doxygen/WasmObjectFile_8cpp_source.html

//===- WasmObjectFile.cpp - Wasm object file implementation ---------------===//

//

// 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/ADT/ArrayRef.h"

#include "llvm/ADT/DenseSet.h"

#include "llvm/ADT/SmallSet.h"

#include "llvm/ADT/StringRef.h"

#include "llvm/ADT/StringSet.h"

#include "llvm/ADT/StringSwitch.h"

#include "llvm/BinaryFormat/Wasm.h"

#include "llvm/Object/Binary.h"

#include "llvm/Object/Error.h"

#include "llvm/Object/ObjectFile.h"

#include "llvm/Object/SymbolicFile.h"

#include "llvm/Object/Wasm.h"

#include "llvm/Support/Endian.h"

#include "llvm/Support/Error.h"

#include "llvm/Support/ErrorHandling.h"

#include "llvm/Support/LEB128.h"

#include "llvm/Support/ScopedPrinter.h"

#include "llvm/TargetParser/SubtargetFeature.h"

#include "llvm/TargetParser/Triple.h"

#include <algorithm>

#include <cassert>

#include <cstdint>

#include <cstring>


#define DEBUG_TYPE "wasm-object"


using namespace llvm;

using namespace object;


void WasmSymbol::print(raw_ostream &Out) const {

  Out << "Name=" << Info.Name

      << ", Kind=" << toString(wasm::WasmSymbolType(Info.Kind)) << ", Flags=0x"

      << Twine::utohexstr(Info.Flags) << " [";

  switch (getBinding()) {

    case wasm::WASM_SYMBOL_BINDING_GLOBAL: Out << "global"; break;

    case wasm::WASM_SYMBOL_BINDING_LOCAL: Out << "local"; break;

    case wasm::WASM_SYMBOL_BINDING_WEAK: Out << "weak"; break;

  }

  if (isHidden()) {

    Out << ", hidden";

  } else {

    Out << ", default";

  }

  Out << "]";

  if (!isTypeData()) {

    Out << ", ElemIndex=" << Info.ElementIndex;

  } else if (isDefined()) {

    Out << ", Segment=" << Info.DataRef.Segment;

    Out << ", Offset=" << Info.DataRef.Offset;

    Out << ", Size=" << Info.DataRef.Size;

  }

}


#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)

LLVM_DUMP_METHOD void WasmSymbol::dump() const { print(dbgs()); }

#endif


Expected<std::unique_ptr<WasmObjectFile>>

ObjectFile::createWasmObjectFile(MemoryBufferRef Buffer) {

  Error Err = Error::success();

  auto ObjectFile = std::make_unique<WasmObjectFile>(Buffer, Err);

  if (Err)

    return std::move(Err);


  return std::move(ObjectFile);

}


#define VARINT7_MAX ((1 << 7) - 1)

#define VARINT7_MIN (-(1 << 7))

#define VARUINT7_MAX (1 << 7)

#define VARUINT1_MAX (1)


static uint8_t readUint8(WasmObjectFile::ReadContext &Ctx) {

  if (Ctx.Ptr == Ctx.End)

    report_fatal_error("EOF while reading uint8");

  return *Ctx.Ptr++;

}


static uint32_t readUint32(WasmObjectFile::ReadContext &Ctx) {

  if (Ctx.Ptr + 4 > Ctx.End)

    report_fatal_error("EOF while reading uint32");

  uint32_t Result = support::endian::read32le(Ctx.Ptr);

  Ctx.Ptr += 4;

  return Result;

}


static int32_t readFloat32(WasmObjectFile::ReadContext &Ctx) {

  if (Ctx.Ptr + 4 > Ctx.End)

    report_fatal_error("EOF while reading float64");

  int32_t Result = 0;

  memcpy(&Result, Ctx.Ptr, sizeof(Result));

  Ctx.Ptr += sizeof(Result);

  return Result;

}


static int64_t readFloat64(WasmObjectFile::ReadContext &Ctx) {

  if (Ctx.Ptr + 8 > Ctx.End)

    report_fatal_error("EOF while reading float64");

  int64_t Result = 0;

  memcpy(&Result, Ctx.Ptr, sizeof(Result));

  Ctx.Ptr += sizeof(Result);

  return Result;

}


static uint64_t readULEB128(WasmObjectFile::ReadContext &Ctx) {

  unsigned Count;

  const char *Error = nullptr;

  uint64_t Result = decodeULEB128(Ctx.Ptr, &Count, Ctx.End, &Error);

  if (Error)

    report_fatal_error(Error);

  Ctx.Ptr += Count;

  return Result;

}


static StringRef readString(WasmObjectFile::ReadContext &Ctx) {

  uint32_t StringLen = readULEB128(Ctx);

  if (Ctx.Ptr + StringLen > Ctx.End)

    report_fatal_error("EOF while reading string");

  StringRef Return =

      StringRef(reinterpret_cast<const char *>(Ctx.Ptr), StringLen);

  Ctx.Ptr += StringLen;

  return Return;

}


static int64_t readLEB128(WasmObjectFile::ReadContext &Ctx) {

  unsigned Count;

  const char *Error = nullptr;

  uint64_t Result = decodeSLEB128(Ctx.Ptr, &Count, Ctx.End, &Error);

  if (Error)

    report_fatal_error(Error);

  Ctx.Ptr += Count;

  return Result;

}


static uint8_t readVaruint1(WasmObjectFile::ReadContext &Ctx) {

  int64_t Result = readLEB128(Ctx);

  if (Result > VARUINT1_MAX || Result < 0)

    report_fatal_error("LEB is outside Varuint1 range");

  return Result;

}


static int32_t readVarint32(WasmObjectFile::ReadContext &Ctx) {

  int64_t Result = readLEB128(Ctx);

  if (Result > INT32_MAX || Result < INT32_MIN)

    report_fatal_error("LEB is outside Varint32 range");

  return Result;

}


static uint32_t readVaruint32(WasmObjectFile::ReadContext &Ctx) {

  uint64_t Result = readULEB128(Ctx);

  if (Result > UINT32_MAX)

    report_fatal_error("LEB is outside Varuint32 range");

  return Result;

}


static int64_t readVarint64(WasmObjectFile::ReadContext &Ctx) {

  return readLEB128(Ctx);

}


static uint64_t readVaruint64(WasmObjectFile::ReadContext &Ctx) {

  return readULEB128(Ctx);

}


static uint8_t readOpcode(WasmObjectFile::ReadContext &Ctx) {

  return readUint8(Ctx);

}


static Error readInitExpr(wasm::WasmInitExpr &Expr,

                          WasmObjectFile::ReadContext &Ctx) {

  auto Start = Ctx.Ptr;


  Expr.Extended = false;

  Expr.Inst.Opcode = readOpcode(Ctx);

  switch (Expr.Inst.Opcode) {

  case wasm::WASM_OPCODE_I32_CONST:

    Expr.Inst.Value.Int32 = readVarint32(Ctx);

    break;

  case wasm::WASM_OPCODE_I64_CONST:

    Expr.Inst.Value.Int64 = readVarint64(Ctx);

    break;

  case wasm::WASM_OPCODE_F32_CONST:

    Expr.Inst.Value.Float32 = readFloat32(Ctx);

    break;

  case wasm::WASM_OPCODE_F64_CONST:

    Expr.Inst.Value.Float64 = readFloat64(Ctx);

    break;

  case wasm::WASM_OPCODE_GLOBAL_GET:

    Expr.Inst.Value.Global = readULEB128(Ctx);

    break;

  case wasm::WASM_OPCODE_REF_NULL: {

    wasm::ValType Ty = static_cast<wasm::ValType>(readULEB128(Ctx));

    if (Ty != wasm::ValType::EXTERNREF) {

      return make_error<GenericBinaryError>("invalid type for ref.null",

                                            object_error::parse_failed);

    }

    break;

  }

  default:

    Expr.Extended = true;

  }


  if (!Expr.Extended) {

    uint8_t EndOpcode = readOpcode(Ctx);

    if (EndOpcode != wasm::WASM_OPCODE_END)

      Expr.Extended = true;

  }


  if (Expr.Extended) {

    Ctx.Ptr = Start;

    while (true) {

      uint8_t Opcode = readOpcode(Ctx);

      switch (Opcode) {

      case wasm::WASM_OPCODE_I32_CONST:

      case wasm::WASM_OPCODE_GLOBAL_GET:

      case wasm::WASM_OPCODE_REF_NULL:

      case wasm::WASM_OPCODE_I64_CONST:

      case wasm::WASM_OPCODE_F32_CONST:

      case wasm::WASM_OPCODE_F64_CONST:

        readULEB128(Ctx);

        break;

      case wasm::WASM_OPCODE_I32_ADD:

      case wasm::WASM_OPCODE_I32_SUB:

      case wasm::WASM_OPCODE_I32_MUL:

      case wasm::WASM_OPCODE_I64_ADD:

      case wasm::WASM_OPCODE_I64_SUB:

      case wasm::WASM_OPCODE_I64_MUL:

        break;

      case wasm::WASM_OPCODE_END:

        Expr.Body = ArrayRef<uint8_t>(Start, Ctx.Ptr - Start);

        return Error::success();

      default:

        return make_error<GenericBinaryError>(

            Twine("invalid opcode in init_expr: ") + Twine(unsigned(Opcode)),

            object_error::parse_failed);

      }

    }

  }


  return Error::success();

}


static wasm::WasmLimits readLimits(WasmObjectFile::ReadContext &Ctx) {

  wasm::WasmLimits Result;

  Result.Flags = readVaruint32(Ctx);

  Result.Minimum = readVaruint64(Ctx);

  if (Result.Flags & wasm::WASM_LIMITS_FLAG_HAS_MAX)

    Result.Maximum = readVaruint64(Ctx);

  return Result;

}


static wasm::WasmTableType readTableType(WasmObjectFile::ReadContext &Ctx) {

  wasm::WasmTableType TableType;

  TableType.ElemType = readUint8(Ctx);

  TableType.Limits = readLimits(Ctx);

  return TableType;

}


static Error readSection(WasmSection &Section, WasmObjectFile::ReadContext &Ctx,

                         WasmSectionOrderChecker &Checker) {

  Section.Offset = Ctx.Ptr - Ctx.Start;

  Section.Type = readUint8(Ctx);

  LLVM_DEBUG(dbgs() << "readSection type=" << Section.Type << "\n");

  // When reading the section's size, store the size of the LEB used to encode

  // it. This allows objcopy/strip to reproduce the binary identically.

  const uint8_t *PreSizePtr = Ctx.Ptr;

  uint32_t Size = readVaruint32(Ctx);

  Section.HeaderSecSizeEncodingLen = Ctx.Ptr - PreSizePtr;

  if (Size == 0)

    return make_error<StringError>("zero length section",

                                   object_error::parse_failed);

  if (Ctx.Ptr + Size > Ctx.End)

    return make_error<StringError>("section too large",

                                   object_error::parse_failed);

  if (Section.Type == wasm::WASM_SEC_CUSTOM) {

    WasmObjectFile::ReadContext SectionCtx;

    SectionCtx.Start = Ctx.Ptr;

    SectionCtx.Ptr = Ctx.Ptr;

    SectionCtx.End = Ctx.Ptr + Size;


    Section.Name = readString(SectionCtx);


    uint32_t SectionNameSize = SectionCtx.Ptr - SectionCtx.Start;

    Ctx.Ptr += SectionNameSize;

    Size -= SectionNameSize;

  }


  if (!Checker.isValidSectionOrder(Section.Type, Section.Name)) {

    return make_error<StringError>("out of order section type: " +

                                       llvm::to_string(Section.Type),

                                   object_error::parse_failed);

  }


  Section.Content = ArrayRef<uint8_t>(Ctx.Ptr, Size);

  Ctx.Ptr += Size;

  return Error::success();

}


WasmObjectFile::WasmObjectFile(MemoryBufferRef Buffer, Error &Err)

    : ObjectFile(Binary::ID_Wasm, Buffer) {

  ErrorAsOutParameter ErrAsOutParam(&Err);

  Header.Magic = getData().substr(0, 4);

  if (Header.Magic != StringRef("\0asm", 4)) {

    Err = make_error<StringError>("invalid magic number",

                                  object_error::parse_failed);

    return;

  }


  ReadContext Ctx;

  Ctx.Start = getData().bytes_begin();

  Ctx.Ptr = Ctx.Start + 4;

  Ctx.End = Ctx.Start + getData().size();


  if (Ctx.Ptr + 4 > Ctx.End) {

    Err = make_error<StringError>("missing version number",

                                  object_error::parse_failed);

    return;

  }


  Header.Version = readUint32(Ctx);

  if (Header.Version != wasm::WasmVersion) {

    Err = make_error<StringError>("invalid version number: " +

                                      Twine(Header.Version),

                                  object_error::parse_failed);

    return;

  }


  WasmSectionOrderChecker Checker;

  while (Ctx.Ptr < Ctx.End) {

    WasmSection Sec;

    if ((Err = readSection(Sec, Ctx, Checker)))

      return;

    if ((Err = parseSection(Sec)))

      return;


    Sections.push_back(Sec);

  }

}


Error WasmObjectFile::parseSection(WasmSection &Sec) {

  ReadContext Ctx;

  Ctx.Start = Sec.Content.data();

  Ctx.End = Ctx.Start + Sec.Content.size();

  Ctx.Ptr = Ctx.Start;

  switch (Sec.Type) {

  case wasm::WASM_SEC_CUSTOM:

    return parseCustomSection(Sec, Ctx);

  case wasm::WASM_SEC_TYPE:

    return parseTypeSection(Ctx);

  case wasm::WASM_SEC_IMPORT:

    return parseImportSection(Ctx);

  case wasm::WASM_SEC_FUNCTION:

    return parseFunctionSection(Ctx);

  case wasm::WASM_SEC_TABLE:

    return parseTableSection(Ctx);

  case wasm::WASM_SEC_MEMORY:

    return parseMemorySection(Ctx);

  case wasm::WASM_SEC_TAG:

    return parseTagSection(Ctx);

  case wasm::WASM_SEC_GLOBAL:

    return parseGlobalSection(Ctx);

  case wasm::WASM_SEC_EXPORT:

    return parseExportSection(Ctx);

  case wasm::WASM_SEC_START:

    return parseStartSection(Ctx);

  case wasm::WASM_SEC_ELEM:

    return parseElemSection(Ctx);

  case wasm::WASM_SEC_CODE:

    return parseCodeSection(Ctx);

  case wasm::WASM_SEC_DATA:

    return parseDataSection(Ctx);

  case wasm::WASM_SEC_DATACOUNT:

    return parseDataCountSection(Ctx);

  default:

    return make_error<GenericBinaryError>(

        "invalid section type: " + Twine(Sec.Type), object_error::parse_failed);

  }

}


Error WasmObjectFile::parseDylinkSection(ReadContext &Ctx) {

  // Legacy "dylink" section support.

  // See parseDylink0Section for the current "dylink.0" section parsing.

