getStrOffsetsSection(), &D.getAddrSection(),
- D.getLineSection(), D.isLittleEndian(), false, false,
- SectionKind);
- }
- void DWARFUnitVector::addUnitsForDWOSection(DWARFContext &C,
- const DWARFSection &DWOSection,
- DWARFSectionKind SectionKind,
- bool Lazy) {
- const DWARFObject &D = C.getDWARFObj();
- addUnitsImpl(C, D, DWOSection, C.getDebugAbbrevDWO(), &D.getRangesDWOSection(),
- &D.getLocDWOSection(), D.getStrDWOSection(),
- D.getStrOffsetsDWOSection(), &D.getAddrSection(),
- D.getLineDWOSection(), C.isLittleEndian(), true, Lazy,
- SectionKind);
- }
- void DWARFUnitVector::addUnitsImpl(
- DWARFContext &Context, const DWARFObject &Obj, const DWARFSection &Section,
- const DWARFDebugAbbrev *DA, const DWARFSection *RS,
- const DWARFSection *LocSection, StringRef SS, const DWARFSection &SOS,
- const DWARFSection *AOS, const DWARFSection &LS, bool LE, bool IsDWO,
- bool Lazy, DWARFSectionKind SectionKind) {
- DWARFDataExtractor Data(Obj, Section, LE, 0);
- // Lazy initialization of Parser, now that we have all section info.
- if (!Parser) {
- Parser = [=, &Context, &Obj, &Section, &SOS,
- &LS](uint64_t Offset, DWARFSectionKind SectionKind,
- const DWARFSection *CurSection,
- const DWARFUnitIndex::Entry *IndexEntry)
- -> std::unique_ptr<DWARFUnit> {
- const DWARFSection &InfoSection = CurSection ? *CurSection : Section;
- DWARFDataExtractor Data(Obj, InfoSection, LE, 0);
- if (!Data.isValidOffset(Offset))
- return nullptr;
- DWARFUnitHeader Header;
- if (!Header.extract(Context, Data, &Offset, SectionKind))
- return nullptr;
- if (!IndexEntry && IsDWO) {
- const DWARFUnitIndex &Index = getDWARFUnitIndex(
- Context, Header.isTypeUnit() ? DW_SECT_EXT_TYPES : DW_SECT_INFO);
- IndexEntry = Index.getFromOffset(Header.getOffset());
- }
- if (IndexEntry && !Header.applyIndexEntry(IndexEntry))
- return nullptr;
- std::unique_ptr<DWARFUnit> U;
- if (Header.isTypeUnit())
- U = std::make_unique<DWARFTypeUnit>(Context, InfoSection, Header, DA,
- RS, LocSection, SS, SOS, AOS, LS,
- LE, IsDWO, *this);
- else
- U = std::make_unique<DWARFCompileUnit>(Context, InfoSection, Header,
- DA, RS, LocSection, SS, SOS,
- AOS, LS, LE, IsDWO, *this);
- return U;
- };
- }
- if (Lazy)
- return;
- // Find a reasonable insertion point within the vector. We skip over
- // (a) units from a different section, (b) units from the same section
- // but with lower offset-within-section. This keeps units in order
- // within a section, although not necessarily within the object file,
- // even if we do lazy parsing.
- auto I = this->begin();
- uint64_t Offset = 0;
- while (Data.isValidOffset(Offset)) {
- if (I != this->end() &&
- (&(*I)->getInfoSection() != &Section || (*I)->getOffset() == Offset)) {
- ++I;
- continue;
- }
- auto U = Parser(Offset, SectionKind, &Section, nullptr);
- // If parsing failed, we're done with this section.
- if (!U)
- break;
- Offset = U->getNextUnitOffset();
- I = std::next(this->insert(I, std::move(U)));
- }
- }
- DWARFUnit *DWARFUnitVector::addUnit(std::unique_ptr<DWARFUnit> Unit) {
- auto I = std::upper_bound(begin(), end(), Unit,
- [](const std::unique_ptr<DWARFUnit> &LHS,
- const std::unique_ptr<DWARFUnit> &RHS) {
- return LHS->getOffset() < RHS->getOffset();
- });
- return this->insert(I, std::move(Unit))->get();
- }
- DWARFUnit *DWARFUnitVector::getUnitForOffset(uint64_t Offset) const {
- auto end = begin() + getNumInfoUnits();
- auto *CU =
- std::upper_bound(begin(), end, Offset,
- [](uint64_t LHS, const std::unique_ptr<DWARFUnit> &RHS) {
- return LHS < RHS->getNextUnitOffset();
- });
- if (CU != end && (*CU)->getOffset() <= Offset)
- return CU->get();
- return nullptr;
- }
- DWARFUnit *
- DWARFUnitVector::getUnitForIndexEntry(const DWARFUnitIndex::Entry &E) {
- const auto *CUOff = E.getContribution(DW_SECT_INFO);
- if (!CUOff)
- return nullptr;
- auto Offset = CUOff->Offset;
- auto end = begin() + getNumInfoUnits();
- auto *CU =
- std::upper_bound(begin(), end, CUOff->Offset,
- [](uint64_t LHS, const std::unique_ptr<DWARFUnit> &RHS) {
- return LHS < RHS->getNextUnitOffset();
- });
- if (CU != end && (*CU)->getOffset() <= Offset)
- return CU->get();
- if (!Parser)
- return nullptr;
