CodeGen/AsmPrinter/CodeViewDebug.cpp

fb69e66cSEugene Zelenko//===- llvm/lib/CodeGen/AsmPrinter/CodeViewDebug.cpp ----------------------===//
70f5bc99SReid Kleckner//
2946cd70SChandler Carruth// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
2946cd70SChandler Carruth// See https://llvm.org/LICENSE.txt for license information.
2946cd70SChandler Carruth// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
70f5bc99SReid Kleckner//
70f5bc99SReid Kleckner//===----------------------------------------------------------------------===//
70f5bc99SReid Kleckner//
70f5bc99SReid Kleckner// This file contains support for writing Microsoft CodeView debug info.
70f5bc99SReid Kleckner//
70f5bc99SReid Kleckner//===----------------------------------------------------------------------===//
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner#include "CodeViewDebug.h"
032d2381SAdrian Prantl#include "DwarfExpression.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/APSInt.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/ArrayRef.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/DenseMap.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/DenseSet.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/MapVector.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/None.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/Optional.h"
b3bde2eaSDavid Blaikie#include "llvm/ADT/STLExtras.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/SmallString.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/SmallVector.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/StringRef.h"
156a7239SReid Kleckner#include "llvm/ADT/TinyPtrVector.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/Triple.h"
fb69e66cSEugene Zelenko#include "llvm/ADT/Twine.h"
264b5d9eSZachary Turner#include "llvm/BinaryFormat/COFF.h"
264b5d9eSZachary Turner#include "llvm/BinaryFormat/Dwarf.h"
fb69e66cSEugene Zelenko#include "llvm/CodeGen/AsmPrinter.h"
fb69e66cSEugene Zelenko#include "llvm/CodeGen/LexicalScopes.h"
9ea2c012SReid Kleckner#include "llvm/CodeGen/MachineFrameInfo.h"
fb69e66cSEugene Zelenko#include "llvm/CodeGen/MachineFunction.h"
fb69e66cSEugene Zelenko#include "llvm/CodeGen/MachineInstr.h"
fb69e66cSEugene Zelenko#include "llvm/CodeGen/MachineModuleInfo.h"
fb69e66cSEugene Zelenko#include "llvm/CodeGen/MachineOperand.h"
b3bde2eaSDavid Blaikie#include "llvm/CodeGen/TargetFrameLowering.h"
b3bde2eaSDavid Blaikie#include "llvm/CodeGen/TargetRegisterInfo.h"
b3bde2eaSDavid Blaikie#include "llvm/CodeGen/TargetSubtargetInfo.h"
fb69e66cSEugene Zelenko#include "llvm/Config/llvm-config.h"
c92e9469SReid Kleckner#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
70f5bc99SReid Kleckner#include "llvm/DebugInfo/CodeView/CodeView.h"
6900de1dSZachary Turner#include "llvm/DebugInfo/CodeView/ContinuationRecordBuilder.h"
8c099fe0SZachary Turner#include "llvm/DebugInfo/CodeView/DebugInlineeLinesSubsection.h"
5bf71d11SReid Kleckner#include "llvm/DebugInfo/CodeView/EnumTables.h"
2214ed89SReid Kleckner#include "llvm/DebugInfo/CodeView/Line.h"
70f5bc99SReid Kleckner#include "llvm/DebugInfo/CodeView/SymbolRecord.h"
629cb7d8SZachary Turner#include "llvm/DebugInfo/CodeView/TypeDumpVisitor.h"
f3b9ba49SReid Kleckner#include "llvm/DebugInfo/CodeView/TypeIndex.h"
f3b9ba49SReid Kleckner#include "llvm/DebugInfo/CodeView/TypeRecord.h"
526f4f2aSZachary Turner#include "llvm/DebugInfo/CodeView/TypeTableCollection.h"
9319cbc0SDavid Majnemer#include "llvm/IR/Constants.h"
fb69e66cSEugene Zelenko#include "llvm/IR/DataLayout.h"
fb69e66cSEugene Zelenko#include "llvm/IR/DebugInfoMetadata.h"
fb69e66cSEugene Zelenko#include "llvm/IR/DebugLoc.h"
fb69e66cSEugene Zelenko#include "llvm/IR/Function.h"
fb69e66cSEugene Zelenko#include "llvm/IR/GlobalValue.h"
fb69e66cSEugene Zelenko#include "llvm/IR/GlobalVariable.h"
fb69e66cSEugene Zelenko#include "llvm/IR/Metadata.h"
fb69e66cSEugene Zelenko#include "llvm/IR/Module.h"
46cb48c7SReid Kleckner#include "llvm/MC/MCAsmInfo.h"
fb69e66cSEugene Zelenko#include "llvm/MC/MCContext.h"
5d122f87SReid Kleckner#include "llvm/MC/MCSectionCOFF.h"
fb69e66cSEugene Zelenko#include "llvm/MC/MCStreamer.h"
70f5bc99SReid Kleckner#include "llvm/MC/MCSymbol.h"
264b5d9eSZachary Turner#include "llvm/Support/BinaryByteStream.h"
264b5d9eSZachary Turner#include "llvm/Support/BinaryStreamReader.h"
fb69e66cSEugene Zelenko#include "llvm/Support/Casting.h"
048f8f99SZachary Turner#include "llvm/Support/CommandLine.h"
fb69e66cSEugene Zelenko#include "llvm/Support/Compiler.h"
fb69e66cSEugene Zelenko#include "llvm/Support/Endian.h"
fb69e66cSEugene Zelenko#include "llvm/Support/Error.h"
fb69e66cSEugene Zelenko#include "llvm/Support/ErrorHandling.h"
048f8f99SZachary Turner#include "llvm/Support/FormatVariadic.h"
5bba1cafSZachary Turner#include "llvm/Support/Path.h"
fb69e66cSEugene Zelenko#include "llvm/Support/SMLoc.h"
b3bde2eaSDavid Blaikie#include "llvm/Support/ScopedPrinter.h"
6054e650SDavid Blaikie#include "llvm/Target/TargetLoweringObjectFile.h"
fb69e66cSEugene Zelenko#include "llvm/Target/TargetMachine.h"
fb69e66cSEugene Zelenko#include <algorithm>
fb69e66cSEugene Zelenko#include <cassert>
fb69e66cSEugene Zelenko#include <cctype>
fb69e66cSEugene Zelenko#include <cstddef>
fb69e66cSEugene Zelenko#include <cstdint>
fb69e66cSEugene Zelenko#include <iterator>
fb69e66cSEugene Zelenko#include <limits>
fb69e66cSEugene Zelenko#include <string>
fb69e66cSEugene Zelenko#include <utility>
fb69e66cSEugene Zelenko#include <vector>
70f5bc99SReid Kleckner
f9c275feSReid Klecknerusing namespace llvm;
70f5bc99SReid Klecknerusing namespace llvm::codeview;
70f5bc99SReid Kleckner
9ea2c012SReid Klecknerstatic CPUType mapArchToCVCPUType(Triple::ArchType Type) {
9ea2c012SReid Kleckner  switch (Type) {
9ea2c012SReid Kleckner  case Triple::ArchType::x86:
9ea2c012SReid Kleckner    return CPUType::Pentium3;
9ea2c012SReid Kleckner  case Triple::ArchType::x86_64:
9ea2c012SReid Kleckner    return CPUType::X64;
9ea2c012SReid Kleckner  case Triple::ArchType::thumb:
9ea2c012SReid Kleckner    return CPUType::Thumb;
9ea2c012SReid Kleckner  case Triple::ArchType::aarch64:
9ea2c012SReid Kleckner    return CPUType::ARM64;
9ea2c012SReid Kleckner  default:
9ea2c012SReid Kleckner    report_fatal_error("target architecture doesn't map to a CodeView CPUType");
9ea2c012SReid Kleckner  }
9ea2c012SReid Kleckner}
9ea2c012SReid Kleckner
f9c275feSReid KlecknerCodeViewDebug::CodeViewDebug(AsmPrinter *AP)
fb69e66cSEugene Zelenko    : DebugHandlerBase(AP), OS(*Asm->OutStreamer), TypeTable(Allocator) {
f9c275feSReid Kleckner  // If module doesn't have named metadata anchors or COFF debug section
f9c275feSReid Kleckner  // is not available, skip any debug info related stuff.
f9c275feSReid Kleckner  if (!MMI->getModule()->getNamedMetadata("llvm.dbg.cu") ||
f9c275feSReid Kleckner      !AP->getObjFileLowering().getCOFFDebugSymbolsSection()) {
f9c275feSReid Kleckner    Asm = nullptr;
8763c0c5SMatthias Braun    MMI->setDebugInfoAvailability(false);
f9c275feSReid Kleckner    return;
f9c275feSReid Kleckner  }
f9c275feSReid Kleckner  // Tell MMI that we have debug info.
f9c275feSReid Kleckner  MMI->setDebugInfoAvailability(true);
9ea2c012SReid Kleckner
9ea2c012SReid Kleckner  TheCPU =
9ea2c012SReid Kleckner      mapArchToCVCPUType(Triple(MMI->getModule()->getTargetTriple()).getArch());
75557716SReid Kleckner
b17464e4SBrock Wyma  collectGlobalVariableInfo();
b17464e4SBrock Wyma
75557716SReid Kleckner  // Check if we should emit type record hashes.
75557716SReid Kleckner  ConstantInt *GH = mdconst::extract_or_null<ConstantInt>(
75557716SReid Kleckner      MMI->getModule()->getModuleFlag("CodeViewGHash"));
75557716SReid Kleckner  EmitDebugGlobalHashes = GH && !GH->isZero();
f9c275feSReid Kleckner}
70f5bc99SReid Kleckner
9533af4fSReid KlecknerStringRef CodeViewDebug::getFullFilepath(const DIFile *File) {
9533af4fSReid Kleckner  std::string &Filepath = FileToFilepathMap[File];
70f5bc99SReid Kleckner  if (!Filepath.empty())
70f5bc99SReid Kleckner    return Filepath;
70f5bc99SReid Kleckner
9533af4fSReid Kleckner  StringRef Dir = File->getDirectory(), Filename = File->getFilename();
9533af4fSReid Kleckner
cb8a666fSPeter Collingbourne  // If this is a Unix-style path, just use it as is. Don't try to canonicalize
cb8a666fSPeter Collingbourne  // it textually because one of the path components could be a symlink.
5bba1cafSZachary Turner  if (Dir.startswith("/") || Filename.startswith("/")) {
5bba1cafSZachary Turner    if (llvm::sys::path::is_absolute(Filename, llvm::sys::path::Style::posix))
5bba1cafSZachary Turner      return Filename;
cb8a666fSPeter Collingbourne    Filepath = Dir;
cb8a666fSPeter Collingbourne    if (Dir.back() != '/')
cb8a666fSPeter Collingbourne      Filepath += '/';
cb8a666fSPeter Collingbourne    Filepath += Filename;
cb8a666fSPeter Collingbourne    return Filepath;
cb8a666fSPeter Collingbourne  }
cb8a666fSPeter Collingbourne
70f5bc99SReid Kleckner  // Clang emits directory and relative filename info into the IR, but CodeView
70f5bc99SReid Kleckner  // operates on full paths.  We could change Clang to emit full paths too, but
70f5bc99SReid Kleckner  // that would increase the IR size and probably not needed for other users.
70f5bc99SReid Kleckner  // For now, just concatenate and canonicalize the path here.
70f5bc99SReid Kleckner  if (Filename.find(':') == 1)
70f5bc99SReid Kleckner    Filepath = Filename;
70f5bc99SReid Kleckner  else
70f5bc99SReid Kleckner    Filepath = (Dir + "\\" + Filename).str();
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner  // Canonicalize the path.  We have to do it textually because we may no longer
70f5bc99SReid Kleckner  // have access the file in the filesystem.
70f5bc99SReid Kleckner  // First, replace all slashes with backslashes.
70f5bc99SReid Kleckner  std::replace(Filepath.begin(), Filepath.end(), '/', '\\');
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner  // Remove all "\.\" with "\".
70f5bc99SReid Kleckner  size_t Cursor = 0;
70f5bc99SReid Kleckner  while ((Cursor = Filepath.find("\\.\\", Cursor)) != std::string::npos)
70f5bc99SReid Kleckner    Filepath.erase(Cursor, 2);
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner  // Replace all "\XXX\..\" with "\".  Don't try too hard though as the original
70f5bc99SReid Kleckner  // path should be well-formatted, e.g. start with a drive letter, etc.
70f5bc99SReid Kleckner  Cursor = 0;
70f5bc99SReid Kleckner  while ((Cursor = Filepath.find("\\..\\", Cursor)) != std::string::npos) {
70f5bc99SReid Kleckner    // Something's wrong if the path starts with "\..\", abort.
70f5bc99SReid Kleckner    if (Cursor == 0)
70f5bc99SReid Kleckner      break;
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner    size_t PrevSlash = Filepath.rfind('\\', Cursor - 1);
70f5bc99SReid Kleckner    if (PrevSlash == std::string::npos)
70f5bc99SReid Kleckner      // Something's wrong, abort.
70f5bc99SReid Kleckner      break;
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner    Filepath.erase(PrevSlash, Cursor + 3 - PrevSlash);
70f5bc99SReid Kleckner    // The next ".." might be following the one we've just erased.
70f5bc99SReid Kleckner    Cursor = PrevSlash;
70f5bc99SReid Kleckner  }
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner  // Remove all duplicate backslashes.
70f5bc99SReid Kleckner  Cursor = 0;
70f5bc99SReid Kleckner  while ((Cursor = Filepath.find("\\\\", Cursor)) != std::string::npos)
70f5bc99SReid Kleckner    Filepath.erase(Cursor, 1);
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner  return Filepath;
70f5bc99SReid Kleckner}
70f5bc99SReid Kleckner
2214ed89SReid Klecknerunsigned CodeViewDebug::maybeRecordFile(const DIFile *F) {
bc6f52daSReid Kleckner  StringRef FullPath = getFullFilepath(F);
2214ed89SReid Kleckner  unsigned NextId = FileIdMap.size() + 1;
bc6f52daSReid Kleckner  auto Insertion = FileIdMap.insert(std::make_pair(FullPath, NextId));
2214ed89SReid Kleckner  if (Insertion.second) {
2214ed89SReid Kleckner    // We have to compute the full filepath and emit a .cv_file directive.
7160384dSScott Linder    ArrayRef<uint8_t> ChecksumAsBytes;
7160384dSScott Linder    FileChecksumKind CSKind = FileChecksumKind::None;
7160384dSScott Linder    if (F->getChecksum()) {
7160384dSScott Linder      std::string Checksum = fromHex(F->getChecksum()->Value);
26fa1bf4SReid Kleckner      void *CKMem = OS.getContext().allocate(Checksum.size(), 1);
26fa1bf4SReid Kleckner      memcpy(CKMem, Checksum.data(), Checksum.size());
7160384dSScott Linder      ChecksumAsBytes = ArrayRef<uint8_t>(
7160384dSScott Linder          reinterpret_cast<const uint8_t *>(CKMem), Checksum.size());
7160384dSScott Linder      switch (F->getChecksum()->Kind) {
7160384dSScott Linder      case DIFile::CSK_MD5:  CSKind = FileChecksumKind::MD5; break;
7160384dSScott Linder      case DIFile::CSK_SHA1: CSKind = FileChecksumKind::SHA1; break;
7160384dSScott Linder      }
7160384dSScott Linder    }
26fa1bf4SReid Kleckner    bool Success = OS.EmitCVFileDirective(NextId, FullPath, ChecksumAsBytes,
7160384dSScott Linder                                          static_cast<unsigned>(CSKind));
a5b1eef8SReid Kleckner    (void)Success;
a5b1eef8SReid Kleckner    assert(Success && ".cv_file directive failed");
2214ed89SReid Kleckner  }
2214ed89SReid Kleckner  return Insertion.first->second;
2214ed89SReid Kleckner}
2214ed89SReid Kleckner
876330d5SReid KlecknerCodeViewDebug::InlineSite &
876330d5SReid KlecknerCodeViewDebug::getInlineSite(const DILocation *InlinedAt,
876330d5SReid Kleckner                             const DISubprogram *Inlinee) {
fbd7787dSReid Kleckner  auto SiteInsertion = CurFn->InlineSites.insert({InlinedAt, InlineSite()});
fbd7787dSReid Kleckner  InlineSite *Site = &SiteInsertion.first->second;
fbd7787dSReid Kleckner  if (SiteInsertion.second) {
a9f4cc95SReid Kleckner    unsigned ParentFuncId = CurFn->FuncId;
a9f4cc95SReid Kleckner    if (const DILocation *OuterIA = InlinedAt->getInlinedAt())
a9f4cc95SReid Kleckner      ParentFuncId =
a9f4cc95SReid Kleckner          getInlineSite(OuterIA, InlinedAt->getScope()->getSubprogram())
a9f4cc95SReid Kleckner              .SiteFuncId;
a9f4cc95SReid Kleckner
f9c275feSReid Kleckner    Site->SiteFuncId = NextFuncId++;
a9f4cc95SReid Kleckner    OS.EmitCVInlineSiteIdDirective(
a9f4cc95SReid Kleckner        Site->SiteFuncId, ParentFuncId, maybeRecordFile(InlinedAt->getFile()),
a9f4cc95SReid Kleckner        InlinedAt->getLine(), InlinedAt->getColumn(), SMLoc());
876330d5SReid Kleckner    Site->Inlinee = Inlinee;
2280f932SReid Kleckner    InlinedSubprograms.insert(Inlinee);
75c3ebfaSDavid Majnemer    getFuncIdForSubprogram(Inlinee);
f3b9ba49SReid Kleckner  }
f9c275feSReid Kleckner  return *Site;
f3b9ba49SReid Kleckner}
f3b9ba49SReid Kleckner
6bdc24e7SDavid Majnemerstatic StringRef getPrettyScopeName(const DIScope *Scope) {
6bdc24e7SDavid Majnemer  StringRef ScopeName = Scope->getName();
6bdc24e7SDavid Majnemer  if (!ScopeName.empty())
6bdc24e7SDavid Majnemer    return ScopeName;
6bdc24e7SDavid Majnemer
6bdc24e7SDavid Majnemer  switch (Scope->getTag()) {
6bdc24e7SDavid Majnemer  case dwarf::DW_TAG_enumeration_type:
6bdc24e7SDavid Majnemer  case dwarf::DW_TAG_class_type:
6bdc24e7SDavid Majnemer  case dwarf::DW_TAG_structure_type:
6bdc24e7SDavid Majnemer  case dwarf::DW_TAG_union_type:
6bdc24e7SDavid Majnemer    return "<unnamed-tag>";
6bdc24e7SDavid Majnemer  case dwarf::DW_TAG_namespace:
6bdc24e7SDavid Majnemer    return "`anonymous namespace'";
6bdc24e7SDavid Majnemer  }
6bdc24e7SDavid Majnemer
6bdc24e7SDavid Majnemer  return StringRef();
6bdc24e7SDavid Majnemer}
6bdc24e7SDavid Majnemer
0c5d874bSReid Klecknerstatic const DISubprogram *getQualifiedNameComponents(
0c5d874bSReid Kleckner    const DIScope *Scope, SmallVectorImpl<StringRef> &QualifiedNameComponents) {
0c5d874bSReid Kleckner  const DISubprogram *ClosestSubprogram = nullptr;
0c5d874bSReid Kleckner  while (Scope != nullptr) {
0c5d874bSReid Kleckner    if (ClosestSubprogram == nullptr)
0c5d874bSReid Kleckner      ClosestSubprogram = dyn_cast<DISubprogram>(Scope);
6bdc24e7SDavid Majnemer    StringRef ScopeName = getPrettyScopeName(Scope);
0c5d874bSReid Kleckner    if (!ScopeName.empty())
0c5d874bSReid Kleckner      QualifiedNameComponents.push_back(ScopeName);
0c5d874bSReid Kleckner    Scope = Scope->getScope().resolve();
0c5d874bSReid Kleckner  }
0c5d874bSReid Kleckner  return ClosestSubprogram;
0c5d874bSReid Kleckner}
0c5d874bSReid Kleckner
0c5d874bSReid Klecknerstatic std::string getQualifiedName(ArrayRef<StringRef> QualifiedNameComponents,
0c5d874bSReid Kleckner                                    StringRef TypeName) {
0c5d874bSReid Kleckner  std::string FullyQualifiedName;
fb69e66cSEugene Zelenko  for (StringRef QualifiedNameComponent :
fb69e66cSEugene Zelenko       llvm::reverse(QualifiedNameComponents)) {
0c5d874bSReid Kleckner    FullyQualifiedName.append(QualifiedNameComponent);
0c5d874bSReid Kleckner    FullyQualifiedName.append("::");
0c5d874bSReid Kleckner  }
0c5d874bSReid Kleckner  FullyQualifiedName.append(TypeName);
0c5d874bSReid Kleckner  return FullyQualifiedName;
0c5d874bSReid Kleckner}
0c5d874bSReid Kleckner
0c5d874bSReid Klecknerstatic std::string getFullyQualifiedName(const DIScope *Scope, StringRef Name) {
0c5d874bSReid Kleckner  SmallVector<StringRef, 5> QualifiedNameComponents;
0c5d874bSReid Kleckner  getQualifiedNameComponents(Scope, QualifiedNameComponents);
0c5d874bSReid Kleckner  return getQualifiedName(QualifiedNameComponents, Name);
0c5d874bSReid Kleckner}
0c5d874bSReid Kleckner
b5af11dfSReid Klecknerstruct CodeViewDebug::TypeLoweringScope {
b5af11dfSReid Kleckner  TypeLoweringScope(CodeViewDebug &CVD) : CVD(CVD) { ++CVD.TypeEmissionLevel; }
b5af11dfSReid Kleckner  ~TypeLoweringScope() {
b5af11dfSReid Kleckner    // Don't decrement TypeEmissionLevel until after emitting deferred types, so
b5af11dfSReid Kleckner    // inner TypeLoweringScopes don't attempt to emit deferred types.
b5af11dfSReid Kleckner    if (CVD.TypeEmissionLevel == 1)
b5af11dfSReid Kleckner      CVD.emitDeferredCompleteTypes();
b5af11dfSReid Kleckner    --CVD.TypeEmissionLevel;
b5af11dfSReid Kleckner  }
b5af11dfSReid Kleckner  CodeViewDebug &CVD;
b5af11dfSReid Kleckner};
b5af11dfSReid Kleckner
6bdc24e7SDavid Majnemerstatic std::string getFullyQualifiedName(const DIScope *Ty) {
6bdc24e7SDavid Majnemer  const DIScope *Scope = Ty->getScope().resolve();
6bdc24e7SDavid Majnemer  return getFullyQualifiedName(Scope, getPrettyScopeName(Ty));
6bdc24e7SDavid Majnemer}
6bdc24e7SDavid Majnemer
0c5d874bSReid KlecknerTypeIndex CodeViewDebug::getScopeIndex(const DIScope *Scope) {
0c5d874bSReid Kleckner  // No scope means global scope and that uses the zero index.
0c5d874bSReid Kleckner  if (!Scope || isa<DIFile>(Scope))
0c5d874bSReid Kleckner    return TypeIndex();
0c5d874bSReid Kleckner
0c5d874bSReid Kleckner  assert(!isa<DIType>(Scope) && "shouldn't make a namespace scope for a type");
0c5d874bSReid Kleckner
0c5d874bSReid Kleckner  // Check if we've already translated this scope.
0c5d874bSReid Kleckner  auto I = TypeIndices.find({Scope, nullptr});
0c5d874bSReid Kleckner  if (I != TypeIndices.end())
0c5d874bSReid Kleckner    return I->second;
0c5d874bSReid Kleckner
0c5d874bSReid Kleckner  // Build the fully qualified name of the scope.
6bdc24e7SDavid Majnemer  std::string ScopeName = getFullyQualifiedName(Scope);
4efa0a42SZachary Turner  StringIdRecord SID(TypeIndex(), ScopeName);
6900de1dSZachary Turner  auto TI = TypeTable.writeLeafType(SID);
0c5d874bSReid Kleckner  return recordTypeIndexForDINode(Scope, TI);
0c5d874bSReid Kleckner}
0c5d874bSReid Kleckner
75c3ebfaSDavid MajnemerTypeIndex CodeViewDebug::getFuncIdForSubprogram(const DISubprogram *SP) {
67f684e1SDavid Majnemer  assert(SP);
2280f932SReid Kleckner
75c3ebfaSDavid Majnemer  // Check if we've already translated this subprogram.
76c9eb99SAmjad Aboud  auto I = TypeIndices.find({SP, nullptr});
75c3ebfaSDavid Majnemer  if (I != TypeIndices.end())
75c3ebfaSDavid Majnemer    return I->second;
2280f932SReid Kleckner
ac945e27SReid Kleckner  // The display name includes function template arguments. Drop them to match
ac945e27SReid Kleckner  // MSVC.
9d2f019fSAdrian Prantl  StringRef DisplayName = SP->getName().split('<').first;
75c3ebfaSDavid Majnemer
0c5d874bSReid Kleckner  const DIScope *Scope = SP->getScope().resolve();
0c5d874bSReid Kleckner  TypeIndex TI;
0c5d874bSReid Kleckner  if (const auto *Class = dyn_cast_or_null<DICompositeType>(Scope)) {
0c5d874bSReid Kleckner    // If the scope is a DICompositeType, then this must be a method. Member
0c5d874bSReid Kleckner    // function types take some special handling, and require access to the
0c5d874bSReid Kleckner    // subprogram.
0c5d874bSReid Kleckner    TypeIndex ClassType = getTypeIndex(Class);
0c5d874bSReid Kleckner    MemberFuncIdRecord MFuncId(ClassType, getMemberFunctionType(SP, Class),
0c5d874bSReid Kleckner                               DisplayName);
6900de1dSZachary Turner    TI = TypeTable.writeLeafType(MFuncId);
0c5d874bSReid Kleckner  } else {
0c5d874bSReid Kleckner    // Otherwise, this must be a free function.
0c5d874bSReid Kleckner    TypeIndex ParentScope = getScopeIndex(Scope);
0c5d874bSReid Kleckner    FuncIdRecord FuncId(ParentScope, getTypeIndex(SP->getType()), DisplayName);
6900de1dSZachary Turner    TI = TypeTable.writeLeafType(FuncId);
2280f932SReid Kleckner  }
2280f932SReid Kleckner
0c5d874bSReid Kleckner  return recordTypeIndexForDINode(SP, TI);
0c5d874bSReid Kleckner}
0c5d874bSReid Kleckner
1d5f8632SAaron Smithstatic bool isNonTrivial(const DICompositeType *DCTy) {
1d5f8632SAaron Smith  return ((DCTy->getFlags() & DINode::FlagNonTrivial) == DINode::FlagNonTrivial);
802b033dSAaron Smith}
802b033dSAaron Smith
802b033dSAaron Smithstatic FunctionOptions
802b033dSAaron SmithgetFunctionOptions(const DISubroutineType *Ty,
802b033dSAaron Smith                   const DICompositeType *ClassTy = nullptr,
802b033dSAaron Smith                   StringRef SPName = StringRef("")) {
802b033dSAaron Smith  FunctionOptions FO = FunctionOptions::None;
802b033dSAaron Smith  const DIType *ReturnTy = nullptr;
802b033dSAaron Smith  if (auto TypeArray = Ty->getTypeArray()) {
802b033dSAaron Smith    if (TypeArray.size())
802b033dSAaron Smith      ReturnTy = TypeArray[0].resolve();
802b033dSAaron Smith  }
802b033dSAaron Smith
802b033dSAaron Smith  if (auto *ReturnDCTy = dyn_cast_or_null<DICompositeType>(ReturnTy)) {
1d5f8632SAaron Smith    if (isNonTrivial(ReturnDCTy))
802b033dSAaron Smith      FO |= FunctionOptions::CxxReturnUdt;
802b033dSAaron Smith  }
802b033dSAaron Smith
802b033dSAaron Smith  // DISubroutineType is unnamed. Use DISubprogram's i.e. SPName in comparison.
1d5f8632SAaron Smith  if (ClassTy && isNonTrivial(ClassTy) && SPName == ClassTy->getName()) {
802b033dSAaron Smith    FO |= FunctionOptions::Constructor;
802b033dSAaron Smith
802b033dSAaron Smith  // TODO: put the FunctionOptions::ConstructorWithVirtualBases flag.
