1fb69e66cSEugene Zelenko //===- llvm/lib/CodeGen/AsmPrinter/CodeViewDebug.cpp ----------------------===// 270f5bc99SReid Kleckner // 32946cd70SChandler Carruth // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 42946cd70SChandler Carruth // See https://llvm.org/LICENSE.txt for license information. 52946cd70SChandler Carruth // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 670f5bc99SReid Kleckner // 770f5bc99SReid Kleckner //===----------------------------------------------------------------------===// 870f5bc99SReid Kleckner // 970f5bc99SReid Kleckner // This file contains support for writing Microsoft CodeView debug info. 1070f5bc99SReid Kleckner // 1170f5bc99SReid Kleckner //===----------------------------------------------------------------------===// 1270f5bc99SReid Kleckner 1370f5bc99SReid Kleckner #include "CodeViewDebug.h" 14032d2381SAdrian Prantl #include "DwarfExpression.h" 15fb69e66cSEugene Zelenko #include "llvm/ADT/APSInt.h" 16fb69e66cSEugene Zelenko #include "llvm/ADT/None.h" 17fb69e66cSEugene Zelenko #include "llvm/ADT/Optional.h" 18b3bde2eaSDavid Blaikie #include "llvm/ADT/STLExtras.h" 19fb69e66cSEugene Zelenko #include "llvm/ADT/SmallString.h" 20fb69e66cSEugene Zelenko #include "llvm/ADT/StringRef.h" 21156a7239SReid Kleckner #include "llvm/ADT/TinyPtrVector.h" 22fb69e66cSEugene Zelenko #include "llvm/ADT/Triple.h" 23fb69e66cSEugene Zelenko #include "llvm/ADT/Twine.h" 24264b5d9eSZachary Turner #include "llvm/BinaryFormat/COFF.h" 25264b5d9eSZachary Turner #include "llvm/BinaryFormat/Dwarf.h" 26fb69e66cSEugene Zelenko #include "llvm/CodeGen/AsmPrinter.h" 27fb69e66cSEugene Zelenko #include "llvm/CodeGen/LexicalScopes.h" 289ea2c012SReid Kleckner #include "llvm/CodeGen/MachineFrameInfo.h" 29fb69e66cSEugene Zelenko #include "llvm/CodeGen/MachineFunction.h" 30fb69e66cSEugene Zelenko #include "llvm/CodeGen/MachineInstr.h" 31fb69e66cSEugene Zelenko #include "llvm/CodeGen/MachineModuleInfo.h" 32fb69e66cSEugene Zelenko #include "llvm/CodeGen/MachineOperand.h" 33b3bde2eaSDavid Blaikie #include "llvm/CodeGen/TargetFrameLowering.h" 34b3bde2eaSDavid Blaikie #include "llvm/CodeGen/TargetRegisterInfo.h" 35b3bde2eaSDavid Blaikie #include "llvm/CodeGen/TargetSubtargetInfo.h" 36fb69e66cSEugene Zelenko #include "llvm/Config/llvm-config.h" 37c92e9469SReid Kleckner #include "llvm/DebugInfo/CodeView/CVTypeVisitor.h" 38c2029068SAmy Huang #include "llvm/DebugInfo/CodeView/CodeViewRecordIO.h" 396900de1dSZachary Turner #include "llvm/DebugInfo/CodeView/ContinuationRecordBuilder.h" 408c099fe0SZachary Turner #include "llvm/DebugInfo/CodeView/DebugInlineeLinesSubsection.h" 415bf71d11SReid Kleckner #include "llvm/DebugInfo/CodeView/EnumTables.h" 422214ed89SReid Kleckner #include "llvm/DebugInfo/CodeView/Line.h" 4370f5bc99SReid Kleckner #include "llvm/DebugInfo/CodeView/SymbolRecord.h" 44629cb7d8SZachary Turner #include "llvm/DebugInfo/CodeView/TypeDumpVisitor.h" 45f3b9ba49SReid Kleckner #include "llvm/DebugInfo/CodeView/TypeRecord.h" 46526f4f2aSZachary Turner #include "llvm/DebugInfo/CodeView/TypeTableCollection.h" 47faed8516SNilanjana Basu #include "llvm/DebugInfo/CodeView/TypeVisitorCallbackPipeline.h" 489319cbc0SDavid Majnemer #include "llvm/IR/Constants.h" 49fb69e66cSEugene Zelenko #include "llvm/IR/DataLayout.h" 50fb69e66cSEugene Zelenko #include "llvm/IR/DebugInfoMetadata.h" 51fb69e66cSEugene Zelenko #include "llvm/IR/Function.h" 52fb69e66cSEugene Zelenko #include "llvm/IR/GlobalValue.h" 53fb69e66cSEugene Zelenko #include "llvm/IR/GlobalVariable.h" 54fb69e66cSEugene Zelenko #include "llvm/IR/Metadata.h" 55fb69e66cSEugene Zelenko #include "llvm/IR/Module.h" 5646cb48c7SReid Kleckner #include "llvm/MC/MCAsmInfo.h" 57fb69e66cSEugene Zelenko #include "llvm/MC/MCContext.h" 585d122f87SReid Kleckner #include "llvm/MC/MCSectionCOFF.h" 59fb69e66cSEugene Zelenko #include "llvm/MC/MCStreamer.h" 6070f5bc99SReid Kleckner #include "llvm/MC/MCSymbol.h" 61264b5d9eSZachary Turner #include "llvm/Support/BinaryByteStream.h" 62264b5d9eSZachary Turner #include "llvm/Support/BinaryStreamReader.h" 63c2029068SAmy Huang #include "llvm/Support/BinaryStreamWriter.h" 64fb69e66cSEugene Zelenko #include "llvm/Support/Casting.h" 65048f8f99SZachary Turner #include "llvm/Support/CommandLine.h" 66fb69e66cSEugene Zelenko #include "llvm/Support/Endian.h" 67fb69e66cSEugene Zelenko #include "llvm/Support/Error.h" 68fb69e66cSEugene Zelenko #include "llvm/Support/ErrorHandling.h" 69048f8f99SZachary Turner #include "llvm/Support/FormatVariadic.h" 705bba1cafSZachary Turner #include "llvm/Support/Path.h" 71aba5b91bSAlexandre Ganea #include "llvm/Support/Program.h" 72fb69e66cSEugene Zelenko #include "llvm/Support/SMLoc.h" 73b3bde2eaSDavid Blaikie #include "llvm/Support/ScopedPrinter.h" 746054e650SDavid Blaikie #include "llvm/Target/TargetLoweringObjectFile.h" 75fb69e66cSEugene Zelenko #include "llvm/Target/TargetMachine.h" 76fb69e66cSEugene Zelenko #include <algorithm> 77fb69e66cSEugene Zelenko #include <cassert> 78fb69e66cSEugene Zelenko #include <cctype> 79fb69e66cSEugene Zelenko #include <cstddef> 80fb69e66cSEugene Zelenko #include <iterator> 81fb69e66cSEugene Zelenko #include <limits> 8270f5bc99SReid Kleckner 83f9c275feSReid Kleckner using namespace llvm; 8470f5bc99SReid Kleckner using namespace llvm::codeview; 8570f5bc99SReid Kleckner 86faed8516SNilanjana Basu namespace { 87faed8516SNilanjana Basu class CVMCAdapter : public CodeViewRecordStreamer { 88faed8516SNilanjana Basu public: 89ac3851c4SNilanjana Basu CVMCAdapter(MCStreamer &OS, TypeCollection &TypeTable) 90ac3851c4SNilanjana Basu : OS(&OS), TypeTable(TypeTable) {} 91faed8516SNilanjana Basu 92a19461d9SLogan Smith void emitBytes(StringRef Data) override { OS->emitBytes(Data); } 93faed8516SNilanjana Basu 94a19461d9SLogan Smith void emitIntValue(uint64_t Value, unsigned Size) override { 9577497103SFangrui Song OS->emitIntValueInHex(Value, Size); 96faed8516SNilanjana Basu } 97faed8516SNilanjana Basu 98a19461d9SLogan Smith void emitBinaryData(StringRef Data) override { OS->emitBinaryData(Data); } 99faed8516SNilanjana Basu 100a19461d9SLogan Smith void AddComment(const Twine &T) override { OS->AddComment(T); } 1016e407669SNilanjana Basu 102a19461d9SLogan Smith void AddRawComment(const Twine &T) override { OS->emitRawComment(T); } 103ac3851c4SNilanjana Basu 104a19461d9SLogan Smith bool isVerboseAsm() override { return OS->isVerboseAsm(); } 105ac3851c4SNilanjana Basu 106a19461d9SLogan Smith std::string getTypeName(TypeIndex TI) override { 107ac3851c4SNilanjana Basu std::string TypeName; 108ac3851c4SNilanjana Basu if (!TI.isNoneType()) { 109ac3851c4SNilanjana Basu if (TI.isSimple()) 110adcd0268SBenjamin Kramer TypeName = std::string(TypeIndex::simpleTypeName(TI)); 111ac3851c4SNilanjana Basu else 112adcd0268SBenjamin Kramer TypeName = std::string(TypeTable.getTypeName(TI)); 113ac3851c4SNilanjana Basu } 114ac3851c4SNilanjana Basu return TypeName; 115ac3851c4SNilanjana Basu } 116ac3851c4SNilanjana Basu 117faed8516SNilanjana Basu private: 118faed8516SNilanjana Basu MCStreamer *OS = nullptr; 119ac3851c4SNilanjana Basu TypeCollection &TypeTable; 120faed8516SNilanjana Basu }; 121faed8516SNilanjana Basu } // namespace 122faed8516SNilanjana Basu 1239ea2c012SReid Kleckner static CPUType mapArchToCVCPUType(Triple::ArchType Type) { 1249ea2c012SReid Kleckner switch (Type) { 1259ea2c012SReid Kleckner case Triple::ArchType::x86: 1269ea2c012SReid Kleckner return CPUType::Pentium3; 1279ea2c012SReid Kleckner case Triple::ArchType::x86_64: 1289ea2c012SReid Kleckner return CPUType::X64; 1299ea2c012SReid Kleckner case Triple::ArchType::thumb: 13051892a42SLuqman Aden // LLVM currently doesn't support Windows CE and so thumb 13151892a42SLuqman Aden // here is indiscriminately mapped to ARMNT specifically. 13251892a42SLuqman Aden return CPUType::ARMNT; 1339ea2c012SReid Kleckner case Triple::ArchType::aarch64: 1349ea2c012SReid Kleckner return CPUType::ARM64; 1359ea2c012SReid Kleckner default: 1369ea2c012SReid Kleckner report_fatal_error("target architecture doesn't map to a CodeView CPUType"); 1379ea2c012SReid Kleckner } 1389ea2c012SReid Kleckner } 1399ea2c012SReid Kleckner 140f9c275feSReid Kleckner CodeViewDebug::CodeViewDebug(AsmPrinter *AP) 141a0ad066cSJameson Nash : DebugHandlerBase(AP), OS(*Asm->OutStreamer), TypeTable(Allocator) {} 14270f5bc99SReid Kleckner 1439533af4fSReid Kleckner StringRef CodeViewDebug::getFullFilepath(const DIFile *File) { 1449533af4fSReid Kleckner std::string &Filepath = FileToFilepathMap[File]; 14570f5bc99SReid Kleckner if (!Filepath.empty()) 14670f5bc99SReid Kleckner return Filepath; 14770f5bc99SReid Kleckner 1489533af4fSReid Kleckner StringRef Dir = File->getDirectory(), Filename = File->getFilename(); 1499533af4fSReid Kleckner 150cb8a666fSPeter Collingbourne // If this is a Unix-style path, just use it as is. Don't try to canonicalize 151cb8a666fSPeter Collingbourne // it textually because one of the path components could be a symlink. 1525bba1cafSZachary Turner if (Dir.startswith("/") || Filename.startswith("/")) { 1535bba1cafSZachary Turner if (llvm::sys::path::is_absolute(Filename, llvm::sys::path::Style::posix)) 1545bba1cafSZachary Turner return Filename; 155adcd0268SBenjamin Kramer Filepath = std::string(Dir); 156cb8a666fSPeter Collingbourne if (Dir.back() != '/') 157cb8a666fSPeter Collingbourne Filepath += '/'; 158cb8a666fSPeter Collingbourne Filepath += Filename; 159cb8a666fSPeter Collingbourne return Filepath; 160cb8a666fSPeter Collingbourne } 161cb8a666fSPeter Collingbourne 16270f5bc99SReid Kleckner // Clang emits directory and relative filename info into the IR, but CodeView 16370f5bc99SReid Kleckner // operates on full paths. We could change Clang to emit full paths too, but 16470f5bc99SReid Kleckner // that would increase the IR size and probably not needed for other users. 16570f5bc99SReid Kleckner // For now, just concatenate and canonicalize the path here. 16670f5bc99SReid Kleckner if (Filename.find(':') == 1) 167adcd0268SBenjamin Kramer Filepath = std::string(Filename); 16870f5bc99SReid Kleckner else 16970f5bc99SReid Kleckner Filepath = (Dir + "\\" + Filename).str(); 17070f5bc99SReid Kleckner 17170f5bc99SReid Kleckner // Canonicalize the path. We have to do it textually because we may no longer 17270f5bc99SReid Kleckner // have access the file in the filesystem. 17370f5bc99SReid Kleckner // First, replace all slashes with backslashes. 17470f5bc99SReid Kleckner std::replace(Filepath.begin(), Filepath.end(), '/', '\\'); 17570f5bc99SReid Kleckner 17670f5bc99SReid Kleckner // Remove all "\.\" with "\". 17770f5bc99SReid Kleckner size_t Cursor = 0; 17870f5bc99SReid Kleckner while ((Cursor = Filepath.find("\\.\\", Cursor)) != std::string::npos) 17970f5bc99SReid Kleckner Filepath.erase(Cursor, 2); 18070f5bc99SReid Kleckner 18170f5bc99SReid Kleckner // Replace all "\XXX\..\" with "\". Don't try too hard though as the original 18270f5bc99SReid Kleckner // path should be well-formatted, e.g. start with a drive letter, etc. 18370f5bc99SReid Kleckner Cursor = 0; 18470f5bc99SReid Kleckner while ((Cursor = Filepath.find("\\..\\", Cursor)) != std::string::npos) { 18570f5bc99SReid Kleckner // Something's wrong if the path starts with "\..\", abort. 18670f5bc99SReid Kleckner if (Cursor == 0) 18770f5bc99SReid Kleckner break; 18870f5bc99SReid Kleckner 18970f5bc99SReid Kleckner size_t PrevSlash = Filepath.rfind('\\', Cursor - 1); 19070f5bc99SReid Kleckner if (PrevSlash == std::string::npos) 19170f5bc99SReid Kleckner // Something's wrong, abort. 19270f5bc99SReid Kleckner break; 19370f5bc99SReid Kleckner 19470f5bc99SReid Kleckner Filepath.erase(PrevSlash, Cursor + 3 - PrevSlash); 19570f5bc99SReid Kleckner // The next ".." might be following the one we've just erased. 19670f5bc99SReid Kleckner Cursor = PrevSlash; 19770f5bc99SReid Kleckner } 19870f5bc99SReid Kleckner 19970f5bc99SReid Kleckner // Remove all duplicate backslashes. 20070f5bc99SReid Kleckner Cursor = 0; 20170f5bc99SReid Kleckner while ((Cursor = Filepath.find("\\\\", Cursor)) != std::string::npos) 20270f5bc99SReid Kleckner Filepath.erase(Cursor, 1); 20370f5bc99SReid Kleckner 20470f5bc99SReid Kleckner return Filepath; 20570f5bc99SReid Kleckner } 20670f5bc99SReid Kleckner 2072214ed89SReid Kleckner unsigned CodeViewDebug::maybeRecordFile(const DIFile *F) { 208bc6f52daSReid Kleckner StringRef FullPath = getFullFilepath(F); 2092214ed89SReid Kleckner unsigned NextId = FileIdMap.size() + 1; 210bc6f52daSReid Kleckner auto Insertion = FileIdMap.insert(std::make_pair(FullPath, NextId)); 2112214ed89SReid Kleckner if (Insertion.second) { 2122214ed89SReid Kleckner // We have to compute the full filepath and emit a .cv_file directive. 2137160384dSScott Linder ArrayRef<uint8_t> ChecksumAsBytes; 2147160384dSScott Linder FileChecksumKind CSKind = FileChecksumKind::None; 2157160384dSScott Linder if (F->getChecksum()) { 2167160384dSScott Linder std::string Checksum = fromHex(F->getChecksum()->Value); 21726fa1bf4SReid Kleckner void *CKMem = OS.getContext().allocate(Checksum.size(), 1); 21826fa1bf4SReid Kleckner memcpy(CKMem, Checksum.data(), Checksum.size()); 2197160384dSScott Linder ChecksumAsBytes = ArrayRef<uint8_t>( 2207160384dSScott Linder reinterpret_cast<const uint8_t *>(CKMem), Checksum.size()); 2217160384dSScott Linder switch (F->getChecksum()->Kind) { 2221478ed69SArlo Siemsen case DIFile::CSK_MD5: 2231478ed69SArlo Siemsen CSKind = FileChecksumKind::MD5; 2241478ed69SArlo Siemsen break; 2251478ed69SArlo Siemsen case DIFile::CSK_SHA1: 2261478ed69SArlo Siemsen CSKind = FileChecksumKind::SHA1; 2271478ed69SArlo Siemsen break; 2281478ed69SArlo Siemsen case DIFile::CSK_SHA256: 2291478ed69SArlo Siemsen CSKind = FileChecksumKind::SHA256; 2301478ed69SArlo Siemsen break; 2317160384dSScott Linder } 2327160384dSScott Linder } 23326fa1bf4SReid Kleckner bool Success = OS.EmitCVFileDirective(NextId, FullPath, ChecksumAsBytes, 2347160384dSScott Linder static_cast<unsigned>(CSKind)); 235a5b1eef8SReid Kleckner (void)Success; 236a5b1eef8SReid Kleckner assert(Success && ".cv_file directive failed"); 2372214ed89SReid Kleckner } 2382214ed89SReid Kleckner return Insertion.first->second; 2392214ed89SReid Kleckner } 2402214ed89SReid Kleckner 241876330d5SReid Kleckner CodeViewDebug::InlineSite & 242876330d5SReid Kleckner CodeViewDebug::getInlineSite(const DILocation *InlinedAt, 243876330d5SReid Kleckner const DISubprogram *Inlinee) { 244fbd7787dSReid Kleckner auto SiteInsertion = CurFn->InlineSites.insert({InlinedAt, InlineSite()}); 245fbd7787dSReid Kleckner InlineSite *Site = &SiteInsertion.first->second; 246fbd7787dSReid Kleckner if (SiteInsertion.second) { 247a9f4cc95SReid Kleckner unsigned ParentFuncId = CurFn->FuncId; 248a9f4cc95SReid Kleckner if (const DILocation *OuterIA = InlinedAt->getInlinedAt()) 249a9f4cc95SReid Kleckner ParentFuncId = 250a9f4cc95SReid Kleckner getInlineSite(OuterIA, InlinedAt->getScope()->getSubprogram()) 251a9f4cc95SReid Kleckner .SiteFuncId; 252a9f4cc95SReid Kleckner 253f9c275feSReid Kleckner Site->SiteFuncId = NextFuncId++; 254a9f4cc95SReid Kleckner OS.EmitCVInlineSiteIdDirective( 255a9f4cc95SReid Kleckner Site->SiteFuncId, ParentFuncId, maybeRecordFile(InlinedAt->getFile()), 256a9f4cc95SReid Kleckner InlinedAt->getLine(), InlinedAt->getColumn(), SMLoc()); 257876330d5SReid Kleckner Site->Inlinee = Inlinee; 2582280f932SReid Kleckner InlinedSubprograms.insert(Inlinee); 25975c3ebfaSDavid Majnemer getFuncIdForSubprogram(Inlinee); 260f3b9ba49SReid Kleckner } 261f9c275feSReid Kleckner return *Site; 262f3b9ba49SReid Kleckner } 263f3b9ba49SReid Kleckner 2646bdc24e7SDavid Majnemer static StringRef getPrettyScopeName(const DIScope *Scope) { 2656bdc24e7SDavid Majnemer StringRef ScopeName = Scope->getName(); 2666bdc24e7SDavid Majnemer if (!ScopeName.empty()) 2676bdc24e7SDavid Majnemer return ScopeName; 2686bdc24e7SDavid Majnemer 2696bdc24e7SDavid Majnemer switch (Scope->getTag()) { 2706bdc24e7SDavid Majnemer case dwarf::DW_TAG_enumeration_type: 2716bdc24e7SDavid Majnemer case dwarf::DW_TAG_class_type: 2726bdc24e7SDavid Majnemer case dwarf::DW_TAG_structure_type: 2736bdc24e7SDavid Majnemer case dwarf::DW_TAG_union_type: 2746bdc24e7SDavid Majnemer return "<unnamed-tag>"; 2756bdc24e7SDavid Majnemer case dwarf::DW_TAG_namespace: 2766bdc24e7SDavid Majnemer return "`anonymous namespace'"; 27761484762SChen Zheng default: 2786bdc24e7SDavid Majnemer return StringRef(); 2796bdc24e7SDavid Majnemer } 28061484762SChen Zheng } 2816bdc24e7SDavid Majnemer 2822b8c6accSAmy Huang const DISubprogram *CodeViewDebug::collectParentScopeNames( 2830c5d874bSReid Kleckner const DIScope *Scope, SmallVectorImpl<StringRef> &QualifiedNameComponents) { 2840c5d874bSReid Kleckner const DISubprogram *ClosestSubprogram = nullptr; 2850c5d874bSReid Kleckner while (Scope != nullptr) { 2860c5d874bSReid Kleckner if (ClosestSubprogram == nullptr) 2870c5d874bSReid Kleckner ClosestSubprogram = dyn_cast<DISubprogram>(Scope); 2882b8c6accSAmy Huang 2892b8c6accSAmy Huang // If a type appears in a scope chain, make sure it gets emitted. The 2902b8c6accSAmy Huang // frontend will be responsible for deciding if this should be a forward 2912b8c6accSAmy Huang // declaration or a complete type. 2922b8c6accSAmy Huang if (const auto *Ty = dyn_cast<DICompositeType>(Scope)) 2932b8c6accSAmy Huang DeferredCompleteTypes.push_back(Ty); 2942b8c6accSAmy Huang 2956bdc24e7SDavid Majnemer StringRef ScopeName = getPrettyScopeName(Scope); 2960c5d874bSReid Kleckner if (!ScopeName.empty()) 2970c5d874bSReid Kleckner QualifiedNameComponents.push_back(ScopeName); 298da82ce99SFangrui Song Scope = Scope->getScope(); 2990c5d874bSReid Kleckner } 3000c5d874bSReid Kleckner return ClosestSubprogram; 3010c5d874bSReid Kleckner } 3020c5d874bSReid Kleckner 3032b8c6accSAmy Huang static std::string formatNestedName(ArrayRef<StringRef> QualifiedNameComponents, 3040c5d874bSReid Kleckner StringRef TypeName) { 3050c5d874bSReid Kleckner std::string FullyQualifiedName; 306fb69e66cSEugene Zelenko for (StringRef QualifiedNameComponent : 307fb69e66cSEugene Zelenko llvm::reverse(QualifiedNameComponents)) { 308adcd0268SBenjamin Kramer FullyQualifiedName.append(std::string(QualifiedNameComponent)); 3090c5d874bSReid Kleckner FullyQualifiedName.append("::"); 3100c5d874bSReid Kleckner } 311adcd0268SBenjamin Kramer FullyQualifiedName.append(std::string(TypeName)); 3120c5d874bSReid Kleckner return FullyQualifiedName; 3130c5d874bSReid Kleckner } 3140c5d874bSReid Kleckner 315b5af11dfSReid Kleckner struct CodeViewDebug::TypeLoweringScope { 316b5af11dfSReid Kleckner TypeLoweringScope(CodeViewDebug &CVD) : CVD(CVD) { ++CVD.TypeEmissionLevel; } 317b5af11dfSReid Kleckner ~TypeLoweringScope() { 318b5af11dfSReid Kleckner // Don't decrement TypeEmissionLevel until after emitting deferred types, so 319b5af11dfSReid Kleckner // inner TypeLoweringScopes don't attempt to emit deferred types. 320b5af11dfSReid Kleckner if (CVD.TypeEmissionLevel == 1) 321b5af11dfSReid Kleckner CVD.emitDeferredCompleteTypes(); 322b5af11dfSReid Kleckner --CVD.TypeEmissionLevel; 323b5af11dfSReid Kleckner } 324b5af11dfSReid Kleckner CodeViewDebug &CVD; 325b5af11dfSReid Kleckner }; 326b5af11dfSReid Kleckner 32747cc6db9SReid Kleckner std::string CodeViewDebug::getFullyQualifiedName(const DIScope *Scope, 32847cc6db9SReid Kleckner StringRef Name) { 32947cc6db9SReid Kleckner // Ensure types in the scope chain are emitted as soon as possible. 