  HasDylinkSection = true;

  DylinkInfo.MemorySize = readVaruint32(Ctx);

  DylinkInfo.MemoryAlignment = readVaruint32(Ctx);

  DylinkInfo.TableSize = readVaruint32(Ctx);

  DylinkInfo.TableAlignment = readVaruint32(Ctx);

  uint32_t Count = readVaruint32(Ctx);

  while (Count--) {

    DylinkInfo.Needed.push_back(readString(Ctx));

  }


  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("dylink section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseDylink0Section(ReadContext &Ctx) {

  // See

  // https://github.com/WebAssembly/tool-conventions/blob/main/DynamicLinking.md

  HasDylinkSection = true;


  const uint8_t *OrigEnd = Ctx.End;

  while (Ctx.Ptr < OrigEnd) {

    Ctx.End = OrigEnd;

    uint8_t Type = readUint8(Ctx);

    uint32_t Size = readVaruint32(Ctx);

    LLVM_DEBUG(dbgs() << "readSubsection type=" << int(Type) << " size=" << Size

                      << "\n");

    Ctx.End = Ctx.Ptr + Size;

    uint32_t Count;

    switch (Type) {

    case wasm::WASM_DYLINK_MEM_INFO:

      DylinkInfo.MemorySize = readVaruint32(Ctx);

      DylinkInfo.MemoryAlignment = readVaruint32(Ctx);

      DylinkInfo.TableSize = readVaruint32(Ctx);

      DylinkInfo.TableAlignment = readVaruint32(Ctx);

      break;

    case wasm::WASM_DYLINK_NEEDED:

      Count = readVaruint32(Ctx);

      while (Count--) {

        DylinkInfo.Needed.push_back(readString(Ctx));

      }

      break;

    case wasm::WASM_DYLINK_EXPORT_INFO: {

      uint32_t Count = readVaruint32(Ctx);

      while (Count--) {

        DylinkInfo.ExportInfo.push_back({readString(Ctx), readVaruint32(Ctx)});

      }

      break;

    }

    case wasm::WASM_DYLINK_IMPORT_INFO: {

      uint32_t Count = readVaruint32(Ctx);

      while (Count--) {

        DylinkInfo.ImportInfo.push_back(

            {readString(Ctx), readString(Ctx), readVaruint32(Ctx)});

      }

      break;

    }

    default:

      LLVM_DEBUG(dbgs() << "unknown dylink.0 sub-section: " << Type << "\n");

      Ctx.Ptr += Size;

      break;

    }

    if (Ctx.Ptr != Ctx.End) {

      return make_error<GenericBinaryError>(

          "dylink.0 sub-section ended prematurely", object_error::parse_failed);

    }

  }


  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("dylink.0 section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseNameSection(ReadContext &Ctx) {

  llvm::DenseSet<uint64_t> SeenFunctions;

  llvm::DenseSet<uint64_t> SeenGlobals;

  llvm::DenseSet<uint64_t> SeenSegments;


  while (Ctx.Ptr < Ctx.End) {

    uint8_t Type = readUint8(Ctx);

    uint32_t Size = readVaruint32(Ctx);

    const uint8_t *SubSectionEnd = Ctx.Ptr + Size;

    switch (Type) {

    case wasm::WASM_NAMES_FUNCTION:

    case wasm::WASM_NAMES_GLOBAL:

    case wasm::WASM_NAMES_DATA_SEGMENT: {

      uint32_t Count = readVaruint32(Ctx);

      while (Count--) {

        uint32_t Index = readVaruint32(Ctx);

        StringRef Name = readString(Ctx);

        wasm::NameType nameType = wasm::NameType::FUNCTION;

        if (Type == wasm::WASM_NAMES_FUNCTION) {

          if (!SeenFunctions.insert(Index).second)

            return make_error<GenericBinaryError>(

                "function named more than once", object_error::parse_failed);

          if (!isValidFunctionIndex(Index) || Name.empty())

            return make_error<GenericBinaryError>("invalid function name entry",

                                                  object_error::parse_failed);


          if (isDefinedFunctionIndex(Index))

            getDefinedFunction(Index).DebugName = Name;

        } else if (Type == wasm::WASM_NAMES_GLOBAL) {

          nameType = wasm::NameType::GLOBAL;

          if (!SeenGlobals.insert(Index).second)

            return make_error<GenericBinaryError>("global named more than once",

                                                  object_error::parse_failed);

          if (!isValidGlobalIndex(Index) || Name.empty())

            return make_error<GenericBinaryError>("invalid global name entry",

                                                  object_error::parse_failed);

        } else {

          nameType = wasm::NameType::DATA_SEGMENT;

          if (!SeenSegments.insert(Index).second)

            return make_error<GenericBinaryError>(

                "segment named more than once", object_error::parse_failed);

          if (Index > DataSegments.size())

            return make_error<GenericBinaryError>("invalid data segment name entry",

                                                  object_error::parse_failed);

        }

        DebugNames.push_back(wasm::WasmDebugName{nameType, Index, Name});

      }

      break;

    }

    // Ignore local names for now

    case wasm::WASM_NAMES_LOCAL:

    default:

      Ctx.Ptr += Size;

      break;

    }

    if (Ctx.Ptr != SubSectionEnd)

      return make_error<GenericBinaryError>(

          "name sub-section ended prematurely", object_error::parse_failed);

  }


  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("name section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseLinkingSection(ReadContext &Ctx) {

  HasLinkingSection = true;


  LinkingData.Version = readVaruint32(Ctx);

  if (LinkingData.Version != wasm::WasmMetadataVersion) {

    return make_error<GenericBinaryError>(

        "unexpected metadata version: " + Twine(LinkingData.Version) +

            " (Expected: " + Twine(wasm::WasmMetadataVersion) + ")",

        object_error::parse_failed);

  }


  const uint8_t *OrigEnd = Ctx.End;

  while (Ctx.Ptr < OrigEnd) {

    Ctx.End = OrigEnd;

    uint8_t Type = readUint8(Ctx);

    uint32_t Size = readVaruint32(Ctx);

    LLVM_DEBUG(dbgs() << "readSubsection type=" << int(Type) << " size=" << Size

                      << "\n");

    Ctx.End = Ctx.Ptr + Size;

    switch (Type) {

    case wasm::WASM_SYMBOL_TABLE:

      if (Error Err = parseLinkingSectionSymtab(Ctx))

        return Err;

      break;

    case wasm::WASM_SEGMENT_INFO: {

      uint32_t Count = readVaruint32(Ctx);

      if (Count > DataSegments.size())

        return make_error<GenericBinaryError>("too many segment names",

                                              object_error::parse_failed);

      for (uint32_t I = 0; I < Count; I++) {

        DataSegments[I].Data.Name = readString(Ctx);

        DataSegments[I].Data.Alignment = readVaruint32(Ctx);

        DataSegments[I].Data.LinkingFlags = readVaruint32(Ctx);

      }

      break;

    }

    case wasm::WASM_INIT_FUNCS: {

      uint32_t Count = readVaruint32(Ctx);

      LinkingData.InitFunctions.reserve(Count);

      for (uint32_t I = 0; I < Count; I++) {

        wasm::WasmInitFunc Init;

        Init.Priority = readVaruint32(Ctx);

        Init.Symbol = readVaruint32(Ctx);

        if (!isValidFunctionSymbol(Init.Symbol))

          return make_error<GenericBinaryError>("invalid function symbol: " +

                                                    Twine(Init.Symbol),

                                                object_error::parse_failed);

        LinkingData.InitFunctions.emplace_back(Init);

      }

      break;

    }

    case wasm::WASM_COMDAT_INFO:

      if (Error Err = parseLinkingSectionComdat(Ctx))

        return Err;

      break;

    default:

      Ctx.Ptr += Size;

      break;

    }

    if (Ctx.Ptr != Ctx.End)

      return make_error<GenericBinaryError>(

          "linking sub-section ended prematurely", object_error::parse_failed);

  }

  if (Ctx.Ptr != OrigEnd)

    return make_error<GenericBinaryError>("linking section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseLinkingSectionSymtab(ReadContext &Ctx) {

  uint32_t Count = readVaruint32(Ctx);

  LinkingData.SymbolTable.reserve(Count);

  Symbols.reserve(Count);

  StringSet<> SymbolNames;


  std::vector<wasm::WasmImport *> ImportedGlobals;

  std::vector<wasm::WasmImport *> ImportedFunctions;

  std::vector<wasm::WasmImport *> ImportedTags;

  std::vector<wasm::WasmImport *> ImportedTables;

  ImportedGlobals.reserve(Imports.size());

  ImportedFunctions.reserve(Imports.size());

  ImportedTags.reserve(Imports.size());

  ImportedTables.reserve(Imports.size());

  for (auto &I : Imports) {

    if (I.Kind == wasm::WASM_EXTERNAL_FUNCTION)

      ImportedFunctions.emplace_back(&I);

    else if (I.Kind == wasm::WASM_EXTERNAL_GLOBAL)

      ImportedGlobals.emplace_back(&I);

    else if (I.Kind == wasm::WASM_EXTERNAL_TAG)

      ImportedTags.emplace_back(&I);

    else if (I.Kind == wasm::WASM_EXTERNAL_TABLE)

      ImportedTables.emplace_back(&I);

  }


  while (Count--) {

    wasm::WasmSymbolInfo Info;

    const wasm::WasmSignature *Signature = nullptr;

    const wasm::WasmGlobalType *GlobalType = nullptr;

    const wasm::WasmTableType *TableType = nullptr;


    Info.Kind = readUint8(Ctx);

    Info.Flags = readVaruint32(Ctx);

    bool IsDefined = (Info.Flags & wasm::WASM_SYMBOL_UNDEFINED) == 0;


    switch (Info.Kind) {

    case wasm::WASM_SYMBOL_TYPE_FUNCTION:

      Info.ElementIndex = readVaruint32(Ctx);

      if (!isValidFunctionIndex(Info.ElementIndex) ||

          IsDefined != isDefinedFunctionIndex(Info.ElementIndex))

        return make_error<GenericBinaryError>("invalid function symbol index",

                                              object_error::parse_failed);

      if (IsDefined) {

        Info.Name = readString(Ctx);

        unsigned FuncIndex = Info.ElementIndex - NumImportedFunctions;

        wasm::WasmFunction &Function = Functions[FuncIndex];

        Signature = &Signatures[Function.SigIndex];

        if (Function.SymbolName.empty())

          Function.SymbolName = Info.Name;

      } else {

        wasm::WasmImport &Import = *ImportedFunctions[Info.ElementIndex];

        if ((Info.Flags & wasm::WASM_SYMBOL_EXPLICIT_NAME) != 0) {

          Info.Name = readString(Ctx);

          Info.ImportName = Import.Field;

        } else {

          Info.Name = Import.Field;

        }

        Signature = &Signatures[Import.SigIndex];

        Info.ImportModule = Import.Module;

      }

      break;


    case wasm::WASM_SYMBOL_TYPE_GLOBAL:

      Info.ElementIndex = readVaruint32(Ctx);

      if (!isValidGlobalIndex(Info.ElementIndex) ||

          IsDefined != isDefinedGlobalIndex(Info.ElementIndex))

        return make_error<GenericBinaryError>("invalid global symbol index",

                                              object_error::parse_failed);

      if (!IsDefined && (Info.Flags & wasm::WASM_SYMBOL_BINDING_MASK) ==

                            wasm::WASM_SYMBOL_BINDING_WEAK)

        return make_error<GenericBinaryError>("undefined weak global symbol",

                                              object_error::parse_failed);

      if (IsDefined) {

        Info.Name = readString(Ctx);

        unsigned GlobalIndex = Info.ElementIndex - NumImportedGlobals;

        wasm::WasmGlobal &Global = Globals[GlobalIndex];

        GlobalType = &Global.Type;

        if (Global.SymbolName.empty())

          Global.SymbolName = Info.Name;

      } else {

        wasm::WasmImport &Import = *ImportedGlobals[Info.ElementIndex];

        if ((Info.Flags & wasm::WASM_SYMBOL_EXPLICIT_NAME) != 0) {

          Info.Name = readString(Ctx);

          Info.ImportName = Import.Field;

        } else {

          Info.Name = Import.Field;

        }

        GlobalType = &Import.Global;

        Info.ImportModule = Import.Module;

      }

      break;


    case wasm::WASM_SYMBOL_TYPE_TABLE:

      Info.ElementIndex = readVaruint32(Ctx);

      if (!isValidTableNumber(Info.ElementIndex) ||

          IsDefined != isDefinedTableNumber(Info.ElementIndex))

        return make_error<GenericBinaryError>("invalid table symbol index",

                                              object_error::parse_failed);

      if (!IsDefined && (Info.Flags & wasm::WASM_SYMBOL_BINDING_MASK) ==

                            wasm::WASM_SYMBOL_BINDING_WEAK)

        return make_error<GenericBinaryError>("undefined weak table symbol",

                                              object_error::parse_failed);

      if (IsDefined) {

        Info.Name = readString(Ctx);

        unsigned TableNumber = Info.ElementIndex - NumImportedTables;

        wasm::WasmTable &Table = Tables[TableNumber];

        TableType = &Table.Type;

        if (Table.SymbolName.empty())

          Table.SymbolName = Info.Name;

      } else {

        wasm::WasmImport &Import = *ImportedTables[Info.ElementIndex];

        if ((Info.Flags & wasm::WASM_SYMBOL_EXPLICIT_NAME) != 0) {

          Info.Name = readString(Ctx);

          Info.ImportName = Import.Field;

        } else {

          Info.Name = Import.Field;

        }

        TableType = &Import.Table;

        Info.ImportModule = Import.Module;

      }

      break;


    case wasm::WASM_SYMBOL_TYPE_DATA:

      Info.Name = readString(Ctx);

      if (IsDefined) {

        auto Index = readVaruint32(Ctx);

        auto Offset = readVaruint64(Ctx);

        auto Size = readVaruint64(Ctx);

        if (!(Info.Flags & wasm::WASM_SYMBOL_ABSOLUTE)) {

          if (static_cast<size_t>(Index) >= DataSegments.size())

            return make_error<GenericBinaryError>(

                "invalid data segment index: " + Twine(Index),

                object_error::parse_failed);

          size_t SegmentSize = DataSegments[Index].Data.Content.size();

          if (Offset > SegmentSize)

            return make_error<GenericBinaryError>(

                "invalid data symbol offset: `" + Info.Name +

                    "` (offset: " + Twine(Offset) +

                    " segment size: " + Twine(SegmentSize) + ")",

                object_error::parse_failed);

        }

        Info.DataRef = wasm::WasmDataReference{Index, Offset, Size};

      }

      break;


    case wasm::WASM_SYMBOL_TYPE_SECTION: {

      if ((Info.Flags & wasm::WASM_SYMBOL_BINDING_MASK) !=

          wasm::WASM_SYMBOL_BINDING_LOCAL)

        return make_error<GenericBinaryError>(

            "section symbols must have local binding",

            object_error::parse_failed);

      Info.ElementIndex = readVaruint32(Ctx);

      // Use somewhat unique section name as symbol name.

