include/llvm/DebugInfo/DWARF/DWARFAcceleratorTable.h - llvm - Git at Google

 //===- DWARFAcceleratorTable.h ----------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_DEBUGINFO_DWARFACCELERATORTABLE_H
 #define LLVM_DEBUGINFO_DWARFACCELERATORTABLE_H

 #include "llvm/ADT/DenseSet.h"
 #include "llvm/ADT/SmallVector.h"
 #include "llvm/BinaryFormat/Dwarf.h"
 #include "llvm/DebugInfo/DWARF/DWARFDataExtractor.h"
 #include "llvm/DebugInfo/DWARF/DWARFFormValue.h"
 #include <cstdint>
 #include <utility>

 namespace llvm {

 class raw_ostream;
 class ScopedPrinter;

 /// The accelerator tables are designed to allow efficient random access
 /// (using a symbol name as a key) into debug info by providing an index of the
 /// debug info DIEs. This class implements the common functionality of Apple and
 /// DWARF 5 accelerator tables.
 /// TODO: Generalize the rest of the AppleAcceleratorTable interface and move it
 /// to this class.
 class DWARFAcceleratorTable {
 protected:
   DWARFDataExtractor AccelSection;
   DataExtractor StringSection;

 public:
   /// An abstract class representing a single entry in the accelerator tables.
   class Entry {
   protected:
     SmallVector<DWARFFormValue, 3> Values;

     Entry() = default;

     // Make these protected so only (final) subclasses can be copied around.
     Entry(const Entry &) = default;
     Entry(Entry &&) = default;
     Entry &operator=(const Entry &) = default;
     Entry &operator=(Entry &&) = default;
     ~Entry() = default;


   public:
     /// Returns the Offset of the Compilation Unit associated with this
     /// Accelerator Entry or None if the Compilation Unit offset is not recorded
     /// in this Accelerator Entry.
     virtual Optional<uint64_t> getCUOffset() const = 0;

     /// Returns the Tag of the Debug Info Entry associated with this
     /// Accelerator Entry or None if the Tag is not recorded in this
     /// Accelerator Entry.
     virtual Optional<dwarf::Tag> getTag() const = 0;

     /// Returns the raw values of fields in the Accelerator Entry. In general,
     /// these can only be interpreted with the help of the metadata in the
     /// owning Accelerator Table.
     ArrayRef<DWARFFormValue> getValues() const { return Values; }
   };

   DWARFAcceleratorTable(const DWARFDataExtractor &AccelSection,
                         DataExtractor StringSection)
       : AccelSection(AccelSection), StringSection(StringSection) {}
   virtual ~DWARFAcceleratorTable();

   virtual llvm::Error extract() = 0;
   virtual void dump(raw_ostream &OS) const = 0;

   DWARFAcceleratorTable(const DWARFAcceleratorTable &) = delete;
   void operator=(const DWARFAcceleratorTable &) = delete;
 };

 /// This implements the Apple accelerator table format, a precursor of the
 /// DWARF 5 accelerator table format.
 class AppleAcceleratorTable : public DWARFAcceleratorTable {
   struct Header {
     uint32_t Magic;
     uint16_t Version;
     uint16_t HashFunction;
     uint32_t BucketCount;
     uint32_t HashCount;
     uint32_t HeaderDataLength;

     void dump(ScopedPrinter &W) const;
   };

   struct HeaderData {
     using AtomType = uint16_t;
     using Form = dwarf::Form;

     uint32_t DIEOffsetBase;
     SmallVector<std::pair<AtomType, Form>, 3> Atoms;

     Optional<uint64_t> extractOffset(Optional<DWARFFormValue> Value) const;
   };

   struct Header Hdr;
   struct HeaderData HdrData;
   bool IsValid = false;

   /// Returns true if we should continue scanning for entries or false if we've
   /// reached the last (sentinel) entry of encountered a parsing error.
   bool dumpName(ScopedPrinter &W, SmallVectorImpl<DWARFFormValue> &AtomForms,
                 uint32_t *DataOffset) const;

 public:
   /// Apple-specific implementation of an Accelerator Entry.
   class Entry final : public DWARFAcceleratorTable::Entry {
     const HeaderData *HdrData = nullptr;

     Entry(const HeaderData &Data);
     Entry() = default;

     void extract(const AppleAcceleratorTable &AccelTable, uint32_t *Offset);

   public:
     Optional<uint64_t> getCUOffset() const override;

     /// Returns the Section Offset of the Debug Info Entry associated with this
     /// Accelerator Entry or None if the DIE offset is not recorded in this
     /// Accelerator Entry. The returned offset is relative to the start of the
     /// Section containing the DIE.
     Optional<uint64_t> getDIESectionOffset() const;

     Optional<dwarf::Tag> getTag() const override;

     /// Returns the value of the Atom in this Accelerator Entry, if the Entry
     /// contains such Atom.
     Optional<DWARFFormValue> lookup(HeaderData::AtomType Atom) const;

     friend class AppleAcceleratorTable;
     friend class ValueIterator;
   };

   class ValueIterator : public std::iterator<std::input_iterator_tag, Entry> {
     const AppleAcceleratorTable *AccelTable = nullptr;
     Entry Current;           ///< The current entry.
     unsigned DataOffset = 0; ///< Offset into the section.
     unsigned Data = 0; ///< Current data entry.
     unsigned NumData = 0; ///< Number of data entries.