33047cc6db9SReid Kleckner // This can create otherwise a situation where S_UDTs are emitted while 33147cc6db9SReid Kleckner // looping in emitDebugInfoForUDTs. 33247cc6db9SReid Kleckner TypeLoweringScope S(*this); 33347cc6db9SReid Kleckner SmallVector<StringRef, 5> QualifiedNameComponents; 33447cc6db9SReid Kleckner collectParentScopeNames(Scope, QualifiedNameComponents); 33547cc6db9SReid Kleckner return formatNestedName(QualifiedNameComponents, Name); 33647cc6db9SReid Kleckner } 33747cc6db9SReid Kleckner 33847cc6db9SReid Kleckner std::string CodeViewDebug::getFullyQualifiedName(const DIScope *Ty) { 33947cc6db9SReid Kleckner const DIScope *Scope = Ty->getScope(); 34047cc6db9SReid Kleckner return getFullyQualifiedName(Scope, getPrettyScopeName(Ty)); 34147cc6db9SReid Kleckner } 34247cc6db9SReid Kleckner 3430c5d874bSReid Kleckner TypeIndex CodeViewDebug::getScopeIndex(const DIScope *Scope) { 3440c5d874bSReid Kleckner // No scope means global scope and that uses the zero index. 345cf0e32d1SChih-Ping Chen // 346cf0e32d1SChih-Ping Chen // We also use zero index when the scope is a DISubprogram 347cf0e32d1SChih-Ping Chen // to suppress the emission of LF_STRING_ID for the function, 348cf0e32d1SChih-Ping Chen // which can trigger a link-time error with the linker in 349cf0e32d1SChih-Ping Chen // VS2019 version 16.11.2 or newer. 350cf0e32d1SChih-Ping Chen // Note, however, skipping the debug info emission for the DISubprogram 351cf0e32d1SChih-Ping Chen // is a temporary fix. The root issue here is that we need to figure out 352cf0e32d1SChih-Ping Chen // the proper way to encode a function nested in another function 353cf0e32d1SChih-Ping Chen // (as introduced by the Fortran 'contains' keyword) in CodeView. 354cf0e32d1SChih-Ping Chen if (!Scope || isa<DIFile>(Scope) || isa<DISubprogram>(Scope)) 3550c5d874bSReid Kleckner return TypeIndex(); 3560c5d874bSReid Kleckner 3570c5d874bSReid Kleckner assert(!isa<DIType>(Scope) && "shouldn't make a namespace scope for a type"); 3580c5d874bSReid Kleckner 3590c5d874bSReid Kleckner // Check if we've already translated this scope. 3600c5d874bSReid Kleckner auto I = TypeIndices.find({Scope, nullptr}); 3610c5d874bSReid Kleckner if (I != TypeIndices.end()) 3620c5d874bSReid Kleckner return I->second; 3630c5d874bSReid Kleckner 3640c5d874bSReid Kleckner // Build the fully qualified name of the scope. 3656bdc24e7SDavid Majnemer std::string ScopeName = getFullyQualifiedName(Scope); 3664efa0a42SZachary Turner StringIdRecord SID(TypeIndex(), ScopeName); 3676900de1dSZachary Turner auto TI = TypeTable.writeLeafType(SID); 3680c5d874bSReid Kleckner return recordTypeIndexForDINode(Scope, TI); 3690c5d874bSReid Kleckner } 3700c5d874bSReid Kleckner 371a740af4dSAmy Huang static StringRef removeTemplateArgs(StringRef Name) { 372a740af4dSAmy Huang // Remove template args from the display name. Assume that the template args 373a740af4dSAmy Huang // are the last thing in the name. 374a740af4dSAmy Huang if (Name.empty() || Name.back() != '>') 375a740af4dSAmy Huang return Name; 376a740af4dSAmy Huang 377a740af4dSAmy Huang int OpenBrackets = 0; 37834f3249aSAmy Huang for (int i = Name.size() - 1; i >= 0; --i) { 379a740af4dSAmy Huang if (Name[i] == '>') 380a740af4dSAmy Huang ++OpenBrackets; 381a740af4dSAmy Huang else if (Name[i] == '<') { 382a740af4dSAmy Huang --OpenBrackets; 383a740af4dSAmy Huang if (OpenBrackets == 0) 384a740af4dSAmy Huang return Name.substr(0, i); 385a740af4dSAmy Huang } 386a740af4dSAmy Huang } 387a740af4dSAmy Huang return Name; 388a740af4dSAmy Huang } 389a740af4dSAmy Huang 39075c3ebfaSDavid Majnemer TypeIndex CodeViewDebug::getFuncIdForSubprogram(const DISubprogram *SP) { 39167f684e1SDavid Majnemer assert(SP); 3922280f932SReid Kleckner 39375c3ebfaSDavid Majnemer // Check if we've already translated this subprogram. 39476c9eb99SAmjad Aboud auto I = TypeIndices.find({SP, nullptr}); 39575c3ebfaSDavid Majnemer if (I != TypeIndices.end()) 39675c3ebfaSDavid Majnemer return I->second; 3972280f932SReid Kleckner 398ac945e27SReid Kleckner // The display name includes function template arguments. Drop them to match 399a740af4dSAmy Huang // MSVC. We need to have the template arguments in the DISubprogram name 400a740af4dSAmy Huang // because they are used in other symbol records, such as S_GPROC32_IDs. 401a740af4dSAmy Huang StringRef DisplayName = removeTemplateArgs(SP->getName()); 40275c3ebfaSDavid Majnemer 403da82ce99SFangrui Song const DIScope *Scope = SP->getScope(); 4040c5d874bSReid Kleckner TypeIndex TI; 4050c5d874bSReid Kleckner if (const auto *Class = dyn_cast_or_null<DICompositeType>(Scope)) { 4060c5d874bSReid Kleckner // If the scope is a DICompositeType, then this must be a method. Member 4070c5d874bSReid Kleckner // function types take some special handling, and require access to the 4080c5d874bSReid Kleckner // subprogram. 4090c5d874bSReid Kleckner TypeIndex ClassType = getTypeIndex(Class); 4100c5d874bSReid Kleckner MemberFuncIdRecord MFuncId(ClassType, getMemberFunctionType(SP, Class), 4110c5d874bSReid Kleckner DisplayName); 4126900de1dSZachary Turner TI = TypeTable.writeLeafType(MFuncId); 4130c5d874bSReid Kleckner } else { 4140c5d874bSReid Kleckner // Otherwise, this must be a free function. 4150c5d874bSReid Kleckner TypeIndex ParentScope = getScopeIndex(Scope); 4160c5d874bSReid Kleckner FuncIdRecord FuncId(ParentScope, getTypeIndex(SP->getType()), DisplayName); 4176900de1dSZachary Turner TI = TypeTable.writeLeafType(FuncId); 4182280f932SReid Kleckner } 4192280f932SReid Kleckner 4200c5d874bSReid Kleckner return recordTypeIndexForDINode(SP, TI); 4210c5d874bSReid Kleckner } 4220c5d874bSReid Kleckner 4231d5f8632SAaron Smith static bool isNonTrivial(const DICompositeType *DCTy) { 4241d5f8632SAaron Smith return ((DCTy->getFlags() & DINode::FlagNonTrivial) == DINode::FlagNonTrivial); 425802b033dSAaron Smith } 426802b033dSAaron Smith 427802b033dSAaron Smith static FunctionOptions 428802b033dSAaron Smith getFunctionOptions(const DISubroutineType *Ty, 429802b033dSAaron Smith const DICompositeType *ClassTy = nullptr, 430802b033dSAaron Smith StringRef SPName = StringRef("")) { 431802b033dSAaron Smith FunctionOptions FO = FunctionOptions::None; 432802b033dSAaron Smith const DIType *ReturnTy = nullptr; 433802b033dSAaron Smith if (auto TypeArray = Ty->getTypeArray()) { 434802b033dSAaron Smith if (TypeArray.size()) 435da82ce99SFangrui Song ReturnTy = TypeArray[0]; 436802b033dSAaron Smith } 437802b033dSAaron Smith 4385b3b21f0SAmy Huang // Add CxxReturnUdt option to functions that return nontrivial record types 4395b3b21f0SAmy Huang // or methods that return record types. 4405b3b21f0SAmy Huang if (auto *ReturnDCTy = dyn_cast_or_null<DICompositeType>(ReturnTy)) 4415b3b21f0SAmy Huang if (isNonTrivial(ReturnDCTy) || ClassTy) 442802b033dSAaron Smith FO |= FunctionOptions::CxxReturnUdt; 443802b033dSAaron Smith 444802b033dSAaron Smith // DISubroutineType is unnamed. Use DISubprogram's i.e. SPName in comparison. 4451d5f8632SAaron Smith if (ClassTy && isNonTrivial(ClassTy) && SPName == ClassTy->getName()) { 446802b033dSAaron Smith FO |= FunctionOptions::Constructor; 447802b033dSAaron Smith 448802b033dSAaron Smith // TODO: put the FunctionOptions::ConstructorWithVirtualBases flag. 449802b033dSAaron Smith 450802b033dSAaron Smith } 451802b033dSAaron Smith return FO; 452802b033dSAaron Smith } 453802b033dSAaron Smith 4540c5d874bSReid Kleckner TypeIndex CodeViewDebug::getMemberFunctionType(const DISubprogram *SP, 4550c5d874bSReid Kleckner const DICompositeType *Class) { 456b5af11dfSReid Kleckner // Always use the method declaration as the key for the function type. The 457b5af11dfSReid Kleckner // method declaration contains the this adjustment. 458b5af11dfSReid Kleckner if (SP->getDeclaration()) 459b5af11dfSReid Kleckner SP = SP->getDeclaration(); 460b5af11dfSReid Kleckner assert(!SP->getDeclaration() && "should use declaration as key"); 461b5af11dfSReid Kleckner 4620c5d874bSReid Kleckner // Key the MemberFunctionRecord into the map as {SP, Class}. It won't collide 4630c5d874bSReid Kleckner // with the MemberFuncIdRecord, which is keyed in as {SP, nullptr}. 464b5af11dfSReid Kleckner auto I = TypeIndices.find({SP, Class}); 4650c5d874bSReid Kleckner if (I != TypeIndices.end()) 4660c5d874bSReid Kleckner return I->second; 4670c5d874bSReid Kleckner 468b5af11dfSReid Kleckner // Make sure complete type info for the class is emitted *after* the member 469b5af11dfSReid Kleckner // function type, as the complete class type is likely to reference this 470b5af11dfSReid Kleckner // member function type. 471b5af11dfSReid Kleckner TypeLoweringScope S(*this); 472d91bf399SAdrian McCarthy const bool IsStaticMethod = (SP->getFlags() & DINode::FlagStaticMember) != 0; 473802b033dSAaron Smith 474802b033dSAaron Smith FunctionOptions FO = getFunctionOptions(SP->getType(), Class, SP->getName()); 475d91bf399SAdrian McCarthy TypeIndex TI = lowerTypeMemberFunction( 476802b033dSAaron Smith SP->getType(), Class, SP->getThisAdjustment(), IsStaticMethod, FO); 4770c5d874bSReid Kleckner return recordTypeIndexForDINode(SP, TI, Class); 4780c5d874bSReid Kleckner } 4790c5d874bSReid Kleckner 480acee5685SAmjad Aboud TypeIndex CodeViewDebug::recordTypeIndexForDINode(const DINode *Node, 481acee5685SAmjad Aboud TypeIndex TI, 48276c9eb99SAmjad Aboud const DIType *ClassTy) { 48376c9eb99SAmjad Aboud auto InsertResult = TypeIndices.insert({{Node, ClassTy}, TI}); 484a8d57407SReid Kleckner (void)InsertResult; 485a8d57407SReid Kleckner assert(InsertResult.second && "DINode was already assigned a type index"); 4860c5d874bSReid Kleckner return TI; 487a8d57407SReid Kleckner } 488a8d57407SReid Kleckner 48976c9eb99SAmjad Aboud unsigned CodeViewDebug::getPointerSizeInBytes() { 49076c9eb99SAmjad Aboud return MMI->getModule()->getDataLayout().getPointerSizeInBits() / 8; 49176c9eb99SAmjad Aboud } 49276c9eb99SAmjad Aboud 493876330d5SReid Kleckner void CodeViewDebug::recordLocalVariable(LocalVariable &&Var, 4945a791ee4SReid Kleckner const LexicalScope *LS) { 4955a791ee4SReid Kleckner if (const DILocation *InlinedAt = LS->getInlinedAt()) { 496876330d5SReid Kleckner // This variable was inlined. Associate it with the InlineSite. 497876330d5SReid Kleckner const DISubprogram *Inlinee = Var.DIVar->getScope()->getSubprogram(); 498876330d5SReid Kleckner InlineSite &Site = getInlineSite(InlinedAt, Inlinee); 499876330d5SReid Kleckner Site.InlinedLocals.emplace_back(Var); 500876330d5SReid Kleckner } else { 5015a791ee4SReid Kleckner // This variable goes into the corresponding lexical scope. 5025a791ee4SReid Kleckner ScopeVariables[LS].emplace_back(Var); 503876330d5SReid Kleckner } 504876330d5SReid Kleckner } 505876330d5SReid Kleckner 506829365aeSReid Kleckner static void addLocIfNotPresent(SmallVectorImpl<const DILocation *> &Locs, 507829365aeSReid Kleckner const DILocation *Loc) { 50860434989SKazu Hirata if (!llvm::is_contained(Locs, Loc)) 509829365aeSReid Kleckner Locs.push_back(Loc); 510829365aeSReid Kleckner } 511829365aeSReid Kleckner 512bdc4956bSBenjamin Kramer void CodeViewDebug::maybeRecordLocation(const DebugLoc &DL, 51370f5bc99SReid Kleckner const MachineFunction *MF) { 5149533af4fSReid Kleckner // Skip this instruction if it has the same location as the previous one. 51545a74620SReid Kleckner if (!DL || DL == PrevInstLoc) 5169533af4fSReid Kleckner return; 5179533af4fSReid Kleckner 5189533af4fSReid Kleckner const DIScope *Scope = DL.get()->getScope(); 51970f5bc99SReid Kleckner if (!Scope) 52070f5bc99SReid Kleckner return; 5219533af4fSReid Kleckner 52270f5bc99SReid Kleckner // Skip this line if it is longer than the maximum we can record. 5232214ed89SReid Kleckner LineInfo LI(DL.getLine(), DL.getLine(), /*IsStatement=*/true); 5242214ed89SReid Kleckner if (LI.getStartLine() != DL.getLine() || LI.isAlwaysStepInto() || 5252214ed89SReid Kleckner LI.isNeverStepInto()) 52670f5bc99SReid Kleckner return; 52770f5bc99SReid Kleckner 5282214ed89SReid Kleckner ColumnInfo CI(DL.getCol(), /*EndColumn=*/0); 5292214ed89SReid Kleckner if (CI.getStartColumn() != DL.getCol()) 5302214ed89SReid Kleckner return; 53100d9639cSReid Kleckner 5322214ed89SReid Kleckner if (!CurFn->HaveLineInfo) 5332214ed89SReid Kleckner CurFn->HaveLineInfo = true; 5342214ed89SReid Kleckner unsigned FileId = 0; 53545a74620SReid Kleckner if (PrevInstLoc.get() && PrevInstLoc->getFile() == DL->getFile()) 5362214ed89SReid Kleckner FileId = CurFn->LastFileId; 5372214ed89SReid Kleckner else 5382214ed89SReid Kleckner FileId = CurFn->LastFileId = maybeRecordFile(DL->getFile()); 53945a74620SReid Kleckner PrevInstLoc = DL; 540f3b9ba49SReid Kleckner 541f3b9ba49SReid Kleckner unsigned FuncId = CurFn->FuncId; 542876330d5SReid Kleckner if (const DILocation *SiteLoc = DL->getInlinedAt()) { 543829365aeSReid Kleckner const DILocation *Loc = DL.get(); 544829365aeSReid Kleckner 545f3b9ba49SReid Kleckner // If this location was actually inlined from somewhere else, give it the ID 546f3b9ba49SReid Kleckner // of the inline call site. 547876330d5SReid Kleckner FuncId = 548876330d5SReid Kleckner getInlineSite(SiteLoc, Loc->getScope()->getSubprogram()).SiteFuncId; 549829365aeSReid Kleckner 550f3b9ba49SReid Kleckner // Ensure we have links in the tree of inline call sites. 551829365aeSReid Kleckner bool FirstLoc = true; 552829365aeSReid Kleckner while ((SiteLoc = Loc->getInlinedAt())) { 553876330d5SReid Kleckner InlineSite &Site = 554876330d5SReid Kleckner getInlineSite(SiteLoc, Loc->getScope()->getSubprogram()); 555829365aeSReid Kleckner if (!FirstLoc) 556829365aeSReid Kleckner addLocIfNotPresent(Site.ChildSites, Loc); 557829365aeSReid Kleckner FirstLoc = false; 558829365aeSReid Kleckner Loc = SiteLoc; 559f3b9ba49SReid Kleckner } 560829365aeSReid Kleckner addLocIfNotPresent(CurFn->ChildSites, Loc); 561f3b9ba49SReid Kleckner } 562f3b9ba49SReid Kleckner 563c031378cSShengchen Kan OS.emitCVLocDirective(FuncId, FileId, DL.getLine(), DL.getCol(), 564a9f4cc95SReid Kleckner /*PrologueEnd=*/false, /*IsStmt=*/false, 565a9f4cc95SReid Kleckner DL->getFilename(), SMLoc()); 56670f5bc99SReid Kleckner } 56770f5bc99SReid Kleckner 5685d122f87SReid Kleckner void CodeViewDebug::emitCodeViewMagicVersion() { 5696d2d589bSFangrui Song OS.emitValueToAlignment(4); 5705d122f87SReid Kleckner OS.AddComment("Debug section magic"); 571692e0c96SFangrui Song OS.emitInt32(COFF::DEBUG_SECTION_MAGIC); 5725d122f87SReid Kleckner } 5735d122f87SReid Kleckner 5742ed29d87SChih-Ping Chen static SourceLanguage MapDWLangToCVLang(unsigned DWLang) { 5752ed29d87SChih-Ping Chen switch (DWLang) { 5762ed29d87SChih-Ping Chen case dwarf::DW_LANG_C: 5772ed29d87SChih-Ping Chen case dwarf::DW_LANG_C89: 5782ed29d87SChih-Ping Chen case dwarf::DW_LANG_C99: 5792ed29d87SChih-Ping Chen case dwarf::DW_LANG_C11: 5802ed29d87SChih-Ping Chen case dwarf::DW_LANG_ObjC: 5812ed29d87SChih-Ping Chen return SourceLanguage::C; 5822ed29d87SChih-Ping Chen case dwarf::DW_LANG_C_plus_plus: 5832ed29d87SChih-Ping Chen case dwarf::DW_LANG_C_plus_plus_03: 5842ed29d87SChih-Ping Chen case dwarf::DW_LANG_C_plus_plus_11: 5852ed29d87SChih-Ping Chen case dwarf::DW_LANG_C_plus_plus_14: 5862ed29d87SChih-Ping Chen return SourceLanguage::Cpp; 5872ed29d87SChih-Ping Chen case dwarf::DW_LANG_Fortran77: 5882ed29d87SChih-Ping Chen case dwarf::DW_LANG_Fortran90: 5892ed29d87SChih-Ping Chen case dwarf::DW_LANG_Fortran95: 5902ed29d87SChih-Ping Chen case dwarf::DW_LANG_Fortran03: 5912ed29d87SChih-Ping Chen case dwarf::DW_LANG_Fortran08: 5922ed29d87SChih-Ping Chen return SourceLanguage::Fortran; 5932ed29d87SChih-Ping Chen case dwarf::DW_LANG_Pascal83: 5942ed29d87SChih-Ping Chen return SourceLanguage::Pascal; 5952ed29d87SChih-Ping Chen case dwarf::DW_LANG_Cobol74: 5962ed29d87SChih-Ping Chen case dwarf::DW_LANG_Cobol85: 5972ed29d87SChih-Ping Chen return SourceLanguage::Cobol; 5982ed29d87SChih-Ping Chen case dwarf::DW_LANG_Java: 5992ed29d87SChih-Ping Chen return SourceLanguage::Java; 6002ed29d87SChih-Ping Chen case dwarf::DW_LANG_D: 6012ed29d87SChih-Ping Chen return SourceLanguage::D; 6022ed29d87SChih-Ping Chen case dwarf::DW_LANG_Swift: 6032ed29d87SChih-Ping Chen return SourceLanguage::Swift; 6043d10997eSArlo Siemsen case dwarf::DW_LANG_Rust: 6053d10997eSArlo Siemsen return SourceLanguage::Rust; 6062ed29d87SChih-Ping Chen default: 6072ed29d87SChih-Ping Chen // There's no CodeView representation for this language, and CV doesn't 6082ed29d87SChih-Ping Chen // have an "unknown" option for the language field, so we'll use MASM, 6092ed29d87SChih-Ping Chen // as it's very low level. 6102ed29d87SChih-Ping Chen return SourceLanguage::Masm; 6112ed29d87SChih-Ping Chen } 6122ed29d87SChih-Ping Chen } 6132ed29d87SChih-Ping Chen 614a0ad066cSJameson Nash void CodeViewDebug::beginModule(Module *M) { 615a0ad066cSJameson Nash // If module doesn't have named metadata anchors or COFF debug section 616a0ad066cSJameson Nash // is not available, skip any debug info related stuff. 617b5c42ef3SChih-Ping Chen NamedMDNode *CUs = M->getNamedMetadata("llvm.dbg.cu"); 618b5c42ef3SChih-Ping Chen if (!CUs || !Asm->getObjFileLowering().getCOFFDebugSymbolsSection()) { 619a0ad066cSJameson Nash Asm = nullptr; 620a0ad066cSJameson Nash return; 621a0ad066cSJameson Nash } 622a0ad066cSJameson Nash // Tell MMI that we have and need debug info. 623a0ad066cSJameson Nash MMI->setDebugInfoAvailability(true); 624a0ad066cSJameson Nash 625a0ad066cSJameson Nash TheCPU = mapArchToCVCPUType(Triple(M->getTargetTriple()).getArch()); 626a0ad066cSJameson Nash 6272ed29d87SChih-Ping Chen // Get the current source language. 6282ed29d87SChih-Ping Chen const MDNode *Node = *CUs->operands().begin(); 6292ed29d87SChih-Ping Chen const auto *CU = cast<DICompileUnit>(Node); 6302ed29d87SChih-Ping Chen 6312ed29d87SChih-Ping Chen CurrentSourceLanguage = MapDWLangToCVLang(CU->getSourceLanguage()); 6322ed29d87SChih-Ping Chen 633a0ad066cSJameson Nash collectGlobalVariableInfo(); 634a0ad066cSJameson Nash 635a0ad066cSJameson Nash // Check if we should emit type record hashes. 636a0ad066cSJameson Nash ConstantInt *GH = 637a0ad066cSJameson Nash mdconst::extract_or_null<ConstantInt>(M->getModuleFlag("CodeViewGHash")); 638a0ad066cSJameson Nash EmitDebugGlobalHashes = GH && !GH->isZero(); 639a0ad066cSJameson Nash } 640a0ad066cSJameson Nash 64170f5bc99SReid Kleckner void CodeViewDebug::endModule() { 6426f3406dfSReid Kleckner if (!Asm || !MMI->hasDebugInfo()) 64370f5bc99SReid Kleckner return; 64470f5bc99SReid Kleckner 64570f5bc99SReid Kleckner // The COFF .debug$S section consists of several subsections, each starting 64670f5bc99SReid Kleckner // with a 4-byte control code (e.g. 0xF1, 0xF2, etc) and then a 4-byte length 64770f5bc99SReid Kleckner // of the payload followed by the payload itself. The subsections are 4-byte 64870f5bc99SReid Kleckner // aligned. 64970f5bc99SReid Kleckner 6506f3406dfSReid Kleckner // Use the generic .debug$S section, and make a subsection for all the inlined 6516f3406dfSReid Kleckner // subprograms. 