- auto U = Parser(Offset, DW_SECT_INFO, nullptr, &E);
- if (!U)
- U = nullptr;
- auto *NewCU = U.get();
- this->insert(CU, std::move(U));
- ++NumInfoUnits;
- return NewCU;
- }
- DWARFUnit::DWARFUnit(DWARFContext &DC, const DWARFSection &Section,
- const DWARFUnitHeader &Header, const DWARFDebugAbbrev *DA,
- const DWARFSection *RS, const DWARFSection *LocSection,
- StringRef SS, const DWARFSection &SOS,
- const DWARFSection *AOS, const DWARFSection &LS, bool LE,
- bool IsDWO, const DWARFUnitVector &UnitVector)
- : Context(DC), InfoSection(Section), Header(Header), Abbrev(DA),
- RangeSection(RS), LineSection(LS), StringSection(SS),
- StringOffsetSection(SOS), AddrOffsetSection(AOS), isLittleEndian(LE),
- IsDWO(IsDWO), UnitVector(UnitVector) {
- clear();
- }
- DWARFUnit::~DWARFUnit() = default;
- DWARFDataExtractor DWARFUnit::getDebugInfoExtractor() const {
- return DWARFDataExtractor(Context.getDWARFObj(), InfoSection, isLittleEndian,
- getAddressByteSize());
- }
- Optional<object::SectionedAddress>
- DWARFUnit::getAddrOffsetSectionItem(uint32_t Index) const {
- if (!AddrOffsetSectionBase) {
- auto R = Context.info_section_units();
- // Surprising if a DWO file has more than one skeleton unit in it - this
- // probably shouldn't be valid, but if a use case is found, here's where to
- // support it (probably have to linearly search for the matching skeleton CU
- // here)
- if (IsDWO && hasSingleElement(R))
- return (*R.begin())->getAddrOffsetSectionItem(Index);
- return None;
- }
- uint64_t Offset = *AddrOffsetSectionBase + Index * getAddressByteSize();
- if (AddrOffsetSection->Data.size() < Offset + getAddressByteSize())
- return None;
- DWARFDataExtractor DA(Context.getDWARFObj(), *AddrOffsetSection,
- isLittleEndian, getAddressByteSize());
- uint64_t Section;
- uint64_t Address = DA.getRelocatedAddress(&Offset, &Section);
- return {{Address, Section}};
- }
- Expected<uint64_t> DWARFUnit::getStringOffsetSectionItem(uint32_t Index) const {
- if (!StringOffsetsTableContribution)
- return make_error<StringError>(
- "DW_FORM_strx used without a valid string offsets table",
- inconvertibleErrorCode());
- unsigned ItemSize = getDwarfStringOffsetsByteSize();
- uint64_t Offset = getStringOffsetsBase() + Index * ItemSize;
- if (StringOffsetSection.Data.size() < Offset + ItemSize)
- return make_error<StringError>("DW_FORM_strx uses index " + Twine(Index) +
- ", which is too large",
- inconvertibleErrorCode());
- DWARFDataExtractor DA(Context.getDWARFObj(), StringOffsetSection,
- isLittleEndian, 0);
- return DA.getRelocatedValue(ItemSize, &Offset);
- }
- bool DWARFUnitHeader::extract(DWARFContext &Context,
- const DWARFDataExtractor &debug_info,
- uint64_t *offset_ptr,
- DWARFSectionKind SectionKind) {
- Offset = *offset_ptr;
- Error Err = Error::success();
- IndexEntry = nullptr;
- std::tie(Length, FormParams.Format) =
- debug_info.getInitialLength(offset_ptr, &Err);
- FormParams.Version = debug_info.getU16(offset_ptr, &Err);
- if (FormParams.Version >= 5) {
- UnitType = debug_info.getU8(offset_ptr, &Err);
- FormParams.AddrSize = debug_info.getU8(offset_ptr, &Err);
- AbbrOffset = debug_info.getRelocatedValue(
- FormParams.getDwarfOffsetByteSize(), offset_ptr, nullptr, &Err);
- } else {
- AbbrOffset = debug_info.getRelocatedValue(
- FormParams.getDwarfOffsetByteSize(), offset_ptr, nullptr, &Err);
- FormParams.AddrSize = debug_info.getU8(offset_ptr, &Err);
- // Fake a unit type based on the section type. This isn't perfect,
- // but distinguishing compile and type units is generally enough.
- if (SectionKind == DW_SECT_EXT_TYPES)
- UnitType = DW_UT_type;
- else
- UnitType = DW_UT_compile;
- }
- if (isTypeUnit()) {
- TypeHash = debug_info.getU64(offset_ptr, &Err);
- TypeOffset = debug_info.getUnsigned(
- offset_ptr, FormParams.getDwarfOffsetByteSize(), &Err);
- } else if (UnitType == DW_UT_split_compile || UnitType == DW_UT_skeleton)
- DWOId = debug_info.getU64(offset_ptr, &Err);
- if (Err) {
- Context.getWarningHandler()(joinErrors(
- createStringError(
- errc::invalid_argument,
- "DWARF unit at 0x%8.8" PRIx64 " cannot be parsed:", Offset),
- std::move(Err)));
- return false;
- }
- // Header fields all parsed, capture the size of this unit header.