802b033dSAaron Smith
802b033dSAaron Smith  }
802b033dSAaron Smith  return FO;
802b033dSAaron Smith}
802b033dSAaron Smith
0c5d874bSReid KlecknerTypeIndex CodeViewDebug::getMemberFunctionType(const DISubprogram *SP,
0c5d874bSReid Kleckner                                               const DICompositeType *Class) {
b5af11dfSReid Kleckner  // Always use the method declaration as the key for the function type. The
b5af11dfSReid Kleckner  // method declaration contains the this adjustment.
b5af11dfSReid Kleckner  if (SP->getDeclaration())
b5af11dfSReid Kleckner    SP = SP->getDeclaration();
b5af11dfSReid Kleckner  assert(!SP->getDeclaration() && "should use declaration as key");
b5af11dfSReid Kleckner
0c5d874bSReid Kleckner  // Key the MemberFunctionRecord into the map as {SP, Class}. It won't collide
0c5d874bSReid Kleckner  // with the MemberFuncIdRecord, which is keyed in as {SP, nullptr}.
b5af11dfSReid Kleckner  auto I = TypeIndices.find({SP, Class});
0c5d874bSReid Kleckner  if (I != TypeIndices.end())
0c5d874bSReid Kleckner    return I->second;
0c5d874bSReid Kleckner
b5af11dfSReid Kleckner  // Make sure complete type info for the class is emitted *after* the member
b5af11dfSReid Kleckner  // function type, as the complete class type is likely to reference this
b5af11dfSReid Kleckner  // member function type.
b5af11dfSReid Kleckner  TypeLoweringScope S(*this);
d91bf399SAdrian McCarthy  const bool IsStaticMethod = (SP->getFlags() & DINode::FlagStaticMember) != 0;
802b033dSAaron Smith
802b033dSAaron Smith  FunctionOptions FO = getFunctionOptions(SP->getType(), Class, SP->getName());
d91bf399SAdrian McCarthy  TypeIndex TI = lowerTypeMemberFunction(
802b033dSAaron Smith      SP->getType(), Class, SP->getThisAdjustment(), IsStaticMethod, FO);
0c5d874bSReid Kleckner  return recordTypeIndexForDINode(SP, TI, Class);
0c5d874bSReid Kleckner}
0c5d874bSReid Kleckner
acee5685SAmjad AboudTypeIndex CodeViewDebug::recordTypeIndexForDINode(const DINode *Node,
acee5685SAmjad Aboud                                                  TypeIndex TI,
76c9eb99SAmjad Aboud                                                  const DIType *ClassTy) {
76c9eb99SAmjad Aboud  auto InsertResult = TypeIndices.insert({{Node, ClassTy}, TI});
a8d57407SReid Kleckner  (void)InsertResult;
a8d57407SReid Kleckner  assert(InsertResult.second && "DINode was already assigned a type index");
0c5d874bSReid Kleckner  return TI;
a8d57407SReid Kleckner}
a8d57407SReid Kleckner
76c9eb99SAmjad Aboudunsigned CodeViewDebug::getPointerSizeInBytes() {
76c9eb99SAmjad Aboud  return MMI->getModule()->getDataLayout().getPointerSizeInBits() / 8;
76c9eb99SAmjad Aboud}
76c9eb99SAmjad Aboud
876330d5SReid Klecknervoid CodeViewDebug::recordLocalVariable(LocalVariable &&Var,
5a791ee4SReid Kleckner                                        const LexicalScope *LS) {
5a791ee4SReid Kleckner  if (const DILocation *InlinedAt = LS->getInlinedAt()) {
876330d5SReid Kleckner    // This variable was inlined. Associate it with the InlineSite.
876330d5SReid Kleckner    const DISubprogram *Inlinee = Var.DIVar->getScope()->getSubprogram();
876330d5SReid Kleckner    InlineSite &Site = getInlineSite(InlinedAt, Inlinee);
876330d5SReid Kleckner    Site.InlinedLocals.emplace_back(Var);
876330d5SReid Kleckner  } else {
5a791ee4SReid Kleckner    // This variable goes into the corresponding lexical scope.
5a791ee4SReid Kleckner    ScopeVariables[LS].emplace_back(Var);
876330d5SReid Kleckner  }
876330d5SReid Kleckner}
876330d5SReid Kleckner
829365aeSReid Klecknerstatic void addLocIfNotPresent(SmallVectorImpl<const DILocation *> &Locs,
829365aeSReid Kleckner                               const DILocation *Loc) {
829365aeSReid Kleckner  auto B = Locs.begin(), E = Locs.end();
829365aeSReid Kleckner  if (std::find(B, E, Loc) == E)
829365aeSReid Kleckner    Locs.push_back(Loc);
829365aeSReid Kleckner}
829365aeSReid Kleckner
bdc4956bSBenjamin Kramervoid CodeViewDebug::maybeRecordLocation(const DebugLoc &DL,
70f5bc99SReid Kleckner                                        const MachineFunction *MF) {
9533af4fSReid Kleckner  // Skip this instruction if it has the same location as the previous one.
45a74620SReid Kleckner  if (!DL || DL == PrevInstLoc)
9533af4fSReid Kleckner    return;
9533af4fSReid Kleckner
9533af4fSReid Kleckner  const DIScope *Scope = DL.get()->getScope();
70f5bc99SReid Kleckner  if (!Scope)
70f5bc99SReid Kleckner    return;
9533af4fSReid Kleckner
70f5bc99SReid Kleckner  // Skip this line if it is longer than the maximum we can record.
2214ed89SReid Kleckner  LineInfo LI(DL.getLine(), DL.getLine(), /*IsStatement=*/true);
2214ed89SReid Kleckner  if (LI.getStartLine() != DL.getLine() || LI.isAlwaysStepInto() ||
2214ed89SReid Kleckner      LI.isNeverStepInto())
70f5bc99SReid Kleckner    return;
70f5bc99SReid Kleckner
2214ed89SReid Kleckner  ColumnInfo CI(DL.getCol(), /*EndColumn=*/0);
2214ed89SReid Kleckner  if (CI.getStartColumn() != DL.getCol())
2214ed89SReid Kleckner    return;
00d9639cSReid Kleckner
2214ed89SReid Kleckner  if (!CurFn->HaveLineInfo)
2214ed89SReid Kleckner    CurFn->HaveLineInfo = true;
2214ed89SReid Kleckner  unsigned FileId = 0;
45a74620SReid Kleckner  if (PrevInstLoc.get() && PrevInstLoc->getFile() == DL->getFile())
2214ed89SReid Kleckner    FileId = CurFn->LastFileId;
2214ed89SReid Kleckner  else
2214ed89SReid Kleckner    FileId = CurFn->LastFileId = maybeRecordFile(DL->getFile());
45a74620SReid Kleckner  PrevInstLoc = DL;
f3b9ba49SReid Kleckner
f3b9ba49SReid Kleckner  unsigned FuncId = CurFn->FuncId;
876330d5SReid Kleckner  if (const DILocation *SiteLoc = DL->getInlinedAt()) {
829365aeSReid Kleckner    const DILocation *Loc = DL.get();
829365aeSReid Kleckner
f3b9ba49SReid Kleckner    // If this location was actually inlined from somewhere else, give it the ID
f3b9ba49SReid Kleckner    // of the inline call site.
876330d5SReid Kleckner    FuncId =
876330d5SReid Kleckner        getInlineSite(SiteLoc, Loc->getScope()->getSubprogram()).SiteFuncId;
829365aeSReid Kleckner
f3b9ba49SReid Kleckner    // Ensure we have links in the tree of inline call sites.
829365aeSReid Kleckner    bool FirstLoc = true;
829365aeSReid Kleckner    while ((SiteLoc = Loc->getInlinedAt())) {
876330d5SReid Kleckner      InlineSite &Site =
876330d5SReid Kleckner          getInlineSite(SiteLoc, Loc->getScope()->getSubprogram());
829365aeSReid Kleckner      if (!FirstLoc)
829365aeSReid Kleckner        addLocIfNotPresent(Site.ChildSites, Loc);
829365aeSReid Kleckner      FirstLoc = false;
829365aeSReid Kleckner      Loc = SiteLoc;
f3b9ba49SReid Kleckner    }
829365aeSReid Kleckner    addLocIfNotPresent(CurFn->ChildSites, Loc);
f3b9ba49SReid Kleckner  }
f3b9ba49SReid Kleckner
dac21b43SReid Kleckner  OS.EmitCVLocDirective(FuncId, FileId, DL.getLine(), DL.getCol(),
a9f4cc95SReid Kleckner                        /*PrologueEnd=*/false, /*IsStmt=*/false,
a9f4cc95SReid Kleckner                        DL->getFilename(), SMLoc());
70f5bc99SReid Kleckner}
70f5bc99SReid Kleckner
5d122f87SReid Klecknervoid CodeViewDebug::emitCodeViewMagicVersion() {
5d122f87SReid Kleckner  OS.EmitValueToAlignment(4);
5d122f87SReid Kleckner  OS.AddComment("Debug section magic");
5d122f87SReid Kleckner  OS.EmitIntValue(COFF::DEBUG_SECTION_MAGIC, 4);
5d122f87SReid Kleckner}
5d122f87SReid Kleckner
70f5bc99SReid Klecknervoid CodeViewDebug::endModule() {
6f3406dfSReid Kleckner  if (!Asm || !MMI->hasDebugInfo())
70f5bc99SReid Kleckner    return;
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner  assert(Asm != nullptr);
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner  // The COFF .debug$S section consists of several subsections, each starting
70f5bc99SReid Kleckner  // with a 4-byte control code (e.g. 0xF1, 0xF2, etc) and then a 4-byte length
70f5bc99SReid Kleckner  // of the payload followed by the payload itself.  The subsections are 4-byte
70f5bc99SReid Kleckner  // aligned.
70f5bc99SReid Kleckner
6f3406dfSReid Kleckner  // Use the generic .debug$S section, and make a subsection for all the inlined
6f3406dfSReid Kleckner  // subprograms.
6f3406dfSReid Kleckner  switchToDebugSectionForSymbol(nullptr);
4333daabSAdrian McCarthy
8c099fe0SZachary Turner  MCSymbol *CompilerInfo = beginCVSubsection(DebugSubsectionKind::Symbols);
4333daabSAdrian McCarthy  emitCompilerInformation();
4333daabSAdrian McCarthy  endCVSubsection(CompilerInfo);
4333daabSAdrian McCarthy
5d122f87SReid Kleckner  emitInlineeLinesSubsection();
1fcd610cSReid Kleckner
2214ed89SReid Kleckner  // Emit per-function debug information.
2214ed89SReid Kleckner  for (auto &P : FnDebugInfo)
577be0feSDavid Majnemer    if (!P.first->isDeclarationForLinker())
55baeefdSReid Kleckner      emitDebugInfoForFunction(P.first, *P.second);
70f5bc99SReid Kleckner
6f3406dfSReid Kleckner  // Emit global variable debug information.
3128b10cSDavid Majnemer  setCurrentSubprogram(nullptr);
6f3406dfSReid Kleckner  emitDebugInfoForGlobals();
6f3406dfSReid Kleckner
b510b458SHans Wennborg  // Emit retained types.
b510b458SHans Wennborg  emitDebugInfoForRetainedTypes();
b510b458SHans Wennborg
5d122f87SReid Kleckner  // Switch back to the generic .debug$S section after potentially processing
5d122f87SReid Kleckner  // comdat symbol sections.
5d122f87SReid Kleckner  switchToDebugSectionForSymbol(nullptr);
5d122f87SReid Kleckner
3128b10cSDavid Majnemer  // Emit UDT records for any types used by global variables.
3128b10cSDavid Majnemer  if (!GlobalUDTs.empty()) {
8c099fe0SZachary Turner    MCSymbol *SymbolsEnd = beginCVSubsection(DebugSubsectionKind::Symbols);
3128b10cSDavid Majnemer    emitDebugInfoForUDTs(GlobalUDTs);
3128b10cSDavid Majnemer    endCVSubsection(SymbolsEnd);
3128b10cSDavid Majnemer  }
3128b10cSDavid Majnemer
70f5bc99SReid Kleckner  // This subsection holds a file index to offset in string table table.
dac21b43SReid Kleckner  OS.AddComment("File index to string table offset subsection");
dac21b43SReid Kleckner  OS.EmitCVFileChecksumsDirective();
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner  // This subsection holds the string table.
dac21b43SReid Kleckner  OS.AddComment("String table");
dac21b43SReid Kleckner  OS.EmitCVStringTableDirective();
70f5bc99SReid Kleckner
810687cbSReid Kleckner  // Emit S_BUILDINFO, which points to LF_BUILDINFO. Put this in its own symbol
810687cbSReid Kleckner  // subsection in the generic .debug$S section at the end. There is no
810687cbSReid Kleckner  // particular reason for this ordering other than to match MSVC.
810687cbSReid Kleckner  emitBuildInfo();
810687cbSReid Kleckner
048f8f99SZachary Turner  // Emit type information and hashes last, so that any types we translate while
048f8f99SZachary Turner  // emitting function info are included.
5acacbb0SReid Kleckner  emitTypeInformation();
5acacbb0SReid Kleckner
048f8f99SZachary Turner  if (EmitDebugGlobalHashes)
048f8f99SZachary Turner    emitTypeGlobalHashes();
048f8f99SZachary Turner
70f5bc99SReid Kleckner  clear();
70f5bc99SReid Kleckner}
70f5bc99SReid Kleckner
19e17b39SBrock Wymastatic void emitNullTerminatedSymbolName(MCStreamer &OS, StringRef S,
19e17b39SBrock Wyma    unsigned MaxFixedRecordLength = 0xF00) {
bb96df60SReid Kleckner  // The maximum CV record length is 0xFF00. Most of the strings we emit appear
bb96df60SReid Kleckner  // after a fixed length portion of the record. The fixed length portion should
bb96df60SReid Kleckner  // always be less than 0xF00 (3840) bytes, so truncate the string so that the
bb96df60SReid Kleckner  // overall record size is less than the maximum allowed.
bb96df60SReid Kleckner  SmallString<32> NullTerminatedString(
bb96df60SReid Kleckner      S.take_front(MaxRecordLength - MaxFixedRecordLength - 1));
b9456a5eSDavid Majnemer  NullTerminatedString.push_back('\0');
b9456a5eSDavid Majnemer  OS.EmitBytes(NullTerminatedString);
b9456a5eSDavid Majnemer}
b9456a5eSDavid Majnemer
f3b9ba49SReid Klecknervoid CodeViewDebug::emitTypeInformation() {
2280f932SReid Kleckner  if (TypeTable.empty())
fbd7787dSReid Kleckner    return;
fbd7787dSReid Kleckner
d9e96741SAlexandre Ganea  // Start the .debug$T or .debug$P section with 0x4.
dac21b43SReid Kleckner  OS.SwitchSection(Asm->getObjFileLowering().getCOFFDebugTypesSection());
5d122f87SReid Kleckner  emitCodeViewMagicVersion();
f3b9ba49SReid Kleckner
fbdbe9e2SReid Kleckner  SmallString<8> CommentPrefix;
fbdbe9e2SReid Kleckner  if (OS.isVerboseAsm()) {
fbdbe9e2SReid Kleckner    CommentPrefix += '\t';
fbdbe9e2SReid Kleckner    CommentPrefix += Asm->MAI->getCommentString();
fbdbe9e2SReid Kleckner    CommentPrefix += ' ';
fbdbe9e2SReid Kleckner  }
fbdbe9e2SReid Kleckner
526f4f2aSZachary Turner  TypeTableCollection Table(TypeTable.records());
526f4f2aSZachary Turner  Optional<TypeIndex> B = Table.getFirst();
526f4f2aSZachary Turner  while (B) {
526f4f2aSZachary Turner    // This will fail if the record data is invalid.
526f4f2aSZachary Turner    CVType Record = Table.getType(*B);
526f4f2aSZachary Turner
fbdbe9e2SReid Kleckner    if (OS.isVerboseAsm()) {
fbdbe9e2SReid Kleckner      // Emit a block comment describing the type record for readability.
fbdbe9e2SReid Kleckner      SmallString<512> CommentBlock;
fbdbe9e2SReid Kleckner      raw_svector_ostream CommentOS(CommentBlock);
fbdbe9e2SReid Kleckner      ScopedPrinter SP(CommentOS);
fbdbe9e2SReid Kleckner      SP.setPrefix(CommentPrefix);
526f4f2aSZachary Turner      TypeDumpVisitor TDV(Table, &SP, false);
526f4f2aSZachary Turner
526f4f2aSZachary Turner      Error E = codeview::visitTypeRecord(Record, *B, TDV);
c92e9469SReid Kleckner      if (E) {
c92e9469SReid Kleckner        logAllUnhandledErrors(std::move(E), errs(), "error: ");
c92e9469SReid Kleckner        llvm_unreachable("produced malformed type record");
c92e9469SReid Kleckner      }
fbdbe9e2SReid Kleckner      // emitRawComment will insert its own tab and comment string before
fbdbe9e2SReid Kleckner      // the first line, so strip off our first one. It also prints its own
fbdbe9e2SReid Kleckner      // newline.
fbdbe9e2SReid Kleckner      OS.emitRawComment(
fbdbe9e2SReid Kleckner          CommentOS.str().drop_front(CommentPrefix.size() - 1).rtrim());
c92e9469SReid Kleckner    }
526f4f2aSZachary Turner    OS.EmitBinaryData(Record.str_data());
526f4f2aSZachary Turner    B = Table.getNext(*B);
1dfcf8d9SZachary Turner  }
f3b9ba49SReid Kleckner}
f3b9ba49SReid Kleckner
048f8f99SZachary Turnervoid CodeViewDebug::emitTypeGlobalHashes() {
048f8f99SZachary Turner  if (TypeTable.empty())
048f8f99SZachary Turner    return;
048f8f99SZachary Turner
048f8f99SZachary Turner  // Start the .debug$H section with the version and hash algorithm, currently
048f8f99SZachary Turner  // hardcoded to version 0, SHA1.
048f8f99SZachary Turner  OS.SwitchSection(Asm->getObjFileLowering().getCOFFGlobalTypeHashesSection());
048f8f99SZachary Turner
048f8f99SZachary Turner  OS.EmitValueToAlignment(4);
048f8f99SZachary Turner  OS.AddComment("Magic");
048f8f99SZachary Turner  OS.EmitIntValue(COFF::DEBUG_HASHES_SECTION_MAGIC, 4);
048f8f99SZachary Turner  OS.AddComment("Section Version");
048f8f99SZachary Turner  OS.EmitIntValue(0, 2);
048f8f99SZachary Turner  OS.AddComment("Hash Algorithm");
c762666eSZachary Turner  OS.EmitIntValue(uint16_t(GlobalTypeHashAlg::SHA1_8), 2);
048f8f99SZachary Turner
048f8f99SZachary Turner  TypeIndex TI(TypeIndex::FirstNonSimpleIndex);
048f8f99SZachary Turner  for (const auto &GHR : TypeTable.hashes()) {
048f8f99SZachary Turner    if (OS.isVerboseAsm()) {
048f8f99SZachary Turner      // Emit an EOL-comment describing which TypeIndex this hash corresponds
048f8f99SZachary Turner      // to, as well as the stringified SHA1 hash.
048f8f99SZachary Turner      SmallString<32> Comment;
048f8f99SZachary Turner      raw_svector_ostream CommentOS(Comment);
048f8f99SZachary Turner      CommentOS << formatv("{0:X+} [{1}]", TI.getIndex(), GHR);
048f8f99SZachary Turner      OS.AddComment(Comment);
048f8f99SZachary Turner      ++TI;
048f8f99SZachary Turner    }
c762666eSZachary Turner    assert(GHR.Hash.size() == 8);
048f8f99SZachary Turner    StringRef S(reinterpret_cast<const char *>(GHR.Hash.data()),
048f8f99SZachary Turner                GHR.Hash.size());
048f8f99SZachary Turner    OS.EmitBinaryData(S);
048f8f99SZachary Turner  }
048f8f99SZachary Turner}
048f8f99SZachary Turner
c64acfd4SAdrian McCarthystatic SourceLanguage MapDWLangToCVLang(unsigned DWLang) {
c64acfd4SAdrian McCarthy  switch (DWLang) {
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_C:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_C89:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_C99:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_C11:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_ObjC:
c64acfd4SAdrian McCarthy    return SourceLanguage::C;
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_C_plus_plus:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_C_plus_plus_03:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_C_plus_plus_11:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_C_plus_plus_14:
c64acfd4SAdrian McCarthy    return SourceLanguage::Cpp;
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_Fortran77:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_Fortran90:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_Fortran03:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_Fortran08:
c64acfd4SAdrian McCarthy    return SourceLanguage::Fortran;
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_Pascal83:
c64acfd4SAdrian McCarthy    return SourceLanguage::Pascal;
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_Cobol74:
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_Cobol85:
c64acfd4SAdrian McCarthy    return SourceLanguage::Cobol;
c64acfd4SAdrian McCarthy  case dwarf::DW_LANG_Java:
c64acfd4SAdrian McCarthy    return SourceLanguage::Java;
898ddf61SReid Kleckner  case dwarf::DW_LANG_D:
898ddf61SReid Kleckner    return SourceLanguage::D;
cc51dc64SNathan Lanza  case dwarf::DW_LANG_Swift:
cc51dc64SNathan Lanza    return SourceLanguage::Swift;
c64acfd4SAdrian McCarthy  default:
c64acfd4SAdrian McCarthy    // There's no CodeView representation for this language, and CV doesn't
c64acfd4SAdrian McCarthy    // have an "unknown" option for the language field, so we'll use MASM,
c64acfd4SAdrian McCarthy    // as it's very low level.
c64acfd4SAdrian McCarthy    return SourceLanguage::Masm;
c64acfd4SAdrian McCarthy  }
c64acfd4SAdrian McCarthy}
c64acfd4SAdrian McCarthy
7f6b2534SReid Klecknernamespace {
c64acfd4SAdrian McCarthystruct Version {
c64acfd4SAdrian McCarthy  int Part[4];
c64acfd4SAdrian McCarthy};
7f6b2534SReid Kleckner} // end anonymous namespace
c64acfd4SAdrian McCarthy
c64acfd4SAdrian McCarthy// Takes a StringRef like "clang 4.0.0.0 (other nonsense 123)" and parses out
c64acfd4SAdrian McCarthy// the version number.
c64acfd4SAdrian McCarthystatic Version parseVersion(StringRef Name) {
ad8ac54dSAdrian McCarthy  Version V = {{0}};
c64acfd4SAdrian McCarthy  int N = 0;
c64acfd4SAdrian McCarthy  for (const char C : Name) {
c64acfd4SAdrian McCarthy    if (isdigit(C)) {
c64acfd4SAdrian McCarthy      V.Part[N] *= 10;
c64acfd4SAdrian McCarthy      V.Part[N] += C - '0';
c64acfd4SAdrian McCarthy    } else if (C == '.') {
c64acfd4SAdrian McCarthy      ++N;
c64acfd4SAdrian McCarthy      if (N >= 4)
c64acfd4SAdrian McCarthy        return V;
c64acfd4SAdrian McCarthy    } else if (N > 0)
c64acfd4SAdrian McCarthy      return V;
c64acfd4SAdrian McCarthy  }
c64acfd4SAdrian McCarthy  return V;
c64acfd4SAdrian McCarthy}
c64acfd4SAdrian McCarthy
c64acfd4SAdrian McCarthyvoid CodeViewDebug::emitCompilerInformation() {
5bf71d11SReid Kleckner  MCSymbol *CompilerEnd = beginSymbolRecord(SymbolKind::S_COMPILE3);
c64acfd4SAdrian McCarthy  uint32_t Flags = 0;
c64acfd4SAdrian McCarthy
c64acfd4SAdrian McCarthy  NamedMDNode *CUs = MMI->getModule()->getNamedMetadata("llvm.dbg.cu");
c64acfd4SAdrian McCarthy  const MDNode *Node = *CUs->operands().begin();
c64acfd4SAdrian McCarthy  const auto *CU = cast<DICompileUnit>(Node);
c64acfd4SAdrian McCarthy
c64acfd4SAdrian McCarthy  // The low byte of the flags indicates the source language.
c64acfd4SAdrian McCarthy  Flags = MapDWLangToCVLang(CU->getSourceLanguage());
c64acfd4SAdrian McCarthy  // TODO:  Figure out which other flags need to be set.
c64acfd4SAdrian McCarthy
c64acfd4SAdrian McCarthy  OS.AddComment("Flags and language");
c64acfd4SAdrian McCarthy  OS.EmitIntValue(Flags, 4);
c64acfd4SAdrian McCarthy
c64acfd4SAdrian McCarthy  OS.AddComment("CPUType");
9ea2c012SReid Kleckner  OS.EmitIntValue(static_cast<uint64_t>(TheCPU), 2);
c64acfd4SAdrian McCarthy
c64acfd4SAdrian McCarthy  StringRef CompilerVersion = CU->getProducer();
c64acfd4SAdrian McCarthy  Version FrontVer = parseVersion(CompilerVersion);
c64acfd4SAdrian McCarthy  OS.AddComment("Frontend version");
c64acfd4SAdrian McCarthy  for (int N = 0; N < 4; ++N)
c64acfd4SAdrian McCarthy    OS.EmitIntValue(FrontVer.Part[N], 2);
c64acfd4SAdrian McCarthy
c64acfd4SAdrian McCarthy  // Some Microsoft tools, like Binscope, expect a backend version number of at
c64acfd4SAdrian McCarthy  // least 8.something, so we'll coerce the LLVM version into a form that
c64acfd4SAdrian McCarthy  // guarantees it'll be big enough without really lying about the version.
d1185fc0SAdrian McCarthy  int Major = 1000 * LLVM_VERSION_MAJOR +
c64acfd4SAdrian McCarthy              10 * LLVM_VERSION_MINOR +
d1185fc0SAdrian McCarthy              LLVM_VERSION_PATCH;
d1185fc0SAdrian McCarthy  // Clamp it for builds that use unusually large version numbers.
d1185fc0SAdrian McCarthy  Major = std::min<int>(Major, std::numeric_limits<uint16_t>::max());
d1185fc0SAdrian McCarthy  Version BackVer = {{ Major, 0, 0, 0 }};
c64acfd4SAdrian McCarthy  OS.AddComment("Backend version");
c64acfd4SAdrian McCarthy  for (int N = 0; N < 4; ++N)
c64acfd4SAdrian McCarthy    OS.EmitIntValue(BackVer.Part[N], 2);
c64acfd4SAdrian McCarthy
c64acfd4SAdrian McCarthy  OS.AddComment("Null-terminated compiler version string");
c64acfd4SAdrian McCarthy  emitNullTerminatedSymbolName(OS, CompilerVersion);
c64acfd4SAdrian McCarthy
5bf71d11SReid Kleckner  endSymbolRecord(CompilerEnd);
c64acfd4SAdrian McCarthy}
c64acfd4SAdrian McCarthy
810687cbSReid Klecknerstatic TypeIndex getStringIdTypeIdx(GlobalTypeTableBuilder &TypeTable,
810687cbSReid Kleckner                                    StringRef S) {
810687cbSReid Kleckner  StringIdRecord SIR(TypeIndex(0x0), S);
810687cbSReid Kleckner  return TypeTable.writeLeafType(SIR);
810687cbSReid Kleckner}
810687cbSReid Kleckner
810687cbSReid Klecknervoid CodeViewDebug::emitBuildInfo() {
810687cbSReid Kleckner  // First, make LF_BUILDINFO. It's a sequence of strings with various bits of
810687cbSReid Kleckner  // build info. The known prefix is:
810687cbSReid Kleckner  // - Absolute path of current directory
810687cbSReid Kleckner  // - Compiler path
810687cbSReid Kleckner  // - Main source file path, relative to CWD or absolute
810687cbSReid Kleckner  // - Type server PDB file
810687cbSReid Kleckner  // - Canonical compiler command line
810687cbSReid Kleckner  // If frontend and backend compilation are separated (think llc or LTO), it's
810687cbSReid Kleckner  // not clear if the compiler path should refer to the executable for the
810687cbSReid Kleckner  // frontend or the backend. Leave it blank for now.