6526f3406dfSReid Kleckner switchToDebugSectionForSymbol(nullptr); 6534333daabSAdrian McCarthy 6548c099fe0SZachary Turner MCSymbol *CompilerInfo = beginCVSubsection(DebugSubsectionKind::Symbols); 655a282ea48SAlexandre Ganea emitObjName(); 6564333daabSAdrian McCarthy emitCompilerInformation(); 6574333daabSAdrian McCarthy endCVSubsection(CompilerInfo); 6584333daabSAdrian McCarthy 6595d122f87SReid Kleckner emitInlineeLinesSubsection(); 6601fcd610cSReid Kleckner 6612214ed89SReid Kleckner // Emit per-function debug information. 6622214ed89SReid Kleckner for (auto &P : FnDebugInfo) 663577be0feSDavid Majnemer if (!P.first->isDeclarationForLinker()) 66455baeefdSReid Kleckner emitDebugInfoForFunction(P.first, *P.second); 66570f5bc99SReid Kleckner 6667669f3c0SAmy Huang // Get types used by globals without emitting anything. 6677669f3c0SAmy Huang // This is meant to collect all static const data members so they can be 6687669f3c0SAmy Huang // emitted as globals. 6697669f3c0SAmy Huang collectDebugInfoForGlobals(); 67051597322SAmy Huang 67150461535SAmy Huang // Emit retained types. 67250461535SAmy Huang emitDebugInfoForRetainedTypes(); 67350461535SAmy Huang 6747669f3c0SAmy Huang // Emit global variable debug information. 6757669f3c0SAmy Huang setCurrentSubprogram(nullptr); 6767669f3c0SAmy Huang emitDebugInfoForGlobals(); 6777669f3c0SAmy Huang 6785d122f87SReid Kleckner // Switch back to the generic .debug$S section after potentially processing 6795d122f87SReid Kleckner // comdat symbol sections. 6805d122f87SReid Kleckner switchToDebugSectionForSymbol(nullptr); 6815d122f87SReid Kleckner 6823128b10cSDavid Majnemer // Emit UDT records for any types used by global variables. 6833128b10cSDavid Majnemer if (!GlobalUDTs.empty()) { 6848c099fe0SZachary Turner MCSymbol *SymbolsEnd = beginCVSubsection(DebugSubsectionKind::Symbols); 6853128b10cSDavid Majnemer emitDebugInfoForUDTs(GlobalUDTs); 6863128b10cSDavid Majnemer endCVSubsection(SymbolsEnd); 6873128b10cSDavid Majnemer } 6883128b10cSDavid Majnemer 68970f5bc99SReid Kleckner // This subsection holds a file index to offset in string table table. 690dac21b43SReid Kleckner OS.AddComment("File index to string table offset subsection"); 691c031378cSShengchen Kan OS.emitCVFileChecksumsDirective(); 69270f5bc99SReid Kleckner 69370f5bc99SReid Kleckner // This subsection holds the string table. 694dac21b43SReid Kleckner OS.AddComment("String table"); 695c031378cSShengchen Kan OS.emitCVStringTableDirective(); 69670f5bc99SReid Kleckner 697810687cbSReid Kleckner // Emit S_BUILDINFO, which points to LF_BUILDINFO. Put this in its own symbol 698810687cbSReid Kleckner // subsection in the generic .debug$S section at the end. There is no 699810687cbSReid Kleckner // particular reason for this ordering other than to match MSVC. 700810687cbSReid Kleckner emitBuildInfo(); 701810687cbSReid Kleckner 702048f8f99SZachary Turner // Emit type information and hashes last, so that any types we translate while 703048f8f99SZachary Turner // emitting function info are included. 7045acacbb0SReid Kleckner emitTypeInformation(); 7055acacbb0SReid Kleckner 706048f8f99SZachary Turner if (EmitDebugGlobalHashes) 707048f8f99SZachary Turner emitTypeGlobalHashes(); 708048f8f99SZachary Turner 70970f5bc99SReid Kleckner clear(); 71070f5bc99SReid Kleckner } 71170f5bc99SReid Kleckner 7128b7a0baaSNilanjana Basu static void 7138b7a0baaSNilanjana Basu emitNullTerminatedSymbolName(MCStreamer &OS, StringRef S, 71419e17b39SBrock Wyma unsigned MaxFixedRecordLength = 0xF00) { 715bb96df60SReid Kleckner // The maximum CV record length is 0xFF00. Most of the strings we emit appear 716bb96df60SReid Kleckner // after a fixed length portion of the record. The fixed length portion should 717bb96df60SReid Kleckner // always be less than 0xF00 (3840) bytes, so truncate the string so that the 718bb96df60SReid Kleckner // overall record size is less than the maximum allowed. 719bb96df60SReid Kleckner SmallString<32> NullTerminatedString( 720bb96df60SReid Kleckner S.take_front(MaxRecordLength - MaxFixedRecordLength - 1)); 721b9456a5eSDavid Majnemer NullTerminatedString.push_back('\0'); 722a55daa14SFangrui Song OS.emitBytes(NullTerminatedString); 723b9456a5eSDavid Majnemer } 724b9456a5eSDavid Majnemer 725f3b9ba49SReid Kleckner void CodeViewDebug::emitTypeInformation() { 7262280f932SReid Kleckner if (TypeTable.empty()) 727fbd7787dSReid Kleckner return; 728fbd7787dSReid Kleckner 729d9e96741SAlexandre Ganea // Start the .debug$T or .debug$P section with 0x4. 730dac21b43SReid Kleckner OS.SwitchSection(Asm->getObjFileLowering().getCOFFDebugTypesSection()); 7315d122f87SReid Kleckner emitCodeViewMagicVersion(); 732f3b9ba49SReid Kleckner 733526f4f2aSZachary Turner TypeTableCollection Table(TypeTable.records()); 734ac3851c4SNilanjana Basu TypeVisitorCallbackPipeline Pipeline; 735faed8516SNilanjana Basu 736faed8516SNilanjana Basu // To emit type record using Codeview MCStreamer adapter 737ac3851c4SNilanjana Basu CVMCAdapter CVMCOS(OS, Table); 738faed8516SNilanjana Basu TypeRecordMapping typeMapping(CVMCOS); 739faed8516SNilanjana Basu Pipeline.addCallbackToPipeline(typeMapping); 740faed8516SNilanjana Basu 741526f4f2aSZachary Turner Optional<TypeIndex> B = Table.getFirst(); 742526f4f2aSZachary Turner while (B) { 743526f4f2aSZachary Turner // This will fail if the record data is invalid. 744526f4f2aSZachary Turner CVType Record = Table.getType(*B); 745526f4f2aSZachary Turner 746faed8516SNilanjana Basu Error E = codeview::visitTypeRecord(Record, *B, Pipeline); 747faed8516SNilanjana Basu 748c92e9469SReid Kleckner if (E) { 749c92e9469SReid Kleckner logAllUnhandledErrors(std::move(E), errs(), "error: "); 750c92e9469SReid Kleckner llvm_unreachable("produced malformed type record"); 751c92e9469SReid Kleckner } 752faed8516SNilanjana Basu 753526f4f2aSZachary Turner B = Table.getNext(*B); 7541dfcf8d9SZachary Turner } 755f3b9ba49SReid Kleckner } 756f3b9ba49SReid Kleckner 757048f8f99SZachary Turner void CodeViewDebug::emitTypeGlobalHashes() { 758048f8f99SZachary Turner if (TypeTable.empty()) 759048f8f99SZachary Turner return; 760048f8f99SZachary Turner 761048f8f99SZachary Turner // Start the .debug$H section with the version and hash algorithm, currently 762048f8f99SZachary Turner // hardcoded to version 0, SHA1. 763048f8f99SZachary Turner OS.SwitchSection(Asm->getObjFileLowering().getCOFFGlobalTypeHashesSection()); 764048f8f99SZachary Turner 7656d2d589bSFangrui Song OS.emitValueToAlignment(4); 766048f8f99SZachary Turner OS.AddComment("Magic"); 767692e0c96SFangrui Song OS.emitInt32(COFF::DEBUG_HASHES_SECTION_MAGIC); 768048f8f99SZachary Turner OS.AddComment("Section Version"); 769692e0c96SFangrui Song OS.emitInt16(0); 770048f8f99SZachary Turner OS.AddComment("Hash Algorithm"); 771692e0c96SFangrui Song OS.emitInt16(uint16_t(GlobalTypeHashAlg::SHA1_8)); 772048f8f99SZachary Turner 773048f8f99SZachary Turner TypeIndex TI(TypeIndex::FirstNonSimpleIndex); 774048f8f99SZachary Turner for (const auto &GHR : TypeTable.hashes()) { 775048f8f99SZachary Turner if (OS.isVerboseAsm()) { 776048f8f99SZachary Turner // Emit an EOL-comment describing which TypeIndex this hash corresponds 777048f8f99SZachary Turner // to, as well as the stringified SHA1 hash. 778048f8f99SZachary Turner SmallString<32> Comment; 779048f8f99SZachary Turner raw_svector_ostream CommentOS(Comment); 780048f8f99SZachary Turner CommentOS << formatv("{0:X+} [{1}]", TI.getIndex(), GHR); 781048f8f99SZachary Turner OS.AddComment(Comment); 782048f8f99SZachary Turner ++TI; 783048f8f99SZachary Turner } 784c762666eSZachary Turner assert(GHR.Hash.size() == 8); 785048f8f99SZachary Turner StringRef S(reinterpret_cast<const char *>(GHR.Hash.data()), 786048f8f99SZachary Turner GHR.Hash.size()); 787a55daa14SFangrui Song OS.emitBinaryData(S); 788048f8f99SZachary Turner } 789048f8f99SZachary Turner } 790048f8f99SZachary Turner 791a282ea48SAlexandre Ganea void CodeViewDebug::emitObjName() { 792a282ea48SAlexandre Ganea MCSymbol *CompilerEnd = beginSymbolRecord(SymbolKind::S_OBJNAME); 793a282ea48SAlexandre Ganea 794a282ea48SAlexandre Ganea StringRef PathRef(Asm->TM.Options.ObjectFilenameForDebug); 795a282ea48SAlexandre Ganea llvm::SmallString<256> PathStore(PathRef); 796a282ea48SAlexandre Ganea 797a282ea48SAlexandre Ganea if (PathRef.empty() || PathRef == "-") { 798a282ea48SAlexandre Ganea // Don't emit the filename if we're writing to stdout or to /dev/null. 799a282ea48SAlexandre Ganea PathRef = {}; 800a282ea48SAlexandre Ganea } else { 801a282ea48SAlexandre Ganea llvm::sys::path::remove_dots(PathStore, /*remove_dot_dot=*/true); 802a282ea48SAlexandre Ganea PathRef = PathStore; 803a282ea48SAlexandre Ganea } 804a282ea48SAlexandre Ganea 805a282ea48SAlexandre Ganea OS.AddComment("Signature"); 806a282ea48SAlexandre Ganea OS.emitIntValue(0, 4); 807a282ea48SAlexandre Ganea 808a282ea48SAlexandre Ganea OS.AddComment("Object name"); 809a282ea48SAlexandre Ganea emitNullTerminatedSymbolName(OS, PathRef); 810a282ea48SAlexandre Ganea 811a282ea48SAlexandre Ganea endSymbolRecord(CompilerEnd); 812a282ea48SAlexandre Ganea } 813a282ea48SAlexandre Ganea 8147f6b2534SReid Kleckner namespace { 815c64acfd4SAdrian McCarthy struct Version { 816c64acfd4SAdrian McCarthy int Part[4]; 817c64acfd4SAdrian McCarthy }; 8187f6b2534SReid Kleckner } // end anonymous namespace 819c64acfd4SAdrian McCarthy 820c64acfd4SAdrian McCarthy // Takes a StringRef like "clang 4.0.0.0 (other nonsense 123)" and parses out 821c64acfd4SAdrian McCarthy // the version number. 822c64acfd4SAdrian McCarthy static Version parseVersion(StringRef Name) { 823ad8ac54dSAdrian McCarthy Version V = {{0}}; 824c64acfd4SAdrian McCarthy int N = 0; 825c64acfd4SAdrian McCarthy for (const char C : Name) { 826c64acfd4SAdrian McCarthy if (isdigit(C)) { 827c64acfd4SAdrian McCarthy V.Part[N] *= 10; 828c64acfd4SAdrian McCarthy V.Part[N] += C - '0'; 829c64acfd4SAdrian McCarthy } else if (C == '.') { 830c64acfd4SAdrian McCarthy ++N; 831c64acfd4SAdrian McCarthy if (N >= 4) 832c64acfd4SAdrian McCarthy return V; 833c64acfd4SAdrian McCarthy } else if (N > 0) 834c64acfd4SAdrian McCarthy return V; 835c64acfd4SAdrian McCarthy } 836c64acfd4SAdrian McCarthy return V; 837c64acfd4SAdrian McCarthy } 838c64acfd4SAdrian McCarthy 839c64acfd4SAdrian McCarthy void CodeViewDebug::emitCompilerInformation() { 8405bf71d11SReid Kleckner MCSymbol *CompilerEnd = beginSymbolRecord(SymbolKind::S_COMPILE3); 841c64acfd4SAdrian McCarthy uint32_t Flags = 0; 842c64acfd4SAdrian McCarthy 843c64acfd4SAdrian McCarthy // The low byte of the flags indicates the source language. 8442ed29d87SChih-Ping Chen Flags = CurrentSourceLanguage; 845c64acfd4SAdrian McCarthy // TODO: Figure out which other flags need to be set. 84677357208SMichael Holman if (MMI->getModule()->getProfileSummary(/*IsCS*/ false) != nullptr) { 84777357208SMichael Holman Flags |= static_cast<uint32_t>(CompileSym3Flags::PGO); 84877357208SMichael Holman } 849*5af2433eSAlexandre Ganea using ArchType = llvm::Triple::ArchType; 850*5af2433eSAlexandre Ganea ArchType Arch = Triple(MMI->getModule()->getTargetTriple()).getArch(); 851*5af2433eSAlexandre Ganea if (Asm->TM.Options.Hotpatch || Arch == ArchType::thumb || 852*5af2433eSAlexandre Ganea Arch == ArchType::aarch64) { 853*5af2433eSAlexandre Ganea Flags |= static_cast<uint32_t>(CompileSym3Flags::HotPatch); 854*5af2433eSAlexandre Ganea } 855c64acfd4SAdrian McCarthy 856c64acfd4SAdrian McCarthy OS.AddComment("Flags and language"); 857692e0c96SFangrui Song OS.emitInt32(Flags); 858c64acfd4SAdrian McCarthy 859c64acfd4SAdrian McCarthy OS.AddComment("CPUType"); 860692e0c96SFangrui Song OS.emitInt16(static_cast<uint64_t>(TheCPU)); 861c64acfd4SAdrian McCarthy 8622ed29d87SChih-Ping Chen NamedMDNode *CUs = MMI->getModule()->getNamedMetadata("llvm.dbg.cu"); 8632ed29d87SChih-Ping Chen const MDNode *Node = *CUs->operands().begin(); 8642ed29d87SChih-Ping Chen const auto *CU = cast<DICompileUnit>(Node); 8652ed29d87SChih-Ping Chen 866c64acfd4SAdrian McCarthy StringRef CompilerVersion = CU->getProducer(); 867c64acfd4SAdrian McCarthy Version FrontVer = parseVersion(CompilerVersion); 868c64acfd4SAdrian McCarthy OS.AddComment("Frontend version"); 869ba51d26eSmodimo for (int N : FrontVer.Part) { 870ba51d26eSmodimo N = std::min<int>(N, std::numeric_limits<uint16_t>::max()); 871c5e90a88SKazu Hirata OS.emitInt16(N); 872ba51d26eSmodimo } 873c64acfd4SAdrian McCarthy 874c64acfd4SAdrian McCarthy // Some Microsoft tools, like Binscope, expect a backend version number of at 875c64acfd4SAdrian McCarthy // least 8.something, so we'll coerce the LLVM version into a form that 876c64acfd4SAdrian McCarthy // guarantees it'll be big enough without really lying about the version. 877d1185fc0SAdrian McCarthy int Major = 1000 * LLVM_VERSION_MAJOR + 878c64acfd4SAdrian McCarthy 10 * LLVM_VERSION_MINOR + 879d1185fc0SAdrian McCarthy LLVM_VERSION_PATCH; 880d1185fc0SAdrian McCarthy // Clamp it for builds that use unusually large version numbers. 881d1185fc0SAdrian McCarthy Major = std::min<int>(Major, std::numeric_limits<uint16_t>::max()); 882d1185fc0SAdrian McCarthy Version BackVer = {{ Major, 0, 0, 0 }}; 883c64acfd4SAdrian McCarthy OS.AddComment("Backend version"); 884c5e90a88SKazu Hirata for (int N : BackVer.Part) 885c5e90a88SKazu Hirata OS.emitInt16(N); 886c64acfd4SAdrian McCarthy 887c64acfd4SAdrian McCarthy OS.AddComment("Null-terminated compiler version string"); 888c64acfd4SAdrian McCarthy emitNullTerminatedSymbolName(OS, CompilerVersion); 889c64acfd4SAdrian McCarthy 8905bf71d11SReid Kleckner endSymbolRecord(CompilerEnd); 891c64acfd4SAdrian McCarthy } 892c64acfd4SAdrian McCarthy 893810687cbSReid Kleckner static TypeIndex getStringIdTypeIdx(GlobalTypeTableBuilder &TypeTable, 894810687cbSReid Kleckner StringRef S) { 895810687cbSReid Kleckner StringIdRecord SIR(TypeIndex(0x0), S); 896810687cbSReid Kleckner return TypeTable.writeLeafType(SIR); 897810687cbSReid Kleckner } 898810687cbSReid Kleckner 899aba5b91bSAlexandre Ganea static std::string flattenCommandLine(ArrayRef<std::string> Args, 900aba5b91bSAlexandre Ganea StringRef MainFilename) { 901aba5b91bSAlexandre Ganea std::string FlatCmdLine; 902aba5b91bSAlexandre Ganea raw_string_ostream OS(FlatCmdLine); 903aba5b91bSAlexandre Ganea bool PrintedOneArg = false; 904aba5b91bSAlexandre Ganea if (!StringRef(Args[0]).contains("-cc1")) { 905aba5b91bSAlexandre Ganea llvm::sys::printArg(OS, "-cc1", /*Quote=*/true); 906aba5b91bSAlexandre Ganea PrintedOneArg = true; 907aba5b91bSAlexandre Ganea } 908aba5b91bSAlexandre Ganea for (unsigned i = 0; i < Args.size(); i++) { 909aba5b91bSAlexandre Ganea StringRef Arg = Args[i]; 910aba5b91bSAlexandre Ganea if (Arg.empty()) 911aba5b91bSAlexandre Ganea continue; 912aba5b91bSAlexandre Ganea if (Arg == "-main-file-name" || Arg == "-o") { 913aba5b91bSAlexandre Ganea i++; // Skip this argument and next one. 914aba5b91bSAlexandre Ganea continue; 915aba5b91bSAlexandre Ganea } 916aba5b91bSAlexandre Ganea if (Arg.startswith("-object-file-name") || Arg == MainFilename) 917aba5b91bSAlexandre Ganea continue; 918aba5b91bSAlexandre Ganea if (PrintedOneArg) 919aba5b91bSAlexandre Ganea OS << " "; 920aba5b91bSAlexandre Ganea llvm::sys::printArg(OS, Arg, /*Quote=*/true); 921aba5b91bSAlexandre Ganea PrintedOneArg = true; 922aba5b91bSAlexandre Ganea } 923aba5b91bSAlexandre Ganea OS.flush(); 924aba5b91bSAlexandre Ganea return FlatCmdLine; 925aba5b91bSAlexandre Ganea } 926aba5b91bSAlexandre Ganea 927810687cbSReid Kleckner void CodeViewDebug::emitBuildInfo() { 928810687cbSReid Kleckner // First, make LF_BUILDINFO. It's a sequence of strings with various bits of 929810687cbSReid Kleckner // build info. The known prefix is: 930810687cbSReid Kleckner // - Absolute path of current directory 931810687cbSReid Kleckner // - Compiler path 932810687cbSReid Kleckner // - Main source file path, relative to CWD or absolute 933810687cbSReid Kleckner // - Type server PDB file 934810687cbSReid Kleckner // - Canonical compiler command line 935810687cbSReid Kleckner // If frontend and backend compilation are separated (think llc or LTO), it's 936810687cbSReid Kleckner // not clear if the compiler path should refer to the executable for the 937810687cbSReid Kleckner // frontend or the backend. Leave it blank for now. 938810687cbSReid Kleckner TypeIndex BuildInfoArgs[BuildInfoRecord::MaxArgs] = {}; 939810687cbSReid Kleckner NamedMDNode *CUs = MMI->getModule()->getNamedMetadata("llvm.dbg.cu"); 940810687cbSReid Kleckner const MDNode *Node = *CUs->operands().begin(); // FIXME: Multiple CUs. 941810687cbSReid Kleckner const auto *CU = cast<DICompileUnit>(Node); 942810687cbSReid Kleckner const DIFile *MainSourceFile = CU->getFile(); 943810687cbSReid Kleckner BuildInfoArgs[BuildInfoRecord::CurrentDirectory] = 944810687cbSReid Kleckner getStringIdTypeIdx(TypeTable, MainSourceFile->getDirectory()); 945810687cbSReid Kleckner BuildInfoArgs[BuildInfoRecord::SourceFile] = 946810687cbSReid Kleckner getStringIdTypeIdx(TypeTable, MainSourceFile->getFilename()); 947aba5b91bSAlexandre Ganea // FIXME: PDB is intentionally blank unless we implement /Zi type servers. 948aba5b91bSAlexandre Ganea BuildInfoArgs[BuildInfoRecord::TypeServerPDB] = 949aba5b91bSAlexandre Ganea getStringIdTypeIdx(TypeTable, ""); 950aba5b91bSAlexandre Ganea if (Asm->TM.Options.MCOptions.Argv0 != nullptr) { 951aba5b91bSAlexandre Ganea BuildInfoArgs[BuildInfoRecord::BuildTool] = 952aba5b91bSAlexandre Ganea getStringIdTypeIdx(TypeTable, Asm->TM.Options.MCOptions.Argv0); 953aba5b91bSAlexandre Ganea BuildInfoArgs[BuildInfoRecord::CommandLine] = getStringIdTypeIdx( 954aba5b91bSAlexandre Ganea TypeTable, flattenCommandLine(Asm->TM.Options.MCOptions.CommandLineArgs, 955aba5b91bSAlexandre Ganea MainSourceFile->getFilename())); 956aba5b91bSAlexandre Ganea } 957810687cbSReid Kleckner BuildInfoRecord BIR(BuildInfoArgs); 958810687cbSReid Kleckner TypeIndex BuildInfoIndex = TypeTable.writeLeafType(BIR); 959810687cbSReid Kleckner 960810687cbSReid Kleckner // Make a new .debug$S subsection for the S_BUILDINFO record, which points 961810687cbSReid Kleckner // from the module symbols into the type stream. 9625bf71d11SReid Kleckner MCSymbol *BISubsecEnd = beginCVSubsection(DebugSubsectionKind::Symbols); 9635bf71d11SReid Kleckner MCSymbol *BIEnd = beginSymbolRecord(SymbolKind::S_BUILDINFO); 964810687cbSReid Kleckner OS.AddComment("LF_BUILDINFO index"); 965692e0c96SFangrui Song OS.emitInt32(BuildInfoIndex.getIndex()); 9665bf71d11SReid Kleckner endSymbolRecord(BIEnd); 9675bf71d11SReid Kleckner endCVSubsection(BISubsecEnd); 968810687cbSReid Kleckner } 969810687cbSReid Kleckner 9705d122f87SReid Kleckner void CodeViewDebug::emitInlineeLinesSubsection() { 9711fcd610cSReid Kleckner if (InlinedSubprograms.empty()) 9721fcd610cSReid Kleckner return; 9731fcd610cSReid Kleckner 9741fcd610cSReid Kleckner OS.AddComment("Inlinee lines subsection"); 9758c099fe0SZachary Turner MCSymbol *InlineEnd = beginCVSubsection(DebugSubsectionKind::InlineeLines); 9761fcd610cSReid Kleckner 97726fa1bf4SReid Kleckner // We emit the checksum info for files. This is used by debuggers to 97826fa1bf4SReid Kleckner // determine if a pdb matches the source before loading it. Visual Studio, 97926fa1bf4SReid Kleckner // for instance, will display a warning that the breakpoints are not valid if 98026fa1bf4SReid Kleckner // the pdb does not match the source. 