- assert(*offset_ptr - Offset <= 255 && "unexpected header size");
- Size = uint8_t(*offset_ptr - Offset);
- uint64_t NextCUOffset = Offset + getUnitLengthFieldByteSize() + getLength();
- if (!debug_info.isValidOffset(getNextUnitOffset() - 1)) {
- Context.getWarningHandler()(
- createStringError(errc::invalid_argument,
- "DWARF unit from offset 0x%8.8" PRIx64 " incl. "
- "to offset 0x%8.8" PRIx64 " excl. "
- "extends past section size 0x%8.8zx",
- Offset, NextCUOffset, debug_info.size()));
- return false;
- }
- if (!DWARFContext::isSupportedVersion(getVersion())) {
- Context.getWarningHandler()(createStringError(
- errc::invalid_argument,
- "DWARF unit at offset 0x%8.8" PRIx64 " "
- "has unsupported version %" PRIu16 ", supported are 2-%u",
- Offset, getVersion(), DWARFContext::getMaxSupportedVersion()));
- return false;
- }
- // Type offset is unit-relative; should be after the header and before
- // the end of the current unit.
- if (isTypeUnit() && TypeOffset < Size) {
- Context.getWarningHandler()(
- createStringError(errc::invalid_argument,
- "DWARF type unit at offset "
- "0x%8.8" PRIx64 " "
- "has its relocated type_offset 0x%8.8" PRIx64 " "
- "pointing inside the header",
- Offset, Offset + TypeOffset));
- return false;
- }
- if (isTypeUnit() &&
- TypeOffset >= getUnitLengthFieldByteSize() + getLength()) {
- Context.getWarningHandler()(createStringError(
- errc::invalid_argument,
- "DWARF type unit from offset 0x%8.8" PRIx64 " incl. "
- "to offset 0x%8.8" PRIx64 " excl. has its "
- "relocated type_offset 0x%8.8" PRIx64 " pointing past the unit end",
- Offset, NextCUOffset, Offset + TypeOffset));
- return false;
- }
- if (Error SizeErr = DWARFContext::checkAddressSizeSupported(
- getAddressByteSize(), errc::invalid_argument,
- "DWARF unit at offset 0x%8.8" PRIx64, Offset)) {
- Context.getWarningHandler()(std::move(SizeErr));
- return false;
- }
- // Keep track of the highest DWARF version we encounter across all units.
- Context.setMaxVersionIfGreater(getVersion());
- return true;
- }
- bool DWARFUnitHeader::applyIndexEntry(const DWARFUnitIndex::Entry *Entry) {
- assert(Entry);
- assert(!IndexEntry);
- IndexEntry = Entry;
- if (AbbrOffset)
- return false;
- auto *UnitContrib = IndexEntry->getContribution();
- if (!UnitContrib ||
- UnitContrib->Length != (getLength() + getUnitLengthFieldByteSize()))
- return false;
- auto *AbbrEntry = IndexEntry->getContribution(DW_SECT_ABBREV);
- if (!AbbrEntry)
- return false;
- AbbrOffset = AbbrEntry->Offset;
- return true;
- }
- Error DWARFUnit::extractRangeList(uint64_t RangeListOffset,
- DWARFDebugRangeList &RangeList) const {
- // Require that compile unit is extracted.
- assert(!DieArray.empty());
- DWARFDataExtractor RangesData(Context.getDWARFObj(), *RangeSection,
- isLittleEndian, getAddressByteSize());
- uint64_t ActualRangeListOffset = RangeSectionBase + RangeListOffset;
- return RangeList.extract(RangesData, &ActualRangeListOffset);
- }
- void DWARFUnit::clear() {
- Abbrevs = nullptr;
- BaseAddr.reset();
- RangeSectionBase = 0;
- LocSectionBase = 0;
- AddrOffsetSectionBase = None;
- SU = nullptr;
- clearDIEs(false);
- DWO.reset();
- }
- const char *DWARFUnit::getCompilationDir() {
- return dwarf::toString(getUnitDIE().find(DW_AT_comp_dir), nullptr);
- }
- void DWARFUnit::extractDIEsToVector(
- bool AppendCUDie, bool AppendNonCUDies,
- std::vector<DWARFDebugInfoEntry> &Dies) const {
- if (!AppendCUDie && !AppendNonCUDies)
- return;
- // Set the offset to that of the first DIE and calculate the start of the
- // next compilation unit header.
- uint64_t DIEOffset = getOffset() + getHeaderSize();
- uint64_t NextCUOffset = getNextUnitOffset();
- DWARFDebugInfoEntry DIE;
- DWARFDataExtractor DebugInfoData = getDebugInfoExtractor();
- // The end offset has been already checked by DWARFUnitHeader::extract.
- assert(DebugInfoData.isValidOffset(NextCUOffset - 1));
- std::vector<uint32_t> Parents;
- std::vector<uint32_t> PrevSiblings;
- bool IsCUDie = true;
- assert(
- ((AppendCUDie && Dies.empty()) || (!AppendCUDie && Dies.size() == 1)) &&
- "Dies array is not empty");
- // Fill Parents and Siblings stacks with initial value.
- Parents.push_back(UINT32_MAX);
- if (!AppendCUDie)
- Parents.push_back(0);
- PrevSiblings.push_back(0);
- // Start to extract dies.
- do {
- assert(Parents.size() > 0 && "Empty parents stack");
- assert((Parents.back() == UINT32_MAX || Parents.back() <= Dies.size()) &&
- "Wrong parent index");
- // Extract die. Stop if any error occured.