810687cbSReid Kleckner  TypeIndex BuildInfoArgs[BuildInfoRecord::MaxArgs] = {};
810687cbSReid Kleckner  NamedMDNode *CUs = MMI->getModule()->getNamedMetadata("llvm.dbg.cu");
810687cbSReid Kleckner  const MDNode *Node = *CUs->operands().begin(); // FIXME: Multiple CUs.
810687cbSReid Kleckner  const auto *CU = cast<DICompileUnit>(Node);
810687cbSReid Kleckner  const DIFile *MainSourceFile = CU->getFile();
810687cbSReid Kleckner  BuildInfoArgs[BuildInfoRecord::CurrentDirectory] =
810687cbSReid Kleckner      getStringIdTypeIdx(TypeTable, MainSourceFile->getDirectory());
810687cbSReid Kleckner  BuildInfoArgs[BuildInfoRecord::SourceFile] =
810687cbSReid Kleckner      getStringIdTypeIdx(TypeTable, MainSourceFile->getFilename());
810687cbSReid Kleckner  // FIXME: Path to compiler and command line. PDB is intentionally blank unless
810687cbSReid Kleckner  // we implement /Zi type servers.
810687cbSReid Kleckner  BuildInfoRecord BIR(BuildInfoArgs);
810687cbSReid Kleckner  TypeIndex BuildInfoIndex = TypeTable.writeLeafType(BIR);
810687cbSReid Kleckner
810687cbSReid Kleckner  // Make a new .debug$S subsection for the S_BUILDINFO record, which points
810687cbSReid Kleckner  // from the module symbols into the type stream.
5bf71d11SReid Kleckner  MCSymbol *BISubsecEnd = beginCVSubsection(DebugSubsectionKind::Symbols);
5bf71d11SReid Kleckner  MCSymbol *BIEnd = beginSymbolRecord(SymbolKind::S_BUILDINFO);
810687cbSReid Kleckner  OS.AddComment("LF_BUILDINFO index");
810687cbSReid Kleckner  OS.EmitIntValue(BuildInfoIndex.getIndex(), 4);
5bf71d11SReid Kleckner  endSymbolRecord(BIEnd);
5bf71d11SReid Kleckner  endCVSubsection(BISubsecEnd);
810687cbSReid Kleckner}
810687cbSReid Kleckner
5d122f87SReid Klecknervoid CodeViewDebug::emitInlineeLinesSubsection() {
1fcd610cSReid Kleckner  if (InlinedSubprograms.empty())
1fcd610cSReid Kleckner    return;
1fcd610cSReid Kleckner
1fcd610cSReid Kleckner  OS.AddComment("Inlinee lines subsection");
8c099fe0SZachary Turner  MCSymbol *InlineEnd = beginCVSubsection(DebugSubsectionKind::InlineeLines);
1fcd610cSReid Kleckner
26fa1bf4SReid Kleckner  // We emit the checksum info for files.  This is used by debuggers to
26fa1bf4SReid Kleckner  // determine if a pdb matches the source before loading it.  Visual Studio,
26fa1bf4SReid Kleckner  // for instance, will display a warning that the breakpoints are not valid if
26fa1bf4SReid Kleckner  // the pdb does not match the source.
30579ec8SDavid Majnemer  OS.AddComment("Inlinee lines signature");
1fcd610cSReid Kleckner  OS.EmitIntValue(unsigned(InlineeLinesSignature::Normal), 4);
1fcd610cSReid Kleckner
1fcd610cSReid Kleckner  for (const DISubprogram *SP : InlinedSubprograms) {
76c9eb99SAmjad Aboud    assert(TypeIndices.count({SP, nullptr}));
76c9eb99SAmjad Aboud    TypeIndex InlineeIdx = TypeIndices[{SP, nullptr}];
2280f932SReid Kleckner
30579ec8SDavid Majnemer    OS.AddBlankLine();
1fcd610cSReid Kleckner    unsigned FileId = maybeRecordFile(SP->getFile());
9d2f019fSAdrian Prantl    OS.AddComment("Inlined function " + SP->getName() + " starts at " +
1fcd610cSReid Kleckner                  SP->getFilename() + Twine(':') + Twine(SP->getLine()));
30579ec8SDavid Majnemer    OS.AddBlankLine();
30579ec8SDavid Majnemer    OS.AddComment("Type index of inlined function");
2280f932SReid Kleckner    OS.EmitIntValue(InlineeIdx.getIndex(), 4);
30579ec8SDavid Majnemer    OS.AddComment("Offset into filechecksum table");
26fa1bf4SReid Kleckner    OS.EmitCVFileChecksumOffsetDirective(FileId);
30579ec8SDavid Majnemer    OS.AddComment("Starting line number");
1fcd610cSReid Kleckner    OS.EmitIntValue(SP->getLine(), 4);
1fcd610cSReid Kleckner  }
1fcd610cSReid Kleckner
6f3406dfSReid Kleckner  endCVSubsection(InlineEnd);
1fcd610cSReid Kleckner}
1fcd610cSReid Kleckner
f3b9ba49SReid Klecknervoid CodeViewDebug::emitInlinedCallSite(const FunctionInfo &FI,
f3b9ba49SReid Kleckner                                        const DILocation *InlinedAt,
f3b9ba49SReid Kleckner                                        const InlineSite &Site) {
76c9eb99SAmjad Aboud  assert(TypeIndices.count({Site.Inlinee, nullptr}));
76c9eb99SAmjad Aboud  TypeIndex InlineeIdx = TypeIndices[{Site.Inlinee, nullptr}];
f3b9ba49SReid Kleckner
f3b9ba49SReid Kleckner  // SymbolRecord
5bf71d11SReid Kleckner  MCSymbol *InlineEnd = beginSymbolRecord(SymbolKind::S_INLINESITE);
f3b9ba49SReid Kleckner
dac21b43SReid Kleckner  OS.AddComment("PtrParent");
dac21b43SReid Kleckner  OS.EmitIntValue(0, 4);
dac21b43SReid Kleckner  OS.AddComment("PtrEnd");
dac21b43SReid Kleckner  OS.EmitIntValue(0, 4);
dac21b43SReid Kleckner  OS.AddComment("Inlinee type index");
2280f932SReid Kleckner  OS.EmitIntValue(InlineeIdx.getIndex(), 4);
f3b9ba49SReid Kleckner
1fcd610cSReid Kleckner  unsigned FileId = maybeRecordFile(Site.Inlinee->getFile());
1fcd610cSReid Kleckner  unsigned StartLineNum = Site.Inlinee->getLine();
1fcd610cSReid Kleckner
1fcd610cSReid Kleckner  OS.EmitCVInlineLinetableDirective(Site.SiteFuncId, FileId, StartLineNum,
a9f4cc95SReid Kleckner                                    FI.Begin, FI.End);
f3b9ba49SReid Kleckner
5bf71d11SReid Kleckner  endSymbolRecord(InlineEnd);
f3b9ba49SReid Kleckner
9ea2c012SReid Kleckner  emitLocalVariableList(FI, Site.InlinedLocals);
f9c275feSReid Kleckner
f3b9ba49SReid Kleckner  // Recurse on child inlined call sites before closing the scope.
f3b9ba49SReid Kleckner  for (const DILocation *ChildSite : Site.ChildSites) {
f3b9ba49SReid Kleckner    auto I = FI.InlineSites.find(ChildSite);
f3b9ba49SReid Kleckner    assert(I != FI.InlineSites.end() &&
f3b9ba49SReid Kleckner           "child site not in function inline site map");
f3b9ba49SReid Kleckner    emitInlinedCallSite(FI, ChildSite, I->second);
f3b9ba49SReid Kleckner  }
f3b9ba49SReid Kleckner
f3b9ba49SReid Kleckner  // Close the scope.
5bf71d11SReid Kleckner  emitEndSymbolRecord(SymbolKind::S_INLINESITE_END);
f3b9ba49SReid Kleckner}
f3b9ba49SReid Kleckner
5d122f87SReid Klecknervoid CodeViewDebug::switchToDebugSectionForSymbol(const MCSymbol *GVSym) {
5d122f87SReid Kleckner  // If we have a symbol, it may be in a section that is COMDAT. If so, find the
5d122f87SReid Kleckner  // comdat key. A section may be comdat because of -ffunction-sections or
5d122f87SReid Kleckner  // because it is comdat in the IR.
5d122f87SReid Kleckner  MCSectionCOFF *GVSec =
5d122f87SReid Kleckner      GVSym ? dyn_cast<MCSectionCOFF>(&GVSym->getSection()) : nullptr;
5d122f87SReid Kleckner  const MCSymbol *KeySym = GVSec ? GVSec->getCOMDATSymbol() : nullptr;
5d122f87SReid Kleckner
5d122f87SReid Kleckner  MCSectionCOFF *DebugSec = cast<MCSectionCOFF>(
5d122f87SReid Kleckner      Asm->getObjFileLowering().getCOFFDebugSymbolsSection());
5d122f87SReid Kleckner  DebugSec = OS.getContext().getAssociativeCOFFSection(DebugSec, KeySym);
5d122f87SReid Kleckner
5d122f87SReid Kleckner  OS.SwitchSection(DebugSec);
5d122f87SReid Kleckner
5d122f87SReid Kleckner  // Emit the magic version number if this is the first time we've switched to
5d122f87SReid Kleckner  // this section.
5d122f87SReid Kleckner  if (ComdatDebugSections.insert(DebugSec).second)
5d122f87SReid Kleckner    emitCodeViewMagicVersion();
5d122f87SReid Kleckner}
5d122f87SReid Kleckner
94ece8fbSBrock Wyma// Emit an S_THUNK32/S_END symbol pair for a thunk routine.
94ece8fbSBrock Wyma// The only supported thunk ordinal is currently the standard type.
94ece8fbSBrock Wymavoid CodeViewDebug::emitDebugInfoForThunk(const Function *GV,
94ece8fbSBrock Wyma                                          FunctionInfo &FI,
94ece8fbSBrock Wyma                                          const MCSymbol *Fn) {
94ece8fbSBrock Wyma  std::string FuncName = GlobalValue::dropLLVMManglingEscape(GV->getName());
94ece8fbSBrock Wyma  const ThunkOrdinal ordinal = ThunkOrdinal::Standard; // Only supported kind.
94ece8fbSBrock Wyma
94ece8fbSBrock Wyma  OS.AddComment("Symbol subsection for " + Twine(FuncName));
94ece8fbSBrock Wyma  MCSymbol *SymbolsEnd = beginCVSubsection(DebugSubsectionKind::Symbols);
94ece8fbSBrock Wyma
94ece8fbSBrock Wyma  // Emit S_THUNK32
5bf71d11SReid Kleckner  MCSymbol *ThunkRecordEnd = beginSymbolRecord(SymbolKind::S_THUNK32);
94ece8fbSBrock Wyma  OS.AddComment("PtrParent");
94ece8fbSBrock Wyma  OS.EmitIntValue(0, 4);
94ece8fbSBrock Wyma  OS.AddComment("PtrEnd");
94ece8fbSBrock Wyma  OS.EmitIntValue(0, 4);
94ece8fbSBrock Wyma  OS.AddComment("PtrNext");
94ece8fbSBrock Wyma  OS.EmitIntValue(0, 4);
94ece8fbSBrock Wyma  OS.AddComment("Thunk section relative address");
94ece8fbSBrock Wyma  OS.EmitCOFFSecRel32(Fn, /*Offset=*/0);
94ece8fbSBrock Wyma  OS.AddComment("Thunk section index");
94ece8fbSBrock Wyma  OS.EmitCOFFSectionIndex(Fn);
94ece8fbSBrock Wyma  OS.AddComment("Code size");
94ece8fbSBrock Wyma  OS.emitAbsoluteSymbolDiff(FI.End, Fn, 2);
94ece8fbSBrock Wyma  OS.AddComment("Ordinal");
94ece8fbSBrock Wyma  OS.EmitIntValue(unsigned(ordinal), 1);
94ece8fbSBrock Wyma  OS.AddComment("Function name");
94ece8fbSBrock Wyma  emitNullTerminatedSymbolName(OS, FuncName);
94ece8fbSBrock Wyma  // Additional fields specific to the thunk ordinal would go here.
5bf71d11SReid Kleckner  endSymbolRecord(ThunkRecordEnd);
94ece8fbSBrock Wyma
94ece8fbSBrock Wyma  // Local variables/inlined routines are purposely omitted here.  The point of
94ece8fbSBrock Wyma  // marking this as a thunk is so Visual Studio will NOT stop in this routine.
94ece8fbSBrock Wyma
94ece8fbSBrock Wyma  // Emit S_PROC_ID_END
5bf71d11SReid Kleckner  emitEndSymbolRecord(SymbolKind::S_PROC_ID_END);
94ece8fbSBrock Wyma
94ece8fbSBrock Wyma  endCVSubsection(SymbolsEnd);
94ece8fbSBrock Wyma}
94ece8fbSBrock Wyma
2214ed89SReid Klecknervoid CodeViewDebug::emitDebugInfoForFunction(const Function *GV,
2214ed89SReid Kleckner                                             FunctionInfo &FI) {
31cc1ebbSBrock Wyma  // For each function there is a separate subsection which holds the PC to
31cc1ebbSBrock Wyma  // file:line table.
70f5bc99SReid Kleckner  const MCSymbol *Fn = Asm->getSymbol(GV);
70f5bc99SReid Kleckner  assert(Fn);
70f5bc99SReid Kleckner
5d122f87SReid Kleckner  // Switch to the to a comdat section, if appropriate.
5d122f87SReid Kleckner  switchToDebugSectionForSymbol(Fn);
5d122f87SReid Kleckner
ac945e27SReid Kleckner  std::string FuncName;
3128b10cSDavid Majnemer  auto *SP = GV->getSubprogram();
67f684e1SDavid Majnemer  assert(SP);
3128b10cSDavid Majnemer  setCurrentSubprogram(SP);
ac945e27SReid Kleckner
94ece8fbSBrock Wyma  if (SP->isThunk()) {
94ece8fbSBrock Wyma    emitDebugInfoForThunk(GV, FI, Fn);
94ece8fbSBrock Wyma    return;
94ece8fbSBrock Wyma  }
94ece8fbSBrock Wyma
ac945e27SReid Kleckner  // If we have a display name, build the fully qualified name by walking the
ac945e27SReid Kleckner  // chain of scopes.
9d2f019fSAdrian Prantl  if (!SP->getName().empty())
0c5d874bSReid Kleckner    FuncName =
9d2f019fSAdrian Prantl        getFullyQualifiedName(SP->getScope().resolve(), SP->getName());
70f5bc99SReid Kleckner
70f5bc99SReid Kleckner  // If our DISubprogram name is empty, use the mangled name.
70f5bc99SReid Kleckner  if (FuncName.empty())
6f0ecca3SPeter Collingbourne    FuncName = GlobalValue::dropLLVMManglingEscape(GV->getName());
70f5bc99SReid Kleckner
9cdd4df8SReid Kleckner  // Emit FPO data, but only on 32-bit x86. No other platforms use it.
9cdd4df8SReid Kleckner  if (Triple(MMI->getModule()->getTargetTriple()).getArch() == Triple::x86)
9cdd4df8SReid Kleckner    OS.EmitCVFPOData(Fn);
9cdd4df8SReid Kleckner
70f5bc99SReid Kleckner  // Emit a symbol subsection, required by VS2012+ to find function boundaries.
dac21b43SReid Kleckner  OS.AddComment("Symbol subsection for " + Twine(FuncName));
8c099fe0SZachary Turner  MCSymbol *SymbolsEnd = beginCVSubsection(DebugSubsectionKind::Symbols);
70f5bc99SReid Kleckner  {
5bf71d11SReid Kleckner    SymbolKind ProcKind = GV->hasLocalLinkage() ? SymbolKind::S_LPROC32_ID
5bf71d11SReid Kleckner                                                : SymbolKind::S_GPROC32_ID;
5bf71d11SReid Kleckner    MCSymbol *ProcRecordEnd = beginSymbolRecord(ProcKind);
70f5bc99SReid Kleckner
30579ec8SDavid Majnemer    // These fields are filled in by tools like CVPACK which run after the fact.
dac21b43SReid Kleckner    OS.AddComment("PtrParent");
dac21b43SReid Kleckner    OS.EmitIntValue(0, 4);
dac21b43SReid Kleckner    OS.AddComment("PtrEnd");
dac21b43SReid Kleckner    OS.EmitIntValue(0, 4);
dac21b43SReid Kleckner    OS.AddComment("PtrNext");
dac21b43SReid Kleckner    OS.EmitIntValue(0, 4);
70f5bc99SReid Kleckner    // This is the important bit that tells the debugger where the function
70f5bc99SReid Kleckner    // code is located and what's its size:
dac21b43SReid Kleckner    OS.AddComment("Code size");
eb3bcdd2SReid Kleckner    OS.emitAbsoluteSymbolDiff(FI.End, Fn, 4);
dac21b43SReid Kleckner    OS.AddComment("Offset after prologue");
dac21b43SReid Kleckner    OS.EmitIntValue(0, 4);
dac21b43SReid Kleckner    OS.AddComment("Offset before epilogue");
dac21b43SReid Kleckner    OS.EmitIntValue(0, 4);
dac21b43SReid Kleckner    OS.AddComment("Function type index");
75c3ebfaSDavid Majnemer    OS.EmitIntValue(getFuncIdForSubprogram(GV->getSubprogram()).getIndex(), 4);
dac21b43SReid Kleckner    OS.AddComment("Function section relative address");
f7d84ee6SKeno Fischer    OS.EmitCOFFSecRel32(Fn, /*Offset=*/0);
dac21b43SReid Kleckner    OS.AddComment("Function section index");
dac21b43SReid Kleckner    OS.EmitCOFFSectionIndex(Fn);
dac21b43SReid Kleckner    OS.AddComment("Flags");
dac21b43SReid Kleckner    OS.EmitIntValue(0, 1);
70f5bc99SReid Kleckner    // Emit the function display name as a null-terminated string.
dac21b43SReid Kleckner    OS.AddComment("Function name");
1256125fSDavid Majnemer    // Truncate the name so we won't overflow the record length field.
b9456a5eSDavid Majnemer    emitNullTerminatedSymbolName(OS, FuncName);
5bf71d11SReid Kleckner    endSymbolRecord(ProcRecordEnd);
70f5bc99SReid Kleckner
5bf71d11SReid Kleckner    MCSymbol *FrameProcEnd = beginSymbolRecord(SymbolKind::S_FRAMEPROC);
9ea2c012SReid Kleckner    // Subtract out the CSR size since MSVC excludes that and we include it.
9ea2c012SReid Kleckner    OS.AddComment("FrameSize");
9ea2c012SReid Kleckner    OS.EmitIntValue(FI.FrameSize - FI.CSRSize, 4);
9ea2c012SReid Kleckner    OS.AddComment("Padding");
9ea2c012SReid Kleckner    OS.EmitIntValue(0, 4);
9ea2c012SReid Kleckner    OS.AddComment("Offset of padding");
9ea2c012SReid Kleckner    OS.EmitIntValue(0, 4);
9ea2c012SReid Kleckner    OS.AddComment("Bytes of callee saved registers");
9ea2c012SReid Kleckner    OS.EmitIntValue(FI.CSRSize, 4);
9ea2c012SReid Kleckner    OS.AddComment("Exception handler offset");
9ea2c012SReid Kleckner    OS.EmitIntValue(0, 4);
9ea2c012SReid Kleckner    OS.AddComment("Exception handler section");
9ea2c012SReid Kleckner    OS.EmitIntValue(0, 2);
9ea2c012SReid Kleckner    OS.AddComment("Flags (defines frame register)");
9ea2c012SReid Kleckner    OS.EmitIntValue(uint32_t(FI.FrameProcOpts), 4);
5bf71d11SReid Kleckner    endSymbolRecord(FrameProcEnd);
9ea2c012SReid Kleckner
9ea2c012SReid Kleckner    emitLocalVariableList(FI, FI.Locals);
b17464e4SBrock Wyma    emitGlobalVariableList(FI.Globals);
5a791ee4SReid Kleckner    emitLexicalBlockList(FI.ChildBlocks, FI);
f9c275feSReid Kleckner
f3b9ba49SReid Kleckner    // Emit inlined call site information. Only emit functions inlined directly
f3b9ba49SReid Kleckner    // into the parent function. We'll emit the other sites recursively as part
f3b9ba49SReid Kleckner    // of their parent inline site.
f9c275feSReid Kleckner    for (const DILocation *InlinedAt : FI.ChildSites) {
f9c275feSReid Kleckner      auto I = FI.InlineSites.find(InlinedAt);
f9c275feSReid Kleckner      assert(I != FI.InlineSites.end() &&
f9c275feSReid Kleckner             "child site not in function inline site map");
f9c275feSReid Kleckner      emitInlinedCallSite(FI, InlinedAt, I->second);
f3b9ba49SReid Kleckner    }
f3b9ba49SReid Kleckner
e33c94f1SReid Kleckner    for (auto Annot : FI.Annotations) {
e33c94f1SReid Kleckner      MCSymbol *Label = Annot.first;
e33c94f1SReid Kleckner      MDTuple *Strs = cast<MDTuple>(Annot.second);
5bf71d11SReid Kleckner      MCSymbol *AnnotEnd = beginSymbolRecord(SymbolKind::S_ANNOTATION);
e33c94f1SReid Kleckner      OS.EmitCOFFSecRel32(Label, /*Offset=*/0);
e33c94f1SReid Kleckner      // FIXME: Make sure we don't overflow the max record size.
e33c94f1SReid Kleckner      OS.EmitCOFFSectionIndex(Label);
e33c94f1SReid Kleckner      OS.EmitIntValue(Strs->getNumOperands(), 2);
e33c94f1SReid Kleckner      for (Metadata *MD : Strs->operands()) {
e33c94f1SReid Kleckner        // MDStrings are null terminated, so we can do EmitBytes and get the
e33c94f1SReid Kleckner        // nice .asciz directive.
e33c94f1SReid Kleckner        StringRef Str = cast<MDString>(MD)->getString();
e33c94f1SReid Kleckner        assert(Str.data()[Str.size()] == '\0' && "non-nullterminated MDString");
e33c94f1SReid Kleckner        OS.EmitBytes(StringRef(Str.data(), Str.size() + 1));
e33c94f1SReid Kleckner      }
5bf71d11SReid Kleckner      endSymbolRecord(AnnotEnd);
e33c94f1SReid Kleckner    }
e33c94f1SReid Kleckner
3128b10cSDavid Majnemer    if (SP != nullptr)
3128b10cSDavid Majnemer      emitDebugInfoForUDTs(LocalUDTs);
3128b10cSDavid Majnemer
70f5bc99SReid Kleckner    // We're done with this function.
5bf71d11SReid Kleckner    emitEndSymbolRecord(SymbolKind::S_PROC_ID_END);
70f5bc99SReid Kleckner  }
6f3406dfSReid Kleckner  endCVSubsection(SymbolsEnd);
70f5bc99SReid Kleckner
2214ed89SReid Kleckner  // We have an assembler directive that takes care of the whole line table.
dac21b43SReid Kleckner  OS.EmitCVLinetableDirective(FI.FuncId, Fn, FI.End);
70f5bc99SReid Kleckner}
70f5bc99SReid Kleckner
876330d5SReid KlecknerCodeViewDebug::LocalVarDefRange
876330d5SReid KlecknerCodeViewDebug::createDefRangeMem(uint16_t CVRegister, int Offset) {
876330d5SReid Kleckner  LocalVarDefRange DR;
c6a2f214SAaron Ballman  DR.InMemory = -1;
876330d5SReid Kleckner  DR.DataOffset = Offset;
876330d5SReid Kleckner  assert(DR.DataOffset == Offset && "truncation");
2b3e6428SReid Kleckner  DR.IsSubfield = 0;
876330d5SReid Kleckner  DR.StructOffset = 0;
876330d5SReid Kleckner  DR.CVRegister = CVRegister;
876330d5SReid Kleckner  return DR;
876330d5SReid Kleckner}
876330d5SReid Kleckner
ef331effSMatthias Braunvoid CodeViewDebug::collectVariableInfoFromMFTable(
760c1ab1SHsiangkai Wang    DenseSet<InlinedEntity> &Processed) {
ef331effSMatthias Braun  const MachineFunction &MF = *Asm->MF;
ef331effSMatthias Braun  const TargetSubtargetInfo &TSI = MF.getSubtarget();
876330d5SReid Kleckner  const TargetFrameLowering *TFI = TSI.getFrameLowering();
876330d5SReid Kleckner  const TargetRegisterInfo *TRI = TSI.getRegisterInfo();
876330d5SReid Kleckner
ef331effSMatthias Braun  for (const MachineFunction::VariableDbgInfo &VI : MF.getVariableDbgInfo()) {
f9c275feSReid Kleckner    if (!VI.Var)
f9c275feSReid Kleckner      continue;
f9c275feSReid Kleckner    assert(VI.Var->isValidLocationForIntrinsic(VI.Loc) &&
f9c275feSReid Kleckner           "Expected inlined-at fields to agree");
f9c275feSReid Kleckner
760c1ab1SHsiangkai Wang    Processed.insert(InlinedEntity(VI.Var, VI.Loc->getInlinedAt()));
f9c275feSReid Kleckner    LexicalScope *Scope = LScopes.findLexicalScope(VI.Loc);
f9c275feSReid Kleckner
f9c275feSReid Kleckner    // If variable scope is not found then skip this variable.
f9c275feSReid Kleckner    if (!Scope)
f9c275feSReid Kleckner      continue;
f9c275feSReid Kleckner
b5fced73SReid Kleckner    // If the variable has an attached offset expression, extract it.
b5fced73SReid Kleckner    // FIXME: Try to handle DW_OP_deref as well.
b5fced73SReid Kleckner    int64_t ExprOffset = 0;
b5fced73SReid Kleckner    if (VI.Expr)
b5fced73SReid Kleckner      if (!VI.Expr->extractIfOffset(ExprOffset))
b5fced73SReid Kleckner        continue;
b5fced73SReid Kleckner
f9c275feSReid Kleckner    // Get the frame register used and the offset.
f9c275feSReid Kleckner    unsigned FrameReg = 0;
876330d5SReid Kleckner    int FrameOffset = TFI->getFrameIndexReference(*Asm->MF, VI.Slot, FrameReg);
876330d5SReid Kleckner    uint16_t CVReg = TRI->getCodeViewRegNum(FrameReg);
f9c275feSReid Kleckner
f9c275feSReid Kleckner    // Calculate the label ranges.
b5fced73SReid Kleckner    LocalVarDefRange DefRange =
b5fced73SReid Kleckner        createDefRangeMem(CVReg, FrameOffset + ExprOffset);
f9c275feSReid Kleckner    for (const InsnRange &Range : Scope->getRanges()) {
f9c275feSReid Kleckner      const MCSymbol *Begin = getLabelBeforeInsn(Range.first);
f9c275feSReid Kleckner      const MCSymbol *End = getLabelAfterInsn(Range.second);
876330d5SReid Kleckner      End = End ? End : Asm->getFunctionEnd();
876330d5SReid Kleckner      DefRange.Ranges.emplace_back(Begin, End);
f9c275feSReid Kleckner    }
f9c275feSReid Kleckner
876330d5SReid Kleckner    LocalVariable Var;
876330d5SReid Kleckner    Var.DIVar = VI.Var;
876330d5SReid Kleckner    Var.DefRanges.emplace_back(std::move(DefRange));
5a791ee4SReid Kleckner    recordLocalVariable(std::move(Var), Scope);
f9c275feSReid Kleckner  }
f9c275feSReid Kleckner}
876330d5SReid Kleckner
08f5fd51SReid Klecknerstatic bool canUseReferenceType(const DbgVariableLocation &Loc) {
08f5fd51SReid Kleckner  return !Loc.LoadChain.empty() && Loc.LoadChain.back() == 0;
08f5fd51SReid Kleckner}
08f5fd51SReid Kleckner
08f5fd51SReid Klecknerstatic bool needsReferenceType(const DbgVariableLocation &Loc) {
08f5fd51SReid Kleckner  return Loc.LoadChain.size() == 2 && Loc.LoadChain.back() == 0;
08f5fd51SReid Kleckner}
08f5fd51SReid Kleckner
223303c5SBob Haarmanvoid CodeViewDebug::calculateRanges(
*6feef56dSDavid Stenberg    LocalVariable &Var, const DbgValueHistoryMap::Entries &Entries) {
223303c5SBob Haarman  const TargetRegisterInfo *TRI = Asm->MF->getSubtarget().getRegisterInfo();
223303c5SBob Haarman
08f5fd51SReid Kleckner  // Calculate the definition ranges.