     /// Advance the iterator.
     void Next();
   public:
     /// Construct a new iterator for the entries at \p DataOffset.
     ValueIterator(const AppleAcceleratorTable &AccelTable, unsigned DataOffset);
     /// End marker.
     ValueIterator() = default;

     const Entry &operator*() const { return Current; }
     ValueIterator &operator++() { Next(); return *this; }
     ValueIterator operator++(int) {
       ValueIterator I = *this;
       Next();
       return I;
     }
     friend bool operator==(const ValueIterator &A, const ValueIterator &B) {
       return A.NumData == B.NumData && A.DataOffset == B.DataOffset;
     }
     friend bool operator!=(const ValueIterator &A, const ValueIterator &B) {
       return !(A == B);
     }
   };

   AppleAcceleratorTable(const DWARFDataExtractor &AccelSection,
                         DataExtractor StringSection)
       : DWARFAcceleratorTable(AccelSection, StringSection) {}

   llvm::Error extract() override;
   uint32_t getNumBuckets();
   uint32_t getNumHashes();
   uint32_t getSizeHdr();
   uint32_t getHeaderDataLength();

   /// Return the Atom description, which can be used to interpret the raw values
   /// of the Accelerator Entries in this table.
   ArrayRef<std::pair<HeaderData::AtomType, HeaderData::Form>> getAtomsDesc();
   bool validateForms();

   /// Return information related to the DWARF DIE we're looking for when
   /// performing a lookup by name.
   ///
   /// \param HashDataOffset an offset into the hash data table
   /// \returns <DieOffset, DieTag>
   /// DieOffset is the offset into the .debug_info section for the DIE
   /// related to the input hash data offset.
   /// DieTag is the tag of the DIE
   std::pair<uint32_t, dwarf::Tag> readAtoms(uint32_t &HashDataOffset);
   void dump(raw_ostream &OS) const override;

   /// Look up all entries in the accelerator table matching \c Key.
   iterator_range<ValueIterator> equal_range(StringRef Key) const;
 };

 /// .debug_names section consists of one or more units. Each unit starts with a
 /// header, which is followed by a list of compilation units, local and foreign
 /// type units.
 ///
 /// These may be followed by an (optional) hash lookup table, which consists of
 /// an array of buckets and hashes similar to the apple tables above. The only
 /// difference is that the hashes array is 1-based, and consequently an empty
 /// bucket is denoted by 0 and not UINT32_MAX.
 ///
 /// Next is the name table, which consists of an array of names and array of
 /// entry offsets. This is different from the apple tables, which store names
 /// next to the actual entries.
 ///
 /// The structure of the entries is described by an abbreviations table, which
 /// comes after the name table. Unlike the apple tables, which have a uniform
 /// entry structure described in the header, each .debug_names entry may have
 /// different index attributes (DW_IDX_???) attached to it.
 ///
 /// The last segment consists of a list of entries, which is a 0-terminated list
 /// referenced by the name table and interpreted with the help of the
 /// abbreviation table.
 class DWARFDebugNames : public DWARFAcceleratorTable {
   /// The fixed-size part of a Dwarf 5 Name Index header
   struct HeaderPOD {
     uint32_t UnitLength;
     uint16_t Version;
     uint16_t Padding;
     uint32_t CompUnitCount;
     uint32_t LocalTypeUnitCount;
     uint32_t ForeignTypeUnitCount;
     uint32_t BucketCount;
     uint32_t NameCount;
     uint32_t AbbrevTableSize;
     uint32_t AugmentationStringSize;
   };

 public:
   class NameIndex;
   class NameIterator;
   class ValueIterator;

   /// Dwarf 5 Name Index header.
   struct Header : public HeaderPOD {
     SmallString<8> AugmentationString;

     Error extract(const DWARFDataExtractor &AS, uint32_t *Offset);
     void dump(ScopedPrinter &W) const;
   };

   /// Index attribute and its encoding.
   struct AttributeEncoding {
     dwarf::Index Index;
     dwarf::Form Form;

     constexpr AttributeEncoding(dwarf::Index Index, dwarf::Form Form)
         : Index(Index), Form(Form) {}

     friend bool operator==(const AttributeEncoding &LHS,
                            const AttributeEncoding &RHS) {
       return LHS.Index == RHS.Index && LHS.Form == RHS.Form;
     }
   };

   /// Abbreviation describing the encoding of Name Index entries.
   struct Abbrev {
     uint32_t Code;  ///< Abbreviation code
     dwarf::Tag Tag; ///< Dwarf Tag of the described entity.
     std::vector<AttributeEncoding> Attributes; ///< List of index attributes.

     Abbrev(uint32_t Code, dwarf::Tag Tag,
            std::vector<AttributeEncoding> Attributes)
         : Code(Code), Tag(Tag), Attributes(std::move(Attributes)) {}

     void dump(ScopedPrinter &W) const;
   };

   /// DWARF v5-specific implementation of an Accelerator Entry.
   class Entry final : public DWARFAcceleratorTable::Entry {
     const NameIndex *NameIdx;
     const Abbrev *Abbr;

     Entry(const NameIndex &NameIdx, const Abbrev &Abbr);

   public:
     Optional<uint64_t> getCUOffset() const override;
     Optional<dwarf::Tag> getTag() const override { return tag(); }

     /// Returns the Index into the Compilation Unit list of the owning Name
     /// Index or None if this Accelerator Entry does not have an associated
     /// Compilation Unit. It is up to the user to verify that the returned Index
     /// is valid in the owning NameIndex (or use getCUOffset(), which will
     /// handle that check itself). Note that entries in NameIndexes which index
     /// just a single Compilation Unit are implicitly associated with that unit,
     /// so this function will return 0 even without an explicit
     /// DW_IDX_compile_unit attribute.
     Optional<uint64_t> getCUIndex() const;