- if (!DIE.extractFast(*this, &DIEOffset, DebugInfoData, NextCUOffset,
- Parents.back()))
- break;
- // If previous sibling is remembered then update it`s SiblingIdx field.
- if (PrevSiblings.back() > 0) {
- assert(PrevSiblings.back() < Dies.size() &&
- "Previous sibling index is out of Dies boundaries");
- Dies[PrevSiblings.back()].setSiblingIdx(Dies.size());
- }
- // Store die into the Dies vector.
- if (IsCUDie) {
- if (AppendCUDie)
- Dies.push_back(DIE);
- if (!AppendNonCUDies)
- break;
- // The average bytes per DIE entry has been seen to be
- // around 14-20 so let's pre-reserve the needed memory for
- // our DIE entries accordingly.
- Dies.reserve(Dies.size() + getDebugInfoSize() / 14);
- } else {
- // Remember last previous sibling.
- PrevSiblings.back() = Dies.size();
- Dies.push_back(DIE);
- }
- // Check for new children scope.
- if (const DWARFAbbreviationDeclaration *AbbrDecl =
- DIE.getAbbreviationDeclarationPtr()) {
- if (AbbrDecl->hasChildren()) {
- if (AppendCUDie || !IsCUDie) {
- assert(Dies.size() > 0 && "Dies does not contain any die");
- Parents.push_back(Dies.size() - 1);
- PrevSiblings.push_back(0);
- }
- } else if (IsCUDie)
- // Stop if we have single compile unit die w/o children.
- break;
- } else {
- // NULL DIE: finishes current children scope.
- Parents.pop_back();
- PrevSiblings.pop_back();
- }
- if (IsCUDie)
- IsCUDie = false;
- // Stop when compile unit die is removed from the parents stack.
- } while (Parents.size() > 1);
- }
- void DWARFUnit::extractDIEsIfNeeded(bool CUDieOnly) {
- if (Error e = tryExtractDIEsIfNeeded(CUDieOnly))
- Context.getRecoverableErrorHandler()(std::move(e));
- }
- Error DWARFUnit::tryExtractDIEsIfNeeded(bool CUDieOnly) {
- if ((CUDieOnly && !DieArray.empty()) ||
- DieArray.size() > 1)
- return Error::success(); // Already parsed.
- bool HasCUDie = !DieArray.empty();
- extractDIEsToVector(!HasCUDie, !CUDieOnly, DieArray);
- if (DieArray.empty())
- return Error::success();
- // If CU DIE was just parsed, copy several attribute values from it.
- if (HasCUDie)
- return Error::success();
- DWARFDie UnitDie(this, &DieArray[0]);
- if (Optional<uint64_t> DWOId = toUnsigned(UnitDie.find(DW_AT_GNU_dwo_id)))
- Header.setDWOId(*DWOId);
- if (!IsDWO) {
- assert(AddrOffsetSectionBase == None);
- assert(RangeSectionBase == 0);
- assert(LocSectionBase == 0);
- AddrOffsetSectionBase = toSectionOffset(UnitDie.find(DW_AT_addr_base));
- if (!AddrOffsetSectionBase)
- AddrOffsetSectionBase =
- toSectionOffset(UnitDie.find(DW_AT_GNU_addr_base));
- RangeSectionBase = toSectionOffset(UnitDie.find(DW_AT_rnglists_base), 0);
- LocSectionBase = toSectionOffset(UnitDie.find(DW_AT_loclists_base), 0);
- }
- // In general, in DWARF v5 and beyond we derive the start of the unit's
- // contribution to the string offsets table from the unit DIE's
- // DW_AT_str_offsets_base attribute. Split DWARF units do not use this
- // attribute, so we assume that there is a contribution to the string
- // offsets table starting at offset 0 of the debug_str_offsets.dwo section.
- // In both cases we need to determine the format of the contribution,
- // which may differ from the unit's format.
- DWARFDataExtractor DA(Context.getDWARFObj(), StringOffsetSection,
- isLittleEndian, 0);
- if (IsDWO || getVersion() >= 5) {
- auto StringOffsetOrError =
- IsDWO ? determineStringOffsetsTableContributionDWO(DA)
- : determineStringOffsetsTableContribution(DA);
- if (!StringOffsetOrError)
- return createStringError(errc::invalid_argument,
- "invalid reference to or invalid content in "
- ".debug_str_offsets[.dwo]: " +
- toString(StringOffsetOrError.takeError()));
- StringOffsetsTableContribution = *StringOffsetOrError;
- }
- // DWARF v5 uses the .debug_rnglists and .debug_rnglists.dwo sections to
- // describe address ranges.
- if (getVersion() >= 5) {
- // In case of DWP, the base offset from the index has to be added.
- if (IsDWO) {
- uint64_t ContributionBaseOffset = 0;
- if (auto *IndexEntry = Header.getIndexEntry())
- if (auto *Contrib = IndexEntry->getContribution(DW_SECT_RNGLISTS))
- ContributionBaseOffset = Contrib->Offset;
- setRangesSection(
- &Context.getDWARFObj().getRnglistsDWOSection(),
- ContributionBaseOffset +
- DWARFListTableHeader::getHeaderSize(Header.getFormat()));
- } else
- setRangesSection(&Context.getDWARFObj().getRnglistsSection(),
- toSectionOffset(UnitDie.find(DW_AT_rnglists_base),
- DWARFListTableHeader::getHeaderSize(
- Header.getFormat())));
- }
- if (IsDWO) {
- // If we are reading a package file, we need to adjust the location list
- // data based on the index entries.