*6feef56dSDavid Stenberg  for (auto I = Entries.begin(), E = Entries.end(); I != E; ++I) {
*6feef56dSDavid Stenberg    const auto &Entry = *I;
*6feef56dSDavid Stenberg    const MachineInstr *DVInst = Entry.getBegin();
223303c5SBob Haarman    assert(DVInst->isDebugValue() && "Invalid History entry");
223303c5SBob Haarman    // FIXME: Find a way to represent constant variables, since they are
223303c5SBob Haarman    // relatively common.
1a4cbbe4SBob Haarman    Optional<DbgVariableLocation> Location =
1a4cbbe4SBob Haarman        DbgVariableLocation::extractFromMachineInstruction(*DVInst);
1a4cbbe4SBob Haarman    if (!Location)
a88bce1bSBob Haarman      continue;
223303c5SBob Haarman
08f5fd51SReid Kleckner    // CodeView can only express variables in register and variables in memory
08f5fd51SReid Kleckner    // at a constant offset from a register. However, for variables passed
08f5fd51SReid Kleckner    // indirectly by pointer, it is common for that pointer to be spilled to a
08f5fd51SReid Kleckner    // stack location. For the special case of one offseted load followed by a
08f5fd51SReid Kleckner    // zero offset load (a pointer spilled to the stack), we change the type of
08f5fd51SReid Kleckner    // the local variable from a value type to a reference type. This tricks the
08f5fd51SReid Kleckner    // debugger into doing the load for us.
08f5fd51SReid Kleckner    if (Var.UseReferenceType) {
08f5fd51SReid Kleckner      // We're using a reference type. Drop the last zero offset load.
08f5fd51SReid Kleckner      if (canUseReferenceType(*Location))
08f5fd51SReid Kleckner        Location->LoadChain.pop_back();
223303c5SBob Haarman      else
1a4cbbe4SBob Haarman        continue;
08f5fd51SReid Kleckner    } else if (needsReferenceType(*Location)) {
08f5fd51SReid Kleckner      // This location can't be expressed without switching to a reference type.
08f5fd51SReid Kleckner      // Start over using that.
08f5fd51SReid Kleckner      Var.UseReferenceType = true;
223303c5SBob Haarman      Var.DefRanges.clear();
*6feef56dSDavid Stenberg      calculateRanges(Var, Entries);
223303c5SBob Haarman      return;
223303c5SBob Haarman    }
223303c5SBob Haarman
08f5fd51SReid Kleckner    // We can only handle a register or an offseted load of a register.
08f5fd51SReid Kleckner    if (Location->Register == 0 || Location->LoadChain.size() > 1)
223303c5SBob Haarman      continue;
223303c5SBob Haarman    {
223303c5SBob Haarman      LocalVarDefRange DR;
1a4cbbe4SBob Haarman      DR.CVRegister = TRI->getCodeViewRegNum(Location->Register);
08f5fd51SReid Kleckner      DR.InMemory = !Location->LoadChain.empty();
08f5fd51SReid Kleckner      DR.DataOffset =
08f5fd51SReid Kleckner          !Location->LoadChain.empty() ? Location->LoadChain.back() : 0;
1a4cbbe4SBob Haarman      if (Location->FragmentInfo) {
223303c5SBob Haarman        DR.IsSubfield = true;
1a4cbbe4SBob Haarman        DR.StructOffset = Location->FragmentInfo->OffsetInBits / 8;
223303c5SBob Haarman      } else {
223303c5SBob Haarman        DR.IsSubfield = false;
223303c5SBob Haarman        DR.StructOffset = 0;
223303c5SBob Haarman      }
223303c5SBob Haarman
223303c5SBob Haarman      if (Var.DefRanges.empty() ||
223303c5SBob Haarman          Var.DefRanges.back().isDifferentLocation(DR)) {
223303c5SBob Haarman        Var.DefRanges.emplace_back(std::move(DR));
223303c5SBob Haarman      }
223303c5SBob Haarman    }
223303c5SBob Haarman
223303c5SBob Haarman    // Compute the label range.
*6feef56dSDavid Stenberg    const MCSymbol *Begin = getLabelBeforeInsn(Entry.getBegin());
*6feef56dSDavid Stenberg    const MCSymbol *End = getLabelAfterInsn(Entry.getEnd());
223303c5SBob Haarman    if (!End) {
223303c5SBob Haarman      // This range is valid until the next overlapping bitpiece. In the
223303c5SBob Haarman      // common case, ranges will not be bitpieces, so they will overlap.
223303c5SBob Haarman      auto J = std::next(I);
223303c5SBob Haarman      const DIExpression *DIExpr = DVInst->getDebugExpression();
223303c5SBob Haarman      while (J != E &&
3739979cSDavid Stenberg             !DIExpr->fragmentsOverlap(J->getBegin()->getDebugExpression()))
223303c5SBob Haarman        ++J;
223303c5SBob Haarman      if (J != E)
3739979cSDavid Stenberg        End = getLabelBeforeInsn(J->getBegin());
223303c5SBob Haarman      else
223303c5SBob Haarman        End = Asm->getFunctionEnd();
223303c5SBob Haarman    }
223303c5SBob Haarman
223303c5SBob Haarman    // If the last range end is our begin, just extend the last range.
223303c5SBob Haarman    // Otherwise make a new range.
223303c5SBob Haarman    SmallVectorImpl<std::pair<const MCSymbol *, const MCSymbol *>> &R =
223303c5SBob Haarman        Var.DefRanges.back().Ranges;
223303c5SBob Haarman    if (!R.empty() && R.back().second == Begin)
223303c5SBob Haarman      R.back().second = End;
223303c5SBob Haarman    else
223303c5SBob Haarman      R.emplace_back(Begin, End);
223303c5SBob Haarman
223303c5SBob Haarman    // FIXME: Do more range combining.
223303c5SBob Haarman  }
223303c5SBob Haarman}
223303c5SBob Haarman
876330d5SReid Klecknervoid CodeViewDebug::collectVariableInfo(const DISubprogram *SP) {
760c1ab1SHsiangkai Wang  DenseSet<InlinedEntity> Processed;
876330d5SReid Kleckner  // Grab the variable info that was squirreled away in the MMI side-table.
ef331effSMatthias Braun  collectVariableInfoFromMFTable(Processed);
876330d5SReid Kleckner
876330d5SReid Kleckner  for (const auto &I : DbgValues) {
760c1ab1SHsiangkai Wang    InlinedEntity IV = I.first;
876330d5SReid Kleckner    if (Processed.count(IV))
876330d5SReid Kleckner      continue;
760c1ab1SHsiangkai Wang    const DILocalVariable *DIVar = cast<DILocalVariable>(IV.first);
876330d5SReid Kleckner    const DILocation *InlinedAt = IV.second;
876330d5SReid Kleckner
876330d5SReid Kleckner    // Instruction ranges, specifying where IV is accessible.
*6feef56dSDavid Stenberg    const auto &Entries = I.second;
876330d5SReid Kleckner
876330d5SReid Kleckner    LexicalScope *Scope = nullptr;
876330d5SReid Kleckner    if (InlinedAt)
876330d5SReid Kleckner      Scope = LScopes.findInlinedScope(DIVar->getScope(), InlinedAt);
876330d5SReid Kleckner    else
876330d5SReid Kleckner      Scope = LScopes.findLexicalScope(DIVar->getScope());
876330d5SReid Kleckner    // If variable scope is not found then skip this variable.
876330d5SReid Kleckner    if (!Scope)
876330d5SReid Kleckner      continue;
876330d5SReid Kleckner
876330d5SReid Kleckner    LocalVariable Var;
876330d5SReid Kleckner    Var.DIVar = DIVar;
876330d5SReid Kleckner
*6feef56dSDavid Stenberg    calculateRanges(Var, Entries);
5a791ee4SReid Kleckner    recordLocalVariable(std::move(Var), Scope);
876330d5SReid Kleckner  }
f9c275feSReid Kleckner}
f9c275feSReid Kleckner
b2fbb4b2SDavid Blaikievoid CodeViewDebug::beginFunctionImpl(const MachineFunction *MF) {
9ea2c012SReid Kleckner  const TargetSubtargetInfo &TSI = MF->getSubtarget();
9ea2c012SReid Kleckner  const TargetRegisterInfo *TRI = TSI.getRegisterInfo();
9ea2c012SReid Kleckner  const MachineFrameInfo &MFI = MF->getFrameInfo();
f1caa283SMatthias Braun  const Function &GV = MF->getFunction();
55baeefdSReid Kleckner  auto Insertion = FnDebugInfo.insert({&GV, llvm::make_unique<FunctionInfo>()});
e9dc30d2SReid Kleckner  assert(Insertion.second && "function already has info");
55baeefdSReid Kleckner  CurFn = Insertion.first->second.get();
2214ed89SReid Kleckner  CurFn->FuncId = NextFuncId++;
1fcd610cSReid Kleckner  CurFn->Begin = Asm->getFunctionBegin();
70f5bc99SReid Kleckner
9ea2c012SReid Kleckner  // The S_FRAMEPROC record reports the stack size, and how many bytes of
9ea2c012SReid Kleckner  // callee-saved registers were used. For targets that don't use a PUSH
9ea2c012SReid Kleckner  // instruction (AArch64), this will be zero.
9ea2c012SReid Kleckner  CurFn->CSRSize = MFI.getCVBytesOfCalleeSavedRegisters();
9ea2c012SReid Kleckner  CurFn->FrameSize = MFI.getStackSize();
2bcb288aSReid Kleckner  CurFn->OffsetAdjustment = MFI.getOffsetAdjustment();
d5e4ec74SReid Kleckner  CurFn->HasStackRealignment = TRI->needsStackRealignment(*MF);
9ea2c012SReid Kleckner
9ea2c012SReid Kleckner  // For this function S_FRAMEPROC record, figure out which codeview register
9ea2c012SReid Kleckner  // will be the frame pointer.
9ea2c012SReid Kleckner  CurFn->EncodedParamFramePtrReg = EncodedFramePtrReg::None; // None.
9ea2c012SReid Kleckner  CurFn->EncodedLocalFramePtrReg = EncodedFramePtrReg::None; // None.
9ea2c012SReid Kleckner  if (CurFn->FrameSize > 0) {
9ea2c012SReid Kleckner    if (!TSI.getFrameLowering()->hasFP(*MF)) {
9ea2c012SReid Kleckner      CurFn->EncodedLocalFramePtrReg = EncodedFramePtrReg::StackPtr;
9ea2c012SReid Kleckner      CurFn->EncodedParamFramePtrReg = EncodedFramePtrReg::StackPtr;
9ea2c012SReid Kleckner    } else {
9ea2c012SReid Kleckner      // If there is an FP, parameters are always relative to it.
9ea2c012SReid Kleckner      CurFn->EncodedParamFramePtrReg = EncodedFramePtrReg::FramePtr;
d5e4ec74SReid Kleckner      if (CurFn->HasStackRealignment) {
9ea2c012SReid Kleckner        // If the stack needs realignment, locals are relative to SP or VFRAME.
9ea2c012SReid Kleckner        CurFn->EncodedLocalFramePtrReg = EncodedFramePtrReg::StackPtr;
9ea2c012SReid Kleckner      } else {
9ea2c012SReid Kleckner        // Otherwise, locals are relative to EBP, and we probably have VLAs or
9ea2c012SReid Kleckner        // other stack adjustments.
9ea2c012SReid Kleckner        CurFn->EncodedLocalFramePtrReg = EncodedFramePtrReg::FramePtr;
9ea2c012SReid Kleckner      }
9ea2c012SReid Kleckner    }
9ea2c012SReid Kleckner  }
9ea2c012SReid Kleckner
9ea2c012SReid Kleckner  // Compute other frame procedure options.
9ea2c012SReid Kleckner  FrameProcedureOptions FPO = FrameProcedureOptions::None;
9ea2c012SReid Kleckner  if (MFI.hasVarSizedObjects())
9ea2c012SReid Kleckner    FPO |= FrameProcedureOptions::HasAlloca;
9ea2c012SReid Kleckner  if (MF->exposesReturnsTwice())
9ea2c012SReid Kleckner    FPO |= FrameProcedureOptions::HasSetJmp;
9ea2c012SReid Kleckner  // FIXME: Set HasLongJmp if we ever track that info.
9ea2c012SReid Kleckner  if (MF->hasInlineAsm())
9ea2c012SReid Kleckner    FPO |= FrameProcedureOptions::HasInlineAssembly;
9ea2c012SReid Kleckner  if (GV.hasPersonalityFn()) {
9ea2c012SReid Kleckner    if (isAsynchronousEHPersonality(
9ea2c012SReid Kleckner            classifyEHPersonality(GV.getPersonalityFn())))
9ea2c012SReid Kleckner      FPO |= FrameProcedureOptions::HasStructuredExceptionHandling;
9ea2c012SReid Kleckner    else
9ea2c012SReid Kleckner      FPO |= FrameProcedureOptions::HasExceptionHandling;
9ea2c012SReid Kleckner  }
9ea2c012SReid Kleckner  if (GV.hasFnAttribute(Attribute::InlineHint))
9ea2c012SReid Kleckner    FPO |= FrameProcedureOptions::MarkedInline;
9ea2c012SReid Kleckner  if (GV.hasFnAttribute(Attribute::Naked))
9ea2c012SReid Kleckner    FPO |= FrameProcedureOptions::Naked;
9ea2c012SReid Kleckner  if (MFI.hasStackProtectorIndex())
9ea2c012SReid Kleckner    FPO |= FrameProcedureOptions::SecurityChecks;
9ea2c012SReid Kleckner  FPO |= FrameProcedureOptions(uint32_t(CurFn->EncodedLocalFramePtrReg) << 14U);
9ea2c012SReid Kleckner  FPO |= FrameProcedureOptions(uint32_t(CurFn->EncodedParamFramePtrReg) << 16U);
7c711ccfSEvandro Menezes  if (Asm->TM.getOptLevel() != CodeGenOpt::None &&
85bd3978SEvandro Menezes      !GV.hasOptSize() && !GV.hasOptNone())
9ea2c012SReid Kleckner    FPO |= FrameProcedureOptions::OptimizedForSpeed;
9ea2c012SReid Kleckner  // FIXME: Set GuardCfg when it is implemented.
9ea2c012SReid Kleckner  CurFn->FrameProcOpts = FPO;
9ea2c012SReid Kleckner
a9f4cc95SReid Kleckner  OS.EmitCVFuncIdDirective(CurFn->FuncId);
a9f4cc95SReid Kleckner
f9c275feSReid Kleckner  // Find the end of the function prolog.  First known non-DBG_VALUE and
f9c275feSReid Kleckner  // non-frame setup location marks the beginning of the function body.
70f5bc99SReid Kleckner  // FIXME: is there a simpler a way to do this? Can we just search
70f5bc99SReid Kleckner  // for the first instruction of the function, not the last of the prolog?
70f5bc99SReid Kleckner  DebugLoc PrologEndLoc;
70f5bc99SReid Kleckner  bool EmptyPrologue = true;
70f5bc99SReid Kleckner  for (const auto &MBB : *MF) {
70f5bc99SReid Kleckner    for (const auto &MI : MBB) {
fb31da13SAdrian Prantl      if (!MI.isMetaInstruction() && !MI.getFlag(MachineInstr::FrameSetup) &&
f9c275feSReid Kleckner          MI.getDebugLoc()) {
70f5bc99SReid Kleckner        PrologEndLoc = MI.getDebugLoc();
70f5bc99SReid Kleckner        break;
fb31da13SAdrian Prantl      } else if (!MI.isMetaInstruction()) {
70f5bc99SReid Kleckner        EmptyPrologue = false;
70f5bc99SReid Kleckner      }
70f5bc99SReid Kleckner    }
f9c275feSReid Kleckner  }
f9c275feSReid Kleckner
70f5bc99SReid Kleckner  // Record beginning of function if we have a non-empty prologue.
70f5bc99SReid Kleckner  if (PrologEndLoc && !EmptyPrologue) {
70f5bc99SReid Kleckner    DebugLoc FnStartDL = PrologEndLoc.getFnDebugLoc();
70f5bc99SReid Kleckner    maybeRecordLocation(FnStartDL, MF);
70f5bc99SReid Kleckner  }
70f5bc99SReid Kleckner}
70f5bc99SReid Kleckner
a7b04174SZachary Turnerstatic bool shouldEmitUdt(const DIType *T) {
37c74749SZachary Turner  if (!T)
37c74749SZachary Turner    return false;
37c74749SZachary Turner
37c74749SZachary Turner  // MSVC does not emit UDTs for typedefs that are scoped to classes.
37c74749SZachary Turner  if (T->getTag() == dwarf::DW_TAG_typedef) {
37c74749SZachary Turner    if (DIScope *Scope = T->getScope().resolve()) {
37c74749SZachary Turner      switch (Scope->getTag()) {
37c74749SZachary Turner      case dwarf::DW_TAG_structure_type:
37c74749SZachary Turner      case dwarf::DW_TAG_class_type:
37c74749SZachary Turner      case dwarf::DW_TAG_union_type:
37c74749SZachary Turner        return false;
37c74749SZachary Turner      }
37c74749SZachary Turner    }
37c74749SZachary Turner  }
37c74749SZachary Turner
a7b04174SZachary Turner  while (true) {
a7b04174SZachary Turner    if (!T || T->isForwardDecl())
a7b04174SZachary Turner      return false;
a7b04174SZachary Turner
a7b04174SZachary Turner    const DIDerivedType *DT = dyn_cast<DIDerivedType>(T);
a7b04174SZachary Turner    if (!DT)
a7b04174SZachary Turner      return true;
a7b04174SZachary Turner    T = DT->getBaseType().resolve();
a7b04174SZachary Turner  }
a7b04174SZachary Turner  return true;
a7b04174SZachary Turner}
a7b04174SZachary Turner
a7b04174SZachary Turnervoid CodeViewDebug::addToUDTs(const DIType *Ty) {
ad56ea31SReid Kleckner  // Don't record empty UDTs.
ad56ea31SReid Kleckner  if (Ty->getName().empty())
ad56ea31SReid Kleckner    return;
a7b04174SZachary Turner  if (!shouldEmitUdt(Ty))
a7b04174SZachary Turner    return;
ad56ea31SReid Kleckner
4b63a98dSHans Wennborg  SmallVector<StringRef, 5> QualifiedNameComponents;
4b63a98dSHans Wennborg  const DISubprogram *ClosestSubprogram = getQualifiedNameComponents(
4b63a98dSHans Wennborg      Ty->getScope().resolve(), QualifiedNameComponents);
4b63a98dSHans Wennborg
4b63a98dSHans Wennborg  std::string FullyQualifiedName =
6bdc24e7SDavid Majnemer      getQualifiedName(QualifiedNameComponents, getPrettyScopeName(Ty));
4b63a98dSHans Wennborg
a7b04174SZachary Turner  if (ClosestSubprogram == nullptr) {
a7b04174SZachary Turner    GlobalUDTs.emplace_back(std::move(FullyQualifiedName), Ty);
a7b04174SZachary Turner  } else if (ClosestSubprogram == CurrentSubprogram) {
a7b04174SZachary Turner    LocalUDTs.emplace_back(std::move(FullyQualifiedName), Ty);
a7b04174SZachary Turner  }
4b63a98dSHans Wennborg
4b63a98dSHans Wennborg  // TODO: What if the ClosestSubprogram is neither null or the current
4b63a98dSHans Wennborg  // subprogram?  Currently, the UDT just gets dropped on the floor.
4b63a98dSHans Wennborg  //
4b63a98dSHans Wennborg  // The current behavior is not desirable.  To get maximal fidelity, we would
4b63a98dSHans Wennborg  // need to perform all type translation before beginning emission of .debug$S
4b63a98dSHans Wennborg  // and then make LocalUDTs a member of FunctionInfo
4b63a98dSHans Wennborg}
4b63a98dSHans Wennborg
76c9eb99SAmjad AboudTypeIndex CodeViewDebug::lowerType(const DIType *Ty, const DIType *ClassTy) {
5acacbb0SReid Kleckner  // Generic dispatch for lowering an unknown type.
5acacbb0SReid Kleckner  switch (Ty->getTag()) {
f3c3c132SAdrian McCarthy  case dwarf::DW_TAG_array_type:
f3c3c132SAdrian McCarthy    return lowerTypeArray(cast<DICompositeType>(Ty));
d065e23dSDavid Majnemer  case dwarf::DW_TAG_typedef:
d065e23dSDavid Majnemer    return lowerTypeAlias(cast<DIDerivedType>(Ty));
5acacbb0SReid Kleckner  case dwarf::DW_TAG_base_type:
5acacbb0SReid Kleckner    return lowerTypeBasic(cast<DIBasicType>(Ty));
5acacbb0SReid Kleckner  case dwarf::DW_TAG_pointer_type:
9dac4731SReid Kleckner    if (cast<DIDerivedType>(Ty)->getName() == "__vtbl_ptr_type")
9dac4731SReid Kleckner      return lowerTypeVFTableShape(cast<DIDerivedType>(Ty));
9dac4731SReid Kleckner    LLVM_FALLTHROUGH;
5acacbb0SReid Kleckner  case dwarf::DW_TAG_reference_type:
5acacbb0SReid Kleckner  case dwarf::DW_TAG_rvalue_reference_type:
5acacbb0SReid Kleckner    return lowerTypePointer(cast<DIDerivedType>(Ty));
5acacbb0SReid Kleckner  case dwarf::DW_TAG_ptr_to_member_type:
5acacbb0SReid Kleckner    return lowerTypeMemberPointer(cast<DIDerivedType>(Ty));
3acdc677SReid Kleckner  case dwarf::DW_TAG_restrict_type:
5acacbb0SReid Kleckner  case dwarf::DW_TAG_const_type:
5acacbb0SReid Kleckner  case dwarf::DW_TAG_volatile_type:
e1156c2eSVictor Leschuk  // TODO: add support for DW_TAG_atomic_type here
5acacbb0SReid Kleckner    return lowerTypeModifier(cast<DIDerivedType>(Ty));
75c3ebfaSDavid Majnemer  case dwarf::DW_TAG_subroutine_type:
0c5d874bSReid Kleckner    if (ClassTy) {
0c5d874bSReid Kleckner      // The member function type of a member function pointer has no
0c5d874bSReid Kleckner      // ThisAdjustment.
0c5d874bSReid Kleckner      return lowerTypeMemberFunction(cast<DISubroutineType>(Ty), ClassTy,
d91bf399SAdrian McCarthy                                     /*ThisAdjustment=*/0,
d91bf399SAdrian McCarthy                                     /*IsStaticMethod=*/false);
0c5d874bSReid Kleckner    }
75c3ebfaSDavid Majnemer    return lowerTypeFunction(cast<DISubroutineType>(Ty));
979cb888SDavid Majnemer  case dwarf::DW_TAG_enumeration_type:
979cb888SDavid Majnemer    return lowerTypeEnum(cast<DICompositeType>(Ty));
a8d57407SReid Kleckner  case dwarf::DW_TAG_class_type:
a8d57407SReid Kleckner  case dwarf::DW_TAG_structure_type:
a8d57407SReid Kleckner    return lowerTypeClass(cast<DICompositeType>(Ty));
a8d57407SReid Kleckner  case dwarf::DW_TAG_union_type:
a8d57407SReid Kleckner    return lowerTypeUnion(cast<DICompositeType>(Ty));
a73fa2a0SAaron Smith  case dwarf::DW_TAG_unspecified_type:
56a5a0c3SZachary Turner    if (Ty->getName() == "decltype(nullptr)")
56a5a0c3SZachary Turner      return TypeIndex::NullptrT();
a73fa2a0SAaron Smith    return TypeIndex::None();
5acacbb0SReid Kleckner  default:
5acacbb0SReid Kleckner    // Use the null type index.
5acacbb0SReid Kleckner    return TypeIndex();
5acacbb0SReid Kleckner  }
5acacbb0SReid Kleckner}
5acacbb0SReid Kleckner
d065e23dSDavid MajnemerTypeIndex CodeViewDebug::lowerTypeAlias(const DIDerivedType *Ty) {
d065e23dSDavid Majnemer  DITypeRef UnderlyingTypeRef = Ty->getBaseType();
d065e23dSDavid Majnemer  TypeIndex UnderlyingTypeIndex = getTypeIndex(UnderlyingTypeRef);
3128b10cSDavid Majnemer  StringRef TypeName = Ty->getName();
3128b10cSDavid Majnemer
a7b04174SZachary Turner  addToUDTs(Ty);
3128b10cSDavid Majnemer
d065e23dSDavid Majnemer  if (UnderlyingTypeIndex == TypeIndex(SimpleTypeKind::Int32Long) &&
3128b10cSDavid Majnemer      TypeName == "HRESULT")
d065e23dSDavid Majnemer    return TypeIndex(SimpleTypeKind::HResult);
8c46a4ceSDavid Majnemer  if (UnderlyingTypeIndex == TypeIndex(SimpleTypeKind::UInt16Short) &&
3128b10cSDavid Majnemer      TypeName == "wchar_t")
8c46a4ceSDavid Majnemer    return TypeIndex(SimpleTypeKind::WideCharacter);
4b63a98dSHans Wennborg
d065e23dSDavid Majnemer  return UnderlyingTypeIndex;
d065e23dSDavid Majnemer}
d065e23dSDavid Majnemer
f3c3c132SAdrian McCarthyTypeIndex CodeViewDebug::lowerTypeArray(const DICompositeType *Ty) {
f3c3c132SAdrian McCarthy  DITypeRef ElementTypeRef = Ty->getBaseType();
f3c3c132SAdrian McCarthy  TypeIndex ElementTypeIndex = getTypeIndex(ElementTypeRef);
f3c3c132SAdrian McCarthy  // IndexType is size_t, which depends on the bitness of the target.
41e5ac4fSMatt Arsenault  TypeIndex IndexType = getPointerSizeInBytes() == 8
f3c3c132SAdrian McCarthy                            ? TypeIndex(SimpleTypeKind::UInt64Quad)
f3c3c132SAdrian McCarthy                            : TypeIndex(SimpleTypeKind::UInt32Long);
acee5685SAmjad Aboud
acee5685SAmjad Aboud  uint64_t ElementSize = getBaseTypeSize(ElementTypeRef) / 8;
acee5685SAmjad Aboud
acee5685SAmjad Aboud  // Add subranges to array type.
acee5685SAmjad Aboud  DINodeArray Elements = Ty->getElements();
acee5685SAmjad Aboud  for (int i = Elements.size() - 1; i >= 0; --i) {
acee5685SAmjad Aboud    const DINode *Element = Elements[i];
acee5685SAmjad Aboud    assert(Element->getTag() == dwarf::DW_TAG_subrange_type);
acee5685SAmjad Aboud
acee5685SAmjad Aboud    const DISubrange *Subrange = cast<DISubrange>(Element);
acee5685SAmjad Aboud    assert(Subrange->getLowerBound() == 0 &&
acee5685SAmjad Aboud           "codeview doesn't support subranges with lower bounds");
fdf40917SSander de Smalen    int64_t Count = -1;
fdf40917SSander de Smalen    if (auto *CI = Subrange->getCount().dyn_cast<ConstantInt*>())
fdf40917SSander de Smalen      Count = CI->getSExtValue();
acee5685SAmjad Aboud
cd7bba02SReid Kleckner    // Forward declarations of arrays without a size and VLAs use a count of -1.
cd7bba02SReid Kleckner    // Emit a count of zero in these cases to match what MSVC does for arrays
cd7bba02SReid Kleckner    // without a size. MSVC doesn't support VLAs, so it's not clear what we
cd7bba02SReid Kleckner    // should do for them even if we could distinguish them.