     /// .debug_names-specific getter, which always succeeds (DWARF v5 index
     /// entries always have a tag).
     dwarf::Tag tag() const { return Abbr->Tag; }

     /// Returns the Offset of the DIE within the containing CU or TU.
     Optional<uint64_t> getDIEUnitOffset() const;

     /// Return the Abbreviation that can be used to interpret the raw values of
     /// this Accelerator Entry.
     const Abbrev &getAbbrev() const { return *Abbr; }

     /// Returns the value of the Index Attribute in this Accelerator Entry, if
     /// the Entry contains such Attribute.
     Optional<DWARFFormValue> lookup(dwarf::Index Index) const;

     void dump(ScopedPrinter &W) const;

     friend class NameIndex;
     friend class ValueIterator;
   };

   /// Error returned by NameIndex::getEntry to report it has reached the end of
   /// the entry list.
   class SentinelError : public ErrorInfo<SentinelError> {
   public:
     static char ID;

     void log(raw_ostream &OS) const override { OS << "Sentinel"; }
     std::error_code convertToErrorCode() const override;
   };

 private:
   /// DenseMapInfo for struct Abbrev.
   struct AbbrevMapInfo {
     static Abbrev getEmptyKey();
     static Abbrev getTombstoneKey();
     static unsigned getHashValue(uint32_t Code) {
       return DenseMapInfo<uint32_t>::getHashValue(Code);
     }
     static unsigned getHashValue(const Abbrev &Abbr) {
       return getHashValue(Abbr.Code);
     }
     static bool isEqual(uint32_t LHS, const Abbrev &RHS) {
       return LHS == RHS.Code;
     }
     static bool isEqual(const Abbrev &LHS, const Abbrev &RHS) {
       return LHS.Code == RHS.Code;
     }
   };

 public:
   /// A single entry in the Name Table (Dwarf 5 sect. 6.1.1.4.6) of the Name
   /// Index.
   class NameTableEntry {
     DataExtractor StrData;

     uint32_t Index;
     uint32_t StringOffset;
     uint32_t EntryOffset;

   public:
     NameTableEntry(const DataExtractor &StrData, uint32_t Index,
                    uint32_t StringOffset, uint32_t EntryOffset)
         : StrData(StrData), Index(Index), StringOffset(StringOffset),
           EntryOffset(EntryOffset) {}

     /// Return the index of this name in the parent Name Index.
     uint32_t getIndex() const { return Index; }

     /// Returns the offset of the name of the described entities.
     uint32_t getStringOffset() const { return StringOffset; }

     /// Return the string referenced by this name table entry or nullptr if the
     /// string offset is not valid.
     const char *getString() const {
       uint32_t Off = StringOffset;
       return StrData.getCStr(&Off);
     }

     /// Returns the offset of the first Entry in the list.
     uint32_t getEntryOffset() const { return EntryOffset; }
   };

   /// Represents a single accelerator table within the Dwarf 5 .debug_names
   /// section.
   class NameIndex {
     DenseSet<Abbrev, AbbrevMapInfo> Abbrevs;
     struct Header Hdr;
     const DWARFDebugNames &Section;

     // Base of the whole unit and of various important tables, as offsets from
     // the start of the section.
     uint32_t Base;
     uint32_t CUsBase;
     uint32_t BucketsBase;
     uint32_t HashesBase;
     uint32_t StringOffsetsBase;
     uint32_t EntryOffsetsBase;
     uint32_t EntriesBase;

     void dumpCUs(ScopedPrinter &W) const;
     void dumpLocalTUs(ScopedPrinter &W) const;
     void dumpForeignTUs(ScopedPrinter &W) const;
     void dumpAbbreviations(ScopedPrinter &W) const;
     bool dumpEntry(ScopedPrinter &W, uint32_t *Offset) const;
     void dumpName(ScopedPrinter &W, const NameTableEntry &NTE,
                   Optional<uint32_t> Hash) const;
     void dumpBucket(ScopedPrinter &W, uint32_t Bucket) const;

     Expected<AttributeEncoding> extractAttributeEncoding(uint32_t *Offset);

     Expected<std::vector<AttributeEncoding>>
     extractAttributeEncodings(uint32_t *Offset);

     Expected<Abbrev> extractAbbrev(uint32_t *Offset);

   public:
     NameIndex(const DWARFDebugNames &Section, uint32_t Base)
         : Section(Section), Base(Base) {}

     /// Reads offset of compilation unit CU. CU is 0-based.
     uint32_t getCUOffset(uint32_t CU) const;
     uint32_t getCUCount() const { return Hdr.CompUnitCount; }

     /// Reads offset of local type unit TU, TU is 0-based.
     uint32_t getLocalTUOffset(uint32_t TU) const;
     uint32_t getLocalTUCount() const { return Hdr.LocalTypeUnitCount; }

     /// Reads signature of foreign type unit TU. TU is 0-based.
     uint64_t getForeignTUSignature(uint32_t TU) const;
     uint32_t getForeignTUCount() const { return Hdr.ForeignTypeUnitCount; }

     /// Reads an entry in the Bucket Array for the given Bucket. The returned
     /// value is a (1-based) index into the Names, StringOffsets and
     /// EntryOffsets arrays. The input Bucket index is 0-based.
     uint32_t getBucketArrayEntry(uint32_t Bucket) const;
     uint32_t getBucketCount() const { return Hdr.BucketCount; }