- StringRef Data = Header.getVersion() >= 5
- ? Context.getDWARFObj().getLoclistsDWOSection().Data
- : Context.getDWARFObj().getLocDWOSection().Data;
- if (auto *IndexEntry = Header.getIndexEntry())
- if (const auto *C = IndexEntry->getContribution(
- Header.getVersion() >= 5 ? DW_SECT_LOCLISTS : DW_SECT_EXT_LOC))
- Data = Data.substr(C->Offset, C->Length);
- DWARFDataExtractor DWARFData(Data, isLittleEndian, getAddressByteSize());
- LocTable =
- std::make_unique<DWARFDebugLoclists>(DWARFData, Header.getVersion());
- LocSectionBase = DWARFListTableHeader::getHeaderSize(Header.getFormat());
- } else if (getVersion() >= 5) {
- LocTable = std::make_unique<DWARFDebugLoclists>(
- DWARFDataExtractor(Context.getDWARFObj(),
- Context.getDWARFObj().getLoclistsSection(),
- isLittleEndian, getAddressByteSize()),
- getVersion());
- } else {
- LocTable = std::make_unique<DWARFDebugLoc>(DWARFDataExtractor(
- Context.getDWARFObj(), Context.getDWARFObj().getLocSection(),
- isLittleEndian, getAddressByteSize()));
- }
- // Don't fall back to DW_AT_GNU_ranges_base: it should be ignored for
- // skeleton CU DIE, so that DWARF users not aware of it are not broken.
- return Error::success();
- }
- bool DWARFUnit::parseDWO() {
- if (IsDWO)
- return false;
- if (DWO.get())
- return false;
- DWARFDie UnitDie = getUnitDIE();
- if (!UnitDie)
- return false;
- auto DWOFileName = getVersion() >= 5
- ? dwarf::toString(UnitDie.find(DW_AT_dwo_name))
- : dwarf::toString(UnitDie.find(DW_AT_GNU_dwo_name));
- if (!DWOFileName)
- return false;
- auto CompilationDir = dwarf::toString(UnitDie.find(DW_AT_comp_dir));
- SmallString<16> AbsolutePath;
- if (sys::path::is_relative(*DWOFileName) && CompilationDir &&
- *CompilationDir) {
- sys::path::append(AbsolutePath, *CompilationDir);
- }
- sys::path::append(AbsolutePath, *DWOFileName);
- auto DWOId = getDWOId();
- if (!DWOId)
- return false;
- auto DWOContext = Context.getDWOContext(AbsolutePath);
- if (!DWOContext)
- return false;
- DWARFCompileUnit *DWOCU = DWOContext->getDWOCompileUnitForHash(*DWOId);
- if (!DWOCU)
- return false;
- DWO = std::shared_ptr<DWARFCompileUnit>(std::move(DWOContext), DWOCU);
- DWO->setSkeletonUnit(this);
- // Share .debug_addr and .debug_ranges section with compile unit in .dwo
- if (AddrOffsetSectionBase)
- DWO->setAddrOffsetSection(AddrOffsetSection, *AddrOffsetSectionBase);
- if (getVersion() == 4) {
- auto DWORangesBase = UnitDie.getRangesBaseAttribute();
- DWO->setRangesSection(RangeSection, DWORangesBase.getValueOr(0));
- }
- return true;
- }
- void DWARFUnit::clearDIEs(bool KeepCUDie) {
- // Do not use resize() + shrink_to_fit() to free memory occupied by dies.
- // shrink_to_fit() is a *non-binding* request to reduce capacity() to size().
- // It depends on the implementation whether the request is fulfilled.
- // Create a new vector with a small capacity and assign it to the DieArray to
- // have previous contents freed.
- DieArray = (KeepCUDie && !DieArray.empty())
- ? std::vector<DWARFDebugInfoEntry>({DieArray[0]})
- : std::vector<DWARFDebugInfoEntry>();
- }
- Expected<DWARFAddressRangesVector>
- DWARFUnit::findRnglistFromOffset(uint64_t Offset) {
- if (getVersion() <= 4) {
- DWARFDebugRangeList RangeList;
- if (Error E = extractRangeList(Offset, RangeList))
- return std::move(E);
- return RangeList.getAbsoluteRanges(getBaseAddress());
- }
- DWARFDataExtractor RangesData(Context.getDWARFObj(), *RangeSection,
- isLittleEndian, Header.getAddressByteSize());
- DWARFDebugRnglistTable RnglistTable;
- auto RangeListOrError = RnglistTable.findList(RangesData, Offset);
- if (RangeListOrError)
- return RangeListOrError.get().getAbsoluteRanges(getBaseAddress(), *this);
- return RangeListOrError.takeError();
- }
- Expected<DWARFAddressRangesVector>
- DWARFUnit::findRnglistFromIndex(uint32_t Index) {
- if (auto Offset = getRnglistOffset(Index))
- return findRnglistFromOffset(*Offset);
- return createStringError(errc::invalid_argument,
- "invalid range list table index %d (possibly "
- "missing the entire range list table)",
- Index);
- }
- Expected<DWARFAddressRangesVector> DWARFUnit::collectAddressRanges() {
- DWARFDie UnitDie = getUnitDIE();
- if (!UnitDie)
- return createStringError(errc::invalid_argument, "No unit DIE");
- // First, check if unit DIE describes address ranges for the whole unit.