6b78e163SReid Kleckner    if (Count == -1)
89af112cSReid Kleckner      Count = 0;
acee5685SAmjad Aboud
acee5685SAmjad Aboud    // Update the element size and element type index for subsequent subranges.
acee5685SAmjad Aboud    ElementSize *= Count;
1076288eSReid Kleckner
1076288eSReid Kleckner    // If this is the outermost array, use the size from the array. It will be
6b78e163SReid Kleckner    // more accurate if we had a VLA or an incomplete element type size.
1076288eSReid Kleckner    uint64_t ArraySize =
1076288eSReid Kleckner        (i == 0 && ElementSize == 0) ? Ty->getSizeInBits() / 8 : ElementSize;
1076288eSReid Kleckner
1076288eSReid Kleckner    StringRef Name = (i == 0) ? Ty->getName() : "";
4efa0a42SZachary Turner    ArrayRecord AR(ElementTypeIndex, IndexType, ArraySize, Name);
6900de1dSZachary Turner    ElementTypeIndex = TypeTable.writeLeafType(AR);
acee5685SAmjad Aboud  }
acee5685SAmjad Aboud
acee5685SAmjad Aboud  return ElementTypeIndex;
f3c3c132SAdrian McCarthy}
f3c3c132SAdrian McCarthy
5acacbb0SReid KlecknerTypeIndex CodeViewDebug::lowerTypeBasic(const DIBasicType *Ty) {
5acacbb0SReid Kleckner  TypeIndex Index;
5acacbb0SReid Kleckner  dwarf::TypeKind Kind;
5acacbb0SReid Kleckner  uint32_t ByteSize;
5acacbb0SReid Kleckner
5acacbb0SReid Kleckner  Kind = static_cast<dwarf::TypeKind>(Ty->getEncoding());
afefa673SDavid Majnemer  ByteSize = Ty->getSizeInBits() / 8;
5acacbb0SReid Kleckner
5acacbb0SReid Kleckner  SimpleTypeKind STK = SimpleTypeKind::None;
5acacbb0SReid Kleckner  switch (Kind) {
5acacbb0SReid Kleckner  case dwarf::DW_ATE_address:
5acacbb0SReid Kleckner    // FIXME: Translate
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  case dwarf::DW_ATE_boolean:
5acacbb0SReid Kleckner    switch (ByteSize) {
5acacbb0SReid Kleckner    case 1:  STK = SimpleTypeKind::Boolean8;   break;
5acacbb0SReid Kleckner    case 2:  STK = SimpleTypeKind::Boolean16;  break;
5acacbb0SReid Kleckner    case 4:  STK = SimpleTypeKind::Boolean32;  break;
5acacbb0SReid Kleckner    case 8:  STK = SimpleTypeKind::Boolean64;  break;
1c2cb1ddSDavid Majnemer    case 16: STK = SimpleTypeKind::Boolean128; break;
5acacbb0SReid Kleckner    }
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  case dwarf::DW_ATE_complex_float:
5acacbb0SReid Kleckner    switch (ByteSize) {
1c2cb1ddSDavid Majnemer    case 2:  STK = SimpleTypeKind::Complex16;  break;
5acacbb0SReid Kleckner    case 4:  STK = SimpleTypeKind::Complex32;  break;
5acacbb0SReid Kleckner    case 8:  STK = SimpleTypeKind::Complex64;  break;
5acacbb0SReid Kleckner    case 10: STK = SimpleTypeKind::Complex80;  break;
5acacbb0SReid Kleckner    case 16: STK = SimpleTypeKind::Complex128; break;
5acacbb0SReid Kleckner    }
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  case dwarf::DW_ATE_float:
5acacbb0SReid Kleckner    switch (ByteSize) {
1c2cb1ddSDavid Majnemer    case 2:  STK = SimpleTypeKind::Float16;  break;
5acacbb0SReid Kleckner    case 4:  STK = SimpleTypeKind::Float32;  break;
5acacbb0SReid Kleckner    case 6:  STK = SimpleTypeKind::Float48;  break;
5acacbb0SReid Kleckner    case 8:  STK = SimpleTypeKind::Float64;  break;
5acacbb0SReid Kleckner    case 10: STK = SimpleTypeKind::Float80;  break;
5acacbb0SReid Kleckner    case 16: STK = SimpleTypeKind::Float128; break;
5acacbb0SReid Kleckner    }
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  case dwarf::DW_ATE_signed:
5acacbb0SReid Kleckner    switch (ByteSize) {
e45b2c7dSReid Kleckner    case 1:  STK = SimpleTypeKind::SignedCharacter; break;
5acacbb0SReid Kleckner    case 2:  STK = SimpleTypeKind::Int16Short;      break;
5acacbb0SReid Kleckner    case 4:  STK = SimpleTypeKind::Int32;           break;
1c2cb1ddSDavid Majnemer    case 8:  STK = SimpleTypeKind::Int64Quad;       break;
1c2cb1ddSDavid Majnemer    case 16: STK = SimpleTypeKind::Int128Oct;       break;
5acacbb0SReid Kleckner    }
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  case dwarf::DW_ATE_unsigned:
5acacbb0SReid Kleckner    switch (ByteSize) {
e45b2c7dSReid Kleckner    case 1:  STK = SimpleTypeKind::UnsignedCharacter; break;
5acacbb0SReid Kleckner    case 2:  STK = SimpleTypeKind::UInt16Short;       break;
5acacbb0SReid Kleckner    case 4:  STK = SimpleTypeKind::UInt32;            break;
1c2cb1ddSDavid Majnemer    case 8:  STK = SimpleTypeKind::UInt64Quad;        break;
1c2cb1ddSDavid Majnemer    case 16: STK = SimpleTypeKind::UInt128Oct;        break;
5acacbb0SReid Kleckner    }
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  case dwarf::DW_ATE_UTF:
5acacbb0SReid Kleckner    switch (ByteSize) {
5acacbb0SReid Kleckner    case 2: STK = SimpleTypeKind::Character16; break;
5acacbb0SReid Kleckner    case 4: STK = SimpleTypeKind::Character32; break;
5acacbb0SReid Kleckner    }
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  case dwarf::DW_ATE_signed_char:
5acacbb0SReid Kleckner    if (ByteSize == 1)
5acacbb0SReid Kleckner      STK = SimpleTypeKind::SignedCharacter;
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  case dwarf::DW_ATE_unsigned_char:
5acacbb0SReid Kleckner    if (ByteSize == 1)
5acacbb0SReid Kleckner      STK = SimpleTypeKind::UnsignedCharacter;
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  default:
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  }
5acacbb0SReid Kleckner
5acacbb0SReid Kleckner  // Apply some fixups based on the source-level type name.
5acacbb0SReid Kleckner  if (STK == SimpleTypeKind::Int32 && Ty->getName() == "long int")
5acacbb0SReid Kleckner    STK = SimpleTypeKind::Int32Long;
5acacbb0SReid Kleckner  if (STK == SimpleTypeKind::UInt32 && Ty->getName() == "long unsigned int")
5acacbb0SReid Kleckner    STK = SimpleTypeKind::UInt32Long;
8c46a4ceSDavid Majnemer  if (STK == SimpleTypeKind::UInt16Short &&
8c46a4ceSDavid Majnemer      (Ty->getName() == "wchar_t" || Ty->getName() == "__wchar_t"))
5acacbb0SReid Kleckner    STK = SimpleTypeKind::WideCharacter;
5acacbb0SReid Kleckner  if ((STK == SimpleTypeKind::SignedCharacter ||
5acacbb0SReid Kleckner       STK == SimpleTypeKind::UnsignedCharacter) &&
5acacbb0SReid Kleckner      Ty->getName() == "char")
5acacbb0SReid Kleckner    STK = SimpleTypeKind::NarrowCharacter;
5acacbb0SReid Kleckner
5acacbb0SReid Kleckner  return TypeIndex(STK);
5acacbb0SReid Kleckner}
5acacbb0SReid Kleckner
3acdc677SReid KlecknerTypeIndex CodeViewDebug::lowerTypePointer(const DIDerivedType *Ty,
3acdc677SReid Kleckner                                          PointerOptions PO) {
5acacbb0SReid Kleckner  TypeIndex PointeeTI = getTypeIndex(Ty->getBaseType());
5acacbb0SReid Kleckner
3acdc677SReid Kleckner  // Pointers to simple types without any options can use SimpleTypeMode, rather
3acdc677SReid Kleckner  // than having a dedicated pointer type record.
3acdc677SReid Kleckner  if (PointeeTI.isSimple() && PO == PointerOptions::None &&
5acacbb0SReid Kleckner      PointeeTI.getSimpleMode() == SimpleTypeMode::Direct &&
5acacbb0SReid Kleckner      Ty->getTag() == dwarf::DW_TAG_pointer_type) {
5acacbb0SReid Kleckner    SimpleTypeMode Mode = Ty->getSizeInBits() == 64
5acacbb0SReid Kleckner                              ? SimpleTypeMode::NearPointer64
5acacbb0SReid Kleckner                              : SimpleTypeMode::NearPointer32;
5acacbb0SReid Kleckner    return TypeIndex(PointeeTI.getSimpleKind(), Mode);
5acacbb0SReid Kleckner  }
5acacbb0SReid Kleckner
5acacbb0SReid Kleckner  PointerKind PK =
5acacbb0SReid Kleckner      Ty->getSizeInBits() == 64 ? PointerKind::Near64 : PointerKind::Near32;
5acacbb0SReid Kleckner  PointerMode PM = PointerMode::Pointer;
5acacbb0SReid Kleckner  switch (Ty->getTag()) {
5acacbb0SReid Kleckner  default: llvm_unreachable("not a pointer tag type");
5acacbb0SReid Kleckner  case dwarf::DW_TAG_pointer_type:
5acacbb0SReid Kleckner    PM = PointerMode::Pointer;
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  case dwarf::DW_TAG_reference_type:
5acacbb0SReid Kleckner    PM = PointerMode::LValueReference;
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  case dwarf::DW_TAG_rvalue_reference_type:
5acacbb0SReid Kleckner    PM = PointerMode::RValueReference;
5acacbb0SReid Kleckner    break;
5acacbb0SReid Kleckner  }
3acdc677SReid Kleckner
3826566cSZachary Turner  if (Ty->isObjectPointer())
3826566cSZachary Turner    PO |= PointerOptions::Const;
3826566cSZachary Turner
5acacbb0SReid Kleckner  PointerRecord PR(PointeeTI, PK, PM, PO, Ty->getSizeInBits() / 8);
6900de1dSZachary Turner  return TypeTable.writeLeafType(PR);
5acacbb0SReid Kleckner}
5acacbb0SReid Kleckner
6fa1546aSReid Klecknerstatic PointerToMemberRepresentation
6fa1546aSReid KlecknertranslatePtrToMemberRep(unsigned SizeInBytes, bool IsPMF, unsigned Flags) {
6fa1546aSReid Kleckner  // SizeInBytes being zero generally implies that the member pointer type was
6fa1546aSReid Kleckner  // incomplete, which can happen if it is part of a function prototype. In this
6fa1546aSReid Kleckner  // case, use the unknown model instead of the general model.
604105bbSReid Kleckner  if (IsPMF) {
604105bbSReid Kleckner    switch (Flags & DINode::FlagPtrToMemberRep) {
604105bbSReid Kleckner    case 0:
6fa1546aSReid Kleckner      return SizeInBytes == 0 ? PointerToMemberRepresentation::Unknown
6fa1546aSReid Kleckner                              : PointerToMemberRepresentation::GeneralFunction;
604105bbSReid Kleckner    case DINode::FlagSingleInheritance:
604105bbSReid Kleckner      return PointerToMemberRepresentation::SingleInheritanceFunction;
604105bbSReid Kleckner    case DINode::FlagMultipleInheritance:
604105bbSReid Kleckner      return PointerToMemberRepresentation::MultipleInheritanceFunction;
604105bbSReid Kleckner    case DINode::FlagVirtualInheritance:
604105bbSReid Kleckner      return PointerToMemberRepresentation::VirtualInheritanceFunction;
604105bbSReid Kleckner    }
604105bbSReid Kleckner  } else {
604105bbSReid Kleckner    switch (Flags & DINode::FlagPtrToMemberRep) {
604105bbSReid Kleckner    case 0:
6fa1546aSReid Kleckner      return SizeInBytes == 0 ? PointerToMemberRepresentation::Unknown
6fa1546aSReid Kleckner                              : PointerToMemberRepresentation::GeneralData;
604105bbSReid Kleckner    case DINode::FlagSingleInheritance:
604105bbSReid Kleckner      return PointerToMemberRepresentation::SingleInheritanceData;
604105bbSReid Kleckner    case DINode::FlagMultipleInheritance:
604105bbSReid Kleckner      return PointerToMemberRepresentation::MultipleInheritanceData;
604105bbSReid Kleckner    case DINode::FlagVirtualInheritance:
604105bbSReid Kleckner      return PointerToMemberRepresentation::VirtualInheritanceData;
604105bbSReid Kleckner    }
604105bbSReid Kleckner  }
604105bbSReid Kleckner  llvm_unreachable("invalid ptr to member representation");
604105bbSReid Kleckner}
604105bbSReid Kleckner
3acdc677SReid KlecknerTypeIndex CodeViewDebug::lowerTypeMemberPointer(const DIDerivedType *Ty,
3acdc677SReid Kleckner                                                PointerOptions PO) {
5acacbb0SReid Kleckner  assert(Ty->getTag() == dwarf::DW_TAG_ptr_to_member_type);
5acacbb0SReid Kleckner  TypeIndex ClassTI = getTypeIndex(Ty->getClassType());
76c9eb99SAmjad Aboud  TypeIndex PointeeTI = getTypeIndex(Ty->getBaseType(), Ty->getClassType());
41e5ac4fSMatt Arsenault  PointerKind PK = getPointerSizeInBytes() == 8 ? PointerKind::Near64
5acacbb0SReid Kleckner                                                : PointerKind::Near32;
604105bbSReid Kleckner  bool IsPMF = isa<DISubroutineType>(Ty->getBaseType());
604105bbSReid Kleckner  PointerMode PM = IsPMF ? PointerMode::PointerToMemberFunction
5acacbb0SReid Kleckner                         : PointerMode::PointerToDataMember;
3acdc677SReid Kleckner
6fa1546aSReid Kleckner  assert(Ty->getSizeInBits() / 8 <= 0xff && "pointer size too big");
6fa1546aSReid Kleckner  uint8_t SizeInBytes = Ty->getSizeInBits() / 8;
6fa1546aSReid Kleckner  MemberPointerInfo MPI(
6fa1546aSReid Kleckner      ClassTI, translatePtrToMemberRep(SizeInBytes, IsPMF, Ty->getFlags()));
604105bbSReid Kleckner  PointerRecord PR(PointeeTI, PK, PM, PO, SizeInBytes, MPI);
6900de1dSZachary Turner  return TypeTable.writeLeafType(PR);
5acacbb0SReid Kleckner}
5acacbb0SReid Kleckner
de3d8b50SReid Kleckner/// Given a DWARF calling convention, get the CodeView equivalent. If we don't
de3d8b50SReid Kleckner/// have a translation, use the NearC convention.
de3d8b50SReid Klecknerstatic CallingConvention dwarfCCToCodeView(unsigned DwarfCC) {
de3d8b50SReid Kleckner  switch (DwarfCC) {
de3d8b50SReid Kleckner  case dwarf::DW_CC_normal:             return CallingConvention::NearC;
de3d8b50SReid Kleckner  case dwarf::DW_CC_BORLAND_msfastcall: return CallingConvention::NearFast;
de3d8b50SReid Kleckner  case dwarf::DW_CC_BORLAND_thiscall:   return CallingConvention::ThisCall;
de3d8b50SReid Kleckner  case dwarf::DW_CC_BORLAND_stdcall:    return CallingConvention::NearStdCall;
de3d8b50SReid Kleckner  case dwarf::DW_CC_BORLAND_pascal:     return CallingConvention::NearPascal;
de3d8b50SReid Kleckner  case dwarf::DW_CC_LLVM_vectorcall:    return CallingConvention::NearVector;
de3d8b50SReid Kleckner  }
de3d8b50SReid Kleckner  return CallingConvention::NearC;
de3d8b50SReid Kleckner}
de3d8b50SReid Kleckner
5acacbb0SReid KlecknerTypeIndex CodeViewDebug::lowerTypeModifier(const DIDerivedType *Ty) {
5acacbb0SReid Kleckner  ModifierOptions Mods = ModifierOptions::None;
3acdc677SReid Kleckner  PointerOptions PO = PointerOptions::None;
5acacbb0SReid Kleckner  bool IsModifier = true;
5acacbb0SReid Kleckner  const DIType *BaseTy = Ty;
b9c80fd8SReid Kleckner  while (IsModifier && BaseTy) {
e1156c2eSVictor Leschuk    // FIXME: Need to add DWARF tags for __unaligned and _Atomic
5acacbb0SReid Kleckner    switch (BaseTy->getTag()) {
5acacbb0SReid Kleckner    case dwarf::DW_TAG_const_type:
5acacbb0SReid Kleckner      Mods |= ModifierOptions::Const;
3acdc677SReid Kleckner      PO |= PointerOptions::Const;
5acacbb0SReid Kleckner      break;
5acacbb0SReid Kleckner    case dwarf::DW_TAG_volatile_type:
5acacbb0SReid Kleckner      Mods |= ModifierOptions::Volatile;
3acdc677SReid Kleckner      PO |= PointerOptions::Volatile;
3acdc677SReid Kleckner      break;
3acdc677SReid Kleckner    case dwarf::DW_TAG_restrict_type:
3acdc677SReid Kleckner      // Only pointer types be marked with __restrict. There is no known flag
3acdc677SReid Kleckner      // for __restrict in LF_MODIFIER records.
3acdc677SReid Kleckner      PO |= PointerOptions::Restrict;
5acacbb0SReid Kleckner      break;
5acacbb0SReid Kleckner    default:
5acacbb0SReid Kleckner      IsModifier = false;
5acacbb0SReid Kleckner      break;
5acacbb0SReid Kleckner    }
5acacbb0SReid Kleckner    if (IsModifier)
5acacbb0SReid Kleckner      BaseTy = cast<DIDerivedType>(BaseTy)->getBaseType().resolve();
5acacbb0SReid Kleckner  }
3acdc677SReid Kleckner
3acdc677SReid Kleckner  // Check if the inner type will use an LF_POINTER record. If so, the
3acdc677SReid Kleckner  // qualifiers will go in the LF_POINTER record. This comes up for types like
3acdc677SReid Kleckner  // 'int *const' and 'int *__restrict', not the more common cases like 'const
3acdc677SReid Kleckner  // char *'.
3acdc677SReid Kleckner  if (BaseTy) {
3acdc677SReid Kleckner    switch (BaseTy->getTag()) {
3acdc677SReid Kleckner    case dwarf::DW_TAG_pointer_type:
3acdc677SReid Kleckner    case dwarf::DW_TAG_reference_type:
3acdc677SReid Kleckner    case dwarf::DW_TAG_rvalue_reference_type:
3acdc677SReid Kleckner      return lowerTypePointer(cast<DIDerivedType>(BaseTy), PO);
3acdc677SReid Kleckner    case dwarf::DW_TAG_ptr_to_member_type:
3acdc677SReid Kleckner      return lowerTypeMemberPointer(cast<DIDerivedType>(BaseTy), PO);
3acdc677SReid Kleckner    default:
3acdc677SReid Kleckner      break;
3acdc677SReid Kleckner    }
3acdc677SReid Kleckner  }
3acdc677SReid Kleckner
5acacbb0SReid Kleckner  TypeIndex ModifiedTI = getTypeIndex(BaseTy);
3acdc677SReid Kleckner
3acdc677SReid Kleckner  // Return the base type index if there aren't any modifiers. For example, the
3acdc677SReid Kleckner  // metadata could contain restrict wrappers around non-pointer types.
3acdc677SReid Kleckner  if (Mods == ModifierOptions::None)
3acdc677SReid Kleckner    return ModifiedTI;
3acdc677SReid Kleckner
4efa0a42SZachary Turner  ModifierRecord MR(ModifiedTI, Mods);
6900de1dSZachary Turner  return TypeTable.writeLeafType(MR);
5acacbb0SReid Kleckner}
5acacbb0SReid Kleckner
75c3ebfaSDavid MajnemerTypeIndex CodeViewDebug::lowerTypeFunction(const DISubroutineType *Ty) {
75c3ebfaSDavid Majnemer  SmallVector<TypeIndex, 8> ReturnAndArgTypeIndices;
75c3ebfaSDavid Majnemer  for (DITypeRef ArgTypeRef : Ty->getTypeArray())
75c3ebfaSDavid Majnemer    ReturnAndArgTypeIndices.push_back(getTypeIndex(ArgTypeRef));
75c3ebfaSDavid Majnemer
a73fa2a0SAaron Smith  // MSVC uses type none for variadic argument.
a73fa2a0SAaron Smith  if (ReturnAndArgTypeIndices.size() > 1 &&
a73fa2a0SAaron Smith      ReturnAndArgTypeIndices.back() == TypeIndex::Void()) {
a73fa2a0SAaron Smith    ReturnAndArgTypeIndices.back() = TypeIndex::None();
a73fa2a0SAaron Smith  }
75c3ebfaSDavid Majnemer  TypeIndex ReturnTypeIndex = TypeIndex::Void();
75c3ebfaSDavid Majnemer  ArrayRef<TypeIndex> ArgTypeIndices = None;
75c3ebfaSDavid Majnemer  if (!ReturnAndArgTypeIndices.empty()) {
75c3ebfaSDavid Majnemer    auto ReturnAndArgTypesRef = makeArrayRef(ReturnAndArgTypeIndices);
75c3ebfaSDavid Majnemer    ReturnTypeIndex = ReturnAndArgTypesRef.front();
75c3ebfaSDavid Majnemer    ArgTypeIndices = ReturnAndArgTypesRef.drop_front();
75c3ebfaSDavid Majnemer  }
75c3ebfaSDavid Majnemer
75c3ebfaSDavid Majnemer  ArgListRecord ArgListRec(TypeRecordKind::ArgList, ArgTypeIndices);
6900de1dSZachary Turner  TypeIndex ArgListIndex = TypeTable.writeLeafType(ArgListRec);
75c3ebfaSDavid Majnemer
de3d8b50SReid Kleckner  CallingConvention CC = dwarfCCToCodeView(Ty->getCC());
de3d8b50SReid Kleckner
802b033dSAaron Smith  FunctionOptions FO = getFunctionOptions(Ty);
802b033dSAaron Smith  ProcedureRecord Procedure(ReturnTypeIndex, CC, FO, ArgTypeIndices.size(),
802b033dSAaron Smith                            ArgListIndex);
6900de1dSZachary Turner  return TypeTable.writeLeafType(Procedure);
75c3ebfaSDavid Majnemer}
75c3ebfaSDavid Majnemer
76c9eb99SAmjad AboudTypeIndex CodeViewDebug::lowerTypeMemberFunction(const DISubroutineType *Ty,
0c5d874bSReid Kleckner                                                 const DIType *ClassTy,
d91bf399SAdrian McCarthy                                                 int ThisAdjustment,
802b033dSAaron Smith                                                 bool IsStaticMethod,
802b033dSAaron Smith                                                 FunctionOptions FO) {
76c9eb99SAmjad Aboud  // Lower the containing class type.
76c9eb99SAmjad Aboud  TypeIndex ClassType = getTypeIndex(ClassTy);
76c9eb99SAmjad Aboud
c68f8957SZachary Turner  DITypeRefArray ReturnAndArgs = Ty->getTypeArray();
c68f8957SZachary Turner
c68f8957SZachary Turner  unsigned Index = 0;
c68f8957SZachary Turner  SmallVector<TypeIndex, 8> ArgTypeIndices;
7a3108ffSJosh Stone  TypeIndex ReturnTypeIndex = TypeIndex::Void();
7a3108ffSJosh Stone  if (ReturnAndArgs.size() > Index) {
7a3108ffSJosh Stone    ReturnTypeIndex = getTypeIndex(ReturnAndArgs[Index++]);
7a3108ffSJosh Stone  }
c68f8957SZachary Turner
c168c6f8SReid Kleckner  // If the first argument is a pointer type and this isn't a static method,
c168c6f8SReid Kleckner  // treat it as the special 'this' parameter, which is encoded separately from
c168c6f8SReid Kleckner  // the arguments.
c68f8957SZachary Turner  TypeIndex ThisTypeIndex;
c168c6f8SReid Kleckner  if (!IsStaticMethod && ReturnAndArgs.size() > Index) {
c168c6f8SReid Kleckner    if (const DIDerivedType *PtrTy =
c168c6f8SReid Kleckner            dyn_cast_or_null<DIDerivedType>(ReturnAndArgs[Index].resolve())) {
c168c6f8SReid Kleckner      if (PtrTy->getTag() == dwarf::DW_TAG_pointer_type) {
c168c6f8SReid Kleckner        ThisTypeIndex = getTypeIndexForThisPtr(PtrTy, Ty);
c168c6f8SReid Kleckner        Index++;
c168c6f8SReid Kleckner      }
c168c6f8SReid Kleckner    }
c168c6f8SReid Kleckner  }
c68f8957SZachary Turner
c68f8957SZachary Turner  while (Index < ReturnAndArgs.size())
c68f8957SZachary Turner    ArgTypeIndices.push_back(getTypeIndex(ReturnAndArgs[Index++]));
76c9eb99SAmjad Aboud
a73fa2a0SAaron Smith  // MSVC uses type none for variadic argument.
c68f8957SZachary Turner  if (!ArgTypeIndices.empty() && ArgTypeIndices.back() == TypeIndex::Void())
c68f8957SZachary Turner    ArgTypeIndices.back() = TypeIndex::None();
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboud  ArgListRecord ArgListRec(TypeRecordKind::ArgList, ArgTypeIndices);
6900de1dSZachary Turner  TypeIndex ArgListIndex = TypeTable.writeLeafType(ArgListRec);
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboud  CallingConvention CC = dwarfCCToCodeView(Ty->getCC());
76c9eb99SAmjad Aboud
802b033dSAaron Smith  MemberFunctionRecord MFR(ReturnTypeIndex, ClassType, ThisTypeIndex, CC, FO,
802b033dSAaron Smith                           ArgTypeIndices.size(), ArgListIndex, ThisAdjustment);
6900de1dSZachary Turner  return TypeTable.writeLeafType(MFR);
76c9eb99SAmjad Aboud}
76c9eb99SAmjad Aboud
9dac4731SReid KlecknerTypeIndex CodeViewDebug::lowerTypeVFTableShape(const DIDerivedType *Ty) {
dc77b2e9SKonstantin Zhuravlyov  unsigned VSlotCount =
dc77b2e9SKonstantin Zhuravlyov      Ty->getSizeInBits() / (8 * Asm->MAI->getCodePointerSize());
9dac4731SReid Kleckner  SmallVector<VFTableSlotKind, 4> Slots(VSlotCount, VFTableSlotKind::Near);
4efa0a42SZachary Turner
4efa0a42SZachary Turner  VFTableShapeRecord VFTSR(Slots);
6900de1dSZachary Turner  return TypeTable.writeLeafType(VFTSR);
9dac4731SReid Kleckner}
9dac4731SReid Kleckner
76c9eb99SAmjad Aboudstatic MemberAccess translateAccessFlags(unsigned RecordTag, unsigned Flags) {
76c9eb99SAmjad Aboud  switch (Flags & DINode::FlagAccessibility) {
a8d57407SReid Kleckner  case DINode::FlagPrivate:   return MemberAccess::Private;
a8d57407SReid Kleckner  case DINode::FlagPublic:    return MemberAccess::Public;
a8d57407SReid Kleckner  case DINode::FlagProtected: return MemberAccess::Protected;
a8d57407SReid Kleckner  case 0:
a8d57407SReid Kleckner    // If there was no explicit access control, provide the default for the tag.
a8d57407SReid Kleckner    return RecordTag == dwarf::DW_TAG_class_type ? MemberAccess::Private
a8d57407SReid Kleckner                                                 : MemberAccess::Public;
a8d57407SReid Kleckner  }
a8d57407SReid Kleckner  llvm_unreachable("access flags are exclusive");
a8d57407SReid Kleckner}
a8d57407SReid Kleckner
76c9eb99SAmjad Aboudstatic MethodOptions translateMethodOptionFlags(const DISubprogram *SP) {
76c9eb99SAmjad Aboud  if (SP->isArtificial())
76c9eb99SAmjad Aboud    return MethodOptions::CompilerGenerated;
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboud  // FIXME: Handle other MethodOptions.