     /// Reads an entry in the Hash Array for the given Index. The input Index
     /// is 1-based.
     uint32_t getHashArrayEntry(uint32_t Index) const;

     /// Reads an entry in the Name Table for the given Index. The Name Table
     /// consists of two arrays -- String Offsets and Entry Offsets. The returned
     /// offsets are relative to the starts of respective sections. Input Index
     /// is 1-based.
     NameTableEntry getNameTableEntry(uint32_t Index) const;

     uint32_t getNameCount() const { return Hdr.NameCount; }

     const DenseSet<Abbrev, AbbrevMapInfo> &getAbbrevs() const {
       return Abbrevs;
     }

     Expected<Entry> getEntry(uint32_t *Offset) const;

     /// Look up all entries in this Name Index matching \c Key.
     iterator_range<ValueIterator> equal_range(StringRef Key) const;

     NameIterator begin() const { return NameIterator(this, 1); }
     NameIterator end() const { return NameIterator(this, getNameCount() + 1); }

     llvm::Error extract();
     uint32_t getUnitOffset() const { return Base; }
     uint32_t getNextUnitOffset() const { return Base + 4 + Hdr.UnitLength; }
     void dump(ScopedPrinter &W) const;

     friend class DWARFDebugNames;
   };

   class ValueIterator : public std::iterator<std::input_iterator_tag, Entry> {

     /// The Name Index we are currently iterating through. The implementation
     /// relies on the fact that this can also be used as an iterator into the
     /// "NameIndices" vector in the Accelerator section.
     const NameIndex *CurrentIndex = nullptr;

     /// Whether this is a local iterator (searches in CurrentIndex only) or not
     /// (searches all name indices).
     bool IsLocal;

     Optional<Entry> CurrentEntry;
     unsigned DataOffset = 0; ///< Offset into the section.
     std::string Key;         ///< The Key we are searching for.
     Optional<uint32_t> Hash; ///< Hash of Key, if it has been computed.

     bool getEntryAtCurrentOffset();
     Optional<uint32_t> findEntryOffsetInCurrentIndex();
     bool findInCurrentIndex();
     void searchFromStartOfCurrentIndex();
     void next();

     /// Set the iterator to the "end" state.
     void setEnd() { *this = ValueIterator(); }

   public:
     /// Create a "begin" iterator for looping over all entries in the
     /// accelerator table matching Key. The iterator will run through all Name
     /// Indexes in the section in sequence.
     ValueIterator(const DWARFDebugNames &AccelTable, StringRef Key);

     /// Create a "begin" iterator for looping over all entries in a specific
     /// Name Index. Other indices in the section will not be visited.
     ValueIterator(const NameIndex &NI, StringRef Key);

     /// End marker.
     ValueIterator() = default;

     const Entry &operator*() const { return *CurrentEntry; }
     ValueIterator &operator++() {
       next();
       return *this;
     }
     ValueIterator operator++(int) {
       ValueIterator I = *this;
       next();
       return I;
     }

     friend bool operator==(const ValueIterator &A, const ValueIterator &B) {
       return A.CurrentIndex == B.CurrentIndex && A.DataOffset == B.DataOffset;
     }
     friend bool operator!=(const ValueIterator &A, const ValueIterator &B) {
       return !(A == B);
     }
   };

   class NameIterator {

     /// The Name Index we are iterating through.
     const NameIndex *CurrentIndex;

     /// The current name in the Name Index.
     uint32_t CurrentName;

     void next() {
       assert(CurrentName <= CurrentIndex->getNameCount());
       ++CurrentName;
     }

   public:
     using iterator_category = std::input_iterator_tag;
     using value_type = NameTableEntry;
     using difference_type = uint32_t;
     using pointer = NameTableEntry *;
     using reference = NameTableEntry; // We return entries by value.

     /// Creates an iterator whose initial position is name CurrentName in
     /// CurrentIndex.
     NameIterator(const NameIndex *CurrentIndex, uint32_t CurrentName)
         : CurrentIndex(CurrentIndex), CurrentName(CurrentName) {}

     NameTableEntry operator*() const {
       return CurrentIndex->getNameTableEntry(CurrentName);
     }
     NameIterator &operator++() {
       next();
       return *this;
     }
     NameIterator operator++(int) {
       NameIterator I = *this;
       next();
       return I;
     }

     friend bool operator==(const NameIterator &A, const NameIterator &B) {
       return A.CurrentIndex == B.CurrentIndex && A.CurrentName == B.CurrentName;
     }
     friend bool operator!=(const NameIterator &A, const NameIterator &B) {
       return !(A == B);
     }
   };

 private:
   SmallVector<NameIndex, 0> NameIndices;
   DenseMap<uint32_t, const NameIndex *> CUToNameIndex;

 public:
   DWARFDebugNames(const DWARFDataExtractor &AccelSection,
                   DataExtractor StringSection)
       : DWARFAcceleratorTable(AccelSection, StringSection) {}

   llvm::Error extract() override;
   void dump(raw_ostream &OS) const override;

   /// Look up all entries in the accelerator table matching \c Key.
   iterator_range<ValueIterator> equal_range(StringRef Key) const;

   using const_iterator = SmallVector<NameIndex, 0>::const_iterator;
   const_iterator begin() const { return NameIndices.begin(); }
   const_iterator end() const { return NameIndices.end(); }

   /// Return the Name Index covering the compile unit at CUOffset, or nullptr if
   /// there is no Name Index covering that unit.
   const NameIndex *getCUNameIndex(uint32_t CUOffset);
 };