98130579ec8SDavid Majnemer OS.AddComment("Inlinee lines signature"); 982692e0c96SFangrui Song OS.emitInt32(unsigned(InlineeLinesSignature::Normal)); 9831fcd610cSReid Kleckner 9841fcd610cSReid Kleckner for (const DISubprogram *SP : InlinedSubprograms) { 98576c9eb99SAmjad Aboud assert(TypeIndices.count({SP, nullptr})); 98676c9eb99SAmjad Aboud TypeIndex InlineeIdx = TypeIndices[{SP, nullptr}]; 9872280f932SReid Kleckner 98830579ec8SDavid Majnemer OS.AddBlankLine(); 9891fcd610cSReid Kleckner unsigned FileId = maybeRecordFile(SP->getFile()); 9909d2f019fSAdrian Prantl OS.AddComment("Inlined function " + SP->getName() + " starts at " + 9911fcd610cSReid Kleckner SP->getFilename() + Twine(':') + Twine(SP->getLine())); 99230579ec8SDavid Majnemer OS.AddBlankLine(); 99330579ec8SDavid Majnemer OS.AddComment("Type index of inlined function"); 994692e0c96SFangrui Song OS.emitInt32(InlineeIdx.getIndex()); 99530579ec8SDavid Majnemer OS.AddComment("Offset into filechecksum table"); 996c031378cSShengchen Kan OS.emitCVFileChecksumOffsetDirective(FileId); 99730579ec8SDavid Majnemer OS.AddComment("Starting line number"); 998692e0c96SFangrui Song OS.emitInt32(SP->getLine()); 9991fcd610cSReid Kleckner } 10001fcd610cSReid Kleckner 10016f3406dfSReid Kleckner endCVSubsection(InlineEnd); 10021fcd610cSReid Kleckner } 10031fcd610cSReid Kleckner 1004f3b9ba49SReid Kleckner void CodeViewDebug::emitInlinedCallSite(const FunctionInfo &FI, 1005f3b9ba49SReid Kleckner const DILocation *InlinedAt, 1006f3b9ba49SReid Kleckner const InlineSite &Site) { 100776c9eb99SAmjad Aboud assert(TypeIndices.count({Site.Inlinee, nullptr})); 100876c9eb99SAmjad Aboud TypeIndex InlineeIdx = TypeIndices[{Site.Inlinee, nullptr}]; 1009f3b9ba49SReid Kleckner 1010f3b9ba49SReid Kleckner // SymbolRecord 10115bf71d11SReid Kleckner MCSymbol *InlineEnd = beginSymbolRecord(SymbolKind::S_INLINESITE); 1012f3b9ba49SReid Kleckner 1013dac21b43SReid Kleckner OS.AddComment("PtrParent"); 1014692e0c96SFangrui Song OS.emitInt32(0); 1015dac21b43SReid Kleckner OS.AddComment("PtrEnd"); 1016692e0c96SFangrui Song OS.emitInt32(0); 1017dac21b43SReid Kleckner OS.AddComment("Inlinee type index"); 1018692e0c96SFangrui Song OS.emitInt32(InlineeIdx.getIndex()); 1019f3b9ba49SReid Kleckner 10201fcd610cSReid Kleckner unsigned FileId = maybeRecordFile(Site.Inlinee->getFile()); 10211fcd610cSReid Kleckner unsigned StartLineNum = Site.Inlinee->getLine(); 10221fcd610cSReid Kleckner 1023c031378cSShengchen Kan OS.emitCVInlineLinetableDirective(Site.SiteFuncId, FileId, StartLineNum, 1024a9f4cc95SReid Kleckner FI.Begin, FI.End); 1025f3b9ba49SReid Kleckner 10265bf71d11SReid Kleckner endSymbolRecord(InlineEnd); 1027f3b9ba49SReid Kleckner 10289ea2c012SReid Kleckner emitLocalVariableList(FI, Site.InlinedLocals); 1029f9c275feSReid Kleckner 1030f3b9ba49SReid Kleckner // Recurse on child inlined call sites before closing the scope. 1031f3b9ba49SReid Kleckner for (const DILocation *ChildSite : Site.ChildSites) { 1032f3b9ba49SReid Kleckner auto I = FI.InlineSites.find(ChildSite); 1033f3b9ba49SReid Kleckner assert(I != FI.InlineSites.end() && 1034f3b9ba49SReid Kleckner "child site not in function inline site map"); 1035f3b9ba49SReid Kleckner emitInlinedCallSite(FI, ChildSite, I->second); 1036f3b9ba49SReid Kleckner } 1037f3b9ba49SReid Kleckner 1038f3b9ba49SReid Kleckner // Close the scope. 10395bf71d11SReid Kleckner emitEndSymbolRecord(SymbolKind::S_INLINESITE_END); 1040f3b9ba49SReid Kleckner } 1041f3b9ba49SReid Kleckner 10425d122f87SReid Kleckner void CodeViewDebug::switchToDebugSectionForSymbol(const MCSymbol *GVSym) { 10435d122f87SReid Kleckner // If we have a symbol, it may be in a section that is COMDAT. If so, find the 10445d122f87SReid Kleckner // comdat key. A section may be comdat because of -ffunction-sections or 10455d122f87SReid Kleckner // because it is comdat in the IR. 10465d122f87SReid Kleckner MCSectionCOFF *GVSec = 10475d122f87SReid Kleckner GVSym ? dyn_cast<MCSectionCOFF>(&GVSym->getSection()) : nullptr; 10485d122f87SReid Kleckner const MCSymbol *KeySym = GVSec ? GVSec->getCOMDATSymbol() : nullptr; 10495d122f87SReid Kleckner 10505d122f87SReid Kleckner MCSectionCOFF *DebugSec = cast<MCSectionCOFF>( 10515d122f87SReid Kleckner Asm->getObjFileLowering().getCOFFDebugSymbolsSection()); 10525d122f87SReid Kleckner DebugSec = OS.getContext().getAssociativeCOFFSection(DebugSec, KeySym); 10535d122f87SReid Kleckner 10545d122f87SReid Kleckner OS.SwitchSection(DebugSec); 10555d122f87SReid Kleckner 10565d122f87SReid Kleckner // Emit the magic version number if this is the first time we've switched to 10575d122f87SReid Kleckner // this section. 10585d122f87SReid Kleckner if (ComdatDebugSections.insert(DebugSec).second) 10595d122f87SReid Kleckner emitCodeViewMagicVersion(); 10605d122f87SReid Kleckner } 10615d122f87SReid Kleckner 106294ece8fbSBrock Wyma // Emit an S_THUNK32/S_END symbol pair for a thunk routine. 106394ece8fbSBrock Wyma // The only supported thunk ordinal is currently the standard type. 106494ece8fbSBrock Wyma void CodeViewDebug::emitDebugInfoForThunk(const Function *GV, 106594ece8fbSBrock Wyma FunctionInfo &FI, 106694ece8fbSBrock Wyma const MCSymbol *Fn) { 1067adcd0268SBenjamin Kramer std::string FuncName = 1068adcd0268SBenjamin Kramer std::string(GlobalValue::dropLLVMManglingEscape(GV->getName())); 106994ece8fbSBrock Wyma const ThunkOrdinal ordinal = ThunkOrdinal::Standard; // Only supported kind. 107094ece8fbSBrock Wyma 107194ece8fbSBrock Wyma OS.AddComment("Symbol subsection for " + Twine(FuncName)); 107294ece8fbSBrock Wyma MCSymbol *SymbolsEnd = beginCVSubsection(DebugSubsectionKind::Symbols); 107394ece8fbSBrock Wyma 107494ece8fbSBrock Wyma // Emit S_THUNK32 10755bf71d11SReid Kleckner MCSymbol *ThunkRecordEnd = beginSymbolRecord(SymbolKind::S_THUNK32); 107694ece8fbSBrock Wyma OS.AddComment("PtrParent"); 1077692e0c96SFangrui Song OS.emitInt32(0); 107894ece8fbSBrock Wyma OS.AddComment("PtrEnd"); 1079692e0c96SFangrui Song OS.emitInt32(0); 108094ece8fbSBrock Wyma OS.AddComment("PtrNext"); 1081692e0c96SFangrui Song OS.emitInt32(0); 108294ece8fbSBrock Wyma OS.AddComment("Thunk section relative address"); 108394ece8fbSBrock Wyma OS.EmitCOFFSecRel32(Fn, /*Offset=*/0); 108494ece8fbSBrock Wyma OS.AddComment("Thunk section index"); 108594ece8fbSBrock Wyma OS.EmitCOFFSectionIndex(Fn); 108694ece8fbSBrock Wyma OS.AddComment("Code size"); 108794ece8fbSBrock Wyma OS.emitAbsoluteSymbolDiff(FI.End, Fn, 2); 108894ece8fbSBrock Wyma OS.AddComment("Ordinal"); 1089692e0c96SFangrui Song OS.emitInt8(unsigned(ordinal)); 109094ece8fbSBrock Wyma OS.AddComment("Function name"); 109194ece8fbSBrock Wyma emitNullTerminatedSymbolName(OS, FuncName); 109294ece8fbSBrock Wyma // Additional fields specific to the thunk ordinal would go here. 10935bf71d11SReid Kleckner endSymbolRecord(ThunkRecordEnd); 109494ece8fbSBrock Wyma 109594ece8fbSBrock Wyma // Local variables/inlined routines are purposely omitted here. The point of 109694ece8fbSBrock Wyma // marking this as a thunk is so Visual Studio will NOT stop in this routine. 109794ece8fbSBrock Wyma 109894ece8fbSBrock Wyma // Emit S_PROC_ID_END 10995bf71d11SReid Kleckner emitEndSymbolRecord(SymbolKind::S_PROC_ID_END); 110094ece8fbSBrock Wyma 110194ece8fbSBrock Wyma endCVSubsection(SymbolsEnd); 110294ece8fbSBrock Wyma } 110394ece8fbSBrock Wyma 11042214ed89SReid Kleckner void CodeViewDebug::emitDebugInfoForFunction(const Function *GV, 11052214ed89SReid Kleckner FunctionInfo &FI) { 110631cc1ebbSBrock Wyma // For each function there is a separate subsection which holds the PC to 110731cc1ebbSBrock Wyma // file:line table. 110870f5bc99SReid Kleckner const MCSymbol *Fn = Asm->getSymbol(GV); 110970f5bc99SReid Kleckner assert(Fn); 111070f5bc99SReid Kleckner 11115d122f87SReid Kleckner // Switch to the to a comdat section, if appropriate. 11125d122f87SReid Kleckner switchToDebugSectionForSymbol(Fn); 11135d122f87SReid Kleckner 1114ac945e27SReid Kleckner std::string FuncName; 11153128b10cSDavid Majnemer auto *SP = GV->getSubprogram(); 111667f684e1SDavid Majnemer assert(SP); 11173128b10cSDavid Majnemer setCurrentSubprogram(SP); 1118ac945e27SReid Kleckner 111994ece8fbSBrock Wyma if (SP->isThunk()) { 112094ece8fbSBrock Wyma emitDebugInfoForThunk(GV, FI, Fn); 112194ece8fbSBrock Wyma return; 112294ece8fbSBrock Wyma } 112394ece8fbSBrock Wyma 1124ac945e27SReid Kleckner // If we have a display name, build the fully qualified name by walking the 1125ac945e27SReid Kleckner // chain of scopes. 11269d2f019fSAdrian Prantl if (!SP->getName().empty()) 1127da82ce99SFangrui Song FuncName = getFullyQualifiedName(SP->getScope(), SP->getName()); 112870f5bc99SReid Kleckner 112970f5bc99SReid Kleckner // If our DISubprogram name is empty, use the mangled name. 113070f5bc99SReid Kleckner if (FuncName.empty()) 1131adcd0268SBenjamin Kramer FuncName = std::string(GlobalValue::dropLLVMManglingEscape(GV->getName())); 113270f5bc99SReid Kleckner 11339cdd4df8SReid Kleckner // Emit FPO data, but only on 32-bit x86. No other platforms use it. 11349cdd4df8SReid Kleckner if (Triple(MMI->getModule()->getTargetTriple()).getArch() == Triple::x86) 11359cdd4df8SReid Kleckner OS.EmitCVFPOData(Fn); 11369cdd4df8SReid Kleckner 113770f5bc99SReid Kleckner // Emit a symbol subsection, required by VS2012+ to find function boundaries. 1138dac21b43SReid Kleckner OS.AddComment("Symbol subsection for " + Twine(FuncName)); 11398c099fe0SZachary Turner MCSymbol *SymbolsEnd = beginCVSubsection(DebugSubsectionKind::Symbols); 114070f5bc99SReid Kleckner { 11415bf71d11SReid Kleckner SymbolKind ProcKind = GV->hasLocalLinkage() ? SymbolKind::S_LPROC32_ID 11425bf71d11SReid Kleckner : SymbolKind::S_GPROC32_ID; 11435bf71d11SReid Kleckner MCSymbol *ProcRecordEnd = beginSymbolRecord(ProcKind); 114470f5bc99SReid Kleckner 114530579ec8SDavid Majnemer // These fields are filled in by tools like CVPACK which run after the fact. 1146dac21b43SReid Kleckner OS.AddComment("PtrParent"); 1147692e0c96SFangrui Song OS.emitInt32(0); 1148dac21b43SReid Kleckner OS.AddComment("PtrEnd"); 1149692e0c96SFangrui Song OS.emitInt32(0); 1150dac21b43SReid Kleckner OS.AddComment("PtrNext"); 1151692e0c96SFangrui Song OS.emitInt32(0); 115270f5bc99SReid Kleckner // This is the important bit that tells the debugger where the function 115370f5bc99SReid Kleckner // code is located and what's its size: 1154dac21b43SReid Kleckner OS.AddComment("Code size"); 1155eb3bcdd2SReid Kleckner OS.emitAbsoluteSymbolDiff(FI.End, Fn, 4); 1156dac21b43SReid Kleckner OS.AddComment("Offset after prologue"); 1157692e0c96SFangrui Song OS.emitInt32(0); 1158dac21b43SReid Kleckner OS.AddComment("Offset before epilogue"); 1159692e0c96SFangrui Song OS.emitInt32(0); 1160dac21b43SReid Kleckner OS.AddComment("Function type index"); 1161692e0c96SFangrui Song OS.emitInt32(getFuncIdForSubprogram(GV->getSubprogram()).getIndex()); 1162dac21b43SReid Kleckner OS.AddComment("Function section relative address"); 1163f7d84ee6SKeno Fischer OS.EmitCOFFSecRel32(Fn, /*Offset=*/0); 1164dac21b43SReid Kleckner OS.AddComment("Function section index"); 1165dac21b43SReid Kleckner OS.EmitCOFFSectionIndex(Fn); 1166dac21b43SReid Kleckner OS.AddComment("Flags"); 1167692e0c96SFangrui Song OS.emitInt8(0); 116870f5bc99SReid Kleckner // Emit the function display name as a null-terminated string. 1169dac21b43SReid Kleckner OS.AddComment("Function name"); 11701256125fSDavid Majnemer // Truncate the name so we won't overflow the record length field. 1171b9456a5eSDavid Majnemer emitNullTerminatedSymbolName(OS, FuncName); 11725bf71d11SReid Kleckner endSymbolRecord(ProcRecordEnd); 117370f5bc99SReid Kleckner 11745bf71d11SReid Kleckner MCSymbol *FrameProcEnd = beginSymbolRecord(SymbolKind::S_FRAMEPROC); 11759ea2c012SReid Kleckner // Subtract out the CSR size since MSVC excludes that and we include it. 11769ea2c012SReid Kleckner OS.AddComment("FrameSize"); 1177692e0c96SFangrui Song OS.emitInt32(FI.FrameSize - FI.CSRSize); 11789ea2c012SReid Kleckner OS.AddComment("Padding"); 1179692e0c96SFangrui Song OS.emitInt32(0); 11809ea2c012SReid Kleckner OS.AddComment("Offset of padding"); 1181692e0c96SFangrui Song OS.emitInt32(0); 11829ea2c012SReid Kleckner OS.AddComment("Bytes of callee saved registers"); 1183692e0c96SFangrui Song OS.emitInt32(FI.CSRSize); 11849ea2c012SReid Kleckner OS.AddComment("Exception handler offset"); 1185692e0c96SFangrui Song OS.emitInt32(0); 11869ea2c012SReid Kleckner OS.AddComment("Exception handler section"); 1187692e0c96SFangrui Song OS.emitInt16(0); 11889ea2c012SReid Kleckner OS.AddComment("Flags (defines frame register)"); 1189692e0c96SFangrui Song OS.emitInt32(uint32_t(FI.FrameProcOpts)); 11905bf71d11SReid Kleckner endSymbolRecord(FrameProcEnd); 11919ea2c012SReid Kleckner 11929ea2c012SReid Kleckner emitLocalVariableList(FI, FI.Locals); 1193b17464e4SBrock Wyma emitGlobalVariableList(FI.Globals); 11945a791ee4SReid Kleckner emitLexicalBlockList(FI.ChildBlocks, FI); 1195f9c275feSReid Kleckner 1196f3b9ba49SReid Kleckner // Emit inlined call site information. Only emit functions inlined directly 1197f3b9ba49SReid Kleckner // into the parent function. We'll emit the other sites recursively as part 1198f3b9ba49SReid Kleckner // of their parent inline site. 1199f9c275feSReid Kleckner for (const DILocation *InlinedAt : FI.ChildSites) { 1200f9c275feSReid Kleckner auto I = FI.InlineSites.find(InlinedAt); 1201f9c275feSReid Kleckner assert(I != FI.InlineSites.end() && 1202f9c275feSReid Kleckner "child site not in function inline site map"); 1203f9c275feSReid Kleckner emitInlinedCallSite(FI, InlinedAt, I->second); 1204f3b9ba49SReid Kleckner } 1205f3b9ba49SReid Kleckner 1206e33c94f1SReid Kleckner for (auto Annot : FI.Annotations) { 1207e33c94f1SReid Kleckner MCSymbol *Label = Annot.first; 1208e33c94f1SReid Kleckner MDTuple *Strs = cast<MDTuple>(Annot.second); 12095bf71d11SReid Kleckner MCSymbol *AnnotEnd = beginSymbolRecord(SymbolKind::S_ANNOTATION); 1210e33c94f1SReid Kleckner OS.EmitCOFFSecRel32(Label, /*Offset=*/0); 1211e33c94f1SReid Kleckner // FIXME: Make sure we don't overflow the max record size. 1212e33c94f1SReid Kleckner OS.EmitCOFFSectionIndex(Label); 1213692e0c96SFangrui Song OS.emitInt16(Strs->getNumOperands()); 1214e33c94f1SReid Kleckner for (Metadata *MD : Strs->operands()) { 1215e33c94f1SReid Kleckner // MDStrings are null terminated, so we can do EmitBytes and get the 1216e33c94f1SReid Kleckner // nice .asciz directive. 1217e33c94f1SReid Kleckner StringRef Str = cast<MDString>(MD)->getString(); 1218e33c94f1SReid Kleckner assert(Str.data()[Str.size()] == '\0' && "non-nullterminated MDString"); 1219a55daa14SFangrui Song OS.emitBytes(StringRef(Str.data(), Str.size() + 1)); 1220e33c94f1SReid Kleckner } 12215bf71d11SReid Kleckner endSymbolRecord(AnnotEnd); 1222e33c94f1SReid Kleckner } 1223e33c94f1SReid Kleckner 122468c91994SAmy Huang for (auto HeapAllocSite : FI.HeapAllocSites) { 122574204304SAmy Huang const MCSymbol *BeginLabel = std::get<0>(HeapAllocSite); 122674204304SAmy Huang const MCSymbol *EndLabel = std::get<1>(HeapAllocSite); 1227f332fe64SAmy Huang const DIType *DITy = std::get<2>(HeapAllocSite); 122868c91994SAmy Huang MCSymbol *HeapAllocEnd = beginSymbolRecord(SymbolKind::S_HEAPALLOCSITE); 122968c91994SAmy Huang OS.AddComment("Call site offset"); 123068c91994SAmy Huang OS.EmitCOFFSecRel32(BeginLabel, /*Offset=*/0); 123168c91994SAmy Huang OS.AddComment("Call site section index"); 123268c91994SAmy Huang OS.EmitCOFFSectionIndex(BeginLabel); 123368c91994SAmy Huang OS.AddComment("Call instruction length"); 123468c91994SAmy Huang OS.emitAbsoluteSymbolDiff(EndLabel, BeginLabel, 2); 123568c91994SAmy Huang OS.AddComment("Type index"); 1236692e0c96SFangrui Song OS.emitInt32(getCompleteTypeIndex(DITy).getIndex()); 123768c91994SAmy Huang endSymbolRecord(HeapAllocEnd); 123868c91994SAmy Huang } 123968c91994SAmy Huang 12403128b10cSDavid Majnemer if (SP != nullptr) 12413128b10cSDavid Majnemer emitDebugInfoForUDTs(LocalUDTs); 12423128b10cSDavid Majnemer 124370f5bc99SReid Kleckner // We're done with this function. 12445bf71d11SReid Kleckner emitEndSymbolRecord(SymbolKind::S_PROC_ID_END); 124570f5bc99SReid Kleckner } 12466f3406dfSReid Kleckner endCVSubsection(SymbolsEnd); 124770f5bc99SReid Kleckner 12482214ed89SReid Kleckner // We have an assembler directive that takes care of the whole line table. 1249c031378cSShengchen Kan OS.emitCVLinetableDirective(FI.FuncId, Fn, FI.End); 125070f5bc99SReid Kleckner } 125170f5bc99SReid Kleckner 1252876330d5SReid Kleckner CodeViewDebug::LocalVarDefRange 1253876330d5SReid Kleckner CodeViewDebug::createDefRangeMem(uint16_t CVRegister, int Offset) { 1254876330d5SReid Kleckner LocalVarDefRange DR; 1255c6a2f214SAaron Ballman DR.InMemory = -1; 1256876330d5SReid Kleckner DR.DataOffset = Offset; 1257876330d5SReid Kleckner assert(DR.DataOffset == Offset && "truncation"); 12582b3e6428SReid Kleckner DR.IsSubfield = 0; 1259876330d5SReid Kleckner DR.StructOffset = 0; 1260876330d5SReid Kleckner DR.CVRegister = CVRegister; 1261876330d5SReid Kleckner return DR; 1262876330d5SReid Kleckner } 1263876330d5SReid Kleckner 1264ef331effSMatthias Braun void CodeViewDebug::collectVariableInfoFromMFTable( 1265760c1ab1SHsiangkai Wang DenseSet<InlinedEntity> &Processed) { 1266ef331effSMatthias Braun const MachineFunction &MF = *Asm->MF; 1267ef331effSMatthias Braun const TargetSubtargetInfo &TSI = MF.getSubtarget(); 1268876330d5SReid Kleckner const TargetFrameLowering *TFI = TSI.getFrameLowering(); 1269876330d5SReid Kleckner const TargetRegisterInfo *TRI = TSI.getRegisterInfo(); 1270876330d5SReid Kleckner 1271ef331effSMatthias Braun for (const MachineFunction::VariableDbgInfo &VI : MF.getVariableDbgInfo()) { 1272f9c275feSReid Kleckner if (!VI.Var) 1273f9c275feSReid Kleckner continue; 1274f9c275feSReid Kleckner assert(VI.Var->isValidLocationForIntrinsic(VI.Loc) && 1275f9c275feSReid Kleckner "Expected inlined-at fields to agree"); 1276f9c275feSReid Kleckner 1277760c1ab1SHsiangkai Wang Processed.insert(InlinedEntity(VI.Var, VI.Loc->getInlinedAt())); 1278f9c275feSReid Kleckner LexicalScope *Scope = LScopes.findLexicalScope(VI.Loc); 1279f9c275feSReid Kleckner 1280f9c275feSReid Kleckner // If variable scope is not found then skip this variable. 1281f9c275feSReid Kleckner if (!Scope) 1282f9c275feSReid Kleckner continue; 1283f9c275feSReid Kleckner 1284b5fced73SReid Kleckner // If the variable has an attached offset expression, extract it. 1285b5fced73SReid Kleckner // FIXME: Try to handle DW_OP_deref as well. 1286b5fced73SReid Kleckner int64_t ExprOffset = 0; 12877fac5c8dSAmy Huang bool Deref = false; 12887fac5c8dSAmy Huang if (VI.Expr) { 12897fac5c8dSAmy Huang // If there is one DW_OP_deref element, use offset of 0 and keep going. 12907fac5c8dSAmy Huang if (VI.Expr->getNumElements() == 1 && 12917fac5c8dSAmy Huang VI.Expr->getElement(0) == llvm::dwarf::DW_OP_deref) 12927fac5c8dSAmy Huang Deref = true; 12937fac5c8dSAmy Huang else if (!VI.Expr->extractIfOffset(ExprOffset)) 1294b5fced73SReid Kleckner continue; 12957fac5c8dSAmy Huang } 1296b5fced73SReid Kleckner 1297f9c275feSReid Kleckner // Get the frame register used and the offset. 12982481f26aSMatt Arsenault Register FrameReg; 1299d57bba7cSSander de Smalen StackOffset FrameOffset = TFI->getFrameIndexReference(*Asm->MF, VI.Slot, FrameReg); 1300876330d5SReid Kleckner uint16_t CVReg = TRI->getCodeViewRegNum(FrameReg); 1301f9c275feSReid Kleckner 1302d57bba7cSSander de Smalen assert(!FrameOffset.getScalable() && 1303d57bba7cSSander de Smalen "Frame offsets with a scalable component are not supported"); 1304d57bba7cSSander de Smalen 1305f9c275feSReid Kleckner // Calculate the label ranges. 