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboud  return MethodOptions::None;
76c9eb99SAmjad Aboud}
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboudstatic MethodKind translateMethodKindFlags(const DISubprogram *SP,
76c9eb99SAmjad Aboud                                           bool Introduced) {
d91bf399SAdrian McCarthy  if (SP->getFlags() & DINode::FlagStaticMember)
d91bf399SAdrian McCarthy    return MethodKind::Static;
d91bf399SAdrian McCarthy
76c9eb99SAmjad Aboud  switch (SP->getVirtuality()) {
76c9eb99SAmjad Aboud  case dwarf::DW_VIRTUALITY_none:
76c9eb99SAmjad Aboud    break;
76c9eb99SAmjad Aboud  case dwarf::DW_VIRTUALITY_virtual:
76c9eb99SAmjad Aboud    return Introduced ? MethodKind::IntroducingVirtual : MethodKind::Virtual;
76c9eb99SAmjad Aboud  case dwarf::DW_VIRTUALITY_pure_virtual:
76c9eb99SAmjad Aboud    return Introduced ? MethodKind::PureIntroducingVirtual
76c9eb99SAmjad Aboud                      : MethodKind::PureVirtual;
76c9eb99SAmjad Aboud  default:
76c9eb99SAmjad Aboud    llvm_unreachable("unhandled virtuality case");
76c9eb99SAmjad Aboud  }
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboud  return MethodKind::Vanilla;
76c9eb99SAmjad Aboud}
76c9eb99SAmjad Aboud
a8d57407SReid Klecknerstatic TypeRecordKind getRecordKind(const DICompositeType *Ty) {
a8d57407SReid Kleckner  switch (Ty->getTag()) {
a8d57407SReid Kleckner  case dwarf::DW_TAG_class_type:     return TypeRecordKind::Class;
a8d57407SReid Kleckner  case dwarf::DW_TAG_structure_type: return TypeRecordKind::Struct;
a8d57407SReid Kleckner  }
a8d57407SReid Kleckner  llvm_unreachable("unexpected tag");
a8d57407SReid Kleckner}
a8d57407SReid Kleckner
e092dad7SReid Kleckner/// Return ClassOptions that should be present on both the forward declaration
e092dad7SReid Kleckner/// and the defintion of a tag type.
e092dad7SReid Klecknerstatic ClassOptions getCommonClassOptions(const DICompositeType *Ty) {
e092dad7SReid Kleckner  ClassOptions CO = ClassOptions::None;
e092dad7SReid Kleckner
e092dad7SReid Kleckner  // MSVC always sets this flag, even for local types. Clang doesn't always
a8d57407SReid Kleckner  // appear to give every type a linkage name, which may be problematic for us.
a8d57407SReid Kleckner  // FIXME: Investigate the consequences of not following them here.
e092dad7SReid Kleckner  if (!Ty->getIdentifier().empty())
e092dad7SReid Kleckner    CO |= ClassOptions::HasUniqueName;
e092dad7SReid Kleckner
e092dad7SReid Kleckner  // Put the Nested flag on a type if it appears immediately inside a tag type.
e092dad7SReid Kleckner  // Do not walk the scope chain. Do not attempt to compute ContainsNestedClass
e092dad7SReid Kleckner  // here. That flag is only set on definitions, and not forward declarations.
e092dad7SReid Kleckner  const DIScope *ImmediateScope = Ty->getScope().resolve();
e092dad7SReid Kleckner  if (ImmediateScope && isa<DICompositeType>(ImmediateScope))
e092dad7SReid Kleckner    CO |= ClassOptions::Nested;
e092dad7SReid Kleckner
da0602c1SAaron Smith  // Put the Scoped flag on function-local types. MSVC puts this flag for enum
da0602c1SAaron Smith  // type only when it has an immediate function scope. Clang never puts enums
da0602c1SAaron Smith  // inside DILexicalBlock scopes. Enum types, as generated by clang, are
da0602c1SAaron Smith  // always in function, class, or file scopes.
da0602c1SAaron Smith  if (Ty->getTag() == dwarf::DW_TAG_enumeration_type) {
da0602c1SAaron Smith    if (ImmediateScope && isa<DISubprogram>(ImmediateScope))
da0602c1SAaron Smith      CO |= ClassOptions::Scoped;
da0602c1SAaron Smith  } else {
e092dad7SReid Kleckner    for (const DIScope *Scope = ImmediateScope; Scope != nullptr;
e092dad7SReid Kleckner         Scope = Scope->getScope().resolve()) {
e092dad7SReid Kleckner      if (isa<DISubprogram>(Scope)) {
e092dad7SReid Kleckner        CO |= ClassOptions::Scoped;
e092dad7SReid Kleckner        break;
e092dad7SReid Kleckner      }
e092dad7SReid Kleckner    }
da0602c1SAaron Smith  }
e092dad7SReid Kleckner
e092dad7SReid Kleckner  return CO;
a8d57407SReid Kleckner}
a8d57407SReid Kleckner
122d9e79SAaron Smithvoid CodeViewDebug::addUDTSrcLine(const DIType *Ty, TypeIndex TI) {
122d9e79SAaron Smith  switch (Ty->getTag()) {
122d9e79SAaron Smith  case dwarf::DW_TAG_class_type:
122d9e79SAaron Smith  case dwarf::DW_TAG_structure_type:
122d9e79SAaron Smith  case dwarf::DW_TAG_union_type:
122d9e79SAaron Smith  case dwarf::DW_TAG_enumeration_type:
122d9e79SAaron Smith    break;
122d9e79SAaron Smith  default:
122d9e79SAaron Smith    return;
122d9e79SAaron Smith  }
122d9e79SAaron Smith
122d9e79SAaron Smith  if (const auto *File = Ty->getFile()) {
122d9e79SAaron Smith    StringIdRecord SIDR(TypeIndex(0x0), getFullFilepath(File));
122d9e79SAaron Smith    TypeIndex SIDI = TypeTable.writeLeafType(SIDR);
122d9e79SAaron Smith
122d9e79SAaron Smith    UdtSourceLineRecord USLR(TI, SIDI, Ty->getLine());
122d9e79SAaron Smith    TypeTable.writeLeafType(USLR);
122d9e79SAaron Smith  }
122d9e79SAaron Smith}
122d9e79SAaron Smith
979cb888SDavid MajnemerTypeIndex CodeViewDebug::lowerTypeEnum(const DICompositeType *Ty) {
e092dad7SReid Kleckner  ClassOptions CO = getCommonClassOptions(Ty);
979cb888SDavid Majnemer  TypeIndex FTI;
da9548f9SDavid Majnemer  unsigned EnumeratorCount = 0;
979cb888SDavid Majnemer
da9548f9SDavid Majnemer  if (Ty->isForwardDecl()) {
979cb888SDavid Majnemer    CO |= ClassOptions::ForwardReference;
da9548f9SDavid Majnemer  } else {
6900de1dSZachary Turner    ContinuationRecordBuilder ContinuationBuilder;
6900de1dSZachary Turner    ContinuationBuilder.begin(ContinuationRecordKind::FieldList);
da9548f9SDavid Majnemer    for (const DINode *Element : Ty->getElements()) {
da9548f9SDavid Majnemer      // We assume that the frontend provides all members in source declaration
da9548f9SDavid Majnemer      // order, which is what MSVC does.
da9548f9SDavid Majnemer      if (auto *Enumerator = dyn_cast_or_null<DIEnumerator>(Element)) {
4efa0a42SZachary Turner        EnumeratorRecord ER(MemberAccess::Public,
4efa0a42SZachary Turner                            APSInt::getUnsigned(Enumerator->getValue()),
4efa0a42SZachary Turner                            Enumerator->getName());
6900de1dSZachary Turner        ContinuationBuilder.writeMemberType(ER);
da9548f9SDavid Majnemer        EnumeratorCount++;
da9548f9SDavid Majnemer      }
da9548f9SDavid Majnemer    }
6900de1dSZachary Turner    FTI = TypeTable.insertRecord(ContinuationBuilder);
da9548f9SDavid Majnemer  }
979cb888SDavid Majnemer
6bdc24e7SDavid Majnemer  std::string FullName = getFullyQualifiedName(Ty);
0c5d874bSReid Kleckner
4efa0a42SZachary Turner  EnumRecord ER(EnumeratorCount, CO, FTI, FullName, Ty->getIdentifier(),
4efa0a42SZachary Turner                getTypeIndex(Ty->getBaseType()));
122d9e79SAaron Smith  TypeIndex EnumTI = TypeTable.writeLeafType(ER);
122d9e79SAaron Smith
122d9e79SAaron Smith  addUDTSrcLine(Ty, EnumTI);
122d9e79SAaron Smith
122d9e79SAaron Smith  return EnumTI;
979cb888SDavid Majnemer}
979cb888SDavid Majnemer
76c9eb99SAmjad Aboud//===----------------------------------------------------------------------===//
76c9eb99SAmjad Aboud// ClassInfo
76c9eb99SAmjad Aboud//===----------------------------------------------------------------------===//
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboudstruct llvm::ClassInfo {
76c9eb99SAmjad Aboud  struct MemberInfo {
76c9eb99SAmjad Aboud    const DIDerivedType *MemberTypeNode;
08bd744cSDavid Majnemer    uint64_t BaseOffset;
76c9eb99SAmjad Aboud  };
76c9eb99SAmjad Aboud  // [MemberInfo]
fb69e66cSEugene Zelenko  using MemberList = std::vector<MemberInfo>;
76c9eb99SAmjad Aboud
fb69e66cSEugene Zelenko  using MethodsList = TinyPtrVector<const DISubprogram *>;
76c9eb99SAmjad Aboud  // MethodName -> MethodsList
fb69e66cSEugene Zelenko  using MethodsMap = MapVector<MDString *, MethodsList>;
76c9eb99SAmjad Aboud
9f7f3e1eSReid Kleckner  /// Base classes.
9f7f3e1eSReid Kleckner  std::vector<const DIDerivedType *> Inheritance;
9f7f3e1eSReid Kleckner
76c9eb99SAmjad Aboud  /// Direct members.
76c9eb99SAmjad Aboud  MemberList Members;
76c9eb99SAmjad Aboud  // Direct overloaded methods gathered by name.
76c9eb99SAmjad Aboud  MethodsMap Methods;
820ca540SAdrian McCarthy
9dac4731SReid Kleckner  TypeIndex VShapeTI;
9dac4731SReid Kleckner
e2e82061SReid Kleckner  std::vector<const DIType *> NestedTypes;
76c9eb99SAmjad Aboud};
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboudvoid CodeViewDebug::clear() {
76c9eb99SAmjad Aboud  assert(CurFn == nullptr);
76c9eb99SAmjad Aboud  FileIdMap.clear();
76c9eb99SAmjad Aboud  FnDebugInfo.clear();
76c9eb99SAmjad Aboud  FileToFilepathMap.clear();
76c9eb99SAmjad Aboud  LocalUDTs.clear();
76c9eb99SAmjad Aboud  GlobalUDTs.clear();
76c9eb99SAmjad Aboud  TypeIndices.clear();
76c9eb99SAmjad Aboud  CompleteTypeIndices.clear();
b17464e4SBrock Wyma  ScopeGlobals.clear();
76c9eb99SAmjad Aboud}
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboudvoid CodeViewDebug::collectMemberInfo(ClassInfo &Info,
76c9eb99SAmjad Aboud                                      const DIDerivedType *DDTy) {
76c9eb99SAmjad Aboud  if (!DDTy->getName().empty()) {
76c9eb99SAmjad Aboud    Info.Members.push_back({DDTy, 0});
76c9eb99SAmjad Aboud    return;
76c9eb99SAmjad Aboud  }
03303a3bSShoaib Meenai
03303a3bSShoaib Meenai  // An unnamed member may represent a nested struct or union. Attempt to
03303a3bSShoaib Meenai  // interpret the unnamed member as a DICompositeType possibly wrapped in
03303a3bSShoaib Meenai  // qualifier types. Add all the indirect fields to the current record if that
03303a3bSShoaib Meenai  // succeeds, and drop the member if that fails.
76c9eb99SAmjad Aboud  assert((DDTy->getOffsetInBits() % 8) == 0 && "Unnamed bitfield member!");
08bd744cSDavid Majnemer  uint64_t Offset = DDTy->getOffsetInBits();
76c9eb99SAmjad Aboud  const DIType *Ty = DDTy->getBaseType().resolve();
03303a3bSShoaib Meenai  bool FullyResolved = false;
03303a3bSShoaib Meenai  while (!FullyResolved) {
03303a3bSShoaib Meenai    switch (Ty->getTag()) {
03303a3bSShoaib Meenai    case dwarf::DW_TAG_const_type:
03303a3bSShoaib Meenai    case dwarf::DW_TAG_volatile_type:
03303a3bSShoaib Meenai      // FIXME: we should apply the qualifier types to the indirect fields
03303a3bSShoaib Meenai      // rather than dropping them.
03303a3bSShoaib Meenai      Ty = cast<DIDerivedType>(Ty)->getBaseType().resolve();
03303a3bSShoaib Meenai      break;
03303a3bSShoaib Meenai    default:
03303a3bSShoaib Meenai      FullyResolved = true;
03303a3bSShoaib Meenai      break;
03303a3bSShoaib Meenai    }
03303a3bSShoaib Meenai  }
03303a3bSShoaib Meenai
03303a3bSShoaib Meenai  const DICompositeType *DCTy = dyn_cast<DICompositeType>(Ty);
03303a3bSShoaib Meenai  if (!DCTy)
03303a3bSShoaib Meenai    return;
03303a3bSShoaib Meenai
1ab7eac8SReid Kleckner  ClassInfo NestedInfo = collectClassInfo(DCTy);
1ab7eac8SReid Kleckner  for (const ClassInfo::MemberInfo &IndirectField : NestedInfo.Members)
76c9eb99SAmjad Aboud    Info.Members.push_back(
1ab7eac8SReid Kleckner        {IndirectField.MemberTypeNode, IndirectField.BaseOffset + Offset});
76c9eb99SAmjad Aboud}
76c9eb99SAmjad Aboud
1ab7eac8SReid KlecknerClassInfo CodeViewDebug::collectClassInfo(const DICompositeType *Ty) {
1ab7eac8SReid Kleckner  ClassInfo Info;
76c9eb99SAmjad Aboud  // Add elements to structure type.
76c9eb99SAmjad Aboud  DINodeArray Elements = Ty->getElements();
76c9eb99SAmjad Aboud  for (auto *Element : Elements) {
76c9eb99SAmjad Aboud    // We assume that the frontend provides all members in source declaration
76c9eb99SAmjad Aboud    // order, which is what MSVC does.
76c9eb99SAmjad Aboud    if (!Element)
76c9eb99SAmjad Aboud      continue;
76c9eb99SAmjad Aboud    if (auto *SP = dyn_cast<DISubprogram>(Element)) {
156a7239SReid Kleckner      Info.Methods[SP->getRawName()].push_back(SP);
76c9eb99SAmjad Aboud    } else if (auto *DDTy = dyn_cast<DIDerivedType>(Element)) {
9f7f3e1eSReid Kleckner      if (DDTy->getTag() == dwarf::DW_TAG_member) {
1ab7eac8SReid Kleckner        collectMemberInfo(Info, DDTy);
9f7f3e1eSReid Kleckner      } else if (DDTy->getTag() == dwarf::DW_TAG_inheritance) {
9f7f3e1eSReid Kleckner        Info.Inheritance.push_back(DDTy);
9dac4731SReid Kleckner      } else if (DDTy->getTag() == dwarf::DW_TAG_pointer_type &&
9dac4731SReid Kleckner                 DDTy->getName() == "__vtbl_ptr_type") {
9dac4731SReid Kleckner        Info.VShapeTI = getTypeIndex(DDTy);
e2e82061SReid Kleckner      } else if (DDTy->getTag() == dwarf::DW_TAG_typedef) {
e2e82061SReid Kleckner        Info.NestedTypes.push_back(DDTy);
76c9eb99SAmjad Aboud      } else if (DDTy->getTag() == dwarf::DW_TAG_friend) {
76c9eb99SAmjad Aboud        // Ignore friend members. It appears that MSVC emitted info about
76c9eb99SAmjad Aboud        // friends in the past, but modern versions do not.
76c9eb99SAmjad Aboud      }
820ca540SAdrian McCarthy    } else if (auto *Composite = dyn_cast<DICompositeType>(Element)) {
e2e82061SReid Kleckner      Info.NestedTypes.push_back(Composite);
76c9eb99SAmjad Aboud    }
76c9eb99SAmjad Aboud    // Skip other unrecognized kinds of elements.
76c9eb99SAmjad Aboud  }
1ab7eac8SReid Kleckner  return Info;
76c9eb99SAmjad Aboud}
76c9eb99SAmjad Aboud
b60532f8SBrock Wymastatic bool shouldAlwaysEmitCompleteClassType(const DICompositeType *Ty) {
b60532f8SBrock Wyma  // This routine is used by lowerTypeClass and lowerTypeUnion to determine
b60532f8SBrock Wyma  // if a complete type should be emitted instead of a forward reference.
b60532f8SBrock Wyma  return Ty->getName().empty() && Ty->getIdentifier().empty() &&
b60532f8SBrock Wyma      !Ty->isForwardDecl();
b60532f8SBrock Wyma}
b60532f8SBrock Wyma
a8d57407SReid KlecknerTypeIndex CodeViewDebug::lowerTypeClass(const DICompositeType *Ty) {
b60532f8SBrock Wyma  // Emit the complete type for unnamed structs.  C++ classes with methods
b60532f8SBrock Wyma  // which have a circular reference back to the class type are expected to
b60532f8SBrock Wyma  // be named by the front-end and should not be "unnamed".  C unnamed
b60532f8SBrock Wyma  // structs should not have circular references.
b60532f8SBrock Wyma  if (shouldAlwaysEmitCompleteClassType(Ty)) {
b60532f8SBrock Wyma    // If this unnamed complete type is already in the process of being defined
b60532f8SBrock Wyma    // then the description of the type is malformed and cannot be emitted
b60532f8SBrock Wyma    // into CodeView correctly so report a fatal error.
b60532f8SBrock Wyma    auto I = CompleteTypeIndices.find(Ty);
b60532f8SBrock Wyma    if (I != CompleteTypeIndices.end() && I->second == TypeIndex())
b60532f8SBrock Wyma      report_fatal_error("cannot debug circular reference to unnamed type");
b60532f8SBrock Wyma    return getCompleteTypeIndex(Ty);
b60532f8SBrock Wyma  }
b60532f8SBrock Wyma
a8d57407SReid Kleckner  // First, construct the forward decl.  Don't look into Ty to compute the
a8d57407SReid Kleckner  // forward decl options, since it might not be available in all TUs.
a8d57407SReid Kleckner  TypeRecordKind Kind = getRecordKind(Ty);
a8d57407SReid Kleckner  ClassOptions CO =
e092dad7SReid Kleckner      ClassOptions::ForwardReference | getCommonClassOptions(Ty);
6bdc24e7SDavid Majnemer  std::string FullName = getFullyQualifiedName(Ty);
4efa0a42SZachary Turner  ClassRecord CR(Kind, 0, CO, TypeIndex(), TypeIndex(), TypeIndex(), 0,
4efa0a42SZachary Turner                 FullName, Ty->getIdentifier());
6900de1dSZachary Turner  TypeIndex FwdDeclTI = TypeTable.writeLeafType(CR);
643dd836SReid Kleckner  if (!Ty->isForwardDecl())
643dd836SReid Kleckner    DeferredCompleteTypes.push_back(Ty);
a8d57407SReid Kleckner  return FwdDeclTI;
a8d57407SReid Kleckner}
a8d57407SReid Kleckner
a8d57407SReid KlecknerTypeIndex CodeViewDebug::lowerCompleteTypeClass(const DICompositeType *Ty) {
a8d57407SReid Kleckner  // Construct the field list and complete type record.
a8d57407SReid Kleckner  TypeRecordKind Kind = getRecordKind(Ty);
e092dad7SReid Kleckner  ClassOptions CO = getCommonClassOptions(Ty);
76c9eb99SAmjad Aboud  TypeIndex FieldTI;
76c9eb99SAmjad Aboud  TypeIndex VShapeTI;
a8d57407SReid Kleckner  unsigned FieldCount;
820ca540SAdrian McCarthy  bool ContainsNestedClass;
820ca540SAdrian McCarthy  std::tie(FieldTI, VShapeTI, FieldCount, ContainsNestedClass) =
820ca540SAdrian McCarthy      lowerRecordFieldList(Ty);
820ca540SAdrian McCarthy
820ca540SAdrian McCarthy  if (ContainsNestedClass)
820ca540SAdrian McCarthy    CO |= ClassOptions::ContainsNestedClass;
a8d57407SReid Kleckner
1d5f8632SAaron Smith  // MSVC appears to set this flag by searching any destructor or method with
1d5f8632SAaron Smith  // FunctionOptions::Constructor among the emitted members. Clang AST has all
1d5f8632SAaron Smith  // the members, however special member functions are not yet emitted into
1d5f8632SAaron Smith  // debug information. For now checking a class's non-triviality seems enough.
1d5f8632SAaron Smith  // FIXME: not true for a nested unnamed struct.
1d5f8632SAaron Smith  if (isNonTrivial(Ty))
1d5f8632SAaron Smith    CO |= ClassOptions::HasConstructorOrDestructor;
1d5f8632SAaron Smith
6bdc24e7SDavid Majnemer  std::string FullName = getFullyQualifiedName(Ty);
0c5d874bSReid Kleckner
a8d57407SReid Kleckner  uint64_t SizeInBytes = Ty->getSizeInBits() / 8;
9a519a09SHans Wennborg
4efa0a42SZachary Turner  ClassRecord CR(Kind, FieldCount, CO, FieldTI, TypeIndex(), VShapeTI,
4efa0a42SZachary Turner                 SizeInBytes, FullName, Ty->getIdentifier());
6900de1dSZachary Turner  TypeIndex ClassTI = TypeTable.writeLeafType(CR);
9a519a09SHans Wennborg
122d9e79SAaron Smith  addUDTSrcLine(Ty, ClassTI);
9a519a09SHans Wennborg
a7b04174SZachary Turner  addToUDTs(Ty);
4b63a98dSHans Wennborg
9a519a09SHans Wennborg  return ClassTI;
a8d57407SReid Kleckner}
a8d57407SReid Kleckner
a8d57407SReid KlecknerTypeIndex CodeViewDebug::lowerTypeUnion(const DICompositeType *Ty) {
b60532f8SBrock Wyma  // Emit the complete type for unnamed unions.
b60532f8SBrock Wyma  if (shouldAlwaysEmitCompleteClassType(Ty))
b60532f8SBrock Wyma    return getCompleteTypeIndex(Ty);
b60532f8SBrock Wyma
a8d57407SReid Kleckner  ClassOptions CO =
e092dad7SReid Kleckner      ClassOptions::ForwardReference | getCommonClassOptions(Ty);
6bdc24e7SDavid Majnemer  std::string FullName = getFullyQualifiedName(Ty);
4efa0a42SZachary Turner  UnionRecord UR(0, CO, TypeIndex(), 0, FullName, Ty->getIdentifier());
6900de1dSZachary Turner  TypeIndex FwdDeclTI = TypeTable.writeLeafType(UR);
643dd836SReid Kleckner  if (!Ty->isForwardDecl())
643dd836SReid Kleckner    DeferredCompleteTypes.push_back(Ty);
a8d57407SReid Kleckner  return FwdDeclTI;
a8d57407SReid Kleckner}
a8d57407SReid Kleckner
a8d57407SReid KlecknerTypeIndex CodeViewDebug::lowerCompleteTypeUnion(const DICompositeType *Ty) {
e1e7372eSDavid Majnemer  ClassOptions CO = ClassOptions::Sealed | getCommonClassOptions(Ty);
76c9eb99SAmjad Aboud  TypeIndex FieldTI;
a8d57407SReid Kleckner  unsigned FieldCount;
820ca540SAdrian McCarthy  bool ContainsNestedClass;
820ca540SAdrian McCarthy  std::tie(FieldTI, std::ignore, FieldCount, ContainsNestedClass) =
820ca540SAdrian McCarthy      lowerRecordFieldList(Ty);
820ca540SAdrian McCarthy
820ca540SAdrian McCarthy  if (ContainsNestedClass)
820ca540SAdrian McCarthy    CO |= ClassOptions::ContainsNestedClass;
820ca540SAdrian McCarthy
a8d57407SReid Kleckner  uint64_t SizeInBytes = Ty->getSizeInBits() / 8;
6bdc24e7SDavid Majnemer  std::string FullName = getFullyQualifiedName(Ty);
9a519a09SHans Wennborg
4efa0a42SZachary Turner  UnionRecord UR(FieldCount, CO, FieldTI, SizeInBytes, FullName,
4efa0a42SZachary Turner                 Ty->getIdentifier());
6900de1dSZachary Turner  TypeIndex UnionTI = TypeTable.writeLeafType(UR);
9a519a09SHans Wennborg
122d9e79SAaron Smith  addUDTSrcLine(Ty, UnionTI);
9a519a09SHans Wennborg
a7b04174SZachary Turner  addToUDTs(Ty);
4b63a98dSHans Wennborg
9a519a09SHans Wennborg  return UnionTI;
a8d57407SReid Kleckner}
a8d57407SReid Kleckner
820ca540SAdrian McCarthystd::tuple<TypeIndex, TypeIndex, unsigned, bool>
a8d57407SReid KlecknerCodeViewDebug::lowerRecordFieldList(const DICompositeType *Ty) {
a8d57407SReid Kleckner  // Manually count members. MSVC appears to count everything that generates a
a8d57407SReid Kleckner  // field list record. Each individual overload in a method overload group
a8d57407SReid Kleckner  // contributes to this count, even though the overload group is a single field
a8d57407SReid Kleckner  // list record.
a8d57407SReid Kleckner  unsigned MemberCount = 0;
1ab7eac8SReid Kleckner  ClassInfo Info = collectClassInfo(Ty);
6900de1dSZachary Turner  ContinuationRecordBuilder ContinuationBuilder;
6900de1dSZachary Turner  ContinuationBuilder.begin(ContinuationRecordKind::FieldList);
76c9eb99SAmjad Aboud
9f7f3e1eSReid Kleckner  // Create base classes.
9f7f3e1eSReid Kleckner  for (const DIDerivedType *I : Info.Inheritance) {
9f7f3e1eSReid Kleckner    if (I->getFlags() & DINode::FlagVirtual) {
9f7f3e1eSReid Kleckner      // Virtual base.
3db2b108SBrock Wyma      unsigned VBPtrOffset = I->getVBPtrOffset();
9f7f3e1eSReid Kleckner      // FIXME: Despite the accessor name, the offset is really in bytes.
9f7f3e1eSReid Kleckner      unsigned VBTableIndex = I->getOffsetInBits() / 4;
26a87bd0SBob Haarman      auto RecordKind = (I->getFlags() & DINode::FlagIndirectVirtualBase) == DINode::FlagIndirectVirtualBase
26a87bd0SBob Haarman                            ? TypeRecordKind::IndirectVirtualBaseClass
26a87bd0SBob Haarman                            : TypeRecordKind::VirtualBaseClass;
4efa0a42SZachary Turner      VirtualBaseClassRecord VBCR(
26a87bd0SBob Haarman          RecordKind, translateAccessFlags(Ty->getTag(), I->getFlags()),
9f7f3e1eSReid Kleckner          getTypeIndex(I->getBaseType()), getVBPTypeIndex(), VBPtrOffset,
4efa0a42SZachary Turner          VBTableIndex);
4efa0a42SZachary Turner
6900de1dSZachary Turner      ContinuationBuilder.writeMemberType(VBCR);
4536c1f5SBrock Wyma      MemberCount++;
9f7f3e1eSReid Kleckner    } else {
9f7f3e1eSReid Kleckner      assert(I->getOffsetInBits() % 8 == 0 &&
9f7f3e1eSReid Kleckner             "bases must be on byte boundaries");
4efa0a42SZachary Turner      BaseClassRecord BCR(translateAccessFlags(Ty->getTag(), I->getFlags()),
4efa0a42SZachary Turner                          getTypeIndex(I->getBaseType()),
4efa0a42SZachary Turner                          I->getOffsetInBits() / 8);
6900de1dSZachary Turner      ContinuationBuilder.writeMemberType(BCR);
4536c1f5SBrock Wyma      MemberCount++;
9f7f3e1eSReid Kleckner    }
9f7f3e1eSReid Kleckner  }
9f7f3e1eSReid Kleckner
76c9eb99SAmjad Aboud  // Create members.