 } // end namespace llvm

 #endif // LLVM_DEBUGINFO_DWARFACCELERATORTABLE_H
	//===- DWARFAcceleratorTable.h ----------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_DEBUGINFO_DWARFACCELERATORTABLE_H
	#define LLVM_DEBUGINFO_DWARFACCELERATORTABLE_H

	#include "llvm/ADT/DenseSet.h"
	#include "llvm/ADT/SmallVector.h"
	#include "llvm/BinaryFormat/Dwarf.h"
	#include "llvm/DebugInfo/DWARF/DWARFDataExtractor.h"
	#include "llvm/DebugInfo/DWARF/DWARFFormValue.h"
	#include <cstdint>
	#include <utility>

	namespace llvm {

	class raw_ostream;
	class ScopedPrinter;

	/// The accelerator tables are designed to allow efficient random access
	/// (using a symbol name as a key) into debug info by providing an index of the
	/// debug info DIEs. This class implements the common functionality of Apple and
	/// DWARF 5 accelerator tables.
	/// TODO: Generalize the rest of the AppleAcceleratorTable interface and move it
	/// to this class.
	class DWARFAcceleratorTable {
	protected:
	DWARFDataExtractor AccelSection;
	DataExtractor StringSection;

	public:
	/// An abstract class representing a single entry in the accelerator tables.
	class Entry {
	protected:
	SmallVector<DWARFFormValue, 3> Values;

	Entry() = default;

	// Make these protected so only (final) subclasses can be copied around.
	Entry(const Entry &) = default;
	Entry(Entry &&) = default;
	Entry &operator=(const Entry &) = default;
	Entry &operator=(Entry &&) = default;
	~Entry() = default;


	public:
	/// Returns the Offset of the Compilation Unit associated with this
	/// Accelerator Entry or None if the Compilation Unit offset is not recorded
	/// in this Accelerator Entry.
	virtual Optional<uint64_t> getCUOffset() const = 0;

	/// Returns the Tag of the Debug Info Entry associated with this
	/// Accelerator Entry or None if the Tag is not recorded in this
	/// Accelerator Entry.
	virtual Optional<dwarf::Tag> getTag() const = 0;

	/// Returns the raw values of fields in the Accelerator Entry. In general,
	/// these can only be interpreted with the help of the metadata in the
	/// owning Accelerator Table.
	ArrayRef<DWARFFormValue> getValues() const { return Values; }
	};

	DWARFAcceleratorTable(const DWARFDataExtractor &AccelSection,
	DataExtractor StringSection)
	: AccelSection(AccelSection), StringSection(StringSection) {}
	virtual ~DWARFAcceleratorTable();

	virtual llvm::Error extract() = 0;
	virtual void dump(raw_ostream &OS) const = 0;

	DWARFAcceleratorTable(const DWARFAcceleratorTable &) = delete;
	void operator=(const DWARFAcceleratorTable &) = delete;
	};

	/// This implements the Apple accelerator table format, a precursor of the
	/// DWARF 5 accelerator table format.
	class AppleAcceleratorTable : public DWARFAcceleratorTable {
	struct Header {
	uint32_t Magic;
	uint16_t Version;
	uint16_t HashFunction;
	uint32_t BucketCount;
	uint32_t HashCount;
	uint32_t HeaderDataLength;

	void dump(ScopedPrinter &W) const;
	};

	struct HeaderData {
	using AtomType = uint16_t;
	using Form = dwarf::Form;

	uint32_t DIEOffsetBase;
	SmallVector<std::pair<AtomType, Form>, 3> Atoms;

	Optional<uint64_t> extractOffset(Optional<DWARFFormValue> Value) const;
	};

	struct Header Hdr;
	struct HeaderData HdrData;
	bool IsValid = false;

	/// Returns true if we should continue scanning for entries or false if we've
	/// reached the last (sentinel) entry of encountered a parsing error.
	bool dumpName(ScopedPrinter &W, SmallVectorImpl<DWARFFormValue> &AtomForms,
	uint32_t *DataOffset) const;

	public:
	/// Apple-specific implementation of an Accelerator Entry.
	class Entry final : public DWARFAcceleratorTable::Entry {
	const HeaderData *HdrData = nullptr;

	Entry(const HeaderData &Data);
	Entry() = default;

	void extract(const AppleAcceleratorTable &AccelTable, uint32_t *Offset);

	public:
	Optional<uint64_t> getCUOffset() const override;

	/// Returns the Section Offset of the Debug Info Entry associated with this
	/// Accelerator Entry or None if the DIE offset is not recorded in this
	/// Accelerator Entry. The returned offset is relative to the start of the
	/// Section containing the DIE.
	Optional<uint64_t> getDIESectionOffset() const;

	Optional<dwarf::Tag> getTag() const override;

	/// Returns the value of the Atom in this Accelerator Entry, if the Entry
	/// contains such Atom.
	Optional<DWARFFormValue> lookup(HeaderData::AtomType Atom) const;

	friend class AppleAcceleratorTable;
	friend class ValueIterator;
	};

	class ValueIterator : public std::iterator<std::input_iterator_tag, Entry> {
	const AppleAcceleratorTable *AccelTable = nullptr;
	Entry Current; ///< The current entry.
	unsigned DataOffset = 0; ///< Offset into the section.
	unsigned Data = 0; ///< Current data entry.
	unsigned NumData = 0; ///< Number of data entries.