      StringRef SectionName = Sections[Info.ElementIndex].Name;

      Info.Name = SectionName;

      break;

    }


    case wasm::WASM_SYMBOL_TYPE_TAG: {

      Info.ElementIndex = readVaruint32(Ctx);

      if (!isValidTagIndex(Info.ElementIndex) ||

          IsDefined != isDefinedTagIndex(Info.ElementIndex))

        return make_error<GenericBinaryError>("invalid tag symbol index",

                                              object_error::parse_failed);

      if (!IsDefined && (Info.Flags & wasm::WASM_SYMBOL_BINDING_MASK) ==

                            wasm::WASM_SYMBOL_BINDING_WEAK)

        return make_error<GenericBinaryError>("undefined weak global symbol",

                                              object_error::parse_failed);

      if (IsDefined) {

        Info.Name = readString(Ctx);

        unsigned TagIndex = Info.ElementIndex - NumImportedTags;

        wasm::WasmTag &Tag = Tags[TagIndex];

        Signature = &Signatures[Tag.SigIndex];

        if (Tag.SymbolName.empty())

          Tag.SymbolName = Info.Name;


      } else {

        wasm::WasmImport &Import = *ImportedTags[Info.ElementIndex];

        if ((Info.Flags & wasm::WASM_SYMBOL_EXPLICIT_NAME) != 0) {

          Info.Name = readString(Ctx);

          Info.ImportName = Import.Field;

        } else {

          Info.Name = Import.Field;

        }

        Signature = &Signatures[Import.SigIndex];

        Info.ImportModule = Import.Module;

      }

      break;

    }


    default:

      return make_error<GenericBinaryError>("invalid symbol type: " +

                                                Twine(unsigned(Info.Kind)),

                                            object_error::parse_failed);

    }


    if ((Info.Flags & wasm::WASM_SYMBOL_BINDING_MASK) !=

            wasm::WASM_SYMBOL_BINDING_LOCAL &&

        !SymbolNames.insert(Info.Name).second)

      return make_error<GenericBinaryError>("duplicate symbol name " +

                                                Twine(Info.Name),

                                            object_error::parse_failed);

    LinkingData.SymbolTable.emplace_back(Info);

    Symbols.emplace_back(LinkingData.SymbolTable.back(), GlobalType, TableType,

                         Signature);

    LLVM_DEBUG(dbgs() << "Adding symbol: " << Symbols.back() << "\n");

  }


  return Error::success();

}


Error WasmObjectFile::parseLinkingSectionComdat(ReadContext &Ctx) {

  uint32_t ComdatCount = readVaruint32(Ctx);

  StringSet<> ComdatSet;

  for (unsigned ComdatIndex = 0; ComdatIndex < ComdatCount; ++ComdatIndex) {

    StringRef Name = readString(Ctx);

    if (Name.empty() || !ComdatSet.insert(Name).second)

      return make_error<GenericBinaryError>("bad/duplicate COMDAT name " +

                                                Twine(Name),

                                            object_error::parse_failed);

    LinkingData.Comdats.emplace_back(Name);

    uint32_t Flags = readVaruint32(Ctx);

    if (Flags != 0)

      return make_error<GenericBinaryError>("unsupported COMDAT flags",

                                            object_error::parse_failed);


    uint32_t EntryCount = readVaruint32(Ctx);

    while (EntryCount--) {

      unsigned Kind = readVaruint32(Ctx);

      unsigned Index = readVaruint32(Ctx);

      switch (Kind) {

      default:

        return make_error<GenericBinaryError>("invalid COMDAT entry type",

                                              object_error::parse_failed);

      case wasm::WASM_COMDAT_DATA:

        if (Index >= DataSegments.size())

          return make_error<GenericBinaryError>(

              "COMDAT data index out of range", object_error::parse_failed);

        if (DataSegments[Index].Data.Comdat != UINT32_MAX)

          return make_error<GenericBinaryError>("data segment in two COMDATs",

                                                object_error::parse_failed);

        DataSegments[Index].Data.Comdat = ComdatIndex;

        break;

      case wasm::WASM_COMDAT_FUNCTION:

        if (!isDefinedFunctionIndex(Index))

          return make_error<GenericBinaryError>(

              "COMDAT function index out of range", object_error::parse_failed);

        if (getDefinedFunction(Index).Comdat != UINT32_MAX)

          return make_error<GenericBinaryError>("function in two COMDATs",

                                                object_error::parse_failed);

        getDefinedFunction(Index).Comdat = ComdatIndex;

        break;

      case wasm::WASM_COMDAT_SECTION:

        if (Index >= Sections.size())

          return make_error<GenericBinaryError>(

              "COMDAT section index out of range", object_error::parse_failed);

        if (Sections[Index].Type != wasm::WASM_SEC_CUSTOM)

          return make_error<GenericBinaryError>(

              "non-custom section in a COMDAT", object_error::parse_failed);

        Sections[Index].Comdat = ComdatIndex;

        break;

      }

    }

  }

  return Error::success();

}


Error WasmObjectFile::parseProducersSection(ReadContext &Ctx) {

  llvm::SmallSet<StringRef, 3> FieldsSeen;

  uint32_t Fields = readVaruint32(Ctx);

  for (size_t I = 0; I < Fields; ++I) {

    StringRef FieldName = readString(Ctx);

    if (!FieldsSeen.insert(FieldName).second)

      return make_error<GenericBinaryError>(

          "producers section does not have unique fields",

          object_error::parse_failed);

    std::vector<std::pair<std::string, std::string>> *ProducerVec = nullptr;

    if (FieldName == "language") {

      ProducerVec = &ProducerInfo.Languages;

    } else if (FieldName == "processed-by") {

      ProducerVec = &ProducerInfo.Tools;

    } else if (FieldName == "sdk") {

      ProducerVec = &ProducerInfo.SDKs;

    } else {

      return make_error<GenericBinaryError>(

          "producers section field is not named one of language, processed-by, "

          "or sdk",

          object_error::parse_failed);

    }

    uint32_t ValueCount = readVaruint32(Ctx);

    llvm::SmallSet<StringRef, 8> ProducersSeen;

    for (size_t J = 0; J < ValueCount; ++J) {

      StringRef Name = readString(Ctx);

      StringRef Version = readString(Ctx);

      if (!ProducersSeen.insert(Name).second) {

        return make_error<GenericBinaryError>(

            "producers section contains repeated producer",

            object_error::parse_failed);

      }

      ProducerVec->emplace_back(std::string(Name), std::string(Version));

    }

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("producers section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseTargetFeaturesSection(ReadContext &Ctx) {

  llvm::SmallSet<std::string, 8> FeaturesSeen;

  uint32_t FeatureCount = readVaruint32(Ctx);

  for (size_t I = 0; I < FeatureCount; ++I) {

    wasm::WasmFeatureEntry Feature;

    Feature.Prefix = readUint8(Ctx);

    switch (Feature.Prefix) {

    case wasm::WASM_FEATURE_PREFIX_USED:

    case wasm::WASM_FEATURE_PREFIX_REQUIRED:

    case wasm::WASM_FEATURE_PREFIX_DISALLOWED:

      break;

    default:

      return make_error<GenericBinaryError>("unknown feature policy prefix",

                                            object_error::parse_failed);

    }

    Feature.Name = std::string(readString(Ctx));

    if (!FeaturesSeen.insert(Feature.Name).second)

      return make_error<GenericBinaryError>(

          "target features section contains repeated feature \"" +

              Feature.Name + "\"",

          object_error::parse_failed);

    TargetFeatures.push_back(Feature);

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>(

        "target features section ended prematurely",

        object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseRelocSection(StringRef Name, ReadContext &Ctx) {

  uint32_t SectionIndex = readVaruint32(Ctx);

  if (SectionIndex >= Sections.size())

    return make_error<GenericBinaryError>("invalid section index",

                                          object_error::parse_failed);

  WasmSection &Section = Sections[SectionIndex];

  uint32_t RelocCount = readVaruint32(Ctx);

  uint32_t EndOffset = Section.Content.size();

  uint32_t PreviousOffset = 0;

  while (RelocCount--) {

    wasm::WasmRelocation Reloc = {};

    uint32_t type = readVaruint32(Ctx);

    Reloc.Type = type;

    Reloc.Offset = readVaruint32(Ctx);

    if (Reloc.Offset < PreviousOffset)

      return make_error<GenericBinaryError>("relocations not in offset order",

                                            object_error::parse_failed);

    PreviousOffset = Reloc.Offset;

    Reloc.Index = readVaruint32(Ctx);

    switch (type) {

    case wasm::R_WASM_FUNCTION_INDEX_LEB:

    case wasm::R_WASM_FUNCTION_INDEX_I32:

    case wasm::R_WASM_TABLE_INDEX_SLEB:

    case wasm::R_WASM_TABLE_INDEX_SLEB64:

    case wasm::R_WASM_TABLE_INDEX_I32:

    case wasm::R_WASM_TABLE_INDEX_I64:

    case wasm::R_WASM_TABLE_INDEX_REL_SLEB:

    case wasm::R_WASM_TABLE_INDEX_REL_SLEB64:

      if (!isValidFunctionSymbol(Reloc.Index))

        return make_error<GenericBinaryError>(

            "invalid relocation function index", object_error::parse_failed);

      break;

    case wasm::R_WASM_TABLE_NUMBER_LEB:

      if (!isValidTableSymbol(Reloc.Index))

        return make_error<GenericBinaryError>("invalid relocation table index",

                                              object_error::parse_failed);

      break;

    case wasm::R_WASM_TYPE_INDEX_LEB:

      if (Reloc.Index >= Signatures.size())

        return make_error<GenericBinaryError>("invalid relocation type index",

                                              object_error::parse_failed);

      break;

    case wasm::R_WASM_GLOBAL_INDEX_LEB:

      // R_WASM_GLOBAL_INDEX_LEB are can be used against function and data

      // symbols to refer to their GOT entries.

      if (!isValidGlobalSymbol(Reloc.Index) &&

          !isValidDataSymbol(Reloc.Index) &&

          !isValidFunctionSymbol(Reloc.Index))

        return make_error<GenericBinaryError>("invalid relocation global index",

                                              object_error::parse_failed);

      break;

    case wasm::R_WASM_GLOBAL_INDEX_I32:

      if (!isValidGlobalSymbol(Reloc.Index))

        return make_error<GenericBinaryError>("invalid relocation global index",

                                              object_error::parse_failed);

      break;

    case wasm::R_WASM_TAG_INDEX_LEB:

      if (!isValidTagSymbol(Reloc.Index))

        return make_error<GenericBinaryError>("invalid relocation tag index",

                                              object_error::parse_failed);

      break;

    case wasm::R_WASM_MEMORY_ADDR_LEB:

    case wasm::R_WASM_MEMORY_ADDR_SLEB:

    case wasm::R_WASM_MEMORY_ADDR_I32:

    case wasm::R_WASM_MEMORY_ADDR_REL_SLEB:

    case wasm::R_WASM_MEMORY_ADDR_TLS_SLEB:

    case wasm::R_WASM_MEMORY_ADDR_LOCREL_I32:

      if (!isValidDataSymbol(Reloc.Index))

        return make_error<GenericBinaryError>("invalid relocation data index",

                                              object_error::parse_failed);

      Reloc.Addend = readVarint32(Ctx);

      break;

    case wasm::R_WASM_MEMORY_ADDR_LEB64:

    case wasm::R_WASM_MEMORY_ADDR_SLEB64:

    case wasm::R_WASM_MEMORY_ADDR_I64:

    case wasm::R_WASM_MEMORY_ADDR_REL_SLEB64:

    case wasm::R_WASM_MEMORY_ADDR_TLS_SLEB64:

      if (!isValidDataSymbol(Reloc.Index))

        return make_error<GenericBinaryError>("invalid relocation data index",

                                              object_error::parse_failed);

      Reloc.Addend = readVarint64(Ctx);

      break;

    case wasm::R_WASM_FUNCTION_OFFSET_I32:

      if (!isValidFunctionSymbol(Reloc.Index))

        return make_error<GenericBinaryError>(

            "invalid relocation function index", object_error::parse_failed);

      Reloc.Addend = readVarint32(Ctx);

      break;

    case wasm::R_WASM_FUNCTION_OFFSET_I64:

      if (!isValidFunctionSymbol(Reloc.Index))

        return make_error<GenericBinaryError>(

            "invalid relocation function index", object_error::parse_failed);

      Reloc.Addend = readVarint64(Ctx);

      break;

    case wasm::R_WASM_SECTION_OFFSET_I32:

      if (!isValidSectionSymbol(Reloc.Index))

        return make_error<GenericBinaryError>(

            "invalid relocation section index", object_error::parse_failed);

      Reloc.Addend = readVarint32(Ctx);

      break;

    default:

      return make_error<GenericBinaryError>("invalid relocation type: " +

                                                Twine(type),

                                            object_error::parse_failed);

    }


    // Relocations must fit inside the section, and must appear in order.  They

    // also shouldn't overlap a function/element boundary, but we don't bother

    // to check that.

    uint64_t Size = 5;

    if (Reloc.Type == wasm::R_WASM_MEMORY_ADDR_LEB64 ||

        Reloc.Type == wasm::R_WASM_MEMORY_ADDR_SLEB64 ||

        Reloc.Type == wasm::R_WASM_MEMORY_ADDR_REL_SLEB64)

      Size = 10;

    if (Reloc.Type == wasm::R_WASM_TABLE_INDEX_I32 ||

        Reloc.Type == wasm::R_WASM_MEMORY_ADDR_I32 ||

        Reloc.Type == wasm::R_WASM_MEMORY_ADDR_LOCREL_I32 ||

        Reloc.Type == wasm::R_WASM_SECTION_OFFSET_I32 ||

        Reloc.Type == wasm::R_WASM_FUNCTION_OFFSET_I32 ||

        Reloc.Type == wasm::R_WASM_FUNCTION_INDEX_I32 ||

        Reloc.Type == wasm::R_WASM_GLOBAL_INDEX_I32)

      Size = 4;

    if (Reloc.Type == wasm::R_WASM_TABLE_INDEX_I64 ||

        Reloc.Type == wasm::R_WASM_MEMORY_ADDR_I64 ||

        Reloc.Type == wasm::R_WASM_FUNCTION_OFFSET_I64)

      Size = 8;

    if (Reloc.Offset + Size > EndOffset)

      return make_error<GenericBinaryError>("invalid relocation offset",

                                            object_error::parse_failed);


    Section.Relocations.push_back(Reloc);

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("reloc section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseCustomSection(WasmSection &Sec, ReadContext &Ctx) {

  if (Sec.Name == "dylink") {

    if (Error Err = parseDylinkSection(Ctx))

      return Err;

  } else if (Sec.Name == "dylink.0") {

    if (Error Err = parseDylink0Section(Ctx))

      return Err;

  } else if (Sec.Name == "name") {

    if (Error Err = parseNameSection(Ctx))

      return Err;

  } else if (Sec.Name == "linking") {

    if (Error Err = parseLinkingSection(Ctx))

      return Err;

  } else if (Sec.Name == "producers") {

    if (Error Err = parseProducersSection(Ctx))

      return Err;

  } else if (Sec.Name == "target_features") {

    if (Error Err = parseTargetFeaturesSection(Ctx))

      return Err;

  } else if (Sec.Name.startswith("reloc.")) {

    if (Error Err = parseRelocSection(Sec.Name, Ctx))

      return Err;

  }

  return Error::success();

}


Error WasmObjectFile::parseTypeSection(ReadContext &Ctx) {

  uint32_t Count = readVaruint32(Ctx);

  Signatures.reserve(Count);

  while (Count--) {

    wasm::WasmSignature Sig;

    uint8_t Form = readUint8(Ctx);

    if (Form != wasm::WASM_TYPE_FUNC) {

      return make_error<GenericBinaryError>("invalid signature type",

                                            object_error::parse_failed);

    }

    uint32_t ParamCount = readVaruint32(Ctx);

    Sig.Params.reserve(ParamCount);

    while (ParamCount--) {

      uint32_t ParamType = readUint8(Ctx);

      Sig.Params.push_back(wasm::ValType(ParamType));

    }

    uint32_t ReturnCount = readVaruint32(Ctx);

    while (ReturnCount--) {

      uint32_t ReturnType = readUint8(Ctx);

      Sig.Returns.push_back(wasm::ValType(ReturnType));

    }

    Signatures.push_back(std::move(Sig));

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("type section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseImportSection(ReadContext &Ctx) {

  uint32_t Count = readVaruint32(Ctx);

  uint32_t NumTypes = Signatures.size();

  Imports.reserve(Count);

  for (uint32_t I = 0; I < Count; I++) {

    wasm::WasmImport Im;

    Im.Module = readString(Ctx);

    Im.Field = readString(Ctx);

    Im.Kind = readUint8(Ctx);

    switch (Im.Kind) {

    case wasm::WASM_EXTERNAL_FUNCTION:

      NumImportedFunctions++;

      Im.SigIndex = readVaruint32(Ctx);

      if (Im.SigIndex >= NumTypes)

        return make_error<GenericBinaryError>("invalid function type",

                                              object_error::parse_failed);

      break;

    case wasm::WASM_EXTERNAL_GLOBAL:

      NumImportedGlobals++;

      Im.Global.Type = readUint8(Ctx);

      Im.Global.Mutable = readVaruint1(Ctx);

      break;

    case wasm::WASM_EXTERNAL_MEMORY:

      Im.Memory = readLimits(Ctx);

      if (Im.Memory.Flags & wasm::WASM_LIMITS_FLAG_IS_64)

        HasMemory64 = true;

      break;

    case wasm::WASM_EXTERNAL_TABLE: {

      Im.Table = readTableType(Ctx);

      NumImportedTables++;

      auto ElemType = Im.Table.ElemType;

      if (ElemType != wasm::WASM_TYPE_FUNCREF &&

          ElemType != wasm::WASM_TYPE_EXTERNREF)

        return make_error<GenericBinaryError>("invalid table element type",

                                              object_error::parse_failed);

      break;

    }

    case wasm::WASM_EXTERNAL_TAG:

      NumImportedTags++;

      if (readUint8(Ctx) != 0) // Reserved 'attribute' field

        return make_error<GenericBinaryError>("invalid attribute",

                                              object_error::parse_failed);

      Im.SigIndex = readVaruint32(Ctx);

      if (Im.SigIndex >= NumTypes)

        return make_error<GenericBinaryError>("invalid tag type",

                                              object_error::parse_failed);

      break;

    default:

      return make_error<GenericBinaryError>("unexpected import kind",

                                            object_error::parse_failed);