76c9eb99SAmjad Aboud  for (ClassInfo::MemberInfo &MemberInfo : Info.Members) {
76c9eb99SAmjad Aboud    const DIDerivedType *Member = MemberInfo.MemberTypeNode;
76c9eb99SAmjad Aboud    TypeIndex MemberBaseType = getTypeIndex(Member->getBaseType());
9319cbc0SDavid Majnemer    StringRef MemberName = Member->getName();
9319cbc0SDavid Majnemer    MemberAccess Access =
9319cbc0SDavid Majnemer        translateAccessFlags(Ty->getTag(), Member->getFlags());
76c9eb99SAmjad Aboud
a8d57407SReid Kleckner    if (Member->isStaticMember()) {
4efa0a42SZachary Turner      StaticDataMemberRecord SDMR(Access, MemberBaseType, MemberName);
6900de1dSZachary Turner      ContinuationBuilder.writeMemberType(SDMR);
a8d57407SReid Kleckner      MemberCount++;
76c9eb99SAmjad Aboud      continue;
a8d57407SReid Kleckner    }
a8d57407SReid Kleckner
9dac4731SReid Kleckner    // Virtual function pointer member.
9dac4731SReid Kleckner    if ((Member->getFlags() & DINode::FlagArtificial) &&
9dac4731SReid Kleckner        Member->getName().startswith("_vptr$")) {
4efa0a42SZachary Turner      VFPtrRecord VFPR(getTypeIndex(Member->getBaseType()));
6900de1dSZachary Turner      ContinuationBuilder.writeMemberType(VFPR);
9dac4731SReid Kleckner      MemberCount++;
9dac4731SReid Kleckner      continue;
9dac4731SReid Kleckner    }
9dac4731SReid Kleckner
9319cbc0SDavid Majnemer    // Data member.
08bd744cSDavid Majnemer    uint64_t MemberOffsetInBits =
08bd744cSDavid Majnemer        Member->getOffsetInBits() + MemberInfo.BaseOffset;
9319cbc0SDavid Majnemer    if (Member->isBitField()) {
9319cbc0SDavid Majnemer      uint64_t StartBitOffset = MemberOffsetInBits;
9319cbc0SDavid Majnemer      if (const auto *CI =
9319cbc0SDavid Majnemer              dyn_cast_or_null<ConstantInt>(Member->getStorageOffsetInBits())) {
08bd744cSDavid Majnemer        MemberOffsetInBits = CI->getZExtValue() + MemberInfo.BaseOffset;
9319cbc0SDavid Majnemer      }
9319cbc0SDavid Majnemer      StartBitOffset -= MemberOffsetInBits;
4efa0a42SZachary Turner      BitFieldRecord BFR(MemberBaseType, Member->getSizeInBits(),
4efa0a42SZachary Turner                         StartBitOffset);
6900de1dSZachary Turner      MemberBaseType = TypeTable.writeLeafType(BFR);
9319cbc0SDavid Majnemer    }
9319cbc0SDavid Majnemer    uint64_t MemberOffsetInBytes = MemberOffsetInBits / 8;
4efa0a42SZachary Turner    DataMemberRecord DMR(Access, MemberBaseType, MemberOffsetInBytes,
4efa0a42SZachary Turner                         MemberName);
6900de1dSZachary Turner    ContinuationBuilder.writeMemberType(DMR);
76c9eb99SAmjad Aboud    MemberCount++;
76c9eb99SAmjad Aboud  }
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboud  // Create methods
76c9eb99SAmjad Aboud  for (auto &MethodItr : Info.Methods) {
76c9eb99SAmjad Aboud    StringRef Name = MethodItr.first->getString();
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboud    std::vector<OneMethodRecord> Methods;
156a7239SReid Kleckner    for (const DISubprogram *SP : MethodItr.second) {
156a7239SReid Kleckner      TypeIndex MethodType = getMemberFunctionType(SP, Ty);
156a7239SReid Kleckner      bool Introduced = SP->getFlags() & DINode::FlagIntroducedVirtual;
76c9eb99SAmjad Aboud
76c9eb99SAmjad Aboud      unsigned VFTableOffset = -1;
76c9eb99SAmjad Aboud      if (Introduced)
76c9eb99SAmjad Aboud        VFTableOffset = SP->getVirtualIndex() * getPointerSizeInBytes();
76c9eb99SAmjad Aboud
7251ede7SZachary Turner      Methods.push_back(OneMethodRecord(
7251ede7SZachary Turner          MethodType, translateAccessFlags(Ty->getTag(), SP->getFlags()),
7251ede7SZachary Turner          translateMethodKindFlags(SP, Introduced),
7251ede7SZachary Turner          translateMethodOptionFlags(SP), VFTableOffset, Name));
76c9eb99SAmjad Aboud      MemberCount++;
76c9eb99SAmjad Aboud    }
fb69e66cSEugene Zelenko    assert(!Methods.empty() && "Empty methods map entry");
76c9eb99SAmjad Aboud    if (Methods.size() == 1)
6900de1dSZachary Turner      ContinuationBuilder.writeMemberType(Methods[0]);
76c9eb99SAmjad Aboud    else {
6900de1dSZachary Turner      // FIXME: Make this use its own ContinuationBuilder so that
6900de1dSZachary Turner      // MethodOverloadList can be split correctly.
4efa0a42SZachary Turner      MethodOverloadListRecord MOLR(Methods);
6900de1dSZachary Turner      TypeIndex MethodList = TypeTable.writeLeafType(MOLR);
6900de1dSZachary Turner
4efa0a42SZachary Turner      OverloadedMethodRecord OMR(Methods.size(), MethodList, Name);
6900de1dSZachary Turner      ContinuationBuilder.writeMemberType(OMR);
76c9eb99SAmjad Aboud    }
76c9eb99SAmjad Aboud  }
820ca540SAdrian McCarthy
820ca540SAdrian McCarthy  // Create nested classes.
e2e82061SReid Kleckner  for (const DIType *Nested : Info.NestedTypes) {
820ca540SAdrian McCarthy    NestedTypeRecord R(getTypeIndex(DITypeRef(Nested)), Nested->getName());
6900de1dSZachary Turner    ContinuationBuilder.writeMemberType(R);
820ca540SAdrian McCarthy    MemberCount++;
820ca540SAdrian McCarthy  }
820ca540SAdrian McCarthy
6900de1dSZachary Turner  TypeIndex FieldTI = TypeTable.insertRecord(ContinuationBuilder);
9dac4731SReid Kleckner  return std::make_tuple(FieldTI, Info.VShapeTI, MemberCount,
e2e82061SReid Kleckner                         !Info.NestedTypes.empty());
76c9eb99SAmjad Aboud}
76c9eb99SAmjad Aboud
9f7f3e1eSReid KlecknerTypeIndex CodeViewDebug::getVBPTypeIndex() {
9f7f3e1eSReid Kleckner  if (!VBPType.getIndex()) {
9f7f3e1eSReid Kleckner    // Make a 'const int *' type.
9f7f3e1eSReid Kleckner    ModifierRecord MR(TypeIndex::Int32(), ModifierOptions::Const);
6900de1dSZachary Turner    TypeIndex ModifiedTI = TypeTable.writeLeafType(MR);
9f7f3e1eSReid Kleckner
9f7f3e1eSReid Kleckner    PointerKind PK = getPointerSizeInBytes() == 8 ? PointerKind::Near64
9f7f3e1eSReid Kleckner                                                  : PointerKind::Near32;
9f7f3e1eSReid Kleckner    PointerMode PM = PointerMode::Pointer;
9f7f3e1eSReid Kleckner    PointerOptions PO = PointerOptions::None;
9f7f3e1eSReid Kleckner    PointerRecord PR(ModifiedTI, PK, PM, PO, getPointerSizeInBytes());
6900de1dSZachary Turner    VBPType = TypeTable.writeLeafType(PR);
9f7f3e1eSReid Kleckner  }
9f7f3e1eSReid Kleckner
9f7f3e1eSReid Kleckner  return VBPType;
9f7f3e1eSReid Kleckner}
9f7f3e1eSReid Kleckner
76c9eb99SAmjad AboudTypeIndex CodeViewDebug::getTypeIndex(DITypeRef TypeRef, DITypeRef ClassTyRef) {
5acacbb0SReid Kleckner  const DIType *Ty = TypeRef.resolve();
76c9eb99SAmjad Aboud  const DIType *ClassTy = ClassTyRef.resolve();
5acacbb0SReid Kleckner
5acacbb0SReid Kleckner  // The null DIType is the void type. Don't try to hash it.
5acacbb0SReid Kleckner  if (!Ty)
5acacbb0SReid Kleckner    return TypeIndex::Void();
5acacbb0SReid Kleckner
a8d57407SReid Kleckner  // Check if we've already translated this type. Don't try to do a
a8d57407SReid Kleckner  // get-or-create style insertion that caches the hash lookup across the
a8d57407SReid Kleckner  // lowerType call. It will update the TypeIndices map.
76c9eb99SAmjad Aboud  auto I = TypeIndices.find({Ty, ClassTy});
5acacbb0SReid Kleckner  if (I != TypeIndices.end())
5acacbb0SReid Kleckner    return I->second;
5acacbb0SReid Kleckner
643dd836SReid Kleckner  TypeLoweringScope S(*this);
b5af11dfSReid Kleckner  TypeIndex TI = lowerType(Ty, ClassTy);
b5af11dfSReid Kleckner  return recordTypeIndexForDINode(Ty, TI, ClassTy);
a8d57407SReid Kleckner}
a8d57407SReid Kleckner
c68f8957SZachary Turnercodeview::TypeIndex
c168c6f8SReid KlecknerCodeViewDebug::getTypeIndexForThisPtr(const DIDerivedType *PtrTy,
c68f8957SZachary Turner                                      const DISubroutineType *SubroutineTy) {
c168c6f8SReid Kleckner  assert(PtrTy->getTag() == dwarf::DW_TAG_pointer_type &&
c168c6f8SReid Kleckner         "this type must be a pointer type");
c68f8957SZachary Turner
c68f8957SZachary Turner  PointerOptions Options = PointerOptions::None;
c68f8957SZachary Turner  if (SubroutineTy->getFlags() & DINode::DIFlags::FlagLValueReference)
c68f8957SZachary Turner    Options = PointerOptions::LValueRefThisPointer;
c68f8957SZachary Turner  else if (SubroutineTy->getFlags() & DINode::DIFlags::FlagRValueReference)
c68f8957SZachary Turner    Options = PointerOptions::RValueRefThisPointer;
c68f8957SZachary Turner
c68f8957SZachary Turner  // Check if we've already translated this type.  If there is no ref qualifier
c68f8957SZachary Turner  // on the function then we look up this pointer type with no associated class
c68f8957SZachary Turner  // so that the TypeIndex for the this pointer can be shared with the type
c68f8957SZachary Turner  // index for other pointers to this class type.  If there is a ref qualifier
c68f8957SZachary Turner  // then we lookup the pointer using the subroutine as the parent type.
c168c6f8SReid Kleckner  auto I = TypeIndices.find({PtrTy, SubroutineTy});
c68f8957SZachary Turner  if (I != TypeIndices.end())
c68f8957SZachary Turner    return I->second;
c68f8957SZachary Turner
c68f8957SZachary Turner  TypeLoweringScope S(*this);
c168c6f8SReid Kleckner  TypeIndex TI = lowerTypePointer(PtrTy, Options);
c168c6f8SReid Kleckner  return recordTypeIndexForDINode(PtrTy, TI, SubroutineTy);
c68f8957SZachary Turner}
c68f8957SZachary Turner
223303c5SBob HaarmanTypeIndex CodeViewDebug::getTypeIndexForReferenceTo(DITypeRef TypeRef) {
223303c5SBob Haarman  DIType *Ty = TypeRef.resolve();
223303c5SBob Haarman  PointerRecord PR(getTypeIndex(Ty),
223303c5SBob Haarman                   getPointerSizeInBytes() == 8 ? PointerKind::Near64
223303c5SBob Haarman                                                : PointerKind::Near32,
223303c5SBob Haarman                   PointerMode::LValueReference, PointerOptions::None,
223303c5SBob Haarman                   Ty->getSizeInBits() / 8);
6900de1dSZachary Turner  return TypeTable.writeLeafType(PR);
223303c5SBob Haarman}
223303c5SBob Haarman
a8d57407SReid KlecknerTypeIndex CodeViewDebug::getCompleteTypeIndex(DITypeRef TypeRef) {
a8d57407SReid Kleckner  const DIType *Ty = TypeRef.resolve();
a8d57407SReid Kleckner
a8d57407SReid Kleckner  // The null DIType is the void type. Don't try to hash it.
a8d57407SReid Kleckner  if (!Ty)
a8d57407SReid Kleckner    return TypeIndex::Void();
a8d57407SReid Kleckner
9571c806SReid Kleckner  // Look through typedefs when getting the complete type index. Call
9571c806SReid Kleckner  // getTypeIndex on the typdef to ensure that any UDTs are accumulated and are
9571c806SReid Kleckner  // emitted only once.
9571c806SReid Kleckner  if (Ty->getTag() == dwarf::DW_TAG_typedef)
9571c806SReid Kleckner    (void)getTypeIndex(Ty);
9571c806SReid Kleckner  while (Ty->getTag() == dwarf::DW_TAG_typedef)
9571c806SReid Kleckner    Ty = cast<DIDerivedType>(Ty)->getBaseType().resolve();
9571c806SReid Kleckner
a8d57407SReid Kleckner  // If this is a non-record type, the complete type index is the same as the
a8d57407SReid Kleckner  // normal type index. Just call getTypeIndex.
a8d57407SReid Kleckner  switch (Ty->getTag()) {
a8d57407SReid Kleckner  case dwarf::DW_TAG_class_type:
a8d57407SReid Kleckner  case dwarf::DW_TAG_structure_type:
a8d57407SReid Kleckner  case dwarf::DW_TAG_union_type:
a8d57407SReid Kleckner    break;
a8d57407SReid Kleckner  default:
a8d57407SReid Kleckner    return getTypeIndex(Ty);
a8d57407SReid Kleckner  }
a8d57407SReid Kleckner
b60532f8SBrock Wyma  // Check if we've already translated the complete record type.
a8d57407SReid Kleckner  const auto *CTy = cast<DICompositeType>(Ty);
a8d57407SReid Kleckner  auto InsertResult = CompleteTypeIndices.insert({CTy, TypeIndex()});
a8d57407SReid Kleckner  if (!InsertResult.second)
a8d57407SReid Kleckner    return InsertResult.first->second;
a8d57407SReid Kleckner
643dd836SReid Kleckner  TypeLoweringScope S(*this);
643dd836SReid Kleckner
a8d57407SReid Kleckner  // Make sure the forward declaration is emitted first. It's unclear if this
a8d57407SReid Kleckner  // is necessary, but MSVC does it, and we should follow suit until we can show
a8d57407SReid Kleckner  // otherwise.
b60532f8SBrock Wyma  // We only emit a forward declaration for named types.
b60532f8SBrock Wyma  if (!CTy->getName().empty() || !CTy->getIdentifier().empty()) {
a8d57407SReid Kleckner    TypeIndex FwdDeclTI = getTypeIndex(CTy);
a8d57407SReid Kleckner
b60532f8SBrock Wyma    // Just use the forward decl if we don't have complete type info. This
b60532f8SBrock Wyma    // might happen if the frontend is using modules and expects the complete
b60532f8SBrock Wyma    // definition to be emitted elsewhere.
a8d57407SReid Kleckner    if (CTy->isForwardDecl())
a8d57407SReid Kleckner      return FwdDeclTI;
b60532f8SBrock Wyma  }
a8d57407SReid Kleckner
a8d57407SReid Kleckner  TypeIndex TI;
a8d57407SReid Kleckner  switch (CTy->getTag()) {
a8d57407SReid Kleckner  case dwarf::DW_TAG_class_type:
a8d57407SReid Kleckner  case dwarf::DW_TAG_structure_type:
a8d57407SReid Kleckner    TI = lowerCompleteTypeClass(CTy);
a8d57407SReid Kleckner    break;
a8d57407SReid Kleckner  case dwarf::DW_TAG_union_type:
a8d57407SReid Kleckner    TI = lowerCompleteTypeUnion(CTy);
a8d57407SReid Kleckner    break;
a8d57407SReid Kleckner  default:
a8d57407SReid Kleckner    llvm_unreachable("not a record");
a8d57407SReid Kleckner  }
a8d57407SReid Kleckner
b60532f8SBrock Wyma  // Update the type index associated with this CompositeType.  This cannot
b60532f8SBrock Wyma  // use the 'InsertResult' iterator above because it is potentially
b60532f8SBrock Wyma  // invalidated by map insertions which can occur while lowering the class
b60532f8SBrock Wyma  // type above.
b60532f8SBrock Wyma  CompleteTypeIndices[CTy] = TI;
5acacbb0SReid Kleckner  return TI;
5acacbb0SReid Kleckner}
5acacbb0SReid Kleckner
643dd836SReid Kleckner/// Emit all the deferred complete record types. Try to do this in FIFO order,
acee5685SAmjad Aboud/// and do this until fixpoint, as each complete record type typically
acee5685SAmjad Aboud/// references
643dd836SReid Kleckner/// many other record types.
643dd836SReid Klecknervoid CodeViewDebug::emitDeferredCompleteTypes() {
643dd836SReid Kleckner  SmallVector<const DICompositeType *, 4> TypesToEmit;
643dd836SReid Kleckner  while (!DeferredCompleteTypes.empty()) {
643dd836SReid Kleckner    std::swap(DeferredCompleteTypes, TypesToEmit);
643dd836SReid Kleckner    for (const DICompositeType *RecordTy : TypesToEmit)
643dd836SReid Kleckner      getCompleteTypeIndex(RecordTy);
643dd836SReid Kleckner    TypesToEmit.clear();
643dd836SReid Kleckner  }
643dd836SReid Kleckner}
643dd836SReid Kleckner
9ea2c012SReid Klecknervoid CodeViewDebug::emitLocalVariableList(const FunctionInfo &FI,
9ea2c012SReid Kleckner                                          ArrayRef<LocalVariable> Locals) {
10dd55c5SReid Kleckner  // Get the sorted list of parameters and emit them first.
10dd55c5SReid Kleckner  SmallVector<const LocalVariable *, 6> Params;
10dd55c5SReid Kleckner  for (const LocalVariable &L : Locals)
10dd55c5SReid Kleckner    if (L.DIVar->isParameter())
10dd55c5SReid Kleckner      Params.push_back(&L);
0cac726aSFangrui Song  llvm::sort(Params, [](const LocalVariable *L, const LocalVariable *R) {
10dd55c5SReid Kleckner    return L->DIVar->getArg() < R->DIVar->getArg();
10dd55c5SReid Kleckner  });
10dd55c5SReid Kleckner  for (const LocalVariable *L : Params)
9ea2c012SReid Kleckner    emitLocalVariable(FI, *L);
10dd55c5SReid Kleckner
10dd55c5SReid Kleckner  // Next emit all non-parameters in the order that we found them.
10dd55c5SReid Kleckner  for (const LocalVariable &L : Locals)
10dd55c5SReid Kleckner    if (!L.DIVar->isParameter())
9ea2c012SReid Kleckner      emitLocalVariable(FI, L);
10dd55c5SReid Kleckner}
10dd55c5SReid Kleckner
8d7c421aSReid Kleckner/// Only call this on endian-specific types like ulittle16_t and little32_t, or
8d7c421aSReid Kleckner/// structs composed of them.
8d7c421aSReid Klecknertemplate <typename T>
8d7c421aSReid Klecknerstatic void copyBytesForDefRange(SmallString<20> &BytePrefix,
8d7c421aSReid Kleckner                                 SymbolKind SymKind, const T &DefRangeHeader) {
8d7c421aSReid Kleckner  BytePrefix.resize(2 + sizeof(T));
8d7c421aSReid Kleckner  ulittle16_t SymKindLE = ulittle16_t(SymKind);
8d7c421aSReid Kleckner  memcpy(&BytePrefix[0], &SymKindLE, 2);
8d7c421aSReid Kleckner  memcpy(&BytePrefix[2], &DefRangeHeader, sizeof(T));
8d7c421aSReid Kleckner}
8d7c421aSReid Kleckner
9ea2c012SReid Klecknervoid CodeViewDebug::emitLocalVariable(const FunctionInfo &FI,
9ea2c012SReid Kleckner                                      const LocalVariable &Var) {
f9c275feSReid Kleckner  // LocalSym record, see SymbolRecord.h for more info.
5bf71d11SReid Kleckner  MCSymbol *LocalEnd = beginSymbolRecord(SymbolKind::S_LOCAL);
f9c275feSReid Kleckner
63a2846eSZachary Turner  LocalSymFlags Flags = LocalSymFlags::None;
f9c275feSReid Kleckner  if (Var.DIVar->isParameter())
63a2846eSZachary Turner    Flags |= LocalSymFlags::IsParameter;
876330d5SReid Kleckner  if (Var.DefRanges.empty())
63a2846eSZachary Turner    Flags |= LocalSymFlags::IsOptimizedOut;
f9c275feSReid Kleckner
f9c275feSReid Kleckner  OS.AddComment("TypeIndex");
08f5fd51SReid Kleckner  TypeIndex TI = Var.UseReferenceType
08f5fd51SReid Kleckner                     ? getTypeIndexForReferenceTo(Var.DIVar->getType())
223303c5SBob Haarman                     : getCompleteTypeIndex(Var.DIVar->getType());
5acacbb0SReid Kleckner  OS.EmitIntValue(TI.getIndex(), 4);
f9c275feSReid Kleckner  OS.AddComment("Flags");
63a2846eSZachary Turner  OS.EmitIntValue(static_cast<uint16_t>(Flags), 2);
1256125fSDavid Majnemer  // Truncate the name so we won't overflow the record length field.
b9456a5eSDavid Majnemer  emitNullTerminatedSymbolName(OS, Var.DIVar->getName());
5bf71d11SReid Kleckner  endSymbolRecord(LocalEnd);
f9c275feSReid Kleckner
876330d5SReid Kleckner  // Calculate the on disk prefix of the appropriate def range record. The
876330d5SReid Kleckner  // records and on disk formats are described in SymbolRecords.h. BytePrefix
876330d5SReid Kleckner  // should be big enough to hold all forms without memory allocation.
876330d5SReid Kleckner  SmallString<20> BytePrefix;
876330d5SReid Kleckner  for (const LocalVarDefRange &DefRange : Var.DefRanges) {
876330d5SReid Kleckner    BytePrefix.clear();
876330d5SReid Kleckner    if (DefRange.InMemory) {
9ea2c012SReid Kleckner      int Offset = DefRange.DataOffset;
9ea2c012SReid Kleckner      unsigned Reg = DefRange.CVRegister;
9ea2c012SReid Kleckner
d5e4ec74SReid Kleckner      // 32-bit x86 call sequences often use PUSH instructions, which disrupt
9ea2c012SReid Kleckner      // ESP-relative offsets. Use the virtual frame pointer, VFRAME or $T0,
2bcb288aSReid Kleckner      // instead. In frames without stack realignment, $T0 will be the CFA.
9ea2c012SReid Kleckner      if (RegisterId(Reg) == RegisterId::ESP) {
9ea2c012SReid Kleckner        Reg = unsigned(RegisterId::VFRAME);
2bcb288aSReid Kleckner        Offset += FI.OffsetAdjustment;
9ea2c012SReid Kleckner      }
9ea2c012SReid Kleckner
9ea2c012SReid Kleckner      // If we can use the chosen frame pointer for the frame and this isn't a
9ea2c012SReid Kleckner      // sliced aggregate, use the smaller S_DEFRANGE_FRAMEPOINTER_REL record.
9ea2c012SReid Kleckner      // Otherwise, use S_DEFRANGE_REGISTER_REL.
9ea2c012SReid Kleckner      EncodedFramePtrReg EncFP = encodeFramePtrReg(RegisterId(Reg), TheCPU);
9ea2c012SReid Kleckner      if (!DefRange.IsSubfield && EncFP != EncodedFramePtrReg::None &&
9ea2c012SReid Kleckner          (bool(Flags & LocalSymFlags::IsParameter)
9ea2c012SReid Kleckner               ? (EncFP == FI.EncodedParamFramePtrReg)
9ea2c012SReid Kleckner               : (EncFP == FI.EncodedLocalFramePtrReg))) {
9ea2c012SReid Kleckner        little32_t FPOffset = little32_t(Offset);
8d7c421aSReid Kleckner        copyBytesForDefRange(BytePrefix, S_DEFRANGE_FRAMEPOINTER_REL, FPOffset);
9ea2c012SReid Kleckner      } else {
2b3e6428SReid Kleckner        uint16_t RegRelFlags = 0;
2b3e6428SReid Kleckner        if (DefRange.IsSubfield) {
2b3e6428SReid Kleckner          RegRelFlags = DefRangeRegisterRelSym::IsSubfieldFlag |
2b3e6428SReid Kleckner                        (DefRange.StructOffset
2b3e6428SReid Kleckner                         << DefRangeRegisterRelSym::OffsetInParentShift);
2b3e6428SReid Kleckner        }
9ea2c012SReid Kleckner        DefRangeRegisterRelSym::Header DRHdr;
9ea2c012SReid Kleckner        DRHdr.Register = Reg;
9ea2c012SReid Kleckner        DRHdr.Flags = RegRelFlags;
9ea2c012SReid Kleckner        DRHdr.BasePointerOffset = Offset;
8d7c421aSReid Kleckner        copyBytesForDefRange(BytePrefix, S_DEFRANGE_REGISTER_REL, DRHdr);
9ea2c012SReid Kleckner      }
876330d5SReid Kleckner    } else {
876330d5SReid Kleckner      assert(DefRange.DataOffset == 0 && "unexpected offset into register");
2b3e6428SReid Kleckner      if (DefRange.IsSubfield) {
8d7c421aSReid Kleckner        DefRangeSubfieldRegisterSym::Header DRHdr;
8d7c421aSReid Kleckner        DRHdr.Register = DefRange.CVRegister;
8d7c421aSReid Kleckner        DRHdr.MayHaveNoName = 0;
8d7c421aSReid Kleckner        DRHdr.OffsetInParent = DefRange.StructOffset;
8d7c421aSReid Kleckner        copyBytesForDefRange(BytePrefix, S_DEFRANGE_SUBFIELD_REGISTER, DRHdr);
2b3e6428SReid Kleckner      } else {
8d7c421aSReid Kleckner        DefRangeRegisterSym::Header DRHdr;
8d7c421aSReid Kleckner        DRHdr.Register = DefRange.CVRegister;
8d7c421aSReid Kleckner        DRHdr.MayHaveNoName = 0;
8d7c421aSReid Kleckner        copyBytesForDefRange(BytePrefix, S_DEFRANGE_REGISTER, DRHdr);
2b3e6428SReid Kleckner      }
876330d5SReid Kleckner    }
876330d5SReid Kleckner    OS.EmitCVDefRangeDirective(DefRange.Ranges, BytePrefix);
876330d5SReid Kleckner  }
f9c275feSReid Kleckner}
f9c275feSReid Kleckner
5a791ee4SReid Klecknervoid CodeViewDebug::emitLexicalBlockList(ArrayRef<LexicalBlock *> Blocks,
5a791ee4SReid Kleckner                                         const FunctionInfo& FI) {
5a791ee4SReid Kleckner  for (LexicalBlock *Block : Blocks)
5a791ee4SReid Kleckner    emitLexicalBlock(*Block, FI);
5a791ee4SReid Kleckner}
5a791ee4SReid Kleckner
5a791ee4SReid Kleckner/// Emit an S_BLOCK32 and S_END record pair delimiting the contents of a
5a791ee4SReid Kleckner/// lexical block scope.