1306b5fced73SReid Kleckner LocalVarDefRange DefRange = 1307d57bba7cSSander de Smalen createDefRangeMem(CVReg, FrameOffset.getFixed() + ExprOffset); 13087fac5c8dSAmy Huang 1309f9c275feSReid Kleckner for (const InsnRange &Range : Scope->getRanges()) { 1310f9c275feSReid Kleckner const MCSymbol *Begin = getLabelBeforeInsn(Range.first); 1311f9c275feSReid Kleckner const MCSymbol *End = getLabelAfterInsn(Range.second); 1312876330d5SReid Kleckner End = End ? End : Asm->getFunctionEnd(); 1313876330d5SReid Kleckner DefRange.Ranges.emplace_back(Begin, End); 1314f9c275feSReid Kleckner } 1315f9c275feSReid Kleckner 1316876330d5SReid Kleckner LocalVariable Var; 1317876330d5SReid Kleckner Var.DIVar = VI.Var; 1318876330d5SReid Kleckner Var.DefRanges.emplace_back(std::move(DefRange)); 13197fac5c8dSAmy Huang if (Deref) 13207fac5c8dSAmy Huang Var.UseReferenceType = true; 13217fac5c8dSAmy Huang 13225a791ee4SReid Kleckner recordLocalVariable(std::move(Var), Scope); 1323f9c275feSReid Kleckner } 1324f9c275feSReid Kleckner } 1325876330d5SReid Kleckner 132608f5fd51SReid Kleckner static bool canUseReferenceType(const DbgVariableLocation &Loc) { 132708f5fd51SReid Kleckner return !Loc.LoadChain.empty() && Loc.LoadChain.back() == 0; 132808f5fd51SReid Kleckner } 132908f5fd51SReid Kleckner 133008f5fd51SReid Kleckner static bool needsReferenceType(const DbgVariableLocation &Loc) { 133108f5fd51SReid Kleckner return Loc.LoadChain.size() == 2 && Loc.LoadChain.back() == 0; 133208f5fd51SReid Kleckner } 133308f5fd51SReid Kleckner 1334223303c5SBob Haarman void CodeViewDebug::calculateRanges( 13356feef56dSDavid Stenberg LocalVariable &Var, const DbgValueHistoryMap::Entries &Entries) { 1336223303c5SBob Haarman const TargetRegisterInfo *TRI = Asm->MF->getSubtarget().getRegisterInfo(); 1337223303c5SBob Haarman 133808f5fd51SReid Kleckner // Calculate the definition ranges. 13396feef56dSDavid Stenberg for (auto I = Entries.begin(), E = Entries.end(); I != E; ++I) { 13406feef56dSDavid Stenberg const auto &Entry = *I; 13415ffec6deSDavid Stenberg if (!Entry.isDbgValue()) 13425ffec6deSDavid Stenberg continue; 13435ffec6deSDavid Stenberg const MachineInstr *DVInst = Entry.getInstr(); 1344223303c5SBob Haarman assert(DVInst->isDebugValue() && "Invalid History entry"); 1345223303c5SBob Haarman // FIXME: Find a way to represent constant variables, since they are 1346223303c5SBob Haarman // relatively common. 13471a4cbbe4SBob Haarman Optional<DbgVariableLocation> Location = 13481a4cbbe4SBob Haarman DbgVariableLocation::extractFromMachineInstruction(*DVInst); 13491a4cbbe4SBob Haarman if (!Location) 1350a88bce1bSBob Haarman continue; 1351223303c5SBob Haarman 135208f5fd51SReid Kleckner // CodeView can only express variables in register and variables in memory 135308f5fd51SReid Kleckner // at a constant offset from a register. However, for variables passed 135408f5fd51SReid Kleckner // indirectly by pointer, it is common for that pointer to be spilled to a 135508f5fd51SReid Kleckner // stack location. For the special case of one offseted load followed by a 135608f5fd51SReid Kleckner // zero offset load (a pointer spilled to the stack), we change the type of 135708f5fd51SReid Kleckner // the local variable from a value type to a reference type. This tricks the 135808f5fd51SReid Kleckner // debugger into doing the load for us. 135908f5fd51SReid Kleckner if (Var.UseReferenceType) { 136008f5fd51SReid Kleckner // We're using a reference type. Drop the last zero offset load. 136108f5fd51SReid Kleckner if (canUseReferenceType(*Location)) 136208f5fd51SReid Kleckner Location->LoadChain.pop_back(); 1363223303c5SBob Haarman else 13641a4cbbe4SBob Haarman continue; 136508f5fd51SReid Kleckner } else if (needsReferenceType(*Location)) { 136608f5fd51SReid Kleckner // This location can't be expressed without switching to a reference type. 136708f5fd51SReid Kleckner // Start over using that. 136808f5fd51SReid Kleckner Var.UseReferenceType = true; 1369223303c5SBob Haarman Var.DefRanges.clear(); 13706feef56dSDavid Stenberg calculateRanges(Var, Entries); 1371223303c5SBob Haarman return; 1372223303c5SBob Haarman } 1373223303c5SBob Haarman 137408f5fd51SReid Kleckner // We can only handle a register or an offseted load of a register. 137508f5fd51SReid Kleckner if (Location->Register == 0 || Location->LoadChain.size() > 1) 1376223303c5SBob Haarman continue; 1377223303c5SBob Haarman { 1378223303c5SBob Haarman LocalVarDefRange DR; 13791a4cbbe4SBob Haarman DR.CVRegister = TRI->getCodeViewRegNum(Location->Register); 138008f5fd51SReid Kleckner DR.InMemory = !Location->LoadChain.empty(); 138108f5fd51SReid Kleckner DR.DataOffset = 138208f5fd51SReid Kleckner !Location->LoadChain.empty() ? Location->LoadChain.back() : 0; 13831a4cbbe4SBob Haarman if (Location->FragmentInfo) { 1384223303c5SBob Haarman DR.IsSubfield = true; 13851a4cbbe4SBob Haarman DR.StructOffset = Location->FragmentInfo->OffsetInBits / 8; 1386223303c5SBob Haarman } else { 1387223303c5SBob Haarman DR.IsSubfield = false; 1388223303c5SBob Haarman DR.StructOffset = 0; 1389223303c5SBob Haarman } 1390223303c5SBob Haarman 1391223303c5SBob Haarman if (Var.DefRanges.empty() || 1392223303c5SBob Haarman Var.DefRanges.back().isDifferentLocation(DR)) { 1393223303c5SBob Haarman Var.DefRanges.emplace_back(std::move(DR)); 1394223303c5SBob Haarman } 1395223303c5SBob Haarman } 1396223303c5SBob Haarman 1397223303c5SBob Haarman // Compute the label range. 13985ffec6deSDavid Stenberg const MCSymbol *Begin = getLabelBeforeInsn(Entry.getInstr()); 13995ffec6deSDavid Stenberg const MCSymbol *End; 14005ffec6deSDavid Stenberg if (Entry.getEndIndex() != DbgValueHistoryMap::NoEntry) { 14015ffec6deSDavid Stenberg auto &EndingEntry = Entries[Entry.getEndIndex()]; 14025ffec6deSDavid Stenberg End = EndingEntry.isDbgValue() 14035ffec6deSDavid Stenberg ? getLabelBeforeInsn(EndingEntry.getInstr()) 14045ffec6deSDavid Stenberg : getLabelAfterInsn(EndingEntry.getInstr()); 14055ffec6deSDavid Stenberg } else 1406223303c5SBob Haarman End = Asm->getFunctionEnd(); 1407223303c5SBob Haarman 1408223303c5SBob Haarman // If the last range end is our begin, just extend the last range. 1409223303c5SBob Haarman // Otherwise make a new range. 1410223303c5SBob Haarman SmallVectorImpl<std::pair<const MCSymbol *, const MCSymbol *>> &R = 1411223303c5SBob Haarman Var.DefRanges.back().Ranges; 1412223303c5SBob Haarman if (!R.empty() && R.back().second == Begin) 1413223303c5SBob Haarman R.back().second = End; 1414223303c5SBob Haarman else 1415223303c5SBob Haarman R.emplace_back(Begin, End); 1416223303c5SBob Haarman 1417223303c5SBob Haarman // FIXME: Do more range combining. 1418223303c5SBob Haarman } 1419223303c5SBob Haarman } 1420223303c5SBob Haarman 1421876330d5SReid Kleckner void CodeViewDebug::collectVariableInfo(const DISubprogram *SP) { 1422760c1ab1SHsiangkai Wang DenseSet<InlinedEntity> Processed; 1423876330d5SReid Kleckner // Grab the variable info that was squirreled away in the MMI side-table. 1424ef331effSMatthias Braun collectVariableInfoFromMFTable(Processed); 1425876330d5SReid Kleckner 1426876330d5SReid Kleckner for (const auto &I : DbgValues) { 1427760c1ab1SHsiangkai Wang InlinedEntity IV = I.first; 1428876330d5SReid Kleckner if (Processed.count(IV)) 1429876330d5SReid Kleckner continue; 1430760c1ab1SHsiangkai Wang const DILocalVariable *DIVar = cast<DILocalVariable>(IV.first); 1431876330d5SReid Kleckner const DILocation *InlinedAt = IV.second; 1432876330d5SReid Kleckner 1433876330d5SReid Kleckner // Instruction ranges, specifying where IV is accessible. 14346feef56dSDavid Stenberg const auto &Entries = I.second; 1435876330d5SReid Kleckner 1436876330d5SReid Kleckner LexicalScope *Scope = nullptr; 1437876330d5SReid Kleckner if (InlinedAt) 1438876330d5SReid Kleckner Scope = LScopes.findInlinedScope(DIVar->getScope(), InlinedAt); 1439876330d5SReid Kleckner else 1440876330d5SReid Kleckner Scope = LScopes.findLexicalScope(DIVar->getScope()); 1441876330d5SReid Kleckner // If variable scope is not found then skip this variable. 1442876330d5SReid Kleckner if (!Scope) 1443876330d5SReid Kleckner continue; 1444876330d5SReid Kleckner 1445876330d5SReid Kleckner LocalVariable Var; 1446876330d5SReid Kleckner Var.DIVar = DIVar; 1447876330d5SReid Kleckner 14486feef56dSDavid Stenberg calculateRanges(Var, Entries); 14495a791ee4SReid Kleckner recordLocalVariable(std::move(Var), Scope); 1450876330d5SReid Kleckner } 1451f9c275feSReid Kleckner } 1452f9c275feSReid Kleckner 1453b2fbb4b2SDavid Blaikie void CodeViewDebug::beginFunctionImpl(const MachineFunction *MF) { 14549ea2c012SReid Kleckner const TargetSubtargetInfo &TSI = MF->getSubtarget(); 14559ea2c012SReid Kleckner const TargetRegisterInfo *TRI = TSI.getRegisterInfo(); 14569ea2c012SReid Kleckner const MachineFrameInfo &MFI = MF->getFrameInfo(); 1457f1caa283SMatthias Braun const Function &GV = MF->getFunction(); 14580eaee545SJonas Devlieghere auto Insertion = FnDebugInfo.insert({&GV, std::make_unique<FunctionInfo>()}); 1459e9dc30d2SReid Kleckner assert(Insertion.second && "function already has info"); 146055baeefdSReid Kleckner CurFn = Insertion.first->second.get(); 14612214ed89SReid Kleckner CurFn->FuncId = NextFuncId++; 14621fcd610cSReid Kleckner CurFn->Begin = Asm->getFunctionBegin(); 146370f5bc99SReid Kleckner 14649ea2c012SReid Kleckner // The S_FRAMEPROC record reports the stack size, and how many bytes of 14659ea2c012SReid Kleckner // callee-saved registers were used. For targets that don't use a PUSH 14669ea2c012SReid Kleckner // instruction (AArch64), this will be zero. 14679ea2c012SReid Kleckner CurFn->CSRSize = MFI.getCVBytesOfCalleeSavedRegisters(); 14689ea2c012SReid Kleckner CurFn->FrameSize = MFI.getStackSize(); 14692bcb288aSReid Kleckner CurFn->OffsetAdjustment = MFI.getOffsetAdjustment(); 1470a9968c0aSTomas Matheson CurFn->HasStackRealignment = TRI->hasStackRealignment(*MF); 14719ea2c012SReid Kleckner 14729ea2c012SReid Kleckner // For this function S_FRAMEPROC record, figure out which codeview register 14739ea2c012SReid Kleckner // will be the frame pointer. 14749ea2c012SReid Kleckner CurFn->EncodedParamFramePtrReg = EncodedFramePtrReg::None; // None. 14759ea2c012SReid Kleckner CurFn->EncodedLocalFramePtrReg = EncodedFramePtrReg::None; // None. 14769ea2c012SReid Kleckner if (CurFn->FrameSize > 0) { 14779ea2c012SReid Kleckner if (!TSI.getFrameLowering()->hasFP(*MF)) { 14789ea2c012SReid Kleckner CurFn->EncodedLocalFramePtrReg = EncodedFramePtrReg::StackPtr; 14799ea2c012SReid Kleckner CurFn->EncodedParamFramePtrReg = EncodedFramePtrReg::StackPtr; 14809ea2c012SReid Kleckner } else { 14819ea2c012SReid Kleckner // If there is an FP, parameters are always relative to it. 14829ea2c012SReid Kleckner CurFn->EncodedParamFramePtrReg = EncodedFramePtrReg::FramePtr; 1483d5e4ec74SReid Kleckner if (CurFn->HasStackRealignment) { 14849ea2c012SReid Kleckner // If the stack needs realignment, locals are relative to SP or VFRAME. 14859ea2c012SReid Kleckner CurFn->EncodedLocalFramePtrReg = EncodedFramePtrReg::StackPtr; 14869ea2c012SReid Kleckner } else { 14879ea2c012SReid Kleckner // Otherwise, locals are relative to EBP, and we probably have VLAs or 14889ea2c012SReid Kleckner // other stack adjustments. 14899ea2c012SReid Kleckner CurFn->EncodedLocalFramePtrReg = EncodedFramePtrReg::FramePtr; 14909ea2c012SReid Kleckner } 14919ea2c012SReid Kleckner } 14929ea2c012SReid Kleckner } 14939ea2c012SReid Kleckner 14949ea2c012SReid Kleckner // Compute other frame procedure options. 14959ea2c012SReid Kleckner FrameProcedureOptions FPO = FrameProcedureOptions::None; 14969ea2c012SReid Kleckner if (MFI.hasVarSizedObjects()) 14979ea2c012SReid Kleckner FPO |= FrameProcedureOptions::HasAlloca; 14989ea2c012SReid Kleckner if (MF->exposesReturnsTwice()) 14999ea2c012SReid Kleckner FPO |= FrameProcedureOptions::HasSetJmp; 15009ea2c012SReid Kleckner // FIXME: Set HasLongJmp if we ever track that info. 15019ea2c012SReid Kleckner if (MF->hasInlineAsm()) 15029ea2c012SReid Kleckner FPO |= FrameProcedureOptions::HasInlineAssembly; 15039ea2c012SReid Kleckner if (GV.hasPersonalityFn()) { 15049ea2c012SReid Kleckner if (isAsynchronousEHPersonality( 15059ea2c012SReid Kleckner classifyEHPersonality(GV.getPersonalityFn()))) 15069ea2c012SReid Kleckner FPO |= FrameProcedureOptions::HasStructuredExceptionHandling; 15079ea2c012SReid Kleckner else 15089ea2c012SReid Kleckner FPO |= FrameProcedureOptions::HasExceptionHandling; 15099ea2c012SReid Kleckner } 15109ea2c012SReid Kleckner if (GV.hasFnAttribute(Attribute::InlineHint)) 15119ea2c012SReid Kleckner FPO |= FrameProcedureOptions::MarkedInline; 15129ea2c012SReid Kleckner if (GV.hasFnAttribute(Attribute::Naked)) 15139ea2c012SReid Kleckner FPO |= FrameProcedureOptions::Naked; 15149ea2c012SReid Kleckner if (MFI.hasStackProtectorIndex()) 15159ea2c012SReid Kleckner FPO |= FrameProcedureOptions::SecurityChecks; 15169ea2c012SReid Kleckner FPO |= FrameProcedureOptions(uint32_t(CurFn->EncodedLocalFramePtrReg) << 14U); 15179ea2c012SReid Kleckner FPO |= FrameProcedureOptions(uint32_t(CurFn->EncodedParamFramePtrReg) << 16U); 15187c711ccfSEvandro Menezes if (Asm->TM.getOptLevel() != CodeGenOpt::None && 151985bd3978SEvandro Menezes !GV.hasOptSize() && !GV.hasOptNone()) 15209ea2c012SReid Kleckner FPO |= FrameProcedureOptions::OptimizedForSpeed; 152177357208SMichael Holman if (GV.hasProfileData()) { 152277357208SMichael Holman FPO |= FrameProcedureOptions::ValidProfileCounts; 152377357208SMichael Holman FPO |= FrameProcedureOptions::ProfileGuidedOptimization; 152477357208SMichael Holman } 15259ea2c012SReid Kleckner // FIXME: Set GuardCfg when it is implemented. 15269ea2c012SReid Kleckner CurFn->FrameProcOpts = FPO; 15279ea2c012SReid Kleckner 1528a9f4cc95SReid Kleckner OS.EmitCVFuncIdDirective(CurFn->FuncId); 1529a9f4cc95SReid Kleckner 1530f9c275feSReid Kleckner // Find the end of the function prolog. First known non-DBG_VALUE and 1531f9c275feSReid Kleckner // non-frame setup location marks the beginning of the function body. 153270f5bc99SReid Kleckner // FIXME: is there a simpler a way to do this? Can we just search 153370f5bc99SReid Kleckner // for the first instruction of the function, not the last of the prolog? 153470f5bc99SReid Kleckner DebugLoc PrologEndLoc; 153570f5bc99SReid Kleckner bool EmptyPrologue = true; 153670f5bc99SReid Kleckner for (const auto &MBB : *MF) { 153770f5bc99SReid Kleckner for (const auto &MI : MBB) { 1538fb31da13SAdrian Prantl if (!MI.isMetaInstruction() && !MI.getFlag(MachineInstr::FrameSetup) && 1539f9c275feSReid Kleckner MI.getDebugLoc()) { 154070f5bc99SReid Kleckner PrologEndLoc = MI.getDebugLoc(); 154170f5bc99SReid Kleckner break; 1542fb31da13SAdrian Prantl } else if (!MI.isMetaInstruction()) { 154370f5bc99SReid Kleckner EmptyPrologue = false; 154470f5bc99SReid Kleckner } 154570f5bc99SReid Kleckner } 1546f9c275feSReid Kleckner } 1547f9c275feSReid Kleckner 154870f5bc99SReid Kleckner // Record beginning of function if we have a non-empty prologue. 154970f5bc99SReid Kleckner if (PrologEndLoc && !EmptyPrologue) { 155070f5bc99SReid Kleckner DebugLoc FnStartDL = PrologEndLoc.getFnDebugLoc(); 155170f5bc99SReid Kleckner maybeRecordLocation(FnStartDL, MF); 155270f5bc99SReid Kleckner } 155374204304SAmy Huang 155474204304SAmy Huang // Find heap alloc sites and emit labels around them. 155574204304SAmy Huang for (const auto &MBB : *MF) { 155674204304SAmy Huang for (const auto &MI : MBB) { 155774204304SAmy Huang if (MI.getHeapAllocMarker()) { 155874204304SAmy Huang requestLabelBeforeInsn(&MI); 155974204304SAmy Huang requestLabelAfterInsn(&MI); 156074204304SAmy Huang } 156174204304SAmy Huang } 156274204304SAmy Huang } 156370f5bc99SReid Kleckner } 156470f5bc99SReid Kleckner 1565a7b04174SZachary Turner static bool shouldEmitUdt(const DIType *T) { 156637c74749SZachary Turner if (!T) 156737c74749SZachary Turner return false; 156837c74749SZachary Turner 156937c74749SZachary Turner // MSVC does not emit UDTs for typedefs that are scoped to classes. 157037c74749SZachary Turner if (T->getTag() == dwarf::DW_TAG_typedef) { 1571da82ce99SFangrui Song if (DIScope *Scope = T->getScope()) { 157237c74749SZachary Turner switch (Scope->getTag()) { 157337c74749SZachary Turner case dwarf::DW_TAG_structure_type: 157437c74749SZachary Turner case dwarf::DW_TAG_class_type: 157537c74749SZachary Turner case dwarf::DW_TAG_union_type: 157637c74749SZachary Turner return false; 157761484762SChen Zheng default: 157861484762SChen Zheng // do nothing. 157961484762SChen Zheng ; 158037c74749SZachary Turner } 158137c74749SZachary Turner } 158237c74749SZachary Turner } 158337c74749SZachary Turner 1584a7b04174SZachary Turner while (true) { 1585a7b04174SZachary Turner if (!T || T->isForwardDecl()) 1586a7b04174SZachary Turner return false; 1587a7b04174SZachary Turner 1588a7b04174SZachary Turner const DIDerivedType *DT = dyn_cast<DIDerivedType>(T); 1589a7b04174SZachary Turner if (!DT) 1590a7b04174SZachary Turner return true; 1591da82ce99SFangrui Song T = DT->getBaseType(); 1592a7b04174SZachary Turner } 1593a7b04174SZachary Turner return true; 1594a7b04174SZachary Turner } 1595a7b04174SZachary Turner 1596a7b04174SZachary Turner void CodeViewDebug::addToUDTs(const DIType *Ty) { 1597ad56ea31SReid Kleckner // Don't record empty UDTs. 1598ad56ea31SReid Kleckner if (Ty->getName().empty()) 1599ad56ea31SReid Kleckner return; 1600a7b04174SZachary Turner if (!shouldEmitUdt(Ty)) 1601a7b04174SZachary Turner return; 1602ad56ea31SReid Kleckner 16032b8c6accSAmy Huang SmallVector<StringRef, 5> ParentScopeNames; 1604da82ce99SFangrui Song const DISubprogram *ClosestSubprogram = 16052b8c6accSAmy Huang collectParentScopeNames(Ty->getScope(), ParentScopeNames); 16064b63a98dSHans Wennborg 16074b63a98dSHans Wennborg std::string FullyQualifiedName = 16082b8c6accSAmy Huang formatNestedName(ParentScopeNames, getPrettyScopeName(Ty)); 16094b63a98dSHans Wennborg 1610a7b04174SZachary Turner if (ClosestSubprogram == nullptr) { 1611a7b04174SZachary Turner GlobalUDTs.emplace_back(std::move(FullyQualifiedName), Ty); 1612a7b04174SZachary Turner } else if (ClosestSubprogram == CurrentSubprogram) { 1613a7b04174SZachary Turner LocalUDTs.emplace_back(std::move(FullyQualifiedName), Ty); 1614a7b04174SZachary Turner } 16154b63a98dSHans Wennborg 16164b63a98dSHans Wennborg // TODO: What if the ClosestSubprogram is neither null or the current 16174b63a98dSHans Wennborg // subprogram? Currently, the UDT just gets dropped on the floor. 