    }

    Imports.push_back(Im);

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("import section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseFunctionSection(ReadContext &Ctx) {

  uint32_t Count = readVaruint32(Ctx);

  Functions.reserve(Count);

  uint32_t NumTypes = Signatures.size();

  while (Count--) {

    uint32_t Type = readVaruint32(Ctx);

    if (Type >= NumTypes)

      return make_error<GenericBinaryError>("invalid function type",

                                            object_error::parse_failed);

    wasm::WasmFunction F;

    F.SigIndex = Type;

    Functions.push_back(F);

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("function section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseTableSection(ReadContext &Ctx) {

  TableSection = Sections.size();

  uint32_t Count = readVaruint32(Ctx);

  Tables.reserve(Count);

  while (Count--) {

    wasm::WasmTable T;

    T.Type = readTableType(Ctx);

    T.Index = NumImportedTables + Tables.size();

    Tables.push_back(T);

    auto ElemType = Tables.back().Type.ElemType;

    if (ElemType != wasm::WASM_TYPE_FUNCREF &&

        ElemType != wasm::WASM_TYPE_EXTERNREF) {

      return make_error<GenericBinaryError>("invalid table element type",

                                            object_error::parse_failed);

    }

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("table section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseMemorySection(ReadContext &Ctx) {

  uint32_t Count = readVaruint32(Ctx);

  Memories.reserve(Count);

  while (Count--) {

    auto Limits = readLimits(Ctx);

    if (Limits.Flags & wasm::WASM_LIMITS_FLAG_IS_64)

      HasMemory64 = true;

    Memories.push_back(Limits);

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("memory section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseTagSection(ReadContext &Ctx) {

  TagSection = Sections.size();

  uint32_t Count = readVaruint32(Ctx);

  Tags.reserve(Count);

  uint32_t NumTypes = Signatures.size();

  while (Count--) {

    if (readUint8(Ctx) != 0) // Reserved 'attribute' field

      return make_error<GenericBinaryError>("invalid attribute",

                                            object_error::parse_failed);

    uint32_t Type = readVaruint32(Ctx);

    if (Type >= NumTypes)

      return make_error<GenericBinaryError>("invalid tag type",

                                            object_error::parse_failed);

    wasm::WasmTag Tag;

    Tag.Index = NumImportedTags + Tags.size();

    Tag.SigIndex = Type;

    Tags.push_back(Tag);

  }


  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("tag section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseGlobalSection(ReadContext &Ctx) {

  GlobalSection = Sections.size();

  uint32_t Count = readVaruint32(Ctx);

  Globals.reserve(Count);

  while (Count--) {

    wasm::WasmGlobal Global;

    Global.Index = NumImportedGlobals + Globals.size();

    Global.Type.Type = readUint8(Ctx);

    Global.Type.Mutable = readVaruint1(Ctx);

    if (Error Err = readInitExpr(Global.InitExpr, Ctx))

      return Err;

    Globals.push_back(Global);

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("global section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseExportSection(ReadContext &Ctx) {

  uint32_t Count = readVaruint32(Ctx);

  Exports.reserve(Count);

  for (uint32_t I = 0; I < Count; I++) {

    wasm::WasmExport Ex;

    Ex.Name = readString(Ctx);

    Ex.Kind = readUint8(Ctx);

    Ex.Index = readVaruint32(Ctx);

    switch (Ex.Kind) {

    case wasm::WASM_EXTERNAL_FUNCTION:


      if (!isDefinedFunctionIndex(Ex.Index))

        return make_error<GenericBinaryError>("invalid function export",

                                              object_error::parse_failed);

      getDefinedFunction(Ex.Index).ExportName = Ex.Name;

      break;

    case wasm::WASM_EXTERNAL_GLOBAL:

      if (!isValidGlobalIndex(Ex.Index))

        return make_error<GenericBinaryError>("invalid global export",

                                              object_error::parse_failed);

      break;

    case wasm::WASM_EXTERNAL_TAG:

      if (!isValidTagIndex(Ex.Index))

        return make_error<GenericBinaryError>("invalid tag export",

                                              object_error::parse_failed);

      break;

    case wasm::WASM_EXTERNAL_MEMORY:

    case wasm::WASM_EXTERNAL_TABLE:

      break;

    default:

      return make_error<GenericBinaryError>("unexpected export kind",

                                            object_error::parse_failed);

    }

    Exports.push_back(Ex);

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("export section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


bool WasmObjectFile::isValidFunctionIndex(uint32_t Index) const {

  return Index < NumImportedFunctions + Functions.size();

}


bool WasmObjectFile::isDefinedFunctionIndex(uint32_t Index) const {

  return Index >= NumImportedFunctions && isValidFunctionIndex(Index);

}


bool WasmObjectFile::isValidGlobalIndex(uint32_t Index) const {

  return Index < NumImportedGlobals + Globals.size();

}


bool WasmObjectFile::isValidTableNumber(uint32_t Index) const {

  return Index < NumImportedTables + Tables.size();

}


bool WasmObjectFile::isDefinedGlobalIndex(uint32_t Index) const {

  return Index >= NumImportedGlobals && isValidGlobalIndex(Index);

}


bool WasmObjectFile::isDefinedTableNumber(uint32_t Index) const {

  return Index >= NumImportedTables && isValidTableNumber(Index);

}


bool WasmObjectFile::isValidTagIndex(uint32_t Index) const {

  return Index < NumImportedTags + Tags.size();

}


bool WasmObjectFile::isDefinedTagIndex(uint32_t Index) const {

  return Index >= NumImportedTags && isValidTagIndex(Index);

}


bool WasmObjectFile::isValidFunctionSymbol(uint32_t Index) const {

  return Index < Symbols.size() && Symbols[Index].isTypeFunction();

}


bool WasmObjectFile::isValidTableSymbol(uint32_t Index) const {

  return Index < Symbols.size() && Symbols[Index].isTypeTable();

}


bool WasmObjectFile::isValidGlobalSymbol(uint32_t Index) const {

  return Index < Symbols.size() && Symbols[Index].isTypeGlobal();

}


bool WasmObjectFile::isValidTagSymbol(uint32_t Index) const {

  return Index < Symbols.size() && Symbols[Index].isTypeTag();

}


bool WasmObjectFile::isValidDataSymbol(uint32_t Index) const {

  return Index < Symbols.size() && Symbols[Index].isTypeData();

}


bool WasmObjectFile::isValidSectionSymbol(uint32_t Index) const {

  return Index < Symbols.size() && Symbols[Index].isTypeSection();

}


wasm::WasmFunction &WasmObjectFile::getDefinedFunction(uint32_t Index) {

  assert(isDefinedFunctionIndex(Index));

  return Functions[Index - NumImportedFunctions];

}


const wasm::WasmFunction &

WasmObjectFile::getDefinedFunction(uint32_t Index) const {

  assert(isDefinedFunctionIndex(Index));

  return Functions[Index - NumImportedFunctions];

}


wasm::WasmGlobal &WasmObjectFile::getDefinedGlobal(uint32_t Index) {

  assert(isDefinedGlobalIndex(Index));

  return Globals[Index - NumImportedGlobals];

}


wasm::WasmTag &WasmObjectFile::getDefinedTag(uint32_t Index) {

  assert(isDefinedTagIndex(Index));

  return Tags[Index - NumImportedTags];

}


Error WasmObjectFile::parseStartSection(ReadContext &Ctx) {

  StartFunction = readVaruint32(Ctx);

  if (!isValidFunctionIndex(StartFunction))

    return make_error<GenericBinaryError>("invalid start function",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseCodeSection(ReadContext &Ctx) {

  CodeSection = Sections.size();

  uint32_t FunctionCount = readVaruint32(Ctx);

  if (FunctionCount != Functions.size()) {

    return make_error<GenericBinaryError>("invalid function count",

                                          object_error::parse_failed);

  }


  for (uint32_t i = 0; i < FunctionCount; i++) {

    wasm::WasmFunction& Function = Functions[i];

    const uint8_t *FunctionStart = Ctx.Ptr;

    uint32_t Size = readVaruint32(Ctx);

    const uint8_t *FunctionEnd = Ctx.Ptr + Size;


    Function.CodeOffset = Ctx.Ptr - FunctionStart;

    Function.Index = NumImportedFunctions + i;

    Function.CodeSectionOffset = FunctionStart - Ctx.Start;

    Function.Size = FunctionEnd - FunctionStart;


    uint32_t NumLocalDecls = readVaruint32(Ctx);

    Function.Locals.reserve(NumLocalDecls);

    while (NumLocalDecls--) {

      wasm::WasmLocalDecl Decl;

      Decl.Count = readVaruint32(Ctx);

      Decl.Type = readUint8(Ctx);

      Function.Locals.push_back(Decl);

    }


    uint32_t BodySize = FunctionEnd - Ctx.Ptr;

    Function.Body = ArrayRef<uint8_t>(Ctx.Ptr, BodySize);

    // This will be set later when reading in the linking metadata section.

    Function.Comdat = UINT32_MAX;

    Ctx.Ptr += BodySize;

    assert(Ctx.Ptr == FunctionEnd);

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("code section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseElemSection(ReadContext &Ctx) {

  uint32_t Count = readVaruint32(Ctx);

  ElemSegments.reserve(Count);

  while (Count--) {

    wasm::WasmElemSegment Segment;

    Segment.Flags = readVaruint32(Ctx);


    uint32_t SupportedFlags = wasm::WASM_ELEM_SEGMENT_HAS_TABLE_NUMBER |

                              wasm::WASM_ELEM_SEGMENT_IS_PASSIVE |

                              wasm::WASM_ELEM_SEGMENT_HAS_INIT_EXPRS;

    if (Segment.Flags & ~SupportedFlags)

      return make_error<GenericBinaryError>(

          "Unsupported flags for element segment", object_error::parse_failed);


    if (Segment.Flags & wasm::WASM_ELEM_SEGMENT_HAS_TABLE_NUMBER)

      Segment.TableNumber = readVaruint32(Ctx);

    else

      Segment.TableNumber = 0;

    if (!isValidTableNumber(Segment.TableNumber))

      return make_error<GenericBinaryError>("invalid TableNumber",

                                            object_error::parse_failed);


    if (Segment.Flags & wasm::WASM_ELEM_SEGMENT_IS_PASSIVE) {

      Segment.Offset.Extended = false;

      Segment.Offset.Inst.Opcode = wasm::WASM_OPCODE_I32_CONST;

      Segment.Offset.Inst.Value.Int32 = 0;

    } else {

      if (Error Err = readInitExpr(Segment.Offset, Ctx))

        return Err;

    }


    if (Segment.Flags & wasm::WASM_ELEM_SEGMENT_MASK_HAS_ELEM_KIND) {

      Segment.ElemKind = readUint8(Ctx);

      if (Segment.Flags & wasm::WASM_ELEM_SEGMENT_HAS_INIT_EXPRS) {

        if (Segment.ElemKind != uint8_t(wasm::ValType::FUNCREF) &&

            Segment.ElemKind != uint8_t(wasm::ValType::EXTERNREF)) {

          return make_error<GenericBinaryError>("invalid reference type",

                                                object_error::parse_failed);

        }

      } else {

        if (Segment.ElemKind != 0)

          return make_error<GenericBinaryError>("invalid elemtype",

                                                object_error::parse_failed);

        Segment.ElemKind = uint8_t(wasm::ValType::FUNCREF);

      }

    } else {

      Segment.ElemKind = uint8_t(wasm::ValType::FUNCREF);

    }


    if (Segment.Flags & wasm::WASM_ELEM_SEGMENT_HAS_INIT_EXPRS)

      return make_error<GenericBinaryError>(

          "elem segment init expressions not yet implemented",

          object_error::parse_failed);


    uint32_t NumElems = readVaruint32(Ctx);

    while (NumElems--) {

      Segment.Functions.push_back(readVaruint32(Ctx));

    }

    ElemSegments.push_back(Segment);

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("elem section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseDataSection(ReadContext &Ctx) {

  DataSection = Sections.size();

  uint32_t Count = readVaruint32(Ctx);

  if (DataCount && Count != *DataCount)

    return make_error<GenericBinaryError>(

        "number of data segments does not match DataCount section");

  DataSegments.reserve(Count);

  while (Count--) {

    WasmSegment Segment;

    Segment.Data.InitFlags = readVaruint32(Ctx);

    Segment.Data.MemoryIndex =

        (Segment.Data.InitFlags & wasm::WASM_DATA_SEGMENT_HAS_MEMINDEX)

            ? readVaruint32(Ctx)

            : 0;

    if ((Segment.Data.InitFlags & wasm::WASM_DATA_SEGMENT_IS_PASSIVE) == 0) {

      if (Error Err = readInitExpr(Segment.Data.Offset, Ctx))

        return Err;

    } else {

      Segment.Data.Offset.Extended = false;

      Segment.Data.Offset.Inst.Opcode = wasm::WASM_OPCODE_I32_CONST;

      Segment.Data.Offset.Inst.Value.Int32 = 0;

    }

    uint32_t Size = readVaruint32(Ctx);

    if (Size > (size_t)(Ctx.End - Ctx.Ptr))

      return make_error<GenericBinaryError>("invalid segment size",

                                            object_error::parse_failed);

    Segment.Data.Content = ArrayRef<uint8_t>(Ctx.Ptr, Size);

    // The rest of these Data fields are set later, when reading in the linking

    // metadata section.

    Segment.Data.Alignment = 0;

    Segment.Data.LinkingFlags = 0;

    Segment.Data.Comdat = UINT32_MAX;

    Segment.SectionOffset = Ctx.Ptr - Ctx.Start;

    Ctx.Ptr += Size;

    DataSegments.push_back(Segment);

  }

  if (Ctx.Ptr != Ctx.End)

    return make_error<GenericBinaryError>("data section ended prematurely",

                                          object_error::parse_failed);

  return Error::success();

}


Error WasmObjectFile::parseDataCountSection(ReadContext &Ctx) {

  DataCount = readVaruint32(Ctx);

  return Error::success();

}


const wasm::WasmObjectHeader &WasmObjectFile::getHeader() const {

  return Header;

}


void WasmObjectFile::moveSymbolNext(DataRefImpl &Symb) const { Symb.d.b++; }


Expected<uint32_t> WasmObjectFile::getSymbolFlags(DataRefImpl Symb) const {

  uint32_t Result = SymbolRef::SF_None;

  const WasmSymbol &Sym = getWasmSymbol(Symb);


  LLVM_DEBUG(dbgs() << "getSymbolFlags: ptr=" << &Sym << " " << Sym << "\n");

  if (Sym.isBindingWeak())

    Result |= SymbolRef::SF_Weak;

  if (!Sym.isBindingLocal())

    Result |= SymbolRef::SF_Global;

  if (Sym.isHidden())

    Result |= SymbolRef::SF_Hidden;

  if (!Sym.isDefined())

    Result |= SymbolRef::SF_Undefined;

  if (Sym.isTypeFunction())

    Result |= SymbolRef::SF_Executable;

  return Result;

}


basic_symbol_iterator WasmObjectFile::symbol_begin() const {

  DataRefImpl Ref;

  Ref.d.a = 1; // Arbitrary non-zero value so that Ref.p is non-null

  Ref.d.b = 0; // Symbol index

  return BasicSymbolRef(Ref, this);

}


basic_symbol_iterator WasmObjectFile::symbol_end() const {

  DataRefImpl Ref;

  Ref.d.a = 1; // Arbitrary non-zero value so that Ref.p is non-null

  Ref.d.b = Symbols.size(); // Symbol index

  return BasicSymbolRef(Ref, this);

}


const WasmSymbol &WasmObjectFile::getWasmSymbol(const DataRefImpl &Symb) const {

  return Symbols[Symb.d.b];

}


const WasmSymbol &WasmObjectFile::getWasmSymbol(const SymbolRef &Symb) const {

  return getWasmSymbol(Symb.getRawDataRefImpl());

}


Expected<StringRef> WasmObjectFile::getSymbolName(DataRefImpl Symb) const {

  return getWasmSymbol(Symb).Info.Name;