	/// Advance the iterator.
	void Next();
	public:
	/// Construct a new iterator for the entries at \p DataOffset.
	ValueIterator(const AppleAcceleratorTable &AccelTable, unsigned DataOffset);
	/// End marker.
	ValueIterator() = default;

	const Entry &operator*() const { return Current; }
	ValueIterator &operator++() { Next(); return *this; }
	ValueIterator operator++(int) {
	ValueIterator I = *this;
	Next();
	return I;
	}
	friend bool operator==(const ValueIterator &A, const ValueIterator &B) {
	return A.NumData == B.NumData && A.DataOffset == B.DataOffset;
	}
	friend bool operator!=(const ValueIterator &A, const ValueIterator &B) {
	return !(A == B);
	}
	};

	AppleAcceleratorTable(const DWARFDataExtractor &AccelSection,
	DataExtractor StringSection)
	: DWARFAcceleratorTable(AccelSection, StringSection) {}

	llvm::Error extract() override;
	uint32_t getNumBuckets();
	uint32_t getNumHashes();
	uint32_t getSizeHdr();
	uint32_t getHeaderDataLength();

	/// Return the Atom description, which can be used to interpret the raw values
	/// of the Accelerator Entries in this table.
	ArrayRef<std::pair<HeaderData::AtomType, HeaderData::Form>> getAtomsDesc();
	bool validateForms();

	/// Return information related to the DWARF DIE we're looking for when
	/// performing a lookup by name.
	///
	/// \param HashDataOffset an offset into the hash data table
	/// \returns <DieOffset, DieTag>
	/// DieOffset is the offset into the .debug_info section for the DIE
	/// related to the input hash data offset.
	/// DieTag is the tag of the DIE
	std::pair<uint32_t, dwarf::Tag> readAtoms(uint32_t &HashDataOffset);
	void dump(raw_ostream &OS) const override;

	/// Look up all entries in the accelerator table matching \c Key.
	iterator_range<ValueIterator> equal_range(StringRef Key) const;
	};

	/// .debug_names section consists of one or more units. Each unit starts with a
	/// header, which is followed by a list of compilation units, local and foreign
	/// type units.
	///
	/// These may be followed by an (optional) hash lookup table, which consists of
	/// an array of buckets and hashes similar to the apple tables above. The only
	/// difference is that the hashes array is 1-based, and consequently an empty
	/// bucket is denoted by 0 and not UINT32_MAX.
	///
	/// Next is the name table, which consists of an array of names and array of
	/// entry offsets. This is different from the apple tables, which store names
	/// next to the actual entries.
	///
	/// The structure of the entries is described by an abbreviations table, which
	/// comes after the name table. Unlike the apple tables, which have a uniform
	/// entry structure described in the header, each .debug_names entry may have
	/// different index attributes (DW_IDX_???) attached to it.
	///
	/// The last segment consists of a list of entries, which is a 0-terminated list
	/// referenced by the name table and interpreted with the help of the
	/// abbreviation table.
	class DWARFDebugNames : public DWARFAcceleratorTable {
	/// The fixed-size part of a Dwarf 5 Name Index header
	struct HeaderPOD {
	uint32_t UnitLength;
	uint16_t Version;
	uint16_t Padding;
	uint32_t CompUnitCount;
	uint32_t LocalTypeUnitCount;
	uint32_t ForeignTypeUnitCount;
	uint32_t BucketCount;
	uint32_t NameCount;
	uint32_t AbbrevTableSize;
	uint32_t AugmentationStringSize;
	};

	public:
	class NameIndex;
	class NameIterator;
	class ValueIterator;

	/// Dwarf 5 Name Index header.
	struct Header : public HeaderPOD {
	SmallString<8> AugmentationString;

	Error extract(const DWARFDataExtractor &AS, uint32_t *Offset);
	void dump(ScopedPrinter &W) const;
	};

	/// Index attribute and its encoding.
	struct AttributeEncoding {
	dwarf::Index Index;
	dwarf::Form Form;

	constexpr AttributeEncoding(dwarf::Index Index, dwarf::Form Form)
	: Index(Index), Form(Form) {}

	friend bool operator==(const AttributeEncoding &LHS,
	const AttributeEncoding &RHS) {
	return LHS.Index == RHS.Index && LHS.Form == RHS.Form;
	}
	};

	/// Abbreviation describing the encoding of Name Index entries.
	struct Abbrev {
	uint32_t Code; ///< Abbreviation code
	dwarf::Tag Tag; ///< Dwarf Tag of the described entity.
	std::vector<AttributeEncoding> Attributes; ///< List of index attributes.

	Abbrev(uint32_t Code, dwarf::Tag Tag,
	std::vector<AttributeEncoding> Attributes)
	: Code(Code), Tag(Tag), Attributes(std::move(Attributes)) {}

	void dump(ScopedPrinter &W) const;
	};

	/// DWARF v5-specific implementation of an Accelerator Entry.
	class Entry final : public DWARFAcceleratorTable::Entry {
	const NameIndex *NameIdx;
	const Abbrev *Abbr;

	Entry(const NameIndex &NameIdx, const Abbrev &Abbr);

	public:
	Optional<uint64_t> getCUOffset() const override;
	Optional<dwarf::Tag> getTag() const override { return tag(); }

	/// Returns the Index into the Compilation Unit list of the owning Name
	/// Index or None if this Accelerator Entry does not have an associated
	/// Compilation Unit. It is up to the user to verify that the returned Index
	/// is valid in the owning NameIndex (or use getCUOffset(), which will
	/// handle that check itself). Note that entries in NameIndexes which index
	/// just a single Compilation Unit are implicitly associated with that unit,
	/// so this function will return 0 even without an explicit
	/// DW_IDX_compile_unit attribute.
	Optional<uint64_t> getCUIndex() const;