- auto CUDIERangesOrError = UnitDie.getAddressRanges();
- if (!CUDIERangesOrError)
- return createStringError(errc::invalid_argument,
- "decoding address ranges: %s",
- toString(CUDIERangesOrError.takeError()).c_str());
- return *CUDIERangesOrError;
- }
- Expected<DWARFLocationExpressionsVector>
- DWARFUnit::findLoclistFromOffset(uint64_t Offset) {
- DWARFLocationExpressionsVector Result;
- Error InterpretationError = Error::success();
- Error ParseError = getLocationTable().visitAbsoluteLocationList(
- Offset, getBaseAddress(),
- [this](uint32_t Index) { return getAddrOffsetSectionItem(Index); },
- [&](Expected<DWARFLocationExpression> L) {
- if (L)
- Result.push_back(std::move(*L));
- else
- InterpretationError =
- joinErrors(L.takeError(), std::move(InterpretationError));
- return !InterpretationError;
- });
- if (ParseError || InterpretationError)
- return joinErrors(std::move(ParseError), std::move(InterpretationError));
- return Result;
- }
- void DWARFUnit::updateAddressDieMap(DWARFDie Die) {
- if (Die.isSubroutineDIE()) {
- auto DIERangesOrError = Die.getAddressRanges();
- if (DIERangesOrError) {
- for (const auto &R : DIERangesOrError.get()) {
- // Ignore 0-sized ranges.
- if (R.LowPC == R.HighPC)
- continue;
- auto B = AddrDieMap.upper_bound(R.LowPC);
- if (B != AddrDieMap.begin() && R.LowPC < (--B)->second.first) {
- // The range is a sub-range of existing ranges, we need to split the
- // existing range.
- if (R.HighPC < B->second.first)
- AddrDieMap[R.HighPC] = B->second;
- if (R.LowPC > B->first)
- AddrDieMap[B->first].first = R.LowPC;
- }
- AddrDieMap[R.LowPC] = std::make_pair(R.HighPC, Die);
- }
- } else
- llvm::consumeError(DIERangesOrError.takeError());
- }
- // Parent DIEs are added to the AddrDieMap prior to the Children DIEs to
- // simplify the logic to update AddrDieMap. The child's range will always
- // be equal or smaller than the parent's range. With this assumption, when
- // adding one range into the map, it will at most split a range into 3
- // sub-ranges.
- for (DWARFDie Child = Die.getFirstChild(); Child; Child = Child.getSibling())
- updateAddressDieMap(Child);
- }
- DWARFDie DWARFUnit::getSubroutineForAddress(uint64_t Address) {
- extractDIEsIfNeeded(false);
- if (AddrDieMap.empty())
- updateAddressDieMap(getUnitDIE());
- auto R = AddrDieMap.upper_bound(Address);
- if (R == AddrDieMap.begin())
- return DWARFDie();
- // upper_bound's previous item contains Address.
- --R;
- if (Address >= R->second.first)
- return DWARFDie();
- return R->second.second;
- }
- void
- DWARFUnit::getInlinedChainForAddress(uint64_t Address,
- SmallVectorImpl<DWARFDie> &InlinedChain) {
- assert(InlinedChain.empty());
- // Try to look for subprogram DIEs in the DWO file.
- parseDWO();
- // First, find the subroutine that contains the given address (the leaf
- // of inlined chain).
- DWARFDie SubroutineDIE =
- (DWO ? *DWO : *this).getSubroutineForAddress(Address);
- while (SubroutineDIE) {
- if (SubroutineDIE.isSubprogramDIE()) {
- InlinedChain.push_back(SubroutineDIE);
- return;
- }
- if (SubroutineDIE.getTag() == DW_TAG_inlined_subroutine)
- InlinedChain.push_back(SubroutineDIE);
- SubroutineDIE = SubroutineDIE.getParent();
- }
- }
- const DWARFUnitIndex &llvm::getDWARFUnitIndex(DWARFContext &Context,
- DWARFSectionKind Kind) {
- if (Kind == DW_SECT_INFO)
- return Context.getCUIndex();
- assert(Kind == DW_SECT_EXT_TYPES);
- return Context.getTUIndex();
- }
- DWARFDie DWARFUnit::getParent(const DWARFDebugInfoEntry *Die) {
- if (!Die)
- return DWARFDie();
- if (Optional<uint32_t> ParentIdx = Die->getParentIdx()) {
- assert(*ParentIdx < DieArray.size() &&
- "ParentIdx is out of DieArray boundaries");
- return DWARFDie(this, &DieArray[*ParentIdx]);
- }
- return DWARFDie();
- }
- DWARFDie DWARFUnit::getSibling(const DWARFDebugInfoEntry *Die) {
- if (!Die)
- return DWARFDie();
- if (Optional<uint32_t> SiblingIdx = Die->getSiblingIdx()) {
- assert(*SiblingIdx < DieArray.size() &&
- "SiblingIdx is out of DieArray boundaries");
- return DWARFDie(this, &DieArray[*SiblingIdx]);
- }
- return DWARFDie();
- }
- DWARFDie DWARFUnit::getPreviousSibling(const DWARFDebugInfoEntry *Die) {
- if (!Die)
- return DWARFDie();
- Optional<uint32_t> ParentIdx = Die->getParentIdx();
- if (!ParentIdx)
- // Die is a root die, there is no previous sibling.