}


Expected<uint64_t> WasmObjectFile::getSymbolAddress(DataRefImpl Symb) const {

  auto &Sym = getWasmSymbol(Symb);

  if (Sym.Info.Kind == wasm::WASM_SYMBOL_TYPE_FUNCTION &&

      isDefinedFunctionIndex(Sym.Info.ElementIndex))

    return getDefinedFunction(Sym.Info.ElementIndex).CodeSectionOffset;

  else

    return getSymbolValue(Symb);

}


uint64_t WasmObjectFile::getWasmSymbolValue(const WasmSymbol &Sym) const {

  switch (Sym.Info.Kind) {

  case wasm::WASM_SYMBOL_TYPE_FUNCTION:

  case wasm::WASM_SYMBOL_TYPE_GLOBAL:

  case wasm::WASM_SYMBOL_TYPE_TAG:

  case wasm::WASM_SYMBOL_TYPE_TABLE:

    return Sym.Info.ElementIndex;

  case wasm::WASM_SYMBOL_TYPE_DATA: {

    // The value of a data symbol is the segment offset, plus the symbol

    // offset within the segment.

    uint32_t SegmentIndex = Sym.Info.DataRef.Segment;

    const wasm::WasmDataSegment &Segment = DataSegments[SegmentIndex].Data;

    if (Segment.Offset.Extended) {

      llvm_unreachable("extended init exprs not supported");

    } else if (Segment.Offset.Inst.Opcode == wasm::WASM_OPCODE_I32_CONST) {

      return Segment.Offset.Inst.Value.Int32 + Sym.Info.DataRef.Offset;

    } else if (Segment.Offset.Inst.Opcode == wasm::WASM_OPCODE_I64_CONST) {

      return Segment.Offset.Inst.Value.Int64 + Sym.Info.DataRef.Offset;

    } else {

      llvm_unreachable("unknown init expr opcode");

    }

  }

  case wasm::WASM_SYMBOL_TYPE_SECTION:

    return 0;

  }

  llvm_unreachable("invalid symbol type");

}


uint64_t WasmObjectFile::getSymbolValueImpl(DataRefImpl Symb) const {

  return getWasmSymbolValue(getWasmSymbol(Symb));

}


uint32_t WasmObjectFile::getSymbolAlignment(DataRefImpl Symb) const {

  llvm_unreachable("not yet implemented");

  return 0;

}


uint64_t WasmObjectFile::getCommonSymbolSizeImpl(DataRefImpl Symb) const {

  llvm_unreachable("not yet implemented");

  return 0;

}


Expected<SymbolRef::Type>

WasmObjectFile::getSymbolType(DataRefImpl Symb) const {

  const WasmSymbol &Sym = getWasmSymbol(Symb);


  switch (Sym.Info.Kind) {

  case wasm::WASM_SYMBOL_TYPE_FUNCTION:

    return SymbolRef::ST_Function;

  case wasm::WASM_SYMBOL_TYPE_GLOBAL:

    return SymbolRef::ST_Other;

  case wasm::WASM_SYMBOL_TYPE_DATA:

    return SymbolRef::ST_Data;

  case wasm::WASM_SYMBOL_TYPE_SECTION:

    return SymbolRef::ST_Debug;

  case wasm::WASM_SYMBOL_TYPE_TAG:

    return SymbolRef::ST_Other;

  case wasm::WASM_SYMBOL_TYPE_TABLE:

    return SymbolRef::ST_Other;

  }


  llvm_unreachable("unknown WasmSymbol::SymbolType");

  return SymbolRef::ST_Other;

}


Expected<section_iterator>

WasmObjectFile::getSymbolSection(DataRefImpl Symb) const {

  const WasmSymbol &Sym = getWasmSymbol(Symb);

  if (Sym.isUndefined())

    return section_end();


  DataRefImpl Ref;

  Ref.d.a = getSymbolSectionIdImpl(Sym);

  return section_iterator(SectionRef(Ref, this));

}


uint32_t WasmObjectFile::getSymbolSectionId(SymbolRef Symb) const {

  const WasmSymbol &Sym = getWasmSymbol(Symb);

  return getSymbolSectionIdImpl(Sym);

}


uint32_t WasmObjectFile::getSymbolSectionIdImpl(const WasmSymbol &Sym) const {

  switch (Sym.Info.Kind) {

  case wasm::WASM_SYMBOL_TYPE_FUNCTION:

    return CodeSection;

  case wasm::WASM_SYMBOL_TYPE_GLOBAL:

    return GlobalSection;

  case wasm::WASM_SYMBOL_TYPE_DATA:

    return DataSection;

  case wasm::WASM_SYMBOL_TYPE_SECTION:

    return Sym.Info.ElementIndex;

  case wasm::WASM_SYMBOL_TYPE_TAG:

    return TagSection;

  case wasm::WASM_SYMBOL_TYPE_TABLE:

    return TableSection;

  default:

    llvm_unreachable("unknown WasmSymbol::SymbolType");

  }

}


void WasmObjectFile::moveSectionNext(DataRefImpl &Sec) const { Sec.d.a++; }


Expected<StringRef> WasmObjectFile::getSectionName(DataRefImpl Sec) const {

  const WasmSection &S = Sections[Sec.d.a];

  if (S.Type == wasm::WASM_SEC_CUSTOM)

    return S.Name;

  if (S.Type > wasm::WASM_SEC_LAST_KNOWN)

    return createStringError(object_error::invalid_section_index, "");

  return wasm::sectionTypeToString(S.Type);

}


uint64_t WasmObjectFile::getSectionAddress(DataRefImpl Sec) const { return 0; }


uint64_t WasmObjectFile::getSectionIndex(DataRefImpl Sec) const {

  return Sec.d.a;

}


uint64_t WasmObjectFile::getSectionSize(DataRefImpl Sec) const {

  const WasmSection &S = Sections[Sec.d.a];

  return S.Content.size();

}


Expected<ArrayRef<uint8_t>>

WasmObjectFile::getSectionContents(DataRefImpl Sec) const {

  const WasmSection &S = Sections[Sec.d.a];

  // This will never fail since wasm sections can never be empty (user-sections

  // must have a name and non-user sections each have a defined structure).

  return S.Content;

}


uint64_t WasmObjectFile::getSectionAlignment(DataRefImpl Sec) const {

  return 1;

}


bool WasmObjectFile::isSectionCompressed(DataRefImpl Sec) const {

  return false;

}


bool WasmObjectFile::isSectionText(DataRefImpl Sec) const {

  return getWasmSection(Sec).Type == wasm::WASM_SEC_CODE;

}


bool WasmObjectFile::isSectionData(DataRefImpl Sec) const {

  return getWasmSection(Sec).Type == wasm::WASM_SEC_DATA;

}


bool WasmObjectFile::isSectionBSS(DataRefImpl Sec) const { return false; }


bool WasmObjectFile::isSectionVirtual(DataRefImpl Sec) const { return false; }


relocation_iterator WasmObjectFile::section_rel_begin(DataRefImpl Ref) const {

  DataRefImpl RelocRef;

  RelocRef.d.a = Ref.d.a;

  RelocRef.d.b = 0;

  return relocation_iterator(RelocationRef(RelocRef, this));

}


relocation_iterator WasmObjectFile::section_rel_end(DataRefImpl Ref) const {

  const WasmSection &Sec = getWasmSection(Ref);

  DataRefImpl RelocRef;

  RelocRef.d.a = Ref.d.a;

  RelocRef.d.b = Sec.Relocations.size();

  return relocation_iterator(RelocationRef(RelocRef, this));

}


void WasmObjectFile::moveRelocationNext(DataRefImpl &Rel) const { Rel.d.b++; }


uint64_t WasmObjectFile::getRelocationOffset(DataRefImpl Ref) const {

  const wasm::WasmRelocation &Rel = getWasmRelocation(Ref);

  return Rel.Offset;

}


symbol_iterator WasmObjectFile::getRelocationSymbol(DataRefImpl Ref) const {

  const wasm::WasmRelocation &Rel = getWasmRelocation(Ref);

  if (Rel.Type == wasm::R_WASM_TYPE_INDEX_LEB)

    return symbol_end();

  DataRefImpl Sym;

  Sym.d.a = 1;

  Sym.d.b = Rel.Index;

  return symbol_iterator(SymbolRef(Sym, this));

}


uint64_t WasmObjectFile::getRelocationType(DataRefImpl Ref) const {

  const wasm::WasmRelocation &Rel = getWasmRelocation(Ref);

  return Rel.Type;

}


void WasmObjectFile::getRelocationTypeName(

    DataRefImpl Ref, SmallVectorImpl<char> &Result) const {

  const wasm::WasmRelocation &Rel = getWasmRelocation(Ref);

  StringRef Res = "Unknown";


#define WASM_RELOC(name, value)                                                \

  case wasm::name:                                                             \

    Res = #name;                                                               \

    break;


  switch (Rel.Type) {

#include "llvm/BinaryFormat/WasmRelocs.def"

  }


#undef WASM_RELOC


  Result.append(Res.begin(), Res.end());

}


section_iterator WasmObjectFile::section_begin() const {

  DataRefImpl Ref;

  Ref.d.a = 0;

  return section_iterator(SectionRef(Ref, this));

}


section_iterator WasmObjectFile::section_end() const {

  DataRefImpl Ref;

  Ref.d.a = Sections.size();

  return section_iterator(SectionRef(Ref, this));

}


uint8_t WasmObjectFile::getBytesInAddress() const {

  return HasMemory64 ? 8 : 4;

}


StringRef WasmObjectFile::getFileFormatName() const { return "WASM"; }


Triple::ArchType WasmObjectFile::getArch() const {

  return HasMemory64 ? Triple::wasm64 : Triple::wasm32;

}


Expected<SubtargetFeatures> WasmObjectFile::getFeatures() const {

  return SubtargetFeatures();

}


bool WasmObjectFile::isRelocatableObject() const { return HasLinkingSection; }


bool WasmObjectFile::isSharedObject() const { return HasDylinkSection; }


const WasmSection &WasmObjectFile::getWasmSection(DataRefImpl Ref) const {

  assert(Ref.d.a < Sections.size());

  return Sections[Ref.d.a];

}


const WasmSection &

WasmObjectFile::getWasmSection(const SectionRef &Section) const {

  return getWasmSection(Section.getRawDataRefImpl());

}


const wasm::WasmRelocation &

WasmObjectFile::getWasmRelocation(const RelocationRef &Ref) const {

  return getWasmRelocation(Ref.getRawDataRefImpl());

}


const wasm::WasmRelocation &

WasmObjectFile::getWasmRelocation(DataRefImpl Ref) const {

  assert(Ref.d.a < Sections.size());

  const WasmSection &Sec = Sections[Ref.d.a];

  assert(Ref.d.b < Sec.Relocations.size());

  return Sec.Relocations[Ref.d.b];

}


int WasmSectionOrderChecker::getSectionOrder(unsigned ID,

                                             StringRef CustomSectionName) {

  switch (ID) {

  case wasm::WASM_SEC_CUSTOM:

    return StringSwitch<unsigned>(CustomSectionName)

        .Case("dylink", WASM_SEC_ORDER_DYLINK)

        .Case("dylink.0", WASM_SEC_ORDER_DYLINK)

        .Case("linking", WASM_SEC_ORDER_LINKING)

        .StartsWith("reloc.", WASM_SEC_ORDER_RELOC)

        .Case("name", WASM_SEC_ORDER_NAME)

        .Case("producers", WASM_SEC_ORDER_PRODUCERS)

        .Case("target_features", WASM_SEC_ORDER_TARGET_FEATURES)

        .Default(WASM_SEC_ORDER_NONE);

  case wasm::WASM_SEC_TYPE:

    return WASM_SEC_ORDER_TYPE;

  case wasm::WASM_SEC_IMPORT:

    return WASM_SEC_ORDER_IMPORT;

  case wasm::WASM_SEC_FUNCTION:

    return WASM_SEC_ORDER_FUNCTION;

  case wasm::WASM_SEC_TABLE:

    return WASM_SEC_ORDER_TABLE;

  case wasm::WASM_SEC_MEMORY:

    return WASM_SEC_ORDER_MEMORY;

  case wasm::WASM_SEC_GLOBAL:

    return WASM_SEC_ORDER_GLOBAL;

  case wasm::WASM_SEC_EXPORT:

    return WASM_SEC_ORDER_EXPORT;

  case wasm::WASM_SEC_START:

    return WASM_SEC_ORDER_START;

  case wasm::WASM_SEC_ELEM:

    return WASM_SEC_ORDER_ELEM;

  case wasm::WASM_SEC_CODE:

    return WASM_SEC_ORDER_CODE;

  case wasm::WASM_SEC_DATA:

    return WASM_SEC_ORDER_DATA;

  case wasm::WASM_SEC_DATACOUNT:

    return WASM_SEC_ORDER_DATACOUNT;

  case wasm::WASM_SEC_TAG:

    return WASM_SEC_ORDER_TAG;

  default:

    return WASM_SEC_ORDER_NONE;

  }

}


// Represents the edges in a directed graph where any node B reachable from node

// A is not allowed to appear before A in the section ordering, but may appear

// afterward.

int WasmSectionOrderChecker::DisallowedPredecessors

    [WASM_NUM_SEC_ORDERS][WASM_NUM_SEC_ORDERS] = {

        // WASM_SEC_ORDER_NONE

        {},

        // WASM_SEC_ORDER_TYPE

        {WASM_SEC_ORDER_TYPE, WASM_SEC_ORDER_IMPORT},

        // WASM_SEC_ORDER_IMPORT

        {WASM_SEC_ORDER_IMPORT, WASM_SEC_ORDER_FUNCTION},

        // WASM_SEC_ORDER_FUNCTION

        {WASM_SEC_ORDER_FUNCTION, WASM_SEC_ORDER_TABLE},

        // WASM_SEC_ORDER_TABLE

        {WASM_SEC_ORDER_TABLE, WASM_SEC_ORDER_MEMORY},

        // WASM_SEC_ORDER_MEMORY

        {WASM_SEC_ORDER_MEMORY, WASM_SEC_ORDER_TAG},

        // WASM_SEC_ORDER_TAG

        {WASM_SEC_ORDER_TAG, WASM_SEC_ORDER_GLOBAL},

        // WASM_SEC_ORDER_GLOBAL

        {WASM_SEC_ORDER_GLOBAL, WASM_SEC_ORDER_EXPORT},

        // WASM_SEC_ORDER_EXPORT

        {WASM_SEC_ORDER_EXPORT, WASM_SEC_ORDER_START},

        // WASM_SEC_ORDER_START

        {WASM_SEC_ORDER_START, WASM_SEC_ORDER_ELEM},

        // WASM_SEC_ORDER_ELEM

        {WASM_SEC_ORDER_ELEM, WASM_SEC_ORDER_DATACOUNT},

        // WASM_SEC_ORDER_DATACOUNT

        {WASM_SEC_ORDER_DATACOUNT, WASM_SEC_ORDER_CODE},

        // WASM_SEC_ORDER_CODE

        {WASM_SEC_ORDER_CODE, WASM_SEC_ORDER_DATA},

        // WASM_SEC_ORDER_DATA

        {WASM_SEC_ORDER_DATA, WASM_SEC_ORDER_LINKING},


        // Custom Sections

        // WASM_SEC_ORDER_DYLINK

        {WASM_SEC_ORDER_DYLINK, WASM_SEC_ORDER_TYPE},

        // WASM_SEC_ORDER_LINKING

        {WASM_SEC_ORDER_LINKING, WASM_SEC_ORDER_RELOC, WASM_SEC_ORDER_NAME},

        // WASM_SEC_ORDER_RELOC (can be repeated)

        {},

        // WASM_SEC_ORDER_NAME

        {WASM_SEC_ORDER_NAME, WASM_SEC_ORDER_PRODUCERS},

        // WASM_SEC_ORDER_PRODUCERS

        {WASM_SEC_ORDER_PRODUCERS, WASM_SEC_ORDER_TARGET_FEATURES},

        // WASM_SEC_ORDER_TARGET_FEATURES

        {WASM_SEC_ORDER_TARGET_FEATURES}};


bool WasmSectionOrderChecker::isValidSectionOrder(unsigned ID,

                                                  StringRef CustomSectionName) {

  int Order = getSectionOrder(ID, CustomSectionName);

  if (Order == WASM_SEC_ORDER_NONE)

    return true;


  // Disallowed predecessors we need to check for

  SmallVector<int, WASM_NUM_SEC_ORDERS> WorkList;


  // Keep track of completed checks to avoid repeating work

  bool Checked[WASM_NUM_SEC_ORDERS] = {};


  int Curr = Order;

  while (true) {

    // Add new disallowed predecessors to work list

    for (size_t I = 0;; ++I) {

      int Next = DisallowedPredecessors[Curr][I];

      if (Next == WASM_SEC_ORDER_NONE)

        break;

      if (Checked[Next])

        continue;

      WorkList.push_back(Next);

      Checked[Next] = true;

    }


    if (WorkList.empty())

      break;


    // Consider next disallowed predecessor

    Curr = WorkList.pop_back_val();

    if (Seen[Curr])

      return false;

  }


  // Have not seen any disallowed predecessors

  Seen[Order] = true;

  return true;

}

ArrayRef.h

Wasm.h

Binary.h

Info
Analysis containing CSE Info
Definition: CSEInfo.cpp:27

LLVM_DUMP_METHOD
#define LLVM_DUMP_METHOD
Mark debug helper function definitions like dump() that should not be stripped from debug builds.
Definition: Compiler.h:510

LLVM_DEBUG
#define LLVM_DEBUG(X)
Definition: Debug.h:101

DenseSet.h
This file defines the DenseSet and SmallDenseSet classes.