16184b63a98dSHans Wennborg // 16194b63a98dSHans Wennborg // The current behavior is not desirable. To get maximal fidelity, we would 16204b63a98dSHans Wennborg // need to perform all type translation before beginning emission of .debug$S 16214b63a98dSHans Wennborg // and then make LocalUDTs a member of FunctionInfo 16224b63a98dSHans Wennborg } 16234b63a98dSHans Wennborg 162476c9eb99SAmjad Aboud TypeIndex CodeViewDebug::lowerType(const DIType *Ty, const DIType *ClassTy) { 16255acacbb0SReid Kleckner // Generic dispatch for lowering an unknown type. 16265acacbb0SReid Kleckner switch (Ty->getTag()) { 1627f3c3c132SAdrian McCarthy case dwarf::DW_TAG_array_type: 1628f3c3c132SAdrian McCarthy return lowerTypeArray(cast<DICompositeType>(Ty)); 1629d065e23dSDavid Majnemer case dwarf::DW_TAG_typedef: 1630d065e23dSDavid Majnemer return lowerTypeAlias(cast<DIDerivedType>(Ty)); 16315acacbb0SReid Kleckner case dwarf::DW_TAG_base_type: 16325acacbb0SReid Kleckner return lowerTypeBasic(cast<DIBasicType>(Ty)); 16335acacbb0SReid Kleckner case dwarf::DW_TAG_pointer_type: 16349dac4731SReid Kleckner if (cast<DIDerivedType>(Ty)->getName() == "__vtbl_ptr_type") 16359dac4731SReid Kleckner return lowerTypeVFTableShape(cast<DIDerivedType>(Ty)); 16369dac4731SReid Kleckner LLVM_FALLTHROUGH; 16375acacbb0SReid Kleckner case dwarf::DW_TAG_reference_type: 16385acacbb0SReid Kleckner case dwarf::DW_TAG_rvalue_reference_type: 16395acacbb0SReid Kleckner return lowerTypePointer(cast<DIDerivedType>(Ty)); 16405acacbb0SReid Kleckner case dwarf::DW_TAG_ptr_to_member_type: 16415acacbb0SReid Kleckner return lowerTypeMemberPointer(cast<DIDerivedType>(Ty)); 16423acdc677SReid Kleckner case dwarf::DW_TAG_restrict_type: 16435acacbb0SReid Kleckner case dwarf::DW_TAG_const_type: 16445acacbb0SReid Kleckner case dwarf::DW_TAG_volatile_type: 1645e1156c2eSVictor Leschuk // TODO: add support for DW_TAG_atomic_type here 16465acacbb0SReid Kleckner return lowerTypeModifier(cast<DIDerivedType>(Ty)); 164775c3ebfaSDavid Majnemer case dwarf::DW_TAG_subroutine_type: 16480c5d874bSReid Kleckner if (ClassTy) { 16490c5d874bSReid Kleckner // The member function type of a member function pointer has no 16500c5d874bSReid Kleckner // ThisAdjustment. 16510c5d874bSReid Kleckner return lowerTypeMemberFunction(cast<DISubroutineType>(Ty), ClassTy, 1652d91bf399SAdrian McCarthy /*ThisAdjustment=*/0, 1653d91bf399SAdrian McCarthy /*IsStaticMethod=*/false); 16540c5d874bSReid Kleckner } 165575c3ebfaSDavid Majnemer return lowerTypeFunction(cast<DISubroutineType>(Ty)); 1656979cb888SDavid Majnemer case dwarf::DW_TAG_enumeration_type: 1657979cb888SDavid Majnemer return lowerTypeEnum(cast<DICompositeType>(Ty)); 1658a8d57407SReid Kleckner case dwarf::DW_TAG_class_type: 1659a8d57407SReid Kleckner case dwarf::DW_TAG_structure_type: 1660a8d57407SReid Kleckner return lowerTypeClass(cast<DICompositeType>(Ty)); 1661a8d57407SReid Kleckner case dwarf::DW_TAG_union_type: 1662a8d57407SReid Kleckner return lowerTypeUnion(cast<DICompositeType>(Ty)); 16632ed29d87SChih-Ping Chen case dwarf::DW_TAG_string_type: 16642ed29d87SChih-Ping Chen return lowerTypeString(cast<DIStringType>(Ty)); 1665a73fa2a0SAaron Smith case dwarf::DW_TAG_unspecified_type: 166656a5a0c3SZachary Turner if (Ty->getName() == "decltype(nullptr)") 166756a5a0c3SZachary Turner return TypeIndex::NullptrT(); 1668a73fa2a0SAaron Smith return TypeIndex::None(); 16695acacbb0SReid Kleckner default: 16705acacbb0SReid Kleckner // Use the null type index. 16715acacbb0SReid Kleckner return TypeIndex(); 16725acacbb0SReid Kleckner } 16735acacbb0SReid Kleckner } 16745acacbb0SReid Kleckner 1675d065e23dSDavid Majnemer TypeIndex CodeViewDebug::lowerTypeAlias(const DIDerivedType *Ty) { 1676da82ce99SFangrui Song TypeIndex UnderlyingTypeIndex = getTypeIndex(Ty->getBaseType()); 16773128b10cSDavid Majnemer StringRef TypeName = Ty->getName(); 16783128b10cSDavid Majnemer 1679a7b04174SZachary Turner addToUDTs(Ty); 16803128b10cSDavid Majnemer 1681d065e23dSDavid Majnemer if (UnderlyingTypeIndex == TypeIndex(SimpleTypeKind::Int32Long) && 16823128b10cSDavid Majnemer TypeName == "HRESULT") 1683d065e23dSDavid Majnemer return TypeIndex(SimpleTypeKind::HResult); 16848c46a4ceSDavid Majnemer if (UnderlyingTypeIndex == TypeIndex(SimpleTypeKind::UInt16Short) && 16853128b10cSDavid Majnemer TypeName == "wchar_t") 16868c46a4ceSDavid Majnemer return TypeIndex(SimpleTypeKind::WideCharacter); 16874b63a98dSHans Wennborg 1688d065e23dSDavid Majnemer return UnderlyingTypeIndex; 1689d065e23dSDavid Majnemer } 1690d065e23dSDavid Majnemer 1691f3c3c132SAdrian McCarthy TypeIndex CodeViewDebug::lowerTypeArray(const DICompositeType *Ty) { 1692da82ce99SFangrui Song const DIType *ElementType = Ty->getBaseType(); 1693da82ce99SFangrui Song TypeIndex ElementTypeIndex = getTypeIndex(ElementType); 1694f3c3c132SAdrian McCarthy // IndexType is size_t, which depends on the bitness of the target. 169541e5ac4fSMatt Arsenault TypeIndex IndexType = getPointerSizeInBytes() == 8 1696f3c3c132SAdrian McCarthy ? TypeIndex(SimpleTypeKind::UInt64Quad) 1697f3c3c132SAdrian McCarthy : TypeIndex(SimpleTypeKind::UInt32Long); 1698acee5685SAmjad Aboud 1699da82ce99SFangrui Song uint64_t ElementSize = getBaseTypeSize(ElementType) / 8; 1700acee5685SAmjad Aboud 1701acee5685SAmjad Aboud // Add subranges to array type. 1702acee5685SAmjad Aboud DINodeArray Elements = Ty->getElements(); 1703acee5685SAmjad Aboud for (int i = Elements.size() - 1; i >= 0; --i) { 1704acee5685SAmjad Aboud const DINode *Element = Elements[i]; 1705acee5685SAmjad Aboud assert(Element->getTag() == dwarf::DW_TAG_subrange_type); 1706acee5685SAmjad Aboud 1707acee5685SAmjad Aboud const DISubrange *Subrange = cast<DISubrange>(Element); 1708fdf40917SSander de Smalen int64_t Count = -1; 17092ed29d87SChih-Ping Chen 17102ed29d87SChih-Ping Chen // If Subrange has a Count field, use it. 17112ed29d87SChih-Ping Chen // Otherwise, if it has an upperboud, use (upperbound - lowerbound + 1), 17122ed29d87SChih-Ping Chen // where lowerbound is from the LowerBound field of the Subrange, 17132ed29d87SChih-Ping Chen // or the language default lowerbound if that field is unspecified. 1714fdf40917SSander de Smalen if (auto *CI = Subrange->getCount().dyn_cast<ConstantInt *>()) 1715fdf40917SSander de Smalen Count = CI->getSExtValue(); 17162ed29d87SChih-Ping Chen else if (auto *UI = Subrange->getUpperBound().dyn_cast<ConstantInt *>()) { 17172ed29d87SChih-Ping Chen // Fortran uses 1 as the default lowerbound; other languages use 0. 17182ed29d87SChih-Ping Chen int64_t Lowerbound = (moduleIsInFortran()) ? 1 : 0; 17192ed29d87SChih-Ping Chen auto *LI = Subrange->getLowerBound().dyn_cast<ConstantInt *>(); 17202ed29d87SChih-Ping Chen Lowerbound = (LI) ? LI->getSExtValue() : Lowerbound; 17212ed29d87SChih-Ping Chen Count = UI->getSExtValue() - Lowerbound + 1; 1722e45b0708SAlok Kumar Sharma } 1723acee5685SAmjad Aboud 1724cd7bba02SReid Kleckner // Forward declarations of arrays without a size and VLAs use a count of -1. 1725cd7bba02SReid Kleckner // Emit a count of zero in these cases to match what MSVC does for arrays 1726cd7bba02SReid Kleckner // without a size. MSVC doesn't support VLAs, so it's not clear what we 1727cd7bba02SReid Kleckner // should do for them even if we could distinguish them. 17286b78e163SReid Kleckner if (Count == -1) 172989af112cSReid Kleckner Count = 0; 1730acee5685SAmjad Aboud 1731acee5685SAmjad Aboud // Update the element size and element type index for subsequent subranges. 1732acee5685SAmjad Aboud ElementSize *= Count; 17331076288eSReid Kleckner 17341076288eSReid Kleckner // If this is the outermost array, use the size from the array. It will be 17356b78e163SReid Kleckner // more accurate if we had a VLA or an incomplete element type size. 17361076288eSReid Kleckner uint64_t ArraySize = 17371076288eSReid Kleckner (i == 0 && ElementSize == 0) ? Ty->getSizeInBits() / 8 : ElementSize; 17381076288eSReid Kleckner 17391076288eSReid Kleckner StringRef Name = (i == 0) ? Ty->getName() : ""; 17404efa0a42SZachary Turner ArrayRecord AR(ElementTypeIndex, IndexType, ArraySize, Name); 17416900de1dSZachary Turner ElementTypeIndex = TypeTable.writeLeafType(AR); 1742acee5685SAmjad Aboud } 1743acee5685SAmjad Aboud 1744acee5685SAmjad Aboud return ElementTypeIndex; 1745f3c3c132SAdrian McCarthy } 1746f3c3c132SAdrian McCarthy 17472ed29d87SChih-Ping Chen // This function lowers a Fortran character type (DIStringType). 17482ed29d87SChih-Ping Chen // Note that it handles only the character*n variant (using SizeInBits 17492ed29d87SChih-Ping Chen // field in DIString to describe the type size) at the moment. 17502ed29d87SChih-Ping Chen // Other variants (leveraging the StringLength and StringLengthExp 17512ed29d87SChih-Ping Chen // fields in DIStringType) remain TBD. 17522ed29d87SChih-Ping Chen TypeIndex CodeViewDebug::lowerTypeString(const DIStringType *Ty) { 17532ed29d87SChih-Ping Chen TypeIndex CharType = TypeIndex(SimpleTypeKind::NarrowCharacter); 17542ed29d87SChih-Ping Chen uint64_t ArraySize = Ty->getSizeInBits() >> 3; 17552ed29d87SChih-Ping Chen StringRef Name = Ty->getName(); 17562ed29d87SChih-Ping Chen // IndexType is size_t, which depends on the bitness of the target. 17572ed29d87SChih-Ping Chen TypeIndex IndexType = getPointerSizeInBytes() == 8 17582ed29d87SChih-Ping Chen ? TypeIndex(SimpleTypeKind::UInt64Quad) 17592ed29d87SChih-Ping Chen : TypeIndex(SimpleTypeKind::UInt32Long); 17602ed29d87SChih-Ping Chen 17612ed29d87SChih-Ping Chen // Create a type of character array of ArraySize. 17622ed29d87SChih-Ping Chen ArrayRecord AR(CharType, IndexType, ArraySize, Name); 17632ed29d87SChih-Ping Chen 17642ed29d87SChih-Ping Chen return TypeTable.writeLeafType(AR); 17652ed29d87SChih-Ping Chen } 17662ed29d87SChih-Ping Chen 17675acacbb0SReid Kleckner TypeIndex CodeViewDebug::lowerTypeBasic(const DIBasicType *Ty) { 17685acacbb0SReid Kleckner TypeIndex Index; 17695acacbb0SReid Kleckner dwarf::TypeKind Kind; 17705acacbb0SReid Kleckner uint32_t ByteSize; 17715acacbb0SReid Kleckner 17725acacbb0SReid Kleckner Kind = static_cast<dwarf::TypeKind>(Ty->getEncoding()); 1773afefa673SDavid Majnemer ByteSize = Ty->getSizeInBits() / 8; 17745acacbb0SReid Kleckner 17755acacbb0SReid Kleckner SimpleTypeKind STK = SimpleTypeKind::None; 17765acacbb0SReid Kleckner switch (Kind) { 17775acacbb0SReid Kleckner case dwarf::DW_ATE_address: 17785acacbb0SReid Kleckner // FIXME: Translate 17795acacbb0SReid Kleckner break; 17805acacbb0SReid Kleckner case dwarf::DW_ATE_boolean: 17815acacbb0SReid Kleckner switch (ByteSize) { 17825acacbb0SReid Kleckner case 1: STK = SimpleTypeKind::Boolean8; break; 17835acacbb0SReid Kleckner case 2: STK = SimpleTypeKind::Boolean16; break; 17845acacbb0SReid Kleckner case 4: STK = SimpleTypeKind::Boolean32; break; 17855acacbb0SReid Kleckner case 8: STK = SimpleTypeKind::Boolean64; break; 17861c2cb1ddSDavid Majnemer case 16: STK = SimpleTypeKind::Boolean128; break; 17875acacbb0SReid Kleckner } 17885acacbb0SReid Kleckner break; 17895acacbb0SReid Kleckner case dwarf::DW_ATE_complex_float: 17905acacbb0SReid Kleckner switch (ByteSize) { 17911c2cb1ddSDavid Majnemer case 2: STK = SimpleTypeKind::Complex16; break; 17925acacbb0SReid Kleckner case 4: STK = SimpleTypeKind::Complex32; break; 17935acacbb0SReid Kleckner case 8: STK = SimpleTypeKind::Complex64; break; 17945acacbb0SReid Kleckner case 10: STK = SimpleTypeKind::Complex80; break; 17955acacbb0SReid Kleckner case 16: STK = SimpleTypeKind::Complex128; break; 17965acacbb0SReid Kleckner } 17975acacbb0SReid Kleckner break; 17985acacbb0SReid Kleckner case dwarf::DW_ATE_float: 17995acacbb0SReid Kleckner switch (ByteSize) { 18001c2cb1ddSDavid Majnemer case 2: STK = SimpleTypeKind::Float16; break; 18015acacbb0SReid Kleckner case 4: STK = SimpleTypeKind::Float32; break; 18025acacbb0SReid Kleckner case 6: STK = SimpleTypeKind::Float48; break; 18035acacbb0SReid Kleckner case 8: STK = SimpleTypeKind::Float64; break; 18045acacbb0SReid Kleckner case 10: STK = SimpleTypeKind::Float80; break; 18055acacbb0SReid Kleckner case 16: STK = SimpleTypeKind::Float128; break; 18065acacbb0SReid Kleckner } 18075acacbb0SReid Kleckner break; 18085acacbb0SReid Kleckner case dwarf::DW_ATE_signed: 18095acacbb0SReid Kleckner switch (ByteSize) { 1810e45b2c7dSReid Kleckner case 1: STK = SimpleTypeKind::SignedCharacter; break; 18115acacbb0SReid Kleckner case 2: STK = SimpleTypeKind::Int16Short; break; 18125acacbb0SReid Kleckner case 4: STK = SimpleTypeKind::Int32; break; 18131c2cb1ddSDavid Majnemer case 8: STK = SimpleTypeKind::Int64Quad; break; 18141c2cb1ddSDavid Majnemer case 16: STK = SimpleTypeKind::Int128Oct; break; 18155acacbb0SReid Kleckner } 18165acacbb0SReid Kleckner break; 18175acacbb0SReid Kleckner case dwarf::DW_ATE_unsigned: 18185acacbb0SReid Kleckner switch (ByteSize) { 1819e45b2c7dSReid Kleckner case 1: STK = SimpleTypeKind::UnsignedCharacter; break; 18205acacbb0SReid Kleckner case 2: STK = SimpleTypeKind::UInt16Short; break; 18215acacbb0SReid Kleckner case 4: STK = SimpleTypeKind::UInt32; break; 18221c2cb1ddSDavid Majnemer case 8: STK = SimpleTypeKind::UInt64Quad; break; 18231c2cb1ddSDavid Majnemer case 16: STK = SimpleTypeKind::UInt128Oct; break; 18245acacbb0SReid Kleckner } 18255acacbb0SReid Kleckner break; 18265acacbb0SReid Kleckner case dwarf::DW_ATE_UTF: 18275acacbb0SReid Kleckner switch (ByteSize) { 18285acacbb0SReid Kleckner case 2: STK = SimpleTypeKind::Character16; break; 18295acacbb0SReid Kleckner case 4: STK = SimpleTypeKind::Character32; break; 18305acacbb0SReid Kleckner } 18315acacbb0SReid Kleckner break; 18325acacbb0SReid Kleckner case dwarf::DW_ATE_signed_char: 18335acacbb0SReid Kleckner if (ByteSize == 1) 18345acacbb0SReid Kleckner STK = SimpleTypeKind::SignedCharacter; 18355acacbb0SReid Kleckner break; 18365acacbb0SReid Kleckner case dwarf::DW_ATE_unsigned_char: 18375acacbb0SReid Kleckner if (ByteSize == 1) 18385acacbb0SReid Kleckner STK = SimpleTypeKind::UnsignedCharacter; 18395acacbb0SReid Kleckner break; 18405acacbb0SReid Kleckner default: 18415acacbb0SReid Kleckner break; 18425acacbb0SReid Kleckner } 18435acacbb0SReid Kleckner 18445acacbb0SReid Kleckner // Apply some fixups based on the source-level type name. 1845f6a561c4SDavid Blaikie // Include some amount of canonicalization from an old naming scheme Clang 1846f6a561c4SDavid Blaikie // used to use for integer types (in an outdated effort to be compatible with 1847f6a561c4SDavid Blaikie // GCC's debug info/GDB's behavior, which has since been addressed). 1848f6a561c4SDavid Blaikie if (STK == SimpleTypeKind::Int32 && 1849f6a561c4SDavid Blaikie (Ty->getName() == "long int" || Ty->getName() == "long")) 18505acacbb0SReid Kleckner STK = SimpleTypeKind::Int32Long; 1851f6a561c4SDavid Blaikie if (STK == SimpleTypeKind::UInt32 && (Ty->getName() == "long unsigned int" || 1852f6a561c4SDavid Blaikie Ty->getName() == "unsigned long")) 18535acacbb0SReid Kleckner STK = SimpleTypeKind::UInt32Long; 18548c46a4ceSDavid Majnemer if (STK == SimpleTypeKind::UInt16Short && 18558c46a4ceSDavid Majnemer (Ty->getName() == "wchar_t" || Ty->getName() == "__wchar_t")) 18565acacbb0SReid Kleckner STK = SimpleTypeKind::WideCharacter; 18575acacbb0SReid Kleckner if ((STK == SimpleTypeKind::SignedCharacter || 18585acacbb0SReid Kleckner STK == SimpleTypeKind::UnsignedCharacter) && 18595acacbb0SReid Kleckner Ty->getName() == "char") 18605acacbb0SReid Kleckner STK = SimpleTypeKind::NarrowCharacter; 18615acacbb0SReid Kleckner 18625acacbb0SReid Kleckner return TypeIndex(STK); 18635acacbb0SReid Kleckner } 18645acacbb0SReid Kleckner 18653acdc677SReid Kleckner TypeIndex CodeViewDebug::lowerTypePointer(const DIDerivedType *Ty, 18663acdc677SReid Kleckner PointerOptions PO) { 18675acacbb0SReid Kleckner TypeIndex PointeeTI = getTypeIndex(Ty->getBaseType()); 18685acacbb0SReid Kleckner 18693acdc677SReid Kleckner // Pointers to simple types without any options can use SimpleTypeMode, rather 18703acdc677SReid Kleckner // than having a dedicated pointer type record. 18713acdc677SReid Kleckner if (PointeeTI.isSimple() && PO == PointerOptions::None && 18725acacbb0SReid Kleckner PointeeTI.getSimpleMode() == SimpleTypeMode::Direct && 18735acacbb0SReid Kleckner Ty->getTag() == dwarf::DW_TAG_pointer_type) { 18745acacbb0SReid Kleckner SimpleTypeMode Mode = Ty->getSizeInBits() == 64 18755acacbb0SReid Kleckner ? SimpleTypeMode::NearPointer64 18765acacbb0SReid Kleckner : SimpleTypeMode::NearPointer32; 18775acacbb0SReid Kleckner return TypeIndex(PointeeTI.getSimpleKind(), Mode); 18785acacbb0SReid Kleckner } 18795acacbb0SReid Kleckner 18805acacbb0SReid Kleckner PointerKind PK = 18815acacbb0SReid Kleckner Ty->getSizeInBits() == 64 ? PointerKind::Near64 : PointerKind::Near32; 18825acacbb0SReid Kleckner PointerMode PM = PointerMode::Pointer; 18835acacbb0SReid Kleckner switch (Ty->getTag()) { 18845acacbb0SReid Kleckner default: llvm_unreachable("not a pointer tag type"); 18855acacbb0SReid Kleckner case dwarf::DW_TAG_pointer_type: 18865acacbb0SReid Kleckner PM = PointerMode::Pointer; 18875acacbb0SReid Kleckner break; 18885acacbb0SReid Kleckner case dwarf::DW_TAG_reference_type: 18895acacbb0SReid Kleckner PM = PointerMode::LValueReference; 18905acacbb0SReid Kleckner break; 18915acacbb0SReid Kleckner case dwarf::DW_TAG_rvalue_reference_type: 18925acacbb0SReid Kleckner PM = PointerMode::RValueReference; 18935acacbb0SReid Kleckner break; 18945acacbb0SReid Kleckner } 18953acdc677SReid Kleckner 18963826566cSZachary Turner if (Ty->isObjectPointer()) 18973826566cSZachary Turner PO |= PointerOptions::Const; 18983826566cSZachary Turner 18995acacbb0SReid Kleckner PointerRecord PR(PointeeTI, PK, PM, PO, Ty->getSizeInBits() / 8); 19006900de1dSZachary Turner return TypeTable.writeLeafType(PR); 19015acacbb0SReid Kleckner } 19025acacbb0SReid Kleckner 19036fa1546aSReid Kleckner static PointerToMemberRepresentation 19046fa1546aSReid Kleckner translatePtrToMemberRep(unsigned SizeInBytes, bool IsPMF, unsigned Flags) { 19056fa1546aSReid Kleckner // SizeInBytes being zero generally implies that the member pointer type was 19066fa1546aSReid Kleckner // incomplete, which can happen if it is part of a function prototype. In this 19076fa1546aSReid Kleckner // case, use the unknown model instead of the general model. 1908604105bbSReid Kleckner if (IsPMF) { 1909604105bbSReid Kleckner switch (Flags & DINode::FlagPtrToMemberRep) { 1910604105bbSReid Kleckner case 0: 19116fa1546aSReid Kleckner return SizeInBytes == 0 ? PointerToMemberRepresentation::Unknown 19126fa1546aSReid Kleckner : PointerToMemberRepresentation::GeneralFunction; 1913604105bbSReid Kleckner case DINode::FlagSingleInheritance: 1914604105bbSReid Kleckner return PointerToMemberRepresentation::SingleInheritanceFunction; 1915604105bbSReid Kleckner case DINode::FlagMultipleInheritance: 1916604105bbSReid Kleckner return PointerToMemberRepresentation::MultipleInheritanceFunction; 1917604105bbSReid Kleckner case DINode::FlagVirtualInheritance: 1918604105bbSReid Kleckner return PointerToMemberRepresentation::VirtualInheritanceFunction; 1919604105bbSReid Kleckner } 1920604105bbSReid Kleckner } else { 1921604105bbSReid Kleckner switch (Flags & DINode::FlagPtrToMemberRep) { 1922604105bbSReid Kleckner case 0: 19236fa1546aSReid Kleckner return SizeInBytes == 0 ? PointerToMemberRepresentation::Unknown 19246fa1546aSReid Kleckner : PointerToMemberRepresentation::GeneralData; 1925604105bbSReid Kleckner case DINode::FlagSingleInheritance: 1926604105bbSReid Kleckner return PointerToMemberRepresentation::SingleInheritanceData; 1927604105bbSReid Kleckner case DINode::FlagMultipleInheritance: 1928604105bbSReid Kleckner return PointerToMemberRepresentation::MultipleInheritanceData; 1929604105bbSReid Kleckner case DINode::FlagVirtualInheritance: 1930604105bbSReid Kleckner return PointerToMemberRepresentation::VirtualInheritanceData; 1931604105bbSReid Kleckner } 1932604105bbSReid Kleckner } 1933604105bbSReid Kleckner llvm_unreachable("invalid ptr to member representation"); 1934604105bbSReid Kleckner } 1935604105bbSReid Kleckner 19363acdc677SReid Kleckner TypeIndex CodeViewDebug::lowerTypeMemberPointer(const DIDerivedType *Ty, 19373acdc677SReid Kleckner PointerOptions PO) { 19385acacbb0SReid Kleckner assert(Ty->getTag() == dwarf::DW_TAG_ptr_to_member_type); 193947cc6db9SReid Kleckner bool IsPMF = isa<DISubroutineType>(Ty->getBaseType()); 19405acacbb0SReid Kleckner TypeIndex ClassTI = getTypeIndex(Ty->getClassType()); 194147cc6db9SReid Kleckner TypeIndex PointeeTI = 194247cc6db9SReid Kleckner getTypeIndex(Ty->getBaseType(), IsPMF ? Ty->getClassType() : nullptr); 194341e5ac4fSMatt Arsenault PointerKind PK = getPointerSizeInBytes() == 8 ? PointerKind::Near64 19445acacbb0SReid Kleckner : PointerKind::Near32; 1945604105bbSReid Kleckner PointerMode PM = IsPMF ? PointerMode::PointerToMemberFunction 19465acacbb0SReid Kleckner : PointerMode::PointerToDataMember; 19473acdc677SReid Kleckner 19486fa1546aSReid Kleckner assert(Ty->getSizeInBits() / 8 <= 0xff && "pointer size too big"); 19496fa1546aSReid Kleckner uint8_t SizeInBytes = Ty->getSizeInBits() / 8; 19506fa1546aSReid Kleckner MemberPointerInfo MPI( 19516fa1546aSReid Kleckner ClassTI, translatePtrToMemberRep(SizeInBytes, IsPMF, Ty->getFlags())); 1952604105bbSReid Kleckner PointerRecord PR(PointeeTI, PK, PM, PO, SizeInBytes, MPI); 19536900de1dSZachary Turner return TypeTable.writeLeafType(PR); 19545acacbb0SReid Kleckner } 19555acacbb0SReid Kleckner 1956de3d8b50SReid Kleckner /// Given a DWARF calling convention, get the CodeView equivalent. If we don't 1957de3d8b50SReid Kleckner /// have a translation, use the NearC convention. 