	/// .debug_names-specific getter, which always succeeds (DWARF v5 index
	/// entries always have a tag).
	dwarf::Tag tag() const { return Abbr->Tag; }

	/// Returns the Offset of the DIE within the containing CU or TU.
	Optional<uint64_t> getDIEUnitOffset() const;

	/// Return the Abbreviation that can be used to interpret the raw values of
	/// this Accelerator Entry.
	const Abbrev &getAbbrev() const { return *Abbr; }

	/// Returns the value of the Index Attribute in this Accelerator Entry, if
	/// the Entry contains such Attribute.
	Optional<DWARFFormValue> lookup(dwarf::Index Index) const;

	void dump(ScopedPrinter &W) const;

	friend class NameIndex;
	friend class ValueIterator;
	};

	/// Error returned by NameIndex::getEntry to report it has reached the end of
	/// the entry list.
	class SentinelError : public ErrorInfo<SentinelError> {
	public:
	static char ID;

	void log(raw_ostream &OS) const override { OS << "Sentinel"; }
	std::error_code convertToErrorCode() const override;
	};

	private:
	/// DenseMapInfo for struct Abbrev.
	struct AbbrevMapInfo {
	static Abbrev getEmptyKey();
	static Abbrev getTombstoneKey();
	static unsigned getHashValue(uint32_t Code) {
	return DenseMapInfo<uint32_t>::getHashValue(Code);
	}
	static unsigned getHashValue(const Abbrev &Abbr) {
	return getHashValue(Abbr.Code);
	}
	static bool isEqual(uint32_t LHS, const Abbrev &RHS) {
	return LHS == RHS.Code;
	}
	static bool isEqual(const Abbrev &LHS, const Abbrev &RHS) {
	return LHS.Code == RHS.Code;
	}
	};

	public:
	/// A single entry in the Name Table (Dwarf 5 sect. 6.1.1.4.6) of the Name
	/// Index.
	class NameTableEntry {
	DataExtractor StrData;

	uint32_t Index;
	uint32_t StringOffset;
	uint32_t EntryOffset;

	public:
	NameTableEntry(const DataExtractor &StrData, uint32_t Index,
	uint32_t StringOffset, uint32_t EntryOffset)
	: StrData(StrData), Index(Index), StringOffset(StringOffset),
	EntryOffset(EntryOffset) {}

	/// Return the index of this name in the parent Name Index.
	uint32_t getIndex() const { return Index; }

	/// Returns the offset of the name of the described entities.
	uint32_t getStringOffset() const { return StringOffset; }

	/// Return the string referenced by this name table entry or nullptr if the
	/// string offset is not valid.
	const char *getString() const {
	uint32_t Off = StringOffset;
	return StrData.getCStr(&Off);
	}

	/// Returns the offset of the first Entry in the list.
	uint32_t getEntryOffset() const { return EntryOffset; }
	};

	/// Represents a single accelerator table within the Dwarf 5 .debug_names
	/// section.
	class NameIndex {
	DenseSet<Abbrev, AbbrevMapInfo> Abbrevs;
	struct Header Hdr;
	const DWARFDebugNames &Section;

	// Base of the whole unit and of various important tables, as offsets from
	// the start of the section.
	uint32_t Base;
	uint32_t CUsBase;
	uint32_t BucketsBase;
	uint32_t HashesBase;
	uint32_t StringOffsetsBase;
	uint32_t EntryOffsetsBase;
	uint32_t EntriesBase;

	void dumpCUs(ScopedPrinter &W) const;
	void dumpLocalTUs(ScopedPrinter &W) const;
	void dumpForeignTUs(ScopedPrinter &W) const;
	void dumpAbbreviations(ScopedPrinter &W) const;
	bool dumpEntry(ScopedPrinter &W, uint32_t *Offset) const;
	void dumpName(ScopedPrinter &W, const NameTableEntry &NTE,
	Optional<uint32_t> Hash) const;
	void dumpBucket(ScopedPrinter &W, uint32_t Bucket) const;

	Expected<AttributeEncoding> extractAttributeEncoding(uint32_t *Offset);

	Expected<std::vector<AttributeEncoding>>
	extractAttributeEncodings(uint32_t *Offset);

	Expected<Abbrev> extractAbbrev(uint32_t *Offset);

	public:
	NameIndex(const DWARFDebugNames &Section, uint32_t Base)
	: Section(Section), Base(Base) {}

	/// Reads offset of compilation unit CU. CU is 0-based.
	uint32_t getCUOffset(uint32_t CU) const;
	uint32_t getCUCount() const { return Hdr.CompUnitCount; }

	/// Reads offset of local type unit TU, TU is 0-based.
	uint32_t getLocalTUOffset(uint32_t TU) const;
	uint32_t getLocalTUCount() const { return Hdr.LocalTypeUnitCount; }

	/// Reads signature of foreign type unit TU. TU is 0-based.
	uint64_t getForeignTUSignature(uint32_t TU) const;
	uint32_t getForeignTUCount() const { return Hdr.ForeignTypeUnitCount; }

	/// Reads an entry in the Bucket Array for the given Bucket. The returned
	/// value is a (1-based) index into the Names, StringOffsets and
	/// EntryOffsets arrays. The input Bucket index is 0-based.
	uint32_t getBucketArrayEntry(uint32_t Bucket) const;
	uint32_t getBucketCount() const { return Hdr.BucketCount; }

	/// Reads an entry in the Hash Array for the given Index. The input Index
	/// is 1-based.
	uint32_t getHashArrayEntry(uint32_t Index) const;