Name
std::string Name
Definition: ELFObjHandler.cpp:77

Size
uint64_t Size
Definition: ELFObjHandler.cpp:81

Sym
Symbol * Sym
Definition: ELF_riscv.cpp:477

Endian.h

LEB128.h

F
#define F(x, y, z)
Definition: MD5.cpp:55

I
#define I(x, y, z)
Definition: MD5.cpp:58

ObjectFile.h

Wasm.h

assert
assert(ImpDefSCC.getReg()==AMDGPU::SCC &&ImpDefSCC.isDef())

ScopedPrinter.h

SmallSet.h
This file defines the SmallSet class.

StringRef.h

StringSet.h
StringSet - A set-like wrapper for the StringMap.

StringSwitch.h
This file implements the StringSwitch template, which mimics a switch() statement whose cases are str...

SubtargetFeature.h

SymbolicFile.h

Triple.h

readVaruint1
static uint8_t readVaruint1(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:143

readInitExpr
static Error readInitExpr(wasm::WasmInitExpr &Expr, WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:176

readVarint32
static int32_t readVarint32(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:150

readTableType
static wasm::WasmTableType readTableType(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:259

readLimits
static wasm::WasmLimits readLimits(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:250

readVaruint64
static uint64_t readVaruint64(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:168

readSection
static Error readSection(WasmSection &Section, WasmObjectFile::ReadContext &Ctx, WasmSectionOrderChecker &Checker)
Definition: WasmObjectFile.cpp:266

readLEB128
static int64_t readLEB128(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:133

readVaruint32
static uint32_t readVaruint32(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:157

readUint32
static uint32_t readUint32(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:87

readOpcode
static uint8_t readOpcode(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:172

readString
static StringRef readString(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:123

readUint8
static uint8_t readUint8(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:81

VARUINT1_MAX
#define VARUINT1_MAX
Definition: WasmObjectFile.cpp:79

readFloat32
static int32_t readFloat32(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:95

readULEB128
static uint64_t readULEB128(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:113

readFloat64
static int64_t readFloat64(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:104

readVarint64
static int64_t readVarint64(WasmObjectFile::ReadContext &Ctx)
Definition: WasmObjectFile.cpp:164

Opcode
static constexpr uint32_t Opcode
Definition: aarch32.h:200

T

llvm::ArrayRef
ArrayRef - Represent a constant reference to an array (0 or more elements consecutively in memory),...
Definition: ArrayRef.h:41

llvm::ArrayRef::size
size_t size() const
size - Get the array size.
Definition: ArrayRef.h:165

llvm::ArrayRef::data
const T * data() const
Definition: ArrayRef.h:162

llvm::Comdat
Definition: Comdat.h:33

llvm::DenseSet
Implements a dense probed hash-table based set.
Definition: DenseSet.h:271

llvm::ErrorAsOutParameter
Helper for Errors used as out-parameters.
Definition: Error.h:1102

llvm::Error
Lightweight error class with error context and mandatory checking.
Definition: Error.h:160

llvm::Error::success
static ErrorSuccess success()
Create a success value.
Definition: Error.h:334

llvm::Expected
Tagged union holding either a T or a Error.
Definition: Error.h:474

llvm::Function
Definition: Function.h:62

llvm::Function::empty
bool empty() const
Definition: Function.h:800

llvm::Init
Definition: Record.h:281

llvm::MemoryBufferRef
Definition: MemoryBufferRef.h:22

llvm::SmallSet
SmallSet - This maintains a set of unique values, optimizing for the case when the set is small (less...
Definition: SmallSet.h:135

llvm::SmallSet::insert
std::pair< const_iterator, bool > insert(const T &V)
insert - Insert an element into the set if it isn't already there.
Definition: SmallSet.h:179

llvm::SmallVectorBase::empty
bool empty() const
Definition: SmallVector.h:94

llvm::SmallVectorImpl
This class consists of common code factored out of the SmallVector class to reduce code duplication b...
Definition: SmallVector.h:577

llvm::SmallVectorImpl::pop_back_val
T pop_back_val()
Definition: SmallVector.h:677

llvm::SmallVectorImpl::reserve
void reserve(size_type N)
Definition: SmallVector.h:667

llvm::SmallVectorTemplateBase::push_back
void push_back(const T &Elt)
Definition: SmallVector.h:416

llvm::SmallVector
This is a 'vector' (really, a variable-sized array), optimized for the case when the array is small.
Definition: SmallVector.h:1200

llvm::StringRef
StringRef - Represent a constant reference to a string, i.e.
Definition: StringRef.h:50

llvm::StringRef::substr
constexpr StringRef substr(size_t Start, size_t N=npos) const
Return a reference to the substring from [Start, Start + N).
Definition: StringRef.h:575

llvm::StringRef::empty
constexpr bool empty() const
empty - Check if the string is empty.
Definition: StringRef.h:134

llvm::StringRef::begin
iterator begin() const
Definition: StringRef.h:111

llvm::StringRef::size
constexpr size_t size() const
size - Get the string size.
Definition: StringRef.h:137

llvm::StringRef::startswith
bool startswith(StringRef Prefix) const
Definition: StringRef.h:261

llvm::StringRef::end
iterator end() const
Definition: StringRef.h:113

llvm::StringRef::bytes_begin
const unsigned char * bytes_begin() const
Definition: StringRef.h:115

llvm::StringSet
StringSet - A wrapper for StringMap that provides set-like functionality.
Definition: StringSet.h:23

llvm::StringSet::insert
std::pair< typename Base::iterator, bool > insert(StringRef key)
Definition: StringSet.h:34

llvm::StringSwitch
A switch()-like statement whose cases are string literals.
Definition: StringSwitch.h:44

llvm::StringSwitch::Case
StringSwitch & Case(StringLiteral S, T Value)
Definition: StringSwitch.h:69

llvm::StringSwitch::Default
R Default(T Value)
Definition: StringSwitch.h:182

llvm::StringSwitch::StartsWith
StringSwitch & StartsWith(StringLiteral S, T Value)
Definition: StringSwitch.h:83

llvm::SubtargetFeatures
Manages the enabling and disabling of subtarget specific features.
Definition: SubtargetFeature.h:174

llvm::Triple::ArchType
ArchType
Definition: Triple.h:46

llvm::Triple::wasm32
@ wasm32
Definition: Triple.h:105

llvm::Triple::wasm64
@ wasm64
Definition: Triple.h:106

llvm::Twine
Twine - A lightweight data structure for efficiently representing the concatenation of temporary valu...
Definition: Twine.h:81

llvm::Twine::utohexstr
static Twine utohexstr(const uint64_t &Val)
Definition: Twine.h:416

llvm::Type
The instances of the Type class are immutable: once they are created, they are never changed.
Definition: Type.h:45

llvm::detail::DenseSetImpl::insert
std::pair< iterator, bool > insert(const ValueT &V)
Definition: DenseSet.h:206

llvm::object::BasicSymbolRef
This is a value type class that represents a single symbol in the list of symbols in the object file.
Definition: SymbolicFile.h:103

llvm::object::BasicSymbolRef::getRawDataRefImpl
DataRefImpl getRawDataRefImpl() const
Definition: SymbolicFile.h:210

llvm::object::BasicSymbolRef::SF_Global
@ SF_Global
Definition: SymbolicFile.h:111

llvm::object::BasicSymbolRef::SF_Hidden
@ SF_Hidden
Definition: SymbolicFile.h:120

llvm::object::BasicSymbolRef::SF_Executable
@ SF_Executable
Definition: SymbolicFile.h:122

llvm::object::BasicSymbolRef::SF_Weak
@ SF_Weak
Definition: SymbolicFile.h:112

llvm::object::BasicSymbolRef::SF_Undefined
@ SF_Undefined
Definition: SymbolicFile.h:110

llvm::object::BasicSymbolRef::SF_None
@ SF_None
Definition: SymbolicFile.h:109

llvm::object::Binary
Definition: Binary.h:32

llvm::object::Binary::Data
MemoryBufferRef Data
Definition: Binary.h:37

llvm::object::Binary::getData
StringRef getData() const
Definition: Binary.cpp:39

llvm::object::ObjectFile
This class is the base class for all object file types.
Definition: ObjectFile.h:229

llvm::object::ObjectFile::RelocationRef
friend class RelocationRef
Definition: ObjectFile.h:287

llvm::object::ObjectFile::SymbolRef
friend class SymbolRef
Definition: ObjectFile.h:247

llvm::object::ObjectFile::SectionRef
friend class SectionRef
Definition: ObjectFile.h:261

llvm::object::ObjectFile::createWasmObjectFile
static Expected< std::unique_ptr< WasmObjectFile > > createWasmObjectFile(MemoryBufferRef Object)
Definition: WasmObjectFile.cpp:67

llvm::object::ObjectFile::getSymbolValue
Expected< uint64_t > getSymbolValue(DataRefImpl Symb) const
Definition: ObjectFile.cpp:56

llvm::object::RelocationRef
This is a value type class that represents a single relocation in the list of relocations in the obje...
Definition: ObjectFile.h:52

llvm::object::SectionRef
This is a value type class that represents a single section in the list of sections in the object fil...
Definition: ObjectFile.h:81

llvm::object::SymbolRef
This is a value type class that represents a single symbol in the list of symbols in the object file.
Definition: ObjectFile.h:168

llvm::object::SymbolRef::ST_Other
@ ST_Other
Definition: ObjectFile.h:174

llvm::object::SymbolRef::ST_Function
@ ST_Function
Definition: ObjectFile.h:178

llvm::object::SymbolRef::ST_Data
@ ST_Data
Definition: ObjectFile.h:175

llvm::object::SymbolRef::ST_Debug
@ ST_Debug
Definition: ObjectFile.h:176

llvm::object::WasmObjectFile::symbol_begin
basic_symbol_iterator symbol_begin() const override
Definition: WasmObjectFile.cpp:1594

llvm::object::WasmObjectFile::section_rel_end
relocation_iterator section_rel_end(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1786

llvm::object::WasmObjectFile::moveSymbolNext
void moveSymbolNext(DataRefImpl &Symb) const override
Definition: WasmObjectFile.cpp:1574

llvm::object::WasmObjectFile::getSectionAlignment
uint64_t getSectionAlignment(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1759

llvm::object::WasmObjectFile::getRelocationOffset
uint64_t getRelocationOffset(DataRefImpl Rel) const override
Definition: WasmObjectFile.cpp:1796

llvm::object::WasmObjectFile::getSymbolType
Expected< SymbolRef::Type > getSymbolType(DataRefImpl Symb) const override
Definition: WasmObjectFile.cpp:1672

llvm::object::WasmObjectFile::getWasmSymbolValue
uint64_t getWasmSymbolValue(const WasmSymbol &Sym) const
Definition: WasmObjectFile.cpp:1629

llvm::object::WasmObjectFile::getSymbolValueImpl
uint64_t getSymbolValueImpl(DataRefImpl Symb) const override
Definition: WasmObjectFile.cpp:1657

llvm::object::WasmObjectFile::isSectionText
bool isSectionText(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1767

llvm::object::WasmObjectFile::isSectionBSS
bool isSectionBSS(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1775

llvm::object::WasmObjectFile::symbol_end
basic_symbol_iterator symbol_end() const override
Definition: WasmObjectFile.cpp:1601

llvm::object::WasmObjectFile::getSymbolFlags
Expected< uint32_t > getSymbolFlags(DataRefImpl Symb) const override
Definition: WasmObjectFile.cpp:1576

llvm::object::WasmObjectFile::section_begin
section_iterator section_begin() const override
Definition: WasmObjectFile.cpp:1835

llvm::object::WasmObjectFile::isRelocatableObject
bool isRelocatableObject() const override
True if this is a relocatable object (.o/.obj).
Definition: WasmObjectFile.cpp:1861

llvm::object::WasmObjectFile::moveRelocationNext
void moveRelocationNext(DataRefImpl &Rel) const override
Definition: WasmObjectFile.cpp:1794

llvm::object::WasmObjectFile::getSymbolSectionId
uint32_t getSymbolSectionId(SymbolRef Sym) const
Definition: WasmObjectFile.cpp:1705

llvm::object::WasmObjectFile::isSectionCompressed
bool isSectionCompressed(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1763

llvm::object::WasmObjectFile::isSectionVirtual
bool isSectionVirtual(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1777

llvm::object::WasmObjectFile::getCommonSymbolSizeImpl
uint64_t getCommonSymbolSizeImpl(DataRefImpl Symb) const override
Definition: WasmObjectFile.cpp:1666

llvm::object::WasmObjectFile::getRelocationTypeName
void getRelocationTypeName(DataRefImpl Rel, SmallVectorImpl< char > &Result) const override
Definition: WasmObjectFile.cpp:1816

llvm::object::WasmObjectFile::getFileFormatName
StringRef getFileFormatName() const override
Definition: WasmObjectFile.cpp:1851

llvm::object::WasmObjectFile::getSymbolName
Expected< StringRef > getSymbolName(DataRefImpl Symb) const override
Definition: WasmObjectFile.cpp:1616

llvm::object::WasmObjectFile::section_rel_begin
relocation_iterator section_rel_begin(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1779

llvm::object::WasmObjectFile::getBytesInAddress
uint8_t getBytesInAddress() const override
The number of bytes used to represent an address in this object file format.
Definition: WasmObjectFile.cpp:1847

llvm::object::WasmObjectFile::WasmObjectFile
WasmObjectFile(MemoryBufferRef Object, Error &Err)
Definition: WasmObjectFile.cpp:306

llvm::object::WasmObjectFile::section_end
section_iterator section_end() const override
Definition: WasmObjectFile.cpp:1841

llvm::object::WasmObjectFile::getSectionContents
Expected< ArrayRef< uint8_t > > getSectionContents(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1752

llvm::object::WasmObjectFile::getSectionIndex
uint64_t getSectionIndex(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1742

llvm::object::WasmObjectFile::getSymbolAlignment
uint32_t getSymbolAlignment(DataRefImpl Symb) const override
Definition: WasmObjectFile.cpp:1661

llvm::object::WasmObjectFile::getSectionSize
uint64_t getSectionSize(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1746

llvm::object::WasmObjectFile::getArch
Triple::ArchType getArch() const override
Definition: WasmObjectFile.cpp:1853

llvm::object::WasmObjectFile::getRelocationType
uint64_t getRelocationType(DataRefImpl Rel) const override
Definition: WasmObjectFile.cpp:1811

llvm::object::WasmObjectFile::getWasmSection
const WasmSection & getWasmSection(const SectionRef &Section) const
Definition: WasmObjectFile.cpp:1871

llvm::object::WasmObjectFile::getSymbolSection
Expected< section_iterator > getSymbolSection(DataRefImpl Symb) const override
Definition: WasmObjectFile.cpp:1695

llvm::object::WasmObjectFile::getRelocationSymbol
symbol_iterator getRelocationSymbol(DataRefImpl Rel) const override
Definition: WasmObjectFile.cpp:1801

llvm::object::WasmObjectFile::getFeatures
Expected< SubtargetFeatures > getFeatures() const override
Definition: WasmObjectFile.cpp:1857

llvm::object::WasmObjectFile::getHeader
const wasm::WasmObjectHeader & getHeader() const
Definition: WasmObjectFile.cpp:1570

llvm::object::WasmObjectFile::moveSectionNext
void moveSectionNext(DataRefImpl &Sec) const override
Definition: WasmObjectFile.cpp:1729

llvm::object::WasmObjectFile::isSharedObject
bool isSharedObject() const
Definition: WasmObjectFile.cpp:1863

llvm::object::WasmObjectFile::getWasmRelocation
const wasm::WasmRelocation & getWasmRelocation(const RelocationRef &Ref) const
Definition: WasmObjectFile.cpp:1876

llvm::object::WasmObjectFile::getWasmSymbol
const WasmSymbol & getWasmSymbol(const DataRefImpl &Symb) const
Definition: WasmObjectFile.cpp:1608

llvm::object::WasmObjectFile::getSectionAddress
uint64_t getSectionAddress(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1740

llvm::object::WasmObjectFile::getSymbolAddress
Expected< uint64_t > getSymbolAddress(DataRefImpl Symb) const override
Definition: WasmObjectFile.cpp:1620

llvm::object::WasmObjectFile::isSectionData
bool isSectionData(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1771

llvm::object::WasmObjectFile::getSectionName
Expected< StringRef > getSectionName(DataRefImpl Sec) const override
Definition: WasmObjectFile.cpp:1731

llvm::object::WasmSectionOrderChecker
Definition: Wasm.h:307

llvm::object::WasmSectionOrderChecker::isValidSectionOrder
bool isValidSectionOrder(unsigned ID, StringRef CustomSectionName="")
Definition: WasmObjectFile.cpp:1980