5a791ee4SReid Klecknervoid CodeViewDebug::emitLexicalBlock(const LexicalBlock &Block,
5a791ee4SReid Kleckner                                     const FunctionInfo& FI) {
5bf71d11SReid Kleckner  MCSymbol *RecordEnd = beginSymbolRecord(SymbolKind::S_BLOCK32);
5a791ee4SReid Kleckner  OS.AddComment("PtrParent");
5a791ee4SReid Kleckner  OS.EmitIntValue(0, 4);                                  // PtrParent
5a791ee4SReid Kleckner  OS.AddComment("PtrEnd");
5a791ee4SReid Kleckner  OS.EmitIntValue(0, 4);                                  // PtrEnd
5a791ee4SReid Kleckner  OS.AddComment("Code size");
5a791ee4SReid Kleckner  OS.emitAbsoluteSymbolDiff(Block.End, Block.Begin, 4);   // Code Size
5a791ee4SReid Kleckner  OS.AddComment("Function section relative address");
5a791ee4SReid Kleckner  OS.EmitCOFFSecRel32(Block.Begin, /*Offset=*/0);         // Func Offset
5a791ee4SReid Kleckner  OS.AddComment("Function section index");
5a791ee4SReid Kleckner  OS.EmitCOFFSectionIndex(FI.Begin);                      // Func Symbol
5a791ee4SReid Kleckner  OS.AddComment("Lexical block name");
5a791ee4SReid Kleckner  emitNullTerminatedSymbolName(OS, Block.Name);           // Name
5bf71d11SReid Kleckner  endSymbolRecord(RecordEnd);
5a791ee4SReid Kleckner
5a791ee4SReid Kleckner  // Emit variables local to this lexical block.
9ea2c012SReid Kleckner  emitLocalVariableList(FI, Block.Locals);
b17464e4SBrock Wyma  emitGlobalVariableList(Block.Globals);
5a791ee4SReid Kleckner
5a791ee4SReid Kleckner  // Emit lexical blocks contained within this block.
5a791ee4SReid Kleckner  emitLexicalBlockList(Block.Children, FI);
5a791ee4SReid Kleckner
5a791ee4SReid Kleckner  // Close the lexical block scope.
5bf71d11SReid Kleckner  emitEndSymbolRecord(SymbolKind::S_END);
5a791ee4SReid Kleckner}
5a791ee4SReid Kleckner
5a791ee4SReid Kleckner/// Convenience routine for collecting lexical block information for a list
5a791ee4SReid Kleckner/// of lexical scopes.
5a791ee4SReid Klecknervoid CodeViewDebug::collectLexicalBlockInfo(
5a791ee4SReid Kleckner        SmallVectorImpl<LexicalScope *> &Scopes,
5a791ee4SReid Kleckner        SmallVectorImpl<LexicalBlock *> &Blocks,
b17464e4SBrock Wyma        SmallVectorImpl<LocalVariable> &Locals,
b17464e4SBrock Wyma        SmallVectorImpl<CVGlobalVariable> &Globals) {
5a791ee4SReid Kleckner  for (LexicalScope *Scope : Scopes)
b17464e4SBrock Wyma    collectLexicalBlockInfo(*Scope, Blocks, Locals, Globals);
5a791ee4SReid Kleckner}
5a791ee4SReid Kleckner
5a791ee4SReid Kleckner/// Populate the lexical blocks and local variable lists of the parent with
5a791ee4SReid Kleckner/// information about the specified lexical scope.
5a791ee4SReid Klecknervoid CodeViewDebug::collectLexicalBlockInfo(
5a791ee4SReid Kleckner    LexicalScope &Scope,
5a791ee4SReid Kleckner    SmallVectorImpl<LexicalBlock *> &ParentBlocks,
b17464e4SBrock Wyma    SmallVectorImpl<LocalVariable> &ParentLocals,
b17464e4SBrock Wyma    SmallVectorImpl<CVGlobalVariable> &ParentGlobals) {
5a791ee4SReid Kleckner  if (Scope.isAbstractScope())
5a791ee4SReid Kleckner    return;
5a791ee4SReid Kleckner
b17464e4SBrock Wyma  // Gather information about the lexical scope including local variables,
b17464e4SBrock Wyma  // global variables, and address ranges.
b17464e4SBrock Wyma  bool IgnoreScope = false;
b17464e4SBrock Wyma  auto LI = ScopeVariables.find(&Scope);
b17464e4SBrock Wyma  SmallVectorImpl<LocalVariable> *Locals =
b17464e4SBrock Wyma      LI != ScopeVariables.end() ? &LI->second : nullptr;
b17464e4SBrock Wyma  auto GI = ScopeGlobals.find(Scope.getScopeNode());
b17464e4SBrock Wyma  SmallVectorImpl<CVGlobalVariable> *Globals =
b17464e4SBrock Wyma      GI != ScopeGlobals.end() ? GI->second.get() : nullptr;
5a791ee4SReid Kleckner  const DILexicalBlock *DILB = dyn_cast<DILexicalBlock>(Scope.getScopeNode());
5a791ee4SReid Kleckner  const SmallVectorImpl<InsnRange> &Ranges = Scope.getRanges();
b17464e4SBrock Wyma
b17464e4SBrock Wyma  // Ignore lexical scopes which do not contain variables.
b17464e4SBrock Wyma  if (!Locals && !Globals)
b17464e4SBrock Wyma    IgnoreScope = true;
b17464e4SBrock Wyma
b17464e4SBrock Wyma  // Ignore lexical scopes which are not lexical blocks.
b17464e4SBrock Wyma  if (!DILB)
b17464e4SBrock Wyma    IgnoreScope = true;
b17464e4SBrock Wyma
b17464e4SBrock Wyma  // Ignore scopes which have too many address ranges to represent in the
b17464e4SBrock Wyma  // current CodeView format or do not have a valid address range.
5a791ee4SReid Kleckner  //
5a791ee4SReid Kleckner  // For lexical scopes with multiple address ranges you may be tempted to
5a791ee4SReid Kleckner  // construct a single range covering every instruction where the block is
5a791ee4SReid Kleckner  // live and everything in between.  Unfortunately, Visual Studio only
5a791ee4SReid Kleckner  // displays variables from the first matching lexical block scope.  If the
5a791ee4SReid Kleckner  // first lexical block contains exception handling code or cold code which
5a791ee4SReid Kleckner  // is moved to the bottom of the routine creating a single range covering
5a791ee4SReid Kleckner  // nearly the entire routine, then it will hide all other lexical blocks
5a791ee4SReid Kleckner  // and the variables they contain.
b17464e4SBrock Wyma  if (Ranges.size() != 1 || !getLabelAfterInsn(Ranges.front().second))
b17464e4SBrock Wyma    IgnoreScope = true;
b17464e4SBrock Wyma
b17464e4SBrock Wyma  if (IgnoreScope) {
b17464e4SBrock Wyma    // This scope can be safely ignored and eliminating it will reduce the
b17464e4SBrock Wyma    // size of the debug information. Be sure to collect any variable and scope
b17464e4SBrock Wyma    // information from the this scope or any of its children and collapse them
b17464e4SBrock Wyma    // into the parent scope.
b17464e4SBrock Wyma    if (Locals)
b17464e4SBrock Wyma      ParentLocals.append(Locals->begin(), Locals->end());
b17464e4SBrock Wyma    if (Globals)
b17464e4SBrock Wyma      ParentGlobals.append(Globals->begin(), Globals->end());
b17464e4SBrock Wyma    collectLexicalBlockInfo(Scope.getChildren(),
b17464e4SBrock Wyma                            ParentBlocks,
b17464e4SBrock Wyma                            ParentLocals,
b17464e4SBrock Wyma                            ParentGlobals);
5a791ee4SReid Kleckner    return;
5a791ee4SReid Kleckner  }
5a791ee4SReid Kleckner
5a791ee4SReid Kleckner  // Create a new CodeView lexical block for this lexical scope.  If we've
5a791ee4SReid Kleckner  // seen this DILexicalBlock before then the scope tree is malformed and
5a791ee4SReid Kleckner  // we can handle this gracefully by not processing it a second time.
5a791ee4SReid Kleckner  auto BlockInsertion = CurFn->LexicalBlocks.insert({DILB, LexicalBlock()});
5a791ee4SReid Kleckner  if (!BlockInsertion.second)
5a791ee4SReid Kleckner    return;
5a791ee4SReid Kleckner
b17464e4SBrock Wyma  // Create a lexical block containing the variables and collect the the
b17464e4SBrock Wyma  // lexical block information for the children.
5a791ee4SReid Kleckner  const InsnRange &Range = Ranges.front();
5a791ee4SReid Kleckner  assert(Range.first && Range.second);
5a791ee4SReid Kleckner  LexicalBlock &Block = BlockInsertion.first->second;
5a791ee4SReid Kleckner  Block.Begin = getLabelBeforeInsn(Range.first);
5a791ee4SReid Kleckner  Block.End = getLabelAfterInsn(Range.second);
5a791ee4SReid Kleckner  assert(Block.Begin && "missing label for scope begin");
5a791ee4SReid Kleckner  assert(Block.End && "missing label for scope end");
5a791ee4SReid Kleckner  Block.Name = DILB->getName();
b17464e4SBrock Wyma  if (Locals)
b17464e4SBrock Wyma    Block.Locals = std::move(*Locals);
b17464e4SBrock Wyma  if (Globals)
b17464e4SBrock Wyma    Block.Globals = std::move(*Globals);
5a791ee4SReid Kleckner  ParentBlocks.push_back(&Block);
b17464e4SBrock Wyma  collectLexicalBlockInfo(Scope.getChildren(),
b17464e4SBrock Wyma                          Block.Children,
b17464e4SBrock Wyma                          Block.Locals,
b17464e4SBrock Wyma                          Block.Globals);
5a791ee4SReid Kleckner}
5a791ee4SReid Kleckner
b2fbb4b2SDavid Blaikievoid CodeViewDebug::endFunctionImpl(const MachineFunction *MF) {
f1caa283SMatthias Braun  const Function &GV = MF->getFunction();
f1caa283SMatthias Braun  assert(FnDebugInfo.count(&GV));
55baeefdSReid Kleckner  assert(CurFn == FnDebugInfo[&GV].get());
70f5bc99SReid Kleckner
f1caa283SMatthias Braun  collectVariableInfo(GV.getSubprogram());
876330d5SReid Kleckner
5a791ee4SReid Kleckner  // Build the lexical block structure to emit for this routine.
5a791ee4SReid Kleckner  if (LexicalScope *CFS = LScopes.getCurrentFunctionScope())
b17464e4SBrock Wyma    collectLexicalBlockInfo(*CFS,
b17464e4SBrock Wyma                            CurFn->ChildBlocks,
b17464e4SBrock Wyma                            CurFn->Locals,
b17464e4SBrock Wyma                            CurFn->Globals);
5a791ee4SReid Kleckner
5a791ee4SReid Kleckner  // Clear the scope and variable information from the map which will not be
5a791ee4SReid Kleckner  // valid after we have finished processing this routine.  This also prepares
5a791ee4SReid Kleckner  // the map for the subsequent routine.
5a791ee4SReid Kleckner  ScopeVariables.clear();
5a791ee4SReid Kleckner
2214ed89SReid Kleckner  // Don't emit anything if we don't have any line tables.
94ece8fbSBrock Wyma  // Thunks are compiler-generated and probably won't have source correlation.
94ece8fbSBrock Wyma  if (!CurFn->HaveLineInfo && !GV.getSubprogram()->isThunk()) {
f1caa283SMatthias Braun    FnDebugInfo.erase(&GV);
f9c275feSReid Kleckner    CurFn = nullptr;
f9c275feSReid Kleckner    return;
70f5bc99SReid Kleckner  }
f9c275feSReid Kleckner
e33c94f1SReid Kleckner  CurFn->Annotations = MF->getCodeViewAnnotations();
e33c94f1SReid Kleckner
f9c275feSReid Kleckner  CurFn->End = Asm->getFunctionEnd();
f9c275feSReid Kleckner
70f5bc99SReid Kleckner  CurFn = nullptr;
70f5bc99SReid Kleckner}
70f5bc99SReid Kleckner
70f5bc99SReid Klecknervoid CodeViewDebug::beginInstruction(const MachineInstr *MI) {
f9c275feSReid Kleckner  DebugHandlerBase::beginInstruction(MI);
f9c275feSReid Kleckner
801bf7ebSShiva Chen  // Ignore DBG_VALUE and DBG_LABEL locations and function prologue.
801bf7ebSShiva Chen  if (!Asm || !CurFn || MI->isDebugInstr() ||
67f684e1SDavid Majnemer      MI->getFlag(MachineInstr::FrameSetup))
70f5bc99SReid Kleckner    return;
45a74620SReid Kleckner
45a74620SReid Kleckner  // If the first instruction of a new MBB has no location, find the first
45a74620SReid Kleckner  // instruction with a location and use that.
70f5bc99SReid Kleckner  DebugLoc DL = MI->getDebugLoc();
45a74620SReid Kleckner  if (!DL && MI->getParent() != PrevInstBB) {
45a74620SReid Kleckner    for (const auto &NextMI : *MI->getParent()) {
801bf7ebSShiva Chen      if (NextMI.isDebugInstr())
2de471dcSReid Kleckner        continue;
45a74620SReid Kleckner      DL = NextMI.getDebugLoc();
45a74620SReid Kleckner      if (DL)
45a74620SReid Kleckner        break;
45a74620SReid Kleckner    }
45a74620SReid Kleckner  }
45a74620SReid Kleckner  PrevInstBB = MI->getParent();
45a74620SReid Kleckner
45a74620SReid Kleckner  // If we still don't have a debug location, don't record a location.
45a74620SReid Kleckner  if (!DL)
70f5bc99SReid Kleckner    return;
45a74620SReid Kleckner
70f5bc99SReid Kleckner  maybeRecordLocation(DL, Asm->MF);
70f5bc99SReid Kleckner}
6f3406dfSReid Kleckner
8c099fe0SZachary TurnerMCSymbol *CodeViewDebug::beginCVSubsection(DebugSubsectionKind Kind) {
6f3406dfSReid Kleckner  MCSymbol *BeginLabel = MMI->getContext().createTempSymbol(),
6f3406dfSReid Kleckner           *EndLabel = MMI->getContext().createTempSymbol();
6f3406dfSReid Kleckner  OS.EmitIntValue(unsigned(Kind), 4);
6f3406dfSReid Kleckner  OS.AddComment("Subsection size");
6f3406dfSReid Kleckner  OS.emitAbsoluteSymbolDiff(EndLabel, BeginLabel, 4);
6f3406dfSReid Kleckner  OS.EmitLabel(BeginLabel);
6f3406dfSReid Kleckner  return EndLabel;
6f3406dfSReid Kleckner}
6f3406dfSReid Kleckner
6f3406dfSReid Klecknervoid CodeViewDebug::endCVSubsection(MCSymbol *EndLabel) {
6f3406dfSReid Kleckner  OS.EmitLabel(EndLabel);
6f3406dfSReid Kleckner  // Every subsection must be aligned to a 4-byte boundary.
6f3406dfSReid Kleckner  OS.EmitValueToAlignment(4);
6f3406dfSReid Kleckner}
6f3406dfSReid Kleckner
5bf71d11SReid Klecknerstatic StringRef getSymbolName(SymbolKind SymKind) {
5bf71d11SReid Kleckner  for (const EnumEntry<SymbolKind> &EE : getSymbolTypeNames())
5bf71d11SReid Kleckner    if (EE.Value == SymKind)
5bf71d11SReid Kleckner      return EE.Name;
5bf71d11SReid Kleckner  return "";
5bf71d11SReid Kleckner}
5bf71d11SReid Kleckner
5bf71d11SReid KlecknerMCSymbol *CodeViewDebug::beginSymbolRecord(SymbolKind SymKind) {
5bf71d11SReid Kleckner  MCSymbol *BeginLabel = MMI->getContext().createTempSymbol(),
5bf71d11SReid Kleckner           *EndLabel = MMI->getContext().createTempSymbol();
5bf71d11SReid Kleckner  OS.AddComment("Record length");
5bf71d11SReid Kleckner  OS.emitAbsoluteSymbolDiff(EndLabel, BeginLabel, 2);
5bf71d11SReid Kleckner  OS.EmitLabel(BeginLabel);
5bf71d11SReid Kleckner  if (OS.isVerboseAsm())
5bf71d11SReid Kleckner    OS.AddComment("Record kind: " + getSymbolName(SymKind));
5bf71d11SReid Kleckner  OS.EmitIntValue(unsigned(SymKind), 2);
5bf71d11SReid Kleckner  return EndLabel;
5bf71d11SReid Kleckner}
5bf71d11SReid Kleckner
5bf71d11SReid Klecknervoid CodeViewDebug::endSymbolRecord(MCSymbol *SymEnd) {
4ab50b85SReid Kleckner  // MSVC does not pad out symbol records to four bytes, but LLVM does to avoid
4ab50b85SReid Kleckner  // an extra copy of every symbol record in LLD. This increases object file
4ab50b85SReid Kleckner  // size by less than 1% in the clang build, and is compatible with the Visual
4ab50b85SReid Kleckner  // C++ linker.
53ce0596SReid Kleckner  OS.EmitValueToAlignment(4);
5bf71d11SReid Kleckner  OS.EmitLabel(SymEnd);
5bf71d11SReid Kleckner}
5bf71d11SReid Kleckner
5bf71d11SReid Klecknervoid CodeViewDebug::emitEndSymbolRecord(SymbolKind EndKind) {
5bf71d11SReid Kleckner  OS.AddComment("Record length");
5bf71d11SReid Kleckner  OS.EmitIntValue(2, 2);
5bf71d11SReid Kleckner  if (OS.isVerboseAsm())
5bf71d11SReid Kleckner    OS.AddComment("Record kind: " + getSymbolName(EndKind));
5bf71d11SReid Kleckner  OS.EmitIntValue(unsigned(EndKind), 2); // Record Kind
5bf71d11SReid Kleckner}
5bf71d11SReid Kleckner
3128b10cSDavid Majnemervoid CodeViewDebug::emitDebugInfoForUDTs(
a7b04174SZachary Turner    ArrayRef<std::pair<std::string, const DIType *>> UDTs) {
a7b04174SZachary Turner  for (const auto &UDT : UDTs) {
a7b04174SZachary Turner    const DIType *T = UDT.second;
a7b04174SZachary Turner    assert(shouldEmitUdt(T));
a7b04174SZachary Turner
5bf71d11SReid Kleckner    MCSymbol *UDTRecordEnd = beginSymbolRecord(SymbolKind::S_UDT);
3128b10cSDavid Majnemer    OS.AddComment("Type");
a7b04174SZachary Turner    OS.EmitIntValue(getCompleteTypeIndex(T).getIndex(), 4);
3128b10cSDavid Majnemer    emitNullTerminatedSymbolName(OS, UDT.first);
5bf71d11SReid Kleckner    endSymbolRecord(UDTRecordEnd);
3128b10cSDavid Majnemer  }
3128b10cSDavid Majnemer}
3128b10cSDavid Majnemer
b17464e4SBrock Wymavoid CodeViewDebug::collectGlobalVariableInfo() {
bceaaa96SAdrian Prantl  DenseMap<const DIGlobalVariableExpression *, const GlobalVariable *>
bceaaa96SAdrian Prantl      GlobalMap;
d4135bbcSPeter Collingbourne  for (const GlobalVariable &GV : MMI->getModule()->globals()) {
bceaaa96SAdrian Prantl    SmallVector<DIGlobalVariableExpression *, 1> GVEs;
bceaaa96SAdrian Prantl    GV.getDebugInfo(GVEs);
bceaaa96SAdrian Prantl    for (const auto *GVE : GVEs)
bceaaa96SAdrian Prantl      GlobalMap[GVE] = &GV;
d4135bbcSPeter Collingbourne  }
d4135bbcSPeter Collingbourne
6f3406dfSReid Kleckner  NamedMDNode *CUs = MMI->getModule()->getNamedMetadata("llvm.dbg.cu");
6f3406dfSReid Kleckner  for (const MDNode *Node : CUs->operands()) {
6f3406dfSReid Kleckner    const auto *CU = cast<DICompileUnit>(Node);
b17464e4SBrock Wyma    for (const auto *GVE : CU->getGlobalVariables()) {
b17464e4SBrock Wyma      const auto *GV = GlobalMap.lookup(GVE);
b17464e4SBrock Wyma      if (!GV || GV->isDeclarationForLinker())
b17464e4SBrock Wyma        continue;
b17464e4SBrock Wyma      const DIGlobalVariable *DIGV = GVE->getVariable();
b17464e4SBrock Wyma      DIScope *Scope = DIGV->getScope();
b17464e4SBrock Wyma      SmallVector<CVGlobalVariable, 1> *VariableList;
b17464e4SBrock Wyma      if (Scope && isa<DILocalScope>(Scope)) {
b17464e4SBrock Wyma        // Locate a global variable list for this scope, creating one if
b17464e4SBrock Wyma        // necessary.
b17464e4SBrock Wyma        auto Insertion = ScopeGlobals.insert(
b17464e4SBrock Wyma            {Scope, std::unique_ptr<GlobalVariableList>()});
b17464e4SBrock Wyma        if (Insertion.second)
b17464e4SBrock Wyma          Insertion.first->second = llvm::make_unique<GlobalVariableList>();
b17464e4SBrock Wyma        VariableList = Insertion.first->second.get();
b17464e4SBrock Wyma      } else if (GV->hasComdat())
b17464e4SBrock Wyma        // Emit this global variable into a COMDAT section.
b17464e4SBrock Wyma        VariableList = &ComdatVariables;
b17464e4SBrock Wyma      else
b17464e4SBrock Wyma        // Emit this globla variable in a single global symbol section.
b17464e4SBrock Wyma        VariableList = &GlobalVariables;
b17464e4SBrock Wyma      CVGlobalVariable CVGV = {DIGV, GV};
b17464e4SBrock Wyma      VariableList->emplace_back(std::move(CVGV));
b17464e4SBrock Wyma    }
b17464e4SBrock Wyma  }
b17464e4SBrock Wyma}
6f3406dfSReid Kleckner
b17464e4SBrock Wymavoid CodeViewDebug::emitDebugInfoForGlobals() {
6f3406dfSReid Kleckner  // First, emit all globals that are not in a comdat in a single symbol
6f3406dfSReid Kleckner  // substream. MSVC doesn't like it if the substream is empty, so only open
6f3406dfSReid Kleckner  // it if we have at least one global to emit.
6f3406dfSReid Kleckner  switchToDebugSectionForSymbol(nullptr);
b17464e4SBrock Wyma  if (!GlobalVariables.empty()) {
6f3406dfSReid Kleckner    OS.AddComment("Symbol subsection for globals");
b17464e4SBrock Wyma    MCSymbol *EndLabel = beginCVSubsection(DebugSubsectionKind::Symbols);
b17464e4SBrock Wyma    emitGlobalVariableList(GlobalVariables);
6f3406dfSReid Kleckner    endCVSubsection(EndLabel);
b17464e4SBrock Wyma  }
6f3406dfSReid Kleckner
6f3406dfSReid Kleckner  // Second, emit each global that is in a comdat into its own .debug$S
6f3406dfSReid Kleckner  // section along with its own symbol substream.
b17464e4SBrock Wyma  for (const CVGlobalVariable &CVGV : ComdatVariables) {
b17464e4SBrock Wyma    MCSymbol *GVSym = Asm->getSymbol(CVGV.GV);
6f3406dfSReid Kleckner    OS.AddComment("Symbol subsection for " +
b17464e4SBrock Wyma            Twine(GlobalValue::dropLLVMManglingEscape(CVGV.GV->getName())));
6f3406dfSReid Kleckner    switchToDebugSectionForSymbol(GVSym);
b17464e4SBrock Wyma    MCSymbol *EndLabel = beginCVSubsection(DebugSubsectionKind::Symbols);
bceaaa96SAdrian Prantl    // FIXME: emitDebugInfoForGlobal() doesn't handle DIExpressions.
b17464e4SBrock Wyma    emitDebugInfoForGlobal(CVGV.DIGV, CVGV.GV, GVSym);
6f3406dfSReid Kleckner    endCVSubsection(EndLabel);
6f3406dfSReid Kleckner  }
6f3406dfSReid Kleckner}
6f3406dfSReid Kleckner
b510b458SHans Wennborgvoid CodeViewDebug::emitDebugInfoForRetainedTypes() {
b510b458SHans Wennborg  NamedMDNode *CUs = MMI->getModule()->getNamedMetadata("llvm.dbg.cu");
b510b458SHans Wennborg  for (const MDNode *Node : CUs->operands()) {
b510b458SHans Wennborg    for (auto *Ty : cast<DICompileUnit>(Node)->getRetainedTypes()) {
b510b458SHans Wennborg      if (DIType *RT = dyn_cast<DIType>(Ty)) {
b510b458SHans Wennborg        getTypeIndex(RT);
b510b458SHans Wennborg        // FIXME: Add to global/local DTU list.
b510b458SHans Wennborg      }
b510b458SHans Wennborg    }
b510b458SHans Wennborg  }
b510b458SHans Wennborg}
b510b458SHans Wennborg
b17464e4SBrock Wyma// Emit each global variable in the specified array.
b17464e4SBrock Wymavoid CodeViewDebug::emitGlobalVariableList(ArrayRef<CVGlobalVariable> Globals) {
b17464e4SBrock Wyma  for (const CVGlobalVariable &CVGV : Globals) {
b17464e4SBrock Wyma    MCSymbol *GVSym = Asm->getSymbol(CVGV.GV);
b17464e4SBrock Wyma    // FIXME: emitDebugInfoForGlobal() doesn't handle DIExpressions.
b17464e4SBrock Wyma    emitDebugInfoForGlobal(CVGV.DIGV, CVGV.GV, GVSym);
b17464e4SBrock Wyma  }
b17464e4SBrock Wyma}
b17464e4SBrock Wyma
6f3406dfSReid Klecknervoid CodeViewDebug::emitDebugInfoForGlobal(const DIGlobalVariable *DIGV,
d4135bbcSPeter Collingbourne                                           const GlobalVariable *GV,
6f3406dfSReid Kleckner                                           MCSymbol *GVSym) {
5bf71d11SReid Kleckner  // DataSym record, see SymbolRecord.h for more info. Thread local data
5bf71d11SReid Kleckner  // happens to have the same format as global data.
5bf71d11SReid Kleckner  SymbolKind DataSym = GV->isThreadLocal()
5bf71d11SReid Kleckner                           ? (DIGV->isLocalToUnit() ? SymbolKind::S_LTHREAD32
5bf71d11SReid Kleckner                                                    : SymbolKind::S_GTHREAD32)
5bf71d11SReid Kleckner                           : (DIGV->isLocalToUnit() ? SymbolKind::S_LDATA32
5bf71d11SReid Kleckner                                                    : SymbolKind::S_GDATA32);
5bf71d11SReid Kleckner  MCSymbol *DataEnd = beginSymbolRecord(DataSym);
6f3406dfSReid Kleckner  OS.AddComment("Type");
6f3406dfSReid Kleckner  OS.EmitIntValue(getCompleteTypeIndex(DIGV->getType()).getIndex(), 4);
6f3406dfSReid Kleckner  OS.AddComment("DataOffset");
f7d84ee6SKeno Fischer  OS.EmitCOFFSecRel32(GVSym, /*Offset=*/0);
6f3406dfSReid Kleckner  OS.AddComment("Segment");
6f3406dfSReid Kleckner  OS.EmitCOFFSectionIndex(GVSym);
6f3406dfSReid Kleckner  OS.AddComment("Name");
5bf71d11SReid Kleckner  const unsigned LengthOfDataRecord = 12;
5bf71d11SReid Kleckner  emitNullTerminatedSymbolName(OS, DIGV->getName(), LengthOfDataRecord);
5bf71d11SReid Kleckner  endSymbolRecord(DataEnd);
6f3406dfSReid Kleckner}