1958de3d8b50SReid Kleckner static CallingConvention dwarfCCToCodeView(unsigned DwarfCC) { 1959de3d8b50SReid Kleckner switch (DwarfCC) { 1960de3d8b50SReid Kleckner case dwarf::DW_CC_normal: return CallingConvention::NearC; 1961de3d8b50SReid Kleckner case dwarf::DW_CC_BORLAND_msfastcall: return CallingConvention::NearFast; 1962de3d8b50SReid Kleckner case dwarf::DW_CC_BORLAND_thiscall: return CallingConvention::ThisCall; 1963de3d8b50SReid Kleckner case dwarf::DW_CC_BORLAND_stdcall: return CallingConvention::NearStdCall; 1964de3d8b50SReid Kleckner case dwarf::DW_CC_BORLAND_pascal: return CallingConvention::NearPascal; 1965de3d8b50SReid Kleckner case dwarf::DW_CC_LLVM_vectorcall: return CallingConvention::NearVector; 1966de3d8b50SReid Kleckner } 1967de3d8b50SReid Kleckner return CallingConvention::NearC; 1968de3d8b50SReid Kleckner } 1969de3d8b50SReid Kleckner 19705acacbb0SReid Kleckner TypeIndex CodeViewDebug::lowerTypeModifier(const DIDerivedType *Ty) { 19715acacbb0SReid Kleckner ModifierOptions Mods = ModifierOptions::None; 19723acdc677SReid Kleckner PointerOptions PO = PointerOptions::None; 19735acacbb0SReid Kleckner bool IsModifier = true; 19745acacbb0SReid Kleckner const DIType *BaseTy = Ty; 1975b9c80fd8SReid Kleckner while (IsModifier && BaseTy) { 1976e1156c2eSVictor Leschuk // FIXME: Need to add DWARF tags for __unaligned and _Atomic 19775acacbb0SReid Kleckner switch (BaseTy->getTag()) { 19785acacbb0SReid Kleckner case dwarf::DW_TAG_const_type: 19795acacbb0SReid Kleckner Mods |= ModifierOptions::Const; 19803acdc677SReid Kleckner PO |= PointerOptions::Const; 19815acacbb0SReid Kleckner break; 19825acacbb0SReid Kleckner case dwarf::DW_TAG_volatile_type: 19835acacbb0SReid Kleckner Mods |= ModifierOptions::Volatile; 19843acdc677SReid Kleckner PO |= PointerOptions::Volatile; 19853acdc677SReid Kleckner break; 19863acdc677SReid Kleckner case dwarf::DW_TAG_restrict_type: 19873acdc677SReid Kleckner // Only pointer types be marked with __restrict. There is no known flag 19883acdc677SReid Kleckner // for __restrict in LF_MODIFIER records. 19893acdc677SReid Kleckner PO |= PointerOptions::Restrict; 19905acacbb0SReid Kleckner break; 19915acacbb0SReid Kleckner default: 19925acacbb0SReid Kleckner IsModifier = false; 19935acacbb0SReid Kleckner break; 19945acacbb0SReid Kleckner } 19955acacbb0SReid Kleckner if (IsModifier) 1996da82ce99SFangrui Song BaseTy = cast<DIDerivedType>(BaseTy)->getBaseType(); 19975acacbb0SReid Kleckner } 19983acdc677SReid Kleckner 19993acdc677SReid Kleckner // Check if the inner type will use an LF_POINTER record. If so, the 20003acdc677SReid Kleckner // qualifiers will go in the LF_POINTER record. This comes up for types like 20013acdc677SReid Kleckner // 'int *const' and 'int *__restrict', not the more common cases like 'const 20023acdc677SReid Kleckner // char *'. 20033acdc677SReid Kleckner if (BaseTy) { 20043acdc677SReid Kleckner switch (BaseTy->getTag()) { 20053acdc677SReid Kleckner case dwarf::DW_TAG_pointer_type: 20063acdc677SReid Kleckner case dwarf::DW_TAG_reference_type: 20073acdc677SReid Kleckner case dwarf::DW_TAG_rvalue_reference_type: 20083acdc677SReid Kleckner return lowerTypePointer(cast<DIDerivedType>(BaseTy), PO); 20093acdc677SReid Kleckner case dwarf::DW_TAG_ptr_to_member_type: 20103acdc677SReid Kleckner return lowerTypeMemberPointer(cast<DIDerivedType>(BaseTy), PO); 20113acdc677SReid Kleckner default: 20123acdc677SReid Kleckner break; 20133acdc677SReid Kleckner } 20143acdc677SReid Kleckner } 20153acdc677SReid Kleckner 20165acacbb0SReid Kleckner TypeIndex ModifiedTI = getTypeIndex(BaseTy); 20173acdc677SReid Kleckner 20183acdc677SReid Kleckner // Return the base type index if there aren't any modifiers. For example, the 20193acdc677SReid Kleckner // metadata could contain restrict wrappers around non-pointer types. 20203acdc677SReid Kleckner if (Mods == ModifierOptions::None) 20213acdc677SReid Kleckner return ModifiedTI; 20223acdc677SReid Kleckner 20234efa0a42SZachary Turner ModifierRecord MR(ModifiedTI, Mods); 20246900de1dSZachary Turner return TypeTable.writeLeafType(MR); 20255acacbb0SReid Kleckner } 20265acacbb0SReid Kleckner 202775c3ebfaSDavid Majnemer TypeIndex CodeViewDebug::lowerTypeFunction(const DISubroutineType *Ty) { 202875c3ebfaSDavid Majnemer SmallVector<TypeIndex, 8> ReturnAndArgTypeIndices; 2029da82ce99SFangrui Song for (const DIType *ArgType : Ty->getTypeArray()) 2030da82ce99SFangrui Song ReturnAndArgTypeIndices.push_back(getTypeIndex(ArgType)); 203175c3ebfaSDavid Majnemer 2032a73fa2a0SAaron Smith // MSVC uses type none for variadic argument. 2033a73fa2a0SAaron Smith if (ReturnAndArgTypeIndices.size() > 1 && 2034a73fa2a0SAaron Smith ReturnAndArgTypeIndices.back() == TypeIndex::Void()) { 2035a73fa2a0SAaron Smith ReturnAndArgTypeIndices.back() = TypeIndex::None(); 2036a73fa2a0SAaron Smith } 203775c3ebfaSDavid Majnemer TypeIndex ReturnTypeIndex = TypeIndex::Void(); 203875c3ebfaSDavid Majnemer ArrayRef<TypeIndex> ArgTypeIndices = None; 203975c3ebfaSDavid Majnemer if (!ReturnAndArgTypeIndices.empty()) { 204075c3ebfaSDavid Majnemer auto ReturnAndArgTypesRef = makeArrayRef(ReturnAndArgTypeIndices); 204175c3ebfaSDavid Majnemer ReturnTypeIndex = ReturnAndArgTypesRef.front(); 204275c3ebfaSDavid Majnemer ArgTypeIndices = ReturnAndArgTypesRef.drop_front(); 204375c3ebfaSDavid Majnemer } 204475c3ebfaSDavid Majnemer 204575c3ebfaSDavid Majnemer ArgListRecord ArgListRec(TypeRecordKind::ArgList, ArgTypeIndices); 20466900de1dSZachary Turner TypeIndex ArgListIndex = TypeTable.writeLeafType(ArgListRec); 204775c3ebfaSDavid Majnemer 2048de3d8b50SReid Kleckner CallingConvention CC = dwarfCCToCodeView(Ty->getCC()); 2049de3d8b50SReid Kleckner 2050802b033dSAaron Smith FunctionOptions FO = getFunctionOptions(Ty); 2051802b033dSAaron Smith ProcedureRecord Procedure(ReturnTypeIndex, CC, FO, ArgTypeIndices.size(), 2052802b033dSAaron Smith ArgListIndex); 20536900de1dSZachary Turner return TypeTable.writeLeafType(Procedure); 205475c3ebfaSDavid Majnemer } 205575c3ebfaSDavid Majnemer 205676c9eb99SAmjad Aboud TypeIndex CodeViewDebug::lowerTypeMemberFunction(const DISubroutineType *Ty, 20570c5d874bSReid Kleckner const DIType *ClassTy, 2058d91bf399SAdrian McCarthy int ThisAdjustment, 2059802b033dSAaron Smith bool IsStaticMethod, 2060802b033dSAaron Smith FunctionOptions FO) { 206176c9eb99SAmjad Aboud // Lower the containing class type. 206276c9eb99SAmjad Aboud TypeIndex ClassType = getTypeIndex(ClassTy); 206376c9eb99SAmjad Aboud 2064c68f8957SZachary Turner DITypeRefArray ReturnAndArgs = Ty->getTypeArray(); 2065c68f8957SZachary Turner 2066c68f8957SZachary Turner unsigned Index = 0; 2067c68f8957SZachary Turner SmallVector<TypeIndex, 8> ArgTypeIndices; 20687a3108ffSJosh Stone TypeIndex ReturnTypeIndex = TypeIndex::Void(); 20697a3108ffSJosh Stone if (ReturnAndArgs.size() > Index) { 20707a3108ffSJosh Stone ReturnTypeIndex = getTypeIndex(ReturnAndArgs[Index++]); 20717a3108ffSJosh Stone } 2072c68f8957SZachary Turner 2073c168c6f8SReid Kleckner // If the first argument is a pointer type and this isn't a static method, 2074c168c6f8SReid Kleckner // treat it as the special 'this' parameter, which is encoded separately from 2075c168c6f8SReid Kleckner // the arguments. 2076c68f8957SZachary Turner TypeIndex ThisTypeIndex; 2077c168c6f8SReid Kleckner if (!IsStaticMethod && ReturnAndArgs.size() > Index) { 2078c168c6f8SReid Kleckner if (const DIDerivedType *PtrTy = 2079da82ce99SFangrui Song dyn_cast_or_null<DIDerivedType>(ReturnAndArgs[Index])) { 2080c168c6f8SReid Kleckner if (PtrTy->getTag() == dwarf::DW_TAG_pointer_type) { 2081c168c6f8SReid Kleckner ThisTypeIndex = getTypeIndexForThisPtr(PtrTy, Ty); 2082c168c6f8SReid Kleckner Index++; 2083c168c6f8SReid Kleckner } 2084c168c6f8SReid Kleckner } 2085c168c6f8SReid Kleckner } 2086c68f8957SZachary Turner 2087c68f8957SZachary Turner while (Index < ReturnAndArgs.size()) 2088c68f8957SZachary Turner ArgTypeIndices.push_back(getTypeIndex(ReturnAndArgs[Index++])); 208976c9eb99SAmjad Aboud 2090a73fa2a0SAaron Smith // MSVC uses type none for variadic argument. 2091c68f8957SZachary Turner if (!ArgTypeIndices.empty() && ArgTypeIndices.back() == TypeIndex::Void()) 2092c68f8957SZachary Turner ArgTypeIndices.back() = TypeIndex::None(); 209376c9eb99SAmjad Aboud 209476c9eb99SAmjad Aboud ArgListRecord ArgListRec(TypeRecordKind::ArgList, ArgTypeIndices); 20956900de1dSZachary Turner TypeIndex ArgListIndex = TypeTable.writeLeafType(ArgListRec); 209676c9eb99SAmjad Aboud 209776c9eb99SAmjad Aboud CallingConvention CC = dwarfCCToCodeView(Ty->getCC()); 209876c9eb99SAmjad Aboud 2099802b033dSAaron Smith MemberFunctionRecord MFR(ReturnTypeIndex, ClassType, ThisTypeIndex, CC, FO, 2100802b033dSAaron Smith ArgTypeIndices.size(), ArgListIndex, ThisAdjustment); 21016900de1dSZachary Turner return TypeTable.writeLeafType(MFR); 210276c9eb99SAmjad Aboud } 210376c9eb99SAmjad Aboud 21049dac4731SReid Kleckner TypeIndex CodeViewDebug::lowerTypeVFTableShape(const DIDerivedType *Ty) { 2105dc77b2e9SKonstantin Zhuravlyov unsigned VSlotCount = 2106dc77b2e9SKonstantin Zhuravlyov Ty->getSizeInBits() / (8 * Asm->MAI->getCodePointerSize()); 21079dac4731SReid Kleckner SmallVector<VFTableSlotKind, 4> Slots(VSlotCount, VFTableSlotKind::Near); 21084efa0a42SZachary Turner 21094efa0a42SZachary Turner VFTableShapeRecord VFTSR(Slots); 21106900de1dSZachary Turner return TypeTable.writeLeafType(VFTSR); 21119dac4731SReid Kleckner } 21129dac4731SReid Kleckner 211376c9eb99SAmjad Aboud static MemberAccess translateAccessFlags(unsigned RecordTag, unsigned Flags) { 211476c9eb99SAmjad Aboud switch (Flags & DINode::FlagAccessibility) { 2115a8d57407SReid Kleckner case DINode::FlagPrivate: return MemberAccess::Private; 2116a8d57407SReid Kleckner case DINode::FlagPublic: return MemberAccess::Public; 2117a8d57407SReid Kleckner case DINode::FlagProtected: return MemberAccess::Protected; 2118a8d57407SReid Kleckner case 0: 2119a8d57407SReid Kleckner // If there was no explicit access control, provide the default for the tag. 2120a8d57407SReid Kleckner return RecordTag == dwarf::DW_TAG_class_type ? MemberAccess::Private 2121a8d57407SReid Kleckner : MemberAccess::Public; 2122a8d57407SReid Kleckner } 2123a8d57407SReid Kleckner llvm_unreachable("access flags are exclusive"); 2124a8d57407SReid Kleckner } 2125a8d57407SReid Kleckner 212676c9eb99SAmjad Aboud static MethodOptions translateMethodOptionFlags(const DISubprogram *SP) { 212776c9eb99SAmjad Aboud if (SP->isArtificial()) 212876c9eb99SAmjad Aboud return MethodOptions::CompilerGenerated; 212976c9eb99SAmjad Aboud 213076c9eb99SAmjad Aboud // FIXME: Handle other MethodOptions. 213176c9eb99SAmjad Aboud 213276c9eb99SAmjad Aboud return MethodOptions::None; 213376c9eb99SAmjad Aboud } 213476c9eb99SAmjad Aboud 213576c9eb99SAmjad Aboud static MethodKind translateMethodKindFlags(const DISubprogram *SP, 213676c9eb99SAmjad Aboud bool Introduced) { 2137d91bf399SAdrian McCarthy if (SP->getFlags() & DINode::FlagStaticMember) 2138d91bf399SAdrian McCarthy return MethodKind::Static; 2139d91bf399SAdrian McCarthy 214076c9eb99SAmjad Aboud switch (SP->getVirtuality()) { 214176c9eb99SAmjad Aboud case dwarf::DW_VIRTUALITY_none: 214276c9eb99SAmjad Aboud break; 214376c9eb99SAmjad Aboud case dwarf::DW_VIRTUALITY_virtual: 214476c9eb99SAmjad Aboud return Introduced ? MethodKind::IntroducingVirtual : MethodKind::Virtual; 214576c9eb99SAmjad Aboud case dwarf::DW_VIRTUALITY_pure_virtual: 214676c9eb99SAmjad Aboud return Introduced ? MethodKind::PureIntroducingVirtual 214776c9eb99SAmjad Aboud : MethodKind::PureVirtual; 214876c9eb99SAmjad Aboud default: 214976c9eb99SAmjad Aboud llvm_unreachable("unhandled virtuality case"); 215076c9eb99SAmjad Aboud } 215176c9eb99SAmjad Aboud 215276c9eb99SAmjad Aboud return MethodKind::Vanilla; 215376c9eb99SAmjad Aboud } 215476c9eb99SAmjad Aboud 2155a8d57407SReid Kleckner static TypeRecordKind getRecordKind(const DICompositeType *Ty) { 2156a8d57407SReid Kleckner switch (Ty->getTag()) { 215761484762SChen Zheng case dwarf::DW_TAG_class_type: 215861484762SChen Zheng return TypeRecordKind::Class; 215961484762SChen Zheng case dwarf::DW_TAG_structure_type: 216061484762SChen Zheng return TypeRecordKind::Struct; 216161484762SChen Zheng default: 2162a8d57407SReid Kleckner llvm_unreachable("unexpected tag"); 2163a8d57407SReid Kleckner } 216461484762SChen Zheng } 2165a8d57407SReid Kleckner 2166e092dad7SReid Kleckner /// Return ClassOptions that should be present on both the forward declaration 2167e092dad7SReid Kleckner /// and the defintion of a tag type. 2168e092dad7SReid Kleckner static ClassOptions getCommonClassOptions(const DICompositeType *Ty) { 2169e092dad7SReid Kleckner ClassOptions CO = ClassOptions::None; 2170e092dad7SReid Kleckner 2171e092dad7SReid Kleckner // MSVC always sets this flag, even for local types. Clang doesn't always 2172a8d57407SReid Kleckner // appear to give every type a linkage name, which may be problematic for us. 2173a8d57407SReid Kleckner // FIXME: Investigate the consequences of not following them here. 2174e092dad7SReid Kleckner if (!Ty->getIdentifier().empty()) 2175e092dad7SReid Kleckner CO |= ClassOptions::HasUniqueName; 2176e092dad7SReid Kleckner 2177e092dad7SReid Kleckner // Put the Nested flag on a type if it appears immediately inside a tag type. 2178e092dad7SReid Kleckner // Do not walk the scope chain. Do not attempt to compute ContainsNestedClass 2179e092dad7SReid Kleckner // here. That flag is only set on definitions, and not forward declarations. 2180da82ce99SFangrui Song const DIScope *ImmediateScope = Ty->getScope(); 2181e092dad7SReid Kleckner if (ImmediateScope && isa<DICompositeType>(ImmediateScope)) 2182e092dad7SReid Kleckner CO |= ClassOptions::Nested; 2183e092dad7SReid Kleckner 2184da0602c1SAaron Smith // Put the Scoped flag on function-local types. MSVC puts this flag for enum 2185da0602c1SAaron Smith // type only when it has an immediate function scope. Clang never puts enums 2186da0602c1SAaron Smith // inside DILexicalBlock scopes. Enum types, as generated by clang, are 2187da0602c1SAaron Smith // always in function, class, or file scopes. 2188da0602c1SAaron Smith if (Ty->getTag() == dwarf::DW_TAG_enumeration_type) { 2189da0602c1SAaron Smith if (ImmediateScope && isa<DISubprogram>(ImmediateScope)) 2190da0602c1SAaron Smith CO |= ClassOptions::Scoped; 2191da0602c1SAaron Smith } else { 2192e092dad7SReid Kleckner for (const DIScope *Scope = ImmediateScope; Scope != nullptr; 2193da82ce99SFangrui Song Scope = Scope->getScope()) { 2194e092dad7SReid Kleckner if (isa<DISubprogram>(Scope)) { 2195e092dad7SReid Kleckner CO |= ClassOptions::Scoped; 2196e092dad7SReid Kleckner break; 2197e092dad7SReid Kleckner } 2198e092dad7SReid Kleckner } 2199da0602c1SAaron Smith } 2200e092dad7SReid Kleckner 2201e092dad7SReid Kleckner return CO; 2202a8d57407SReid Kleckner } 2203a8d57407SReid Kleckner 2204122d9e79SAaron Smith void CodeViewDebug::addUDTSrcLine(const DIType *Ty, TypeIndex TI) { 2205122d9e79SAaron Smith switch (Ty->getTag()) { 2206122d9e79SAaron Smith case dwarf::DW_TAG_class_type: 2207122d9e79SAaron Smith case dwarf::DW_TAG_structure_type: 2208122d9e79SAaron Smith case dwarf::DW_TAG_union_type: 2209122d9e79SAaron Smith case dwarf::DW_TAG_enumeration_type: 2210122d9e79SAaron Smith break; 2211122d9e79SAaron Smith default: 2212122d9e79SAaron Smith return; 2213122d9e79SAaron Smith } 2214122d9e79SAaron Smith 2215122d9e79SAaron Smith if (const auto *File = Ty->getFile()) { 2216122d9e79SAaron Smith StringIdRecord SIDR(TypeIndex(0x0), getFullFilepath(File)); 2217122d9e79SAaron Smith TypeIndex SIDI = TypeTable.writeLeafType(SIDR); 2218122d9e79SAaron Smith 2219122d9e79SAaron Smith UdtSourceLineRecord USLR(TI, SIDI, Ty->getLine()); 2220122d9e79SAaron Smith TypeTable.writeLeafType(USLR); 2221122d9e79SAaron Smith } 2222122d9e79SAaron Smith } 2223122d9e79SAaron Smith 2224979cb888SDavid Majnemer TypeIndex CodeViewDebug::lowerTypeEnum(const DICompositeType *Ty) { 2225e092dad7SReid Kleckner ClassOptions CO = getCommonClassOptions(Ty); 2226979cb888SDavid Majnemer TypeIndex FTI; 2227da9548f9SDavid Majnemer unsigned EnumeratorCount = 0; 2228979cb888SDavid Majnemer 2229da9548f9SDavid Majnemer if (Ty->isForwardDecl()) { 2230979cb888SDavid Majnemer CO |= ClassOptions::ForwardReference; 2231da9548f9SDavid Majnemer } else { 22326900de1dSZachary Turner ContinuationRecordBuilder ContinuationBuilder; 22336900de1dSZachary Turner ContinuationBuilder.begin(ContinuationRecordKind::FieldList); 2234da9548f9SDavid Majnemer for (const DINode *Element : Ty->getElements()) { 2235da9548f9SDavid Majnemer // We assume that the frontend provides all members in source declaration 2236da9548f9SDavid Majnemer // order, which is what MSVC does. 2237da9548f9SDavid Majnemer if (auto *Enumerator = dyn_cast_or_null<DIEnumerator>(Element)) { 2238f84c70a3SMatheus Izvekov // FIXME: Is it correct to always emit these as unsigned here? 22394efa0a42SZachary Turner EnumeratorRecord ER(MemberAccess::Public, 2240aad3d578SLemonBoy APSInt(Enumerator->getValue(), true), 22414efa0a42SZachary Turner Enumerator->getName()); 22426900de1dSZachary Turner ContinuationBuilder.writeMemberType(ER); 2243da9548f9SDavid Majnemer EnumeratorCount++; 2244da9548f9SDavid Majnemer } 2245da9548f9SDavid Majnemer } 22466900de1dSZachary Turner FTI = TypeTable.insertRecord(ContinuationBuilder); 2247da9548f9SDavid Majnemer } 2248979cb888SDavid Majnemer 22496bdc24e7SDavid Majnemer std::string FullName = getFullyQualifiedName(Ty); 22500c5d874bSReid Kleckner 22514efa0a42SZachary Turner EnumRecord ER(EnumeratorCount, CO, FTI, FullName, Ty->getIdentifier(), 22524efa0a42SZachary Turner getTypeIndex(Ty->getBaseType())); 2253122d9e79SAaron Smith TypeIndex EnumTI = TypeTable.writeLeafType(ER); 2254122d9e79SAaron Smith 2255122d9e79SAaron Smith addUDTSrcLine(Ty, EnumTI); 2256122d9e79SAaron Smith 2257122d9e79SAaron Smith return EnumTI; 2258979cb888SDavid Majnemer } 2259979cb888SDavid Majnemer 226076c9eb99SAmjad Aboud //===----------------------------------------------------------------------===// 226176c9eb99SAmjad Aboud // ClassInfo 226276c9eb99SAmjad Aboud //===----------------------------------------------------------------------===// 226376c9eb99SAmjad Aboud 226476c9eb99SAmjad Aboud struct llvm::ClassInfo { 226576c9eb99SAmjad Aboud struct MemberInfo { 226676c9eb99SAmjad Aboud const DIDerivedType *MemberTypeNode; 226708bd744cSDavid Majnemer uint64_t BaseOffset; 226876c9eb99SAmjad Aboud }; 226976c9eb99SAmjad Aboud // [MemberInfo] 2270fb69e66cSEugene Zelenko using MemberList = std::vector<MemberInfo>; 227176c9eb99SAmjad Aboud 2272fb69e66cSEugene Zelenko using MethodsList = TinyPtrVector<const DISubprogram *>; 227376c9eb99SAmjad Aboud // MethodName -> MethodsList 2274fb69e66cSEugene Zelenko using MethodsMap = MapVector<MDString *, MethodsList>; 227576c9eb99SAmjad Aboud 22769f7f3e1eSReid Kleckner /// Base classes. 