- return DWARFDie();
- assert(*ParentIdx < DieArray.size() &&
- "ParentIdx is out of DieArray boundaries");
- assert(getDIEIndex(Die) > 0 && "Die is a root die");
- uint32_t PrevDieIdx = getDIEIndex(Die) - 1;
- if (PrevDieIdx == *ParentIdx)
- // Immediately previous node is parent, there is no previous sibling.
- return DWARFDie();
- while (DieArray[PrevDieIdx].getParentIdx() != *ParentIdx) {
- PrevDieIdx = *DieArray[PrevDieIdx].getParentIdx();
- assert(PrevDieIdx < DieArray.size() &&
- "PrevDieIdx is out of DieArray boundaries");
- assert(PrevDieIdx >= *ParentIdx &&
- "PrevDieIdx is not a child of parent of Die");
- }
- return DWARFDie(this, &DieArray[PrevDieIdx]);
- }
- DWARFDie DWARFUnit::getFirstChild(const DWARFDebugInfoEntry *Die) {
- if (!Die->hasChildren())
- return DWARFDie();
- // TODO: Instead of checking here for invalid die we might reject
- // invalid dies at parsing stage(DWARFUnit::extractDIEsToVector).
- // We do not want access out of bounds when parsing corrupted debug data.
- size_t I = getDIEIndex(Die) + 1;
- if (I >= DieArray.size())
- return DWARFDie();
- return DWARFDie(this, &DieArray[I]);
- }
- DWARFDie DWARFUnit::getLastChild(const DWARFDebugInfoEntry *Die) {
- if (!Die->hasChildren())
- return DWARFDie();
- if (Optional<uint32_t> SiblingIdx = Die->getSiblingIdx()) {
- assert(*SiblingIdx < DieArray.size() &&
- "SiblingIdx is out of DieArray boundaries");
- assert(DieArray[*SiblingIdx - 1].getTag() == dwarf::DW_TAG_null &&
- "Bad end of children marker");
- return DWARFDie(this, &DieArray[*SiblingIdx - 1]);
- }
- // If SiblingIdx is set for non-root dies we could be sure that DWARF is
- // correct and "end of children marker" must be found. For root die we do not
- // have such a guarantee(parsing root die might be stopped if "end of children
- // marker" is missing, SiblingIdx is always zero for root die). That is why we
- // do not use assertion for checking for "end of children marker" for root
- // die.
- // TODO: Instead of checking here for invalid die we might reject
- // invalid dies at parsing stage(DWARFUnit::extractDIEsToVector).
- if (getDIEIndex(Die) == 0 && DieArray.size() > 1 &&
- DieArray.back().getTag() == dwarf::DW_TAG_null) {
- // For the unit die we might take last item from DieArray.
- assert(getDIEIndex(Die) == getDIEIndex(getUnitDIE()) && "Bad unit die");
- return DWARFDie(this, &DieArray.back());
- }
- return DWARFDie();
- }
- const DWARFAbbreviationDeclarationSet *DWARFUnit::getAbbreviations() const {
- if (!Abbrevs)
- Abbrevs = Abbrev->getAbbreviationDeclarationSet(getAbbreviationsOffset());
- return Abbrevs;
- }
- llvm::Optional<object::SectionedAddress> DWARFUnit::getBaseAddress() {
- if (BaseAddr)
- return BaseAddr;
- DWARFDie UnitDie = getUnitDIE();
- Optional<DWARFFormValue> PC = UnitDie.find({DW_AT_low_pc, DW_AT_entry_pc});
- BaseAddr = toSectionedAddress(PC);
- return BaseAddr;
- }
- Expected<StrOffsetsContributionDescriptor>
- StrOffsetsContributionDescriptor::validateContributionSize(
- DWARFDataExtractor &DA) {
- uint8_t EntrySize = getDwarfOffsetByteSize();
- // In order to ensure that we don't read a partial record at the end of
- // the section we validate for a multiple of the entry size.
- uint64_t ValidationSize = alignTo(Size, EntrySize);
- // Guard against overflow.
- if (ValidationSize >= Size)
- if (DA.isValidOffsetForDataOfSize((uint32_t)Base, ValidationSize))
- return *this;
- return createStringError(errc::invalid_argument, "length exceeds section size");
- }
- // Look for a DWARF64-formatted contribution to the string offsets table
- // starting at a given offset and record it in a descriptor.
- static Expected<StrOffsetsContributionDescriptor>
- parseDWARF64StringOffsetsTableHeader(DWARFDataExtractor &DA, uint64_t Offset) {
- if (!DA.isValidOffsetForDataOfSize(Offset, 16))
- return createStringError(errc::invalid_argument, "section offset exceeds section size");
- if (DA.getU32(&Offset) != dwarf::DW_LENGTH_DWARF64)
- return createStringError(errc::invalid_argument, "32 bit contribution referenced from a 64 bit unit");
- uint64_t Size = DA.getU64(&Offset);
- uint8_t Version = DA.getU16(&Offset);
- (void)DA.getU16(&Offset); // padding
- // The encoded length includes the 2-byte version field and the 2-byte
- // padding, so we need to subtract them out when we populate the descriptor.