	/// Reads an entry in the Name Table for the given Index. The Name Table
	/// consists of two arrays -- String Offsets and Entry Offsets. The returned
	/// offsets are relative to the starts of respective sections. Input Index
	/// is 1-based.
	NameTableEntry getNameTableEntry(uint32_t Index) const;

	uint32_t getNameCount() const { return Hdr.NameCount; }

	const DenseSet<Abbrev, AbbrevMapInfo> &getAbbrevs() const {
	return Abbrevs;
	}

	Expected<Entry> getEntry(uint32_t *Offset) const;

	/// Look up all entries in this Name Index matching \c Key.
	iterator_range<ValueIterator> equal_range(StringRef Key) const;

	NameIterator begin() const { return NameIterator(this, 1); }
	NameIterator end() const { return NameIterator(this, getNameCount() + 1); }

	llvm::Error extract();
	uint32_t getUnitOffset() const { return Base; }
	uint32_t getNextUnitOffset() const { return Base + 4 + Hdr.UnitLength; }
	void dump(ScopedPrinter &W) const;

	friend class DWARFDebugNames;
	};

	class ValueIterator : public std::iterator<std::input_iterator_tag, Entry> {

	/// The Name Index we are currently iterating through. The implementation
	/// relies on the fact that this can also be used as an iterator into the
	/// "NameIndices" vector in the Accelerator section.
	const NameIndex *CurrentIndex = nullptr;

	/// Whether this is a local iterator (searches in CurrentIndex only) or not
	/// (searches all name indices).
	bool IsLocal;

	Optional<Entry> CurrentEntry;
	unsigned DataOffset = 0; ///< Offset into the section.
	std::string Key; ///< The Key we are searching for.
	Optional<uint32_t> Hash; ///< Hash of Key, if it has been computed.

	bool getEntryAtCurrentOffset();
	Optional<uint32_t> findEntryOffsetInCurrentIndex();
	bool findInCurrentIndex();
	void searchFromStartOfCurrentIndex();
	void next();

	/// Set the iterator to the "end" state.
	void setEnd() { *this = ValueIterator(); }

	public:
	/// Create a "begin" iterator for looping over all entries in the
	/// accelerator table matching Key. The iterator will run through all Name
	/// Indexes in the section in sequence.
	ValueIterator(const DWARFDebugNames &AccelTable, StringRef Key);

	/// Create a "begin" iterator for looping over all entries in a specific
	/// Name Index. Other indices in the section will not be visited.
	ValueIterator(const NameIndex &NI, StringRef Key);

	/// End marker.
	ValueIterator() = default;

	const Entry &operator() const { return CurrentEntry; }
	ValueIterator &operator++() {
	next();
	return *this;
	}
	ValueIterator operator++(int) {
	ValueIterator I = *this;
	next();
	return I;
	}

	friend bool operator==(const ValueIterator &A, const ValueIterator &B) {
	return A.CurrentIndex == B.CurrentIndex && A.DataOffset == B.DataOffset;
	}
	friend bool operator!=(const ValueIterator &A, const ValueIterator &B) {
	return !(A == B);
	}
	};

	class NameIterator {

	/// The Name Index we are iterating through.
	const NameIndex *CurrentIndex;

	/// The current name in the Name Index.
	uint32_t CurrentName;

	void next() {
	assert(CurrentName <= CurrentIndex->getNameCount());
	++CurrentName;
	}

	public:
	using iterator_category = std::input_iterator_tag;
	using value_type = NameTableEntry;
	using difference_type = uint32_t;
	using pointer = NameTableEntry *;
	using reference = NameTableEntry; // We return entries by value.

	/// Creates an iterator whose initial position is name CurrentName in
	/// CurrentIndex.
	NameIterator(const NameIndex *CurrentIndex, uint32_t CurrentName)
	: CurrentIndex(CurrentIndex), CurrentName(CurrentName) {}

	NameTableEntry operator*() const {
	return CurrentIndex->getNameTableEntry(CurrentName);
	}
	NameIterator &operator++() {
	next();
	return *this;
	}
	NameIterator operator++(int) {
	NameIterator I = *this;
	next();
	return I;
	}

	friend bool operator==(const NameIterator &A, const NameIterator &B) {
	return A.CurrentIndex == B.CurrentIndex && A.CurrentName == B.CurrentName;
	}
	friend bool operator!=(const NameIterator &A, const NameIterator &B) {
	return !(A == B);
	}
	};

	private:
	SmallVector<NameIndex, 0> NameIndices;
	DenseMap<uint32_t, const NameIndex *> CUToNameIndex;

	public:
	DWARFDebugNames(const DWARFDataExtractor &AccelSection,
	DataExtractor StringSection)
	: DWARFAcceleratorTable(AccelSection, StringSection) {}

	llvm::Error extract() override;
	void dump(raw_ostream &OS) const override;

	/// Look up all entries in the accelerator table matching \c Key.
	iterator_range<ValueIterator> equal_range(StringRef Key) const;

	using const_iterator = SmallVector<NameIndex, 0>::const_iterator;
	const_iterator begin() const { return NameIndices.begin(); }
	const_iterator end() const { return NameIndices.end(); }

	/// Return the Name Index covering the compile unit at CUOffset, or nullptr if
	/// there is no Name Index covering that unit.
	const NameIndex *getCUNameIndex(uint32_t CUOffset);
	};

	} // end namespace llvm

	#endif // LLVM_DEBUGINFO_DWARFACCELERATORTABLE_H