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_TYPE
@ WASM_SEC_ORDER_TYPE
Definition: Wasm.h:315

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_TARGET_FEATURES
@ WASM_SEC_ORDER_TARGET_FEATURES
Definition: Wasm.h:342

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_NONE
@ WASM_SEC_ORDER_NONE
Definition: Wasm.h:312

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_MEMORY
@ WASM_SEC_ORDER_MEMORY
Definition: Wasm.h:319

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_PRODUCERS
@ WASM_SEC_ORDER_PRODUCERS
Definition: Wasm.h:340

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_CODE
@ WASM_SEC_ORDER_CODE
Definition: Wasm.h:326

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_START
@ WASM_SEC_ORDER_START
Definition: Wasm.h:323

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_RELOC
@ WASM_SEC_ORDER_RELOC
Definition: Wasm.h:335

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_NAME
@ WASM_SEC_ORDER_NAME
Definition: Wasm.h:338

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_DYLINK
@ WASM_SEC_ORDER_DYLINK
Definition: Wasm.h:331

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_LINKING
@ WASM_SEC_ORDER_LINKING
Definition: Wasm.h:333

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_DATA
@ WASM_SEC_ORDER_DATA
Definition: Wasm.h:327

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_TABLE
@ WASM_SEC_ORDER_TABLE
Definition: Wasm.h:318

llvm::object::WasmSectionOrderChecker::WASM_NUM_SEC_ORDERS
@ WASM_NUM_SEC_ORDERS
Definition: Wasm.h:345

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_ELEM
@ WASM_SEC_ORDER_ELEM
Definition: Wasm.h:324

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_GLOBAL
@ WASM_SEC_ORDER_GLOBAL
Definition: Wasm.h:321

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_EXPORT
@ WASM_SEC_ORDER_EXPORT
Definition: Wasm.h:322

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_TAG
@ WASM_SEC_ORDER_TAG
Definition: Wasm.h:320

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_IMPORT
@ WASM_SEC_ORDER_IMPORT
Definition: Wasm.h:316

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_DATACOUNT
@ WASM_SEC_ORDER_DATACOUNT
Definition: Wasm.h:325

llvm::object::WasmSectionOrderChecker::WASM_SEC_ORDER_FUNCTION
@ WASM_SEC_ORDER_FUNCTION
Definition: Wasm.h:317

llvm::object::WasmSectionOrderChecker::DisallowedPredecessors
static int DisallowedPredecessors[WASM_NUM_SEC_ORDERS][WASM_NUM_SEC_ORDERS]
Definition: Wasm.h:350

llvm::object::WasmSymbol
Definition: Wasm.h:35

llvm::object::WasmSymbol::getBinding
unsigned getBinding() const
Definition: Wasm.h:85

llvm::object::WasmSymbol::dump
LLVM_DUMP_METHOD void dump() const
Definition: WasmObjectFile.cpp:63

llvm::object::WasmSymbol::isTypeData
bool isTypeData() const
Definition: Wasm.h:55

llvm::object::WasmSymbol::Info
const wasm::WasmSymbolInfo & Info
Definition: Wasm.h:44

llvm::object::WasmSymbol::isHidden
bool isHidden() const
Definition: Wasm.h:89

llvm::object::WasmSymbol::print
void print(raw_ostream &Out) const
Definition: WasmObjectFile.cpp:38

llvm::object::WasmSymbol::isDefined
bool isDefined() const
Definition: Wasm.h:67

llvm::object::content_iterator
Definition: SymbolicFile.h:69

llvm::object::symbol_iterator
Definition: ObjectFile.h:208

llvm::raw_ostream
This class implements an extremely fast bulk output stream that can only output to a stream.
Definition: raw_ostream.h:52

uint32_t

uint64_t

unsigned

Error.h

ErrorHandling.h

llvm_unreachable
#define llvm_unreachable(msg)
Marks that the current location is not supposed to be reachable.
Definition: ErrorHandling.h:143

Error.h

llvm::ARMBuildAttrs::Section
@ Section
Legacy Tags.
Definition: ARMBuildAttributes.h:82

llvm::ARM::WinEH::ReturnType
ReturnType
Definition: ARMWinEH.h:25

llvm::IndexedInstrProf::Version
const uint64_t Version
Definition: InstrProf.h:1027

llvm::dwarf::toString
std::optional< const char * > toString(const std::optional< DWARFFormValue > &V)
Take an optional DWARFFormValue and try to extract a string value from it.
Definition: DWARFFormValue.h:179

llvm::dwarf::Index
Index
Definition: Dwarf.h:558

llvm::dwarf::Form
Form
Definition: Dwarf.h:130

llvm::dwarf::Tag
Tag
Definition: Dwarf.h:103

llvm::object::Kind
Kind
Definition: COFFModuleDefinition.cpp:31

llvm::object::object_error::invalid_section_index
@ invalid_section_index

llvm::object::object_error::parse_failed
@ parse_failed

llvm::object::section_iterator
content_iterator< SectionRef > section_iterator
Definition: ObjectFile.h:47

llvm::object::relocation_iterator
content_iterator< RelocationRef > relocation_iterator
Definition: ObjectFile.h:77

llvm::omp::RTLDependInfoFields::Flags
@ Flags

llvm::support::endian::read32le
uint32_t read32le(const void *P)
Definition: Endian.h:409

llvm::wasm::WASM_INIT_FUNCS
@ WASM_INIT_FUNCS
Definition: Wasm.h:361

llvm::wasm::WASM_COMDAT_INFO
@ WASM_COMDAT_INFO
Definition: Wasm.h:362

llvm::wasm::WASM_SEGMENT_INFO
@ WASM_SEGMENT_INFO
Definition: Wasm.h:360

llvm::wasm::WASM_SYMBOL_TABLE
@ WASM_SYMBOL_TABLE
Definition: Wasm.h:363

llvm::wasm::WASM_SYMBOL_UNDEFINED
const unsigned WASM_SYMBOL_UNDEFINED
Definition: Wasm.h:410

llvm::wasm::ValType
ValType
Definition: Wasm.h:426

llvm::wasm::ValType::EXTERNREF
@ EXTERNREF

llvm::wasm::ValType::FUNCREF
@ FUNCREF

llvm::wasm::WASM_COMDAT_SECTION
@ WASM_COMDAT_SECTION
Definition: Wasm.h:379

llvm::wasm::WASM_COMDAT_FUNCTION
@ WASM_COMDAT_FUNCTION
Definition: Wasm.h:377

llvm::wasm::WASM_COMDAT_DATA
@ WASM_COMDAT_DATA
Definition: Wasm.h:376

llvm::wasm::WASM_FEATURE_PREFIX_USED
@ WASM_FEATURE_PREFIX_USED
Definition: Wasm.h:344

llvm::wasm::WASM_FEATURE_PREFIX_REQUIRED
@ WASM_FEATURE_PREFIX_REQUIRED
Definition: Wasm.h:345

llvm::wasm::WASM_FEATURE_PREFIX_DISALLOWED
@ WASM_FEATURE_PREFIX_DISALLOWED
Definition: Wasm.h:346

llvm::wasm::WASM_DATA_SEGMENT_IS_PASSIVE
@ WASM_DATA_SEGMENT_IS_PASSIVE
Definition: Wasm.h:331

llvm::wasm::WASM_DATA_SEGMENT_HAS_MEMINDEX
@ WASM_DATA_SEGMENT_HAS_MEMINDEX
Definition: Wasm.h:332

llvm::wasm::WASM_OPCODE_I64_ADD
@ WASM_OPCODE_I64_ADD
Definition: Wasm.h:299

llvm::wasm::WASM_OPCODE_I32_SUB
@ WASM_OPCODE_I32_SUB
Definition: Wasm.h:297

llvm::wasm::WASM_OPCODE_F64_CONST
@ WASM_OPCODE_F64_CONST
Definition: Wasm.h:295

llvm::wasm::WASM_OPCODE_END
@ WASM_OPCODE_END
Definition: Wasm.h:283

llvm::wasm::WASM_OPCODE_I64_MUL
@ WASM_OPCODE_I64_MUL
Definition: Wasm.h:301

llvm::wasm::WASM_OPCODE_REF_NULL
@ WASM_OPCODE_REF_NULL
Definition: Wasm.h:302

llvm::wasm::WASM_OPCODE_F32_CONST
@ WASM_OPCODE_F32_CONST
Definition: Wasm.h:294

llvm::wasm::WASM_OPCODE_GLOBAL_GET
@ WASM_OPCODE_GLOBAL_GET
Definition: Wasm.h:288

llvm::wasm::WASM_OPCODE_I64_SUB
@ WASM_OPCODE_I64_SUB
Definition: Wasm.h:300

llvm::wasm::WASM_OPCODE_I32_MUL
@ WASM_OPCODE_I32_MUL
Definition: Wasm.h:298

llvm::wasm::WASM_OPCODE_I32_ADD
@ WASM_OPCODE_I32_ADD
Definition: Wasm.h:296

llvm::wasm::WASM_OPCODE_I64_CONST
@ WASM_OPCODE_I64_CONST
Definition: Wasm.h:293

llvm::wasm::WASM_OPCODE_I32_CONST
@ WASM_OPCODE_I32_CONST
Definition: Wasm.h:292

llvm::wasm::WASM_NAMES_LOCAL
@ WASM_NAMES_LOCAL
Definition: Wasm.h:353

llvm::wasm::WASM_NAMES_DATA_SEGMENT
@ WASM_NAMES_DATA_SEGMENT
Definition: Wasm.h:355

llvm::wasm::WASM_NAMES_GLOBAL
@ WASM_NAMES_GLOBAL
Definition: Wasm.h:354

llvm::wasm::WASM_NAMES_FUNCTION
@ WASM_NAMES_FUNCTION
Definition: Wasm.h:352

llvm::wasm::WASM_SYMBOL_BINDING_GLOBAL
const unsigned WASM_SYMBOL_BINDING_GLOBAL
Definition: Wasm.h:405

llvm::wasm::WASM_ELEM_SEGMENT_MASK_HAS_ELEM_KIND
const unsigned WASM_ELEM_SEGMENT_MASK_HAS_ELEM_KIND
Definition: Wasm.h:340

llvm::wasm::WASM_LIMITS_FLAG_HAS_MAX
@ WASM_LIMITS_FLAG_HAS_MAX
Definition: Wasm.h:325

llvm::wasm::WASM_LIMITS_FLAG_IS_64
@ WASM_LIMITS_FLAG_IS_64
Definition: Wasm.h:327

llvm::wasm::WasmMetadataVersion
const uint32_t WasmMetadataVersion
Definition: Wasm.h:30

llvm::wasm::WASM_SYMBOL_BINDING_WEAK
const unsigned WASM_SYMBOL_BINDING_WEAK
Definition: Wasm.h:406

llvm::wasm::WASM_SYMBOL_BINDING_LOCAL
const unsigned WASM_SYMBOL_BINDING_LOCAL
Definition: Wasm.h:407

llvm::wasm::WasmSymbolType
WasmSymbolType
Definition: Wasm.h:383

llvm::wasm::WASM_SYMBOL_TYPE_GLOBAL
@ WASM_SYMBOL_TYPE_GLOBAL
Definition: Wasm.h:386

llvm::wasm::WASM_SYMBOL_TYPE_DATA
@ WASM_SYMBOL_TYPE_DATA
Definition: Wasm.h:385

llvm::wasm::WASM_SYMBOL_TYPE_TAG
@ WASM_SYMBOL_TYPE_TAG
Definition: Wasm.h:388

llvm::wasm::WASM_SYMBOL_TYPE_TABLE
@ WASM_SYMBOL_TYPE_TABLE
Definition: Wasm.h:389

llvm::wasm::WASM_SYMBOL_TYPE_SECTION
@ WASM_SYMBOL_TYPE_SECTION
Definition: Wasm.h:387

llvm::wasm::WASM_SYMBOL_TYPE_FUNCTION
@ WASM_SYMBOL_TYPE_FUNCTION
Definition: Wasm.h:384

llvm::wasm::WasmVersion
const uint32_t WasmVersion
Definition: Wasm.h:28

llvm::wasm::WASM_ELEM_SEGMENT_HAS_INIT_EXPRS
@ WASM_ELEM_SEGMENT_HAS_INIT_EXPRS
Definition: Wasm.h:338

llvm::wasm::WASM_ELEM_SEGMENT_HAS_TABLE_NUMBER
@ WASM_ELEM_SEGMENT_HAS_TABLE_NUMBER
Definition: Wasm.h:337

llvm::wasm::WASM_ELEM_SEGMENT_IS_PASSIVE
@ WASM_ELEM_SEGMENT_IS_PASSIVE
Definition: Wasm.h:336

llvm::wasm::WASM_DYLINK_NEEDED
@ WASM_DYLINK_NEEDED
Definition: Wasm.h:369

llvm::wasm::WASM_DYLINK_MEM_INFO
@ WASM_DYLINK_MEM_INFO
Definition: Wasm.h:368

llvm::wasm::WASM_DYLINK_EXPORT_INFO
@ WASM_DYLINK_EXPORT_INFO
Definition: Wasm.h:370

llvm::wasm::WASM_DYLINK_IMPORT_INFO
@ WASM_DYLINK_IMPORT_INFO
Definition: Wasm.h:371

llvm::wasm::WASM_SYMBOL_BINDING_MASK
const unsigned WASM_SYMBOL_BINDING_MASK
Definition: Wasm.h:402