- return StrOffsetsContributionDescriptor(Offset, Size - 4, Version, DWARF64);
- }
- // Look for a DWARF32-formatted contribution to the string offsets table
- // starting at a given offset and record it in a descriptor.
- static Expected<StrOffsetsContributionDescriptor>
- parseDWARF32StringOffsetsTableHeader(DWARFDataExtractor &DA, uint64_t Offset) {
- if (!DA.isValidOffsetForDataOfSize(Offset, 8))
- return createStringError(errc::invalid_argument, "section offset exceeds section size");
- uint32_t ContributionSize = DA.getU32(&Offset);
- if (ContributionSize >= dwarf::DW_LENGTH_lo_reserved)
- return createStringError(errc::invalid_argument, "invalid length");
- uint8_t Version = DA.getU16(&Offset);
- (void)DA.getU16(&Offset); // padding
- // The encoded length includes the 2-byte version field and the 2-byte
- // padding, so we need to subtract them out when we populate the descriptor.
- return StrOffsetsContributionDescriptor(Offset, ContributionSize - 4, Version,
- DWARF32);
- }
- static Expected<StrOffsetsContributionDescriptor>
- parseDWARFStringOffsetsTableHeader(DWARFDataExtractor &DA,
- llvm::dwarf::DwarfFormat Format,
- uint64_t Offset) {
- StrOffsetsContributionDescriptor Desc;
- switch (Format) {
- case dwarf::DwarfFormat::DWARF64: {
- if (Offset < 16)
- return createStringError(errc::invalid_argument, "insufficient space for 64 bit header prefix");
- auto DescOrError = parseDWARF64StringOffsetsTableHeader(DA, Offset - 16);
- if (!DescOrError)
- return DescOrError.takeError();
- Desc = *DescOrError;
- break;
- }
- case dwarf::DwarfFormat::DWARF32: {
- if (Offset < 8)
- return createStringError(errc::invalid_argument, "insufficient space for 32 bit header prefix");
- auto DescOrError = parseDWARF32StringOffsetsTableHeader(DA, Offset - 8);
- if (!DescOrError)
- return DescOrError.takeError();
- Desc = *DescOrError;
- break;
- }
- }
- return Desc.validateContributionSize(DA);
- }
- Expected<Optional<StrOffsetsContributionDescriptor>>
- DWARFUnit::determineStringOffsetsTableContribution(DWARFDataExtractor &DA) {
- assert(!IsDWO);
- auto OptOffset = toSectionOffset(getUnitDIE().find(DW_AT_str_offsets_base));
- if (!OptOffset)
- return None;
- auto DescOrError =
- parseDWARFStringOffsetsTableHeader(DA, Header.getFormat(), *OptOffset);
- if (!DescOrError)
- return DescOrError.takeError();
- return *DescOrError;
- }
- Expected<Optional<StrOffsetsContributionDescriptor>>
- DWARFUnit::determineStringOffsetsTableContributionDWO(DWARFDataExtractor & DA) {
- assert(IsDWO);
- uint64_t Offset = 0;
- auto IndexEntry = Header.getIndexEntry();
- const auto *C =
- IndexEntry ? IndexEntry->getContribution(DW_SECT_STR_OFFSETS) : nullptr;
- if (C)
- Offset = C->Offset;
- if (getVersion() >= 5) {
- if (DA.getData().data() == nullptr)
- return None;
- Offset += Header.getFormat() == dwarf::DwarfFormat::DWARF32 ? 8 : 16;
- // Look for a valid contribution at the given offset.
- auto DescOrError = parseDWARFStringOffsetsTableHeader(DA, Header.getFormat(), Offset);
- if (!DescOrError)
- return DescOrError.takeError();
- return *DescOrError;
- }
- // Prior to DWARF v5, we derive the contribution size from the
- // index table (in a package file). In a .dwo file it is simply
- // the length of the string offsets section.
- StrOffsetsContributionDescriptor Desc;
- if (C)
- Desc = StrOffsetsContributionDescriptor(C->Offset, C->Length, 4,
- Header.getFormat());
- else if (!IndexEntry && !StringOffsetSection.Data.empty())
- Desc = StrOffsetsContributionDescriptor(0, StringOffsetSection.Data.size(),
- 4, Header.getFormat());
- else
- return None;
- auto DescOrError = Desc.validateContributionSize(DA);
- if (!DescOrError)
- return DescOrError.takeError();
- return *DescOrError;
- }
- Optional<uint64_t> DWARFUnit::getRnglistOffset(uint32_t Index) {
- DataExtractor RangesData(RangeSection->Data, isLittleEndian,
- getAddressByteSize());
- DWARFDataExtractor RangesDA(Context.getDWARFObj(), *RangeSection,
- isLittleEndian, 0);
- if (Optional<uint64_t> Off = llvm::DWARFListTableHeader::getOffsetEntry(
- RangesData, RangeSectionBase, getFormat(), Index))
- return *Off + RangeSectionBase;
- return None;
- }
- Optional<uint64_t> DWARFUnit::getLoclistOffset(uint32_t Index) {
- if (Optional<uint64_t> Off = llvm::DWARFListTableHeader::getOffsetEntry(
- LocTable->getData(), LocSectionBase, getFormat(), Index))
- return *Off + LocSectionBase;
- return None;
- }
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