llvm::wasm::NameType
NameType
Definition: Wasm.h:222

llvm::wasm::NameType::DATA_SEGMENT
@ DATA_SEGMENT

llvm::wasm::NameType::FUNCTION
@ FUNCTION

llvm::wasm::NameType::GLOBAL
@ GLOBAL

llvm::wasm::WASM_TYPE_FUNCREF
@ WASM_TYPE_FUNCREF
Definition: Wasm.h:266

llvm::wasm::WASM_TYPE_EXTERNREF
@ WASM_TYPE_EXTERNREF
Definition: Wasm.h:267

llvm::wasm::WASM_TYPE_FUNC
@ WASM_TYPE_FUNC
Definition: Wasm.h:268

llvm::wasm::WASM_SEC_CODE
@ WASM_SEC_CODE
Definition: Wasm.h:252

llvm::wasm::WASM_SEC_MEMORY
@ WASM_SEC_MEMORY
Definition: Wasm.h:247

llvm::wasm::WASM_SEC_IMPORT
@ WASM_SEC_IMPORT
Definition: Wasm.h:244

llvm::wasm::WASM_SEC_EXPORT
@ WASM_SEC_EXPORT
Definition: Wasm.h:249

llvm::wasm::WASM_SEC_DATACOUNT
@ WASM_SEC_DATACOUNT
Definition: Wasm.h:254

llvm::wasm::WASM_SEC_LAST_KNOWN
@ WASM_SEC_LAST_KNOWN
Definition: Wasm.h:256

llvm::wasm::WASM_SEC_CUSTOM
@ WASM_SEC_CUSTOM
Definition: Wasm.h:242

llvm::wasm::WASM_SEC_FUNCTION
@ WASM_SEC_FUNCTION
Definition: Wasm.h:245

llvm::wasm::WASM_SEC_ELEM
@ WASM_SEC_ELEM
Definition: Wasm.h:251

llvm::wasm::WASM_SEC_START
@ WASM_SEC_START
Definition: Wasm.h:250

llvm::wasm::WASM_SEC_TABLE
@ WASM_SEC_TABLE
Definition: Wasm.h:246

llvm::wasm::WASM_SEC_TYPE
@ WASM_SEC_TYPE
Definition: Wasm.h:243

llvm::wasm::WASM_SEC_TAG
@ WASM_SEC_TAG
Definition: Wasm.h:255

llvm::wasm::WASM_SEC_GLOBAL
@ WASM_SEC_GLOBAL
Definition: Wasm.h:248

llvm::wasm::WASM_SEC_DATA
@ WASM_SEC_DATA
Definition: Wasm.h:253

llvm::wasm::WASM_EXTERNAL_TABLE
@ WASM_EXTERNAL_TABLE
Definition: Wasm.h:275

llvm::wasm::WASM_EXTERNAL_FUNCTION
@ WASM_EXTERNAL_FUNCTION
Definition: Wasm.h:274

llvm::wasm::WASM_EXTERNAL_TAG
@ WASM_EXTERNAL_TAG
Definition: Wasm.h:278

llvm::wasm::WASM_EXTERNAL_MEMORY
@ WASM_EXTERNAL_MEMORY
Definition: Wasm.h:276

llvm::wasm::WASM_EXTERNAL_GLOBAL
@ WASM_EXTERNAL_GLOBAL
Definition: Wasm.h:277

llvm::wasm::sectionTypeToString
llvm::StringRef sectionTypeToString(uint32_t type)
Definition: Wasm.cpp:41

llvm::wasm::WASM_SYMBOL_EXPLICIT_NAME
const unsigned WASM_SYMBOL_EXPLICIT_NAME
Definition: Wasm.h:412

llvm::wasm::WASM_SYMBOL_ABSOLUTE
const unsigned WASM_SYMBOL_ABSOLUTE
Definition: Wasm.h:415

llvm
This is an optimization pass for GlobalISel generic memory operations.
Definition: AddressRanges.h:18

llvm::Offset
@ Offset
Definition: DWP.cpp:456

llvm::to_string
std::string to_string(const T &Value)
Definition: ScopedPrinter.h:85

llvm::FeatureCount
@ FeatureCount
Definition: MLRegAllocPriorityAdvisor.cpp:88

llvm::decodeULEB128
uint64_t decodeULEB128(const uint8_t *p, unsigned *n=nullptr, const uint8_t *end=nullptr, const char **error=nullptr)
Utility function to decode a ULEB128 value.
Definition: LEB128.h:131

llvm::PassSummaryAction::Import
@ Import
Import information from summary.

llvm::decodeSLEB128
int64_t decodeSLEB128(const uint8_t *p, unsigned *n=nullptr, const uint8_t *end=nullptr, const char **error=nullptr)
Utility function to decode a SLEB128 value.
Definition: LEB128.h:165

llvm::createStringError
Error createStringError(std::error_code EC, char const *Fmt, const Ts &... Vals)
Create formatted StringError object.
Definition: Error.h:1244

llvm::dbgs
raw_ostream & dbgs()
dbgs() - This returns a reference to a raw_ostream for debugging messages.
Definition: Debug.cpp:163

llvm::report_fatal_error
void report_fatal_error(Error Err, bool gen_crash_diag=true)
Report a serious error, calling any installed error handler.
Definition: Error.cpp:156

llvm::AsanDtorKind::Global
@ Global
Append to llvm.global_dtors.

llvm::ModRefInfo::Ref
@ Ref
The access may reference the value stored in memory.

llvm::SectionName
Definition: DWARFSection.h:21

llvm::object::WasmObjectFile::ReadContext
Definition: Wasm.h:214

llvm::object::WasmObjectFile::ReadContext::End
const uint8_t * End
Definition: Wasm.h:217

llvm::object::WasmObjectFile::ReadContext::Start
const uint8_t * Start
Definition: Wasm.h:215

llvm::object::WasmObjectFile::ReadContext::Ptr
const uint8_t * Ptr
Definition: Wasm.h:216

llvm::object::WasmSection
Definition: Wasm.h:104

llvm::object::WasmSection::Content
ArrayRef< uint8_t > Content
Definition: Wasm.h:111

llvm::object::WasmSection::Name
StringRef Name
Definition: Wasm.h:109

llvm::object::WasmSection::Relocations
std::vector< wasm::WasmRelocation > Relocations
Definition: Wasm.h:112

llvm::object::WasmSection::Type
uint32_t Type
Definition: Wasm.h:107

llvm::object::WasmSegment
Definition: Wasm.h:117

llvm::object::WasmSegment::Data
wasm::WasmDataSegment Data
Definition: Wasm.h:119

llvm::object::WasmSegment::SectionOffset
uint32_t SectionOffset
Definition: Wasm.h:118

llvm::wasm::WasmDataReference
Definition: Wasm.h:185

llvm::wasm::WasmDataReference::Size
uint64_t Size
Definition: Wasm.h:188

llvm::wasm::WasmDataReference::Segment
uint32_t Segment
Definition: Wasm.h:186

llvm::wasm::WasmDataReference::Offset
uint64_t Offset
Definition: Wasm.h:187

llvm::wasm::WasmDataSegment
Definition: Wasm.h:161

llvm::wasm::WasmDataSegment::MemoryIndex
uint32_t MemoryIndex
Definition: Wasm.h:164

llvm::wasm::WasmDataSegment::LinkingFlags
uint32_t LinkingFlags
Definition: Wasm.h:171

llvm::wasm::WasmDataSegment::Content
ArrayRef< uint8_t > Content
Definition: Wasm.h:168

llvm::wasm::WasmDataSegment::Alignment
uint32_t Alignment
Definition: Wasm.h:170

llvm::wasm::WasmDataSegment::InitFlags
uint32_t InitFlags
Definition: Wasm.h:162

llvm::wasm::WasmDataSegment::Comdat
uint32_t Comdat
Definition: Wasm.h:172

llvm::wasm::WasmDataSegment::Offset
WasmInitExpr Offset
Definition: Wasm.h:166

llvm::wasm::WasmDebugName
Definition: Wasm.h:228

llvm::wasm::WasmDylinkInfo::MemoryAlignment
uint32_t MemoryAlignment
Definition: Wasm.h:52

llvm::wasm::WasmDylinkInfo::Needed
std::vector< StringRef > Needed
Definition: Wasm.h:55

llvm::wasm::WasmDylinkInfo::TableSize
uint32_t TableSize
Definition: Wasm.h:53

llvm::wasm::WasmDylinkInfo::ExportInfo
std::vector< WasmDylinkExportInfo > ExportInfo
Definition: Wasm.h:57

llvm::wasm::WasmDylinkInfo::ImportInfo
std::vector< WasmDylinkImportInfo > ImportInfo
Definition: Wasm.h:56

llvm::wasm::WasmDylinkInfo::TableAlignment
uint32_t TableAlignment
Definition: Wasm.h:54

llvm::wasm::WasmDylinkInfo::MemorySize
uint32_t MemorySize
Definition: Wasm.h:51

llvm::wasm::WasmElemSegment
Definition: Wasm.h:175

llvm::wasm::WasmElemSegment::ElemKind
uint8_t ElemKind
Definition: Wasm.h:178

llvm::wasm::WasmElemSegment::Offset
WasmInitExpr Offset
Definition: Wasm.h:179

llvm::wasm::WasmElemSegment::Functions
std::vector< uint32_t > Functions
Definition: Wasm.h:180

llvm::wasm::WasmElemSegment::Flags
uint32_t Flags
Definition: Wasm.h:176

llvm::wasm::WasmElemSegment::TableNumber
uint32_t TableNumber
Definition: Wasm.h:177

llvm::wasm::WasmExport
Definition: Wasm.h:71

llvm::wasm::WasmExport::Name
StringRef Name
Definition: Wasm.h:72

llvm::wasm::WasmExport::Kind
uint8_t Kind
Definition: Wasm.h:73

llvm::wasm::WasmExport::Index
uint32_t Index
Definition: Wasm.h:74

llvm::wasm::WasmFeatureEntry
Definition: Wasm.h:66

llvm::wasm::WasmFeatureEntry::Prefix
uint8_t Prefix
Definition: Wasm.h:67

llvm::wasm::WasmFeatureEntry::Name
std::string Name
Definition: Wasm.h:68

llvm::wasm::WasmFunction
Definition: Wasm.h:147

llvm::wasm::WasmFunction::ExportName
std::optional< StringRef > ExportName
Definition: Wasm.h:155

llvm::wasm::WasmFunction::Comdat
uint32_t Comdat
Definition: Wasm.h:158

llvm::wasm::WasmFunction::CodeSectionOffset
uint32_t CodeSectionOffset
Definition: Wasm.h:152

llvm::wasm::WasmFunction::DebugName
StringRef DebugName
Definition: Wasm.h:157

llvm::wasm::WasmGlobalType
Definition: Wasm.h:112

llvm::wasm::WasmGlobalType::Mutable
bool Mutable
Definition: Wasm.h:114

llvm::wasm::WasmGlobalType::Type
uint8_t Type
Definition: Wasm.h:113

llvm::wasm::WasmGlobal
Definition: Wasm.h:117

llvm::wasm::WasmImport
Definition: Wasm.h:130

llvm::wasm::WasmImport::Memory
WasmLimits Memory
Definition: Wasm.h:138

llvm::wasm::WasmImport::Kind
uint8_t Kind
Definition: Wasm.h:133

llvm::wasm::WasmImport::Field
StringRef Field
Definition: Wasm.h:132

llvm::wasm::WasmImport::Global
WasmGlobalType Global
Definition: Wasm.h:136

llvm::wasm::WasmImport::Module
StringRef Module
Definition: Wasm.h:131

llvm::wasm::WasmImport::SigIndex
uint32_t SigIndex
Definition: Wasm.h:135

llvm::wasm::WasmImport::Table
WasmTableType Table
Definition: Wasm.h:137

llvm::wasm::WasmInitExprMVP::Int32
int32_t Int32
Definition: Wasm.h:97

llvm::wasm::WasmInitExprMVP::Opcode
uint8_t Opcode
Definition: Wasm.h:95

llvm::wasm::WasmInitExprMVP::Float32
uint32_t Float32
Definition: Wasm.h:99

llvm::wasm::WasmInitExprMVP::Int64
int64_t Int64
Definition: Wasm.h:98

llvm::wasm::WasmInitExprMVP::Global
uint32_t Global
Definition: Wasm.h:101

llvm::wasm::WasmInitExprMVP::Value
union llvm::wasm::WasmInitExprMVP::@178 Value

llvm::wasm::WasmInitExprMVP::Float64
uint64_t Float64
Definition: Wasm.h:100

llvm::wasm::WasmInitExpr
Definition: Wasm.h:105

llvm::wasm::WasmInitExpr::Extended
uint8_t Extended
Definition: Wasm.h:106

llvm::wasm::WasmInitExpr::Inst
WasmInitExprMVP Inst
Definition: Wasm.h:108

llvm::wasm::WasmInitExpr::Body
ArrayRef< uint8_t > Body
Definition: Wasm.h:109

llvm::wasm::WasmInitFunc
Definition: Wasm.h:198

llvm::wasm::WasmLimits
Definition: Wasm.h:77

llvm::wasm::WasmLimits::Flags
uint8_t Flags
Definition: Wasm.h:78

llvm::wasm::WasmLinkingData::SymbolTable
std::vector< WasmSymbolInfo > SymbolTable
Definition: Wasm.h:238

llvm::wasm::WasmLinkingData::InitFunctions
std::vector< WasmInitFunc > InitFunctions
Definition: Wasm.h:236

llvm::wasm::WasmLinkingData::Version
uint32_t Version
Definition: Wasm.h:235

llvm::wasm::WasmLinkingData::Comdats
std::vector< StringRef > Comdats
Definition: Wasm.h:237

llvm::wasm::WasmLocalDecl
Definition: Wasm.h:142

llvm::wasm::WasmLocalDecl::Count
uint32_t Count
Definition: Wasm.h:144

llvm::wasm::WasmLocalDecl::Type
uint8_t Type
Definition: Wasm.h:143

llvm::wasm::WasmObjectHeader
Definition: Wasm.h:34

llvm::wasm::WasmObjectHeader::Magic
StringRef Magic
Definition: Wasm.h:35

llvm::wasm::WasmObjectHeader::Version
uint32_t Version
Definition: Wasm.h:36

llvm::wasm::WasmProducerInfo::SDKs
std::vector< std::pair< std::string, std::string > > SDKs
Definition: Wasm.h:63

llvm::wasm::WasmProducerInfo::Languages
std::vector< std::pair< std::string, std::string > > Languages
Definition: Wasm.h:61

llvm::wasm::WasmProducerInfo::Tools
std::vector< std::pair< std::string, std::string > > Tools
Definition: Wasm.h:62

llvm::wasm::WasmRelocation
Definition: Wasm.h:191

llvm::wasm::WasmRelocation::Addend
int64_t Addend
Definition: Wasm.h:195

llvm::wasm::WasmRelocation::Type
uint8_t Type
Definition: Wasm.h:192

llvm::wasm::WasmRelocation::Offset
uint64_t Offset
Definition: Wasm.h:194

llvm::wasm::WasmRelocation::Index
uint32_t Index
Definition: Wasm.h:193

llvm::wasm::WasmSignature
Definition: Wasm.h:436

llvm::wasm::WasmSignature::Returns
SmallVector< ValType, 1 > Returns
Definition: Wasm.h:437

llvm::wasm::WasmSignature::Params
SmallVector< ValType, 4 > Params
Definition: Wasm.h:438

llvm::wasm::WasmSymbolInfo
Definition: Wasm.h:203

llvm::wasm::WasmSymbolInfo::Flags
uint32_t Flags
Definition: Wasm.h:206

llvm::wasm::WasmSymbolInfo::DataRef
WasmDataReference DataRef
Definition: Wasm.h:218

llvm::wasm::WasmSymbolInfo::Name
StringRef Name
Definition: Wasm.h:204

llvm::wasm::WasmSymbolInfo::Kind
uint8_t Kind
Definition: Wasm.h:205

llvm::wasm::WasmSymbolInfo::ElementIndex
uint32_t ElementIndex
Definition: Wasm.h:216

llvm::wasm::WasmTableType
Definition: Wasm.h:83

llvm::wasm::WasmTableType::Limits
WasmLimits Limits
Definition: Wasm.h:85

llvm::wasm::WasmTableType::ElemType
uint8_t ElemType
Definition: Wasm.h:84

llvm::wasm::WasmTable
Definition: Wasm.h:88

llvm::wasm::WasmTable::Type
WasmTableType Type
Definition: Wasm.h:90

llvm::wasm::WasmTable::SymbolName
StringRef SymbolName
Definition: Wasm.h:91

llvm::wasm::WasmTag
Definition: Wasm.h:124

llvm::object::DataRefImpl
Definition: SymbolicFile.h:35

llvm::object::DataRefImpl::b
uint32_t b
Definition: SymbolicFile.h:39

llvm::object::DataRefImpl::d
struct llvm::object::DataRefImpl::@353 d

llvm::object::DataRefImpl::a
uint32_t a
Definition: SymbolicFile.h:39