22779f7f3e1eSReid Kleckner std::vector<const DIDerivedType *> Inheritance; 22789f7f3e1eSReid Kleckner 227976c9eb99SAmjad Aboud /// Direct members. 228076c9eb99SAmjad Aboud MemberList Members; 228176c9eb99SAmjad Aboud // Direct overloaded methods gathered by name. 228276c9eb99SAmjad Aboud MethodsMap Methods; 2283820ca540SAdrian McCarthy 22849dac4731SReid Kleckner TypeIndex VShapeTI; 22859dac4731SReid Kleckner 2286e2e82061SReid Kleckner std::vector<const DIType *> NestedTypes; 228776c9eb99SAmjad Aboud }; 228876c9eb99SAmjad Aboud 228976c9eb99SAmjad Aboud void CodeViewDebug::clear() { 229076c9eb99SAmjad Aboud assert(CurFn == nullptr); 229176c9eb99SAmjad Aboud FileIdMap.clear(); 229276c9eb99SAmjad Aboud FnDebugInfo.clear(); 229376c9eb99SAmjad Aboud FileToFilepathMap.clear(); 229476c9eb99SAmjad Aboud LocalUDTs.clear(); 229576c9eb99SAmjad Aboud GlobalUDTs.clear(); 229676c9eb99SAmjad Aboud TypeIndices.clear(); 229776c9eb99SAmjad Aboud CompleteTypeIndices.clear(); 2298b17464e4SBrock Wyma ScopeGlobals.clear(); 22992ed29d87SChih-Ping Chen CVGlobalVariableOffsets.clear(); 230076c9eb99SAmjad Aboud } 230176c9eb99SAmjad Aboud 230276c9eb99SAmjad Aboud void CodeViewDebug::collectMemberInfo(ClassInfo &Info, 230376c9eb99SAmjad Aboud const DIDerivedType *DDTy) { 230476c9eb99SAmjad Aboud if (!DDTy->getName().empty()) { 230576c9eb99SAmjad Aboud Info.Members.push_back({DDTy, 0}); 23067669f3c0SAmy Huang 23071363dfafSAmy Huang // Collect static const data members with values. 23087669f3c0SAmy Huang if ((DDTy->getFlags() & DINode::FlagStaticMember) == 23091363dfafSAmy Huang DINode::FlagStaticMember) { 23101363dfafSAmy Huang if (DDTy->getConstant() && (isa<ConstantInt>(DDTy->getConstant()) || 23111363dfafSAmy Huang isa<ConstantFP>(DDTy->getConstant()))) 23127669f3c0SAmy Huang StaticConstMembers.push_back(DDTy); 23131363dfafSAmy Huang } 23147669f3c0SAmy Huang 231576c9eb99SAmjad Aboud return; 231676c9eb99SAmjad Aboud } 231703303a3bSShoaib Meenai 231803303a3bSShoaib Meenai // An unnamed member may represent a nested struct or union. Attempt to 231903303a3bSShoaib Meenai // interpret the unnamed member as a DICompositeType possibly wrapped in 232003303a3bSShoaib Meenai // qualifier types. Add all the indirect fields to the current record if that 232103303a3bSShoaib Meenai // succeeds, and drop the member if that fails. 232276c9eb99SAmjad Aboud assert((DDTy->getOffsetInBits() % 8) == 0 && "Unnamed bitfield member!"); 232308bd744cSDavid Majnemer uint64_t Offset = DDTy->getOffsetInBits(); 2324da82ce99SFangrui Song const DIType *Ty = DDTy->getBaseType(); 232503303a3bSShoaib Meenai bool FullyResolved = false; 232603303a3bSShoaib Meenai while (!FullyResolved) { 232703303a3bSShoaib Meenai switch (Ty->getTag()) { 232803303a3bSShoaib Meenai case dwarf::DW_TAG_const_type: 232903303a3bSShoaib Meenai case dwarf::DW_TAG_volatile_type: 233003303a3bSShoaib Meenai // FIXME: we should apply the qualifier types to the indirect fields 233103303a3bSShoaib Meenai // rather than dropping them. 2332da82ce99SFangrui Song Ty = cast<DIDerivedType>(Ty)->getBaseType(); 233303303a3bSShoaib Meenai break; 233403303a3bSShoaib Meenai default: 233503303a3bSShoaib Meenai FullyResolved = true; 233603303a3bSShoaib Meenai break; 233703303a3bSShoaib Meenai } 233803303a3bSShoaib Meenai } 233903303a3bSShoaib Meenai 234003303a3bSShoaib Meenai const DICompositeType *DCTy = dyn_cast<DICompositeType>(Ty); 234103303a3bSShoaib Meenai if (!DCTy) 234203303a3bSShoaib Meenai return; 234303303a3bSShoaib Meenai 23441ab7eac8SReid Kleckner ClassInfo NestedInfo = collectClassInfo(DCTy); 23451ab7eac8SReid Kleckner for (const ClassInfo::MemberInfo &IndirectField : NestedInfo.Members) 234676c9eb99SAmjad Aboud Info.Members.push_back( 23471ab7eac8SReid Kleckner {IndirectField.MemberTypeNode, IndirectField.BaseOffset + Offset}); 234876c9eb99SAmjad Aboud } 234976c9eb99SAmjad Aboud 23501ab7eac8SReid Kleckner ClassInfo CodeViewDebug::collectClassInfo(const DICompositeType *Ty) { 23511ab7eac8SReid Kleckner ClassInfo Info; 235276c9eb99SAmjad Aboud // Add elements to structure type. 235376c9eb99SAmjad Aboud DINodeArray Elements = Ty->getElements(); 235476c9eb99SAmjad Aboud for (auto *Element : Elements) { 235576c9eb99SAmjad Aboud // We assume that the frontend provides all members in source declaration 235676c9eb99SAmjad Aboud // order, which is what MSVC does. 235776c9eb99SAmjad Aboud if (!Element) 235876c9eb99SAmjad Aboud continue; 235976c9eb99SAmjad Aboud if (auto *SP = dyn_cast<DISubprogram>(Element)) { 2360156a7239SReid Kleckner Info.Methods[SP->getRawName()].push_back(SP); 236176c9eb99SAmjad Aboud } else if (auto *DDTy = dyn_cast<DIDerivedType>(Element)) { 23629f7f3e1eSReid Kleckner if (DDTy->getTag() == dwarf::DW_TAG_member) { 23631ab7eac8SReid Kleckner collectMemberInfo(Info, DDTy); 23649f7f3e1eSReid Kleckner } else if (DDTy->getTag() == dwarf::DW_TAG_inheritance) { 23659f7f3e1eSReid Kleckner Info.Inheritance.push_back(DDTy); 23669dac4731SReid Kleckner } else if (DDTy->getTag() == dwarf::DW_TAG_pointer_type && 23679dac4731SReid Kleckner DDTy->getName() == "__vtbl_ptr_type") { 23689dac4731SReid Kleckner Info.VShapeTI = getTypeIndex(DDTy); 2369e2e82061SReid Kleckner } else if (DDTy->getTag() == dwarf::DW_TAG_typedef) { 2370e2e82061SReid Kleckner Info.NestedTypes.push_back(DDTy); 237176c9eb99SAmjad Aboud } else if (DDTy->getTag() == dwarf::DW_TAG_friend) { 237276c9eb99SAmjad Aboud // Ignore friend members. It appears that MSVC emitted info about 237376c9eb99SAmjad Aboud // friends in the past, but modern versions do not. 237476c9eb99SAmjad Aboud } 2375820ca540SAdrian McCarthy } else if (auto *Composite = dyn_cast<DICompositeType>(Element)) { 2376e2e82061SReid Kleckner Info.NestedTypes.push_back(Composite); 237776c9eb99SAmjad Aboud } 237876c9eb99SAmjad Aboud // Skip other unrecognized kinds of elements. 237976c9eb99SAmjad Aboud } 23801ab7eac8SReid Kleckner return Info; 238176c9eb99SAmjad Aboud } 238276c9eb99SAmjad Aboud 2383b60532f8SBrock Wyma static bool shouldAlwaysEmitCompleteClassType(const DICompositeType *Ty) { 2384b60532f8SBrock Wyma // This routine is used by lowerTypeClass and lowerTypeUnion to determine 2385b60532f8SBrock Wyma // if a complete type should be emitted instead of a forward reference. 2386b60532f8SBrock Wyma return Ty->getName().empty() && Ty->getIdentifier().empty() && 2387b60532f8SBrock Wyma !Ty->isForwardDecl(); 2388b60532f8SBrock Wyma } 2389b60532f8SBrock Wyma 2390a8d57407SReid Kleckner TypeIndex CodeViewDebug::lowerTypeClass(const DICompositeType *Ty) { 2391b60532f8SBrock Wyma // Emit the complete type for unnamed structs. C++ classes with methods 2392b60532f8SBrock Wyma // which have a circular reference back to the class type are expected to 2393b60532f8SBrock Wyma // be named by the front-end and should not be "unnamed". C unnamed 2394b60532f8SBrock Wyma // structs should not have circular references. 2395b60532f8SBrock Wyma if (shouldAlwaysEmitCompleteClassType(Ty)) { 2396b60532f8SBrock Wyma // If this unnamed complete type is already in the process of being defined 2397b60532f8SBrock Wyma // then the description of the type is malformed and cannot be emitted 2398b60532f8SBrock Wyma // into CodeView correctly so report a fatal error. 2399b60532f8SBrock Wyma auto I = CompleteTypeIndices.find(Ty); 2400b60532f8SBrock Wyma if (I != CompleteTypeIndices.end() && I->second == TypeIndex()) 2401b60532f8SBrock Wyma report_fatal_error("cannot debug circular reference to unnamed type"); 2402b60532f8SBrock Wyma return getCompleteTypeIndex(Ty); 2403b60532f8SBrock Wyma } 2404b60532f8SBrock Wyma 2405a8d57407SReid Kleckner // First, construct the forward decl. Don't look into Ty to compute the 2406a8d57407SReid Kleckner // forward decl options, since it might not be available in all TUs. 2407a8d57407SReid Kleckner TypeRecordKind Kind = getRecordKind(Ty); 2408a8d57407SReid Kleckner ClassOptions CO = 2409e092dad7SReid Kleckner ClassOptions::ForwardReference | getCommonClassOptions(Ty); 24106bdc24e7SDavid Majnemer std::string FullName = getFullyQualifiedName(Ty); 24114efa0a42SZachary Turner ClassRecord CR(Kind, 0, CO, TypeIndex(), TypeIndex(), TypeIndex(), 0, 24124efa0a42SZachary Turner FullName, Ty->getIdentifier()); 24136900de1dSZachary Turner TypeIndex FwdDeclTI = TypeTable.writeLeafType(CR); 2414643dd836SReid Kleckner if (!Ty->isForwardDecl()) 2415643dd836SReid Kleckner DeferredCompleteTypes.push_back(Ty); 2416a8d57407SReid Kleckner return FwdDeclTI; 2417a8d57407SReid Kleckner } 2418a8d57407SReid Kleckner 2419a8d57407SReid Kleckner TypeIndex CodeViewDebug::lowerCompleteTypeClass(const DICompositeType *Ty) { 2420a8d57407SReid Kleckner // Construct the field list and complete type record. 2421a8d57407SReid Kleckner TypeRecordKind Kind = getRecordKind(Ty); 2422e092dad7SReid Kleckner ClassOptions CO = getCommonClassOptions(Ty); 242376c9eb99SAmjad Aboud TypeIndex FieldTI; 242476c9eb99SAmjad Aboud TypeIndex VShapeTI; 2425a8d57407SReid Kleckner unsigned FieldCount; 2426820ca540SAdrian McCarthy bool ContainsNestedClass; 2427820ca540SAdrian McCarthy std::tie(FieldTI, VShapeTI, FieldCount, ContainsNestedClass) = 2428820ca540SAdrian McCarthy lowerRecordFieldList(Ty); 2429820ca540SAdrian McCarthy 2430820ca540SAdrian McCarthy if (ContainsNestedClass) 2431820ca540SAdrian McCarthy CO |= ClassOptions::ContainsNestedClass; 2432a8d57407SReid Kleckner 24331d5f8632SAaron Smith // MSVC appears to set this flag by searching any destructor or method with 24341d5f8632SAaron Smith // FunctionOptions::Constructor among the emitted members. Clang AST has all 24351d5f8632SAaron Smith // the members, however special member functions are not yet emitted into 24361d5f8632SAaron Smith // debug information. For now checking a class's non-triviality seems enough. 24371d5f8632SAaron Smith // FIXME: not true for a nested unnamed struct. 24381d5f8632SAaron Smith if (isNonTrivial(Ty)) 24391d5f8632SAaron Smith CO |= ClassOptions::HasConstructorOrDestructor; 24401d5f8632SAaron Smith 24416bdc24e7SDavid Majnemer std::string FullName = getFullyQualifiedName(Ty); 24420c5d874bSReid Kleckner 2443a8d57407SReid Kleckner uint64_t SizeInBytes = Ty->getSizeInBits() / 8; 24449a519a09SHans Wennborg 24454efa0a42SZachary Turner ClassRecord CR(Kind, FieldCount, CO, FieldTI, TypeIndex(), VShapeTI, 24464efa0a42SZachary Turner SizeInBytes, FullName, Ty->getIdentifier()); 24476900de1dSZachary Turner TypeIndex ClassTI = TypeTable.writeLeafType(CR); 24489a519a09SHans Wennborg 2449122d9e79SAaron Smith addUDTSrcLine(Ty, ClassTI); 24509a519a09SHans Wennborg 2451a7b04174SZachary Turner addToUDTs(Ty); 24524b63a98dSHans Wennborg 24539a519a09SHans Wennborg return ClassTI; 2454a8d57407SReid Kleckner } 2455a8d57407SReid Kleckner 2456a8d57407SReid Kleckner TypeIndex CodeViewDebug::lowerTypeUnion(const DICompositeType *Ty) { 2457b60532f8SBrock Wyma // Emit the complete type for unnamed unions. 2458b60532f8SBrock Wyma if (shouldAlwaysEmitCompleteClassType(Ty)) 2459b60532f8SBrock Wyma return getCompleteTypeIndex(Ty); 2460b60532f8SBrock Wyma 2461a8d57407SReid Kleckner ClassOptions CO = 2462e092dad7SReid Kleckner ClassOptions::ForwardReference | getCommonClassOptions(Ty); 24636bdc24e7SDavid Majnemer std::string FullName = getFullyQualifiedName(Ty); 24644efa0a42SZachary Turner UnionRecord UR(0, CO, TypeIndex(), 0, FullName, Ty->getIdentifier()); 24656900de1dSZachary Turner TypeIndex FwdDeclTI = TypeTable.writeLeafType(UR); 2466643dd836SReid Kleckner if (!Ty->isForwardDecl()) 2467643dd836SReid Kleckner DeferredCompleteTypes.push_back(Ty); 2468a8d57407SReid Kleckner return FwdDeclTI; 2469a8d57407SReid Kleckner } 2470a8d57407SReid Kleckner 2471a8d57407SReid Kleckner TypeIndex CodeViewDebug::lowerCompleteTypeUnion(const DICompositeType *Ty) { 2472e1e7372eSDavid Majnemer ClassOptions CO = ClassOptions::Sealed | getCommonClassOptions(Ty); 247376c9eb99SAmjad Aboud TypeIndex FieldTI; 2474a8d57407SReid Kleckner unsigned FieldCount; 2475820ca540SAdrian McCarthy bool ContainsNestedClass; 2476820ca540SAdrian McCarthy std::tie(FieldTI, std::ignore, FieldCount, ContainsNestedClass) = 2477820ca540SAdrian McCarthy lowerRecordFieldList(Ty); 2478820ca540SAdrian McCarthy 2479820ca540SAdrian McCarthy if (ContainsNestedClass) 2480820ca540SAdrian McCarthy CO |= ClassOptions::ContainsNestedClass; 2481820ca540SAdrian McCarthy 2482a8d57407SReid Kleckner uint64_t SizeInBytes = Ty->getSizeInBits() / 8; 24836bdc24e7SDavid Majnemer std::string FullName = getFullyQualifiedName(Ty); 24849a519a09SHans Wennborg 24854efa0a42SZachary Turner UnionRecord UR(FieldCount, CO, FieldTI, SizeInBytes, FullName, 24864efa0a42SZachary Turner Ty->getIdentifier()); 24876900de1dSZachary Turner TypeIndex UnionTI = TypeTable.writeLeafType(UR); 24889a519a09SHans Wennborg 2489122d9e79SAaron Smith addUDTSrcLine(Ty, UnionTI); 24909a519a09SHans Wennborg 2491a7b04174SZachary Turner addToUDTs(Ty); 24924b63a98dSHans Wennborg 24939a519a09SHans Wennborg return UnionTI; 2494a8d57407SReid Kleckner } 2495a8d57407SReid Kleckner 2496820ca540SAdrian McCarthy std::tuple<TypeIndex, TypeIndex, unsigned, bool> 2497a8d57407SReid Kleckner CodeViewDebug::lowerRecordFieldList(const DICompositeType *Ty) { 2498a8d57407SReid Kleckner // Manually count members. MSVC appears to count everything that generates a 2499a8d57407SReid Kleckner // field list record. Each individual overload in a method overload group 2500a8d57407SReid Kleckner // contributes to this count, even though the overload group is a single field 2501a8d57407SReid Kleckner // list record. 2502a8d57407SReid Kleckner unsigned MemberCount = 0; 25031ab7eac8SReid Kleckner ClassInfo Info = collectClassInfo(Ty); 25046900de1dSZachary Turner ContinuationRecordBuilder ContinuationBuilder; 25056900de1dSZachary Turner ContinuationBuilder.begin(ContinuationRecordKind::FieldList); 250676c9eb99SAmjad Aboud 25079f7f3e1eSReid Kleckner // Create base classes. 25089f7f3e1eSReid Kleckner for (const DIDerivedType *I : Info.Inheritance) { 25099f7f3e1eSReid Kleckner if (I->getFlags() & DINode::FlagVirtual) { 25109f7f3e1eSReid Kleckner // Virtual base. 25113db2b108SBrock Wyma unsigned VBPtrOffset = I->getVBPtrOffset(); 25129f7f3e1eSReid Kleckner // FIXME: Despite the accessor name, the offset is really in bytes. 25139f7f3e1eSReid Kleckner unsigned VBTableIndex = I->getOffsetInBits() / 4; 251426a87bd0SBob Haarman auto RecordKind = (I->getFlags() & DINode::FlagIndirectVirtualBase) == DINode::FlagIndirectVirtualBase 251526a87bd0SBob Haarman ? TypeRecordKind::IndirectVirtualBaseClass 251626a87bd0SBob Haarman : TypeRecordKind::VirtualBaseClass; 25174efa0a42SZachary Turner VirtualBaseClassRecord VBCR( 251826a87bd0SBob Haarman RecordKind, translateAccessFlags(Ty->getTag(), I->getFlags()), 25199f7f3e1eSReid Kleckner getTypeIndex(I->getBaseType()), getVBPTypeIndex(), VBPtrOffset, 25204efa0a42SZachary Turner VBTableIndex); 25214efa0a42SZachary Turner 25226900de1dSZachary Turner ContinuationBuilder.writeMemberType(VBCR); 25234536c1f5SBrock Wyma MemberCount++; 25249f7f3e1eSReid Kleckner } else { 25259f7f3e1eSReid Kleckner assert(I->getOffsetInBits() % 8 == 0 && 25269f7f3e1eSReid Kleckner "bases must be on byte boundaries"); 25274efa0a42SZachary Turner BaseClassRecord BCR(translateAccessFlags(Ty->getTag(), I->getFlags()), 25284efa0a42SZachary Turner getTypeIndex(I->getBaseType()), 25294efa0a42SZachary Turner I->getOffsetInBits() / 8); 25306900de1dSZachary Turner ContinuationBuilder.writeMemberType(BCR); 25314536c1f5SBrock Wyma MemberCount++; 25329f7f3e1eSReid Kleckner } 25339f7f3e1eSReid Kleckner } 25349f7f3e1eSReid Kleckner 253576c9eb99SAmjad Aboud // Create members. 253676c9eb99SAmjad Aboud for (ClassInfo::MemberInfo &MemberInfo : Info.Members) { 253776c9eb99SAmjad Aboud const DIDerivedType *Member = MemberInfo.MemberTypeNode; 253876c9eb99SAmjad Aboud TypeIndex MemberBaseType = getTypeIndex(Member->getBaseType()); 25399319cbc0SDavid Majnemer StringRef MemberName = Member->getName(); 25409319cbc0SDavid Majnemer MemberAccess Access = 25419319cbc0SDavid Majnemer translateAccessFlags(Ty->getTag(), Member->getFlags()); 254276c9eb99SAmjad Aboud 2543a8d57407SReid Kleckner if (Member->isStaticMember()) { 25444efa0a42SZachary Turner StaticDataMemberRecord SDMR(Access, MemberBaseType, MemberName); 25456900de1dSZachary Turner ContinuationBuilder.writeMemberType(SDMR); 2546a8d57407SReid Kleckner MemberCount++; 254776c9eb99SAmjad Aboud continue; 2548a8d57407SReid Kleckner } 2549a8d57407SReid Kleckner 25509dac4731SReid Kleckner // Virtual function pointer member. 25519dac4731SReid Kleckner if ((Member->getFlags() & DINode::FlagArtificial) && 25529dac4731SReid Kleckner Member->getName().startswith("_vptr$")) { 25534efa0a42SZachary Turner VFPtrRecord VFPR(getTypeIndex(Member->getBaseType())); 25546900de1dSZachary Turner ContinuationBuilder.writeMemberType(VFPR); 25559dac4731SReid Kleckner MemberCount++; 25569dac4731SReid Kleckner continue; 25579dac4731SReid Kleckner } 25589dac4731SReid Kleckner 25599319cbc0SDavid Majnemer // Data member. 256008bd744cSDavid Majnemer uint64_t MemberOffsetInBits = 256108bd744cSDavid Majnemer Member->getOffsetInBits() + MemberInfo.BaseOffset; 25629319cbc0SDavid Majnemer if (Member->isBitField()) { 25639319cbc0SDavid Majnemer uint64_t StartBitOffset = MemberOffsetInBits; 25649319cbc0SDavid Majnemer if (const auto *CI = 25659319cbc0SDavid Majnemer dyn_cast_or_null<ConstantInt>(Member->getStorageOffsetInBits())) { 256608bd744cSDavid Majnemer MemberOffsetInBits = CI->getZExtValue() + MemberInfo.BaseOffset; 25679319cbc0SDavid Majnemer } 25689319cbc0SDavid Majnemer StartBitOffset -= MemberOffsetInBits; 25694efa0a42SZachary Turner BitFieldRecord BFR(MemberBaseType, Member->getSizeInBits(), 25704efa0a42SZachary Turner StartBitOffset); 25716900de1dSZachary Turner MemberBaseType = TypeTable.writeLeafType(BFR); 25729319cbc0SDavid Majnemer } 25739319cbc0SDavid Majnemer uint64_t MemberOffsetInBytes = MemberOffsetInBits / 8; 25744efa0a42SZachary Turner DataMemberRecord DMR(Access, MemberBaseType, MemberOffsetInBytes, 25754efa0a42SZachary Turner MemberName); 25766900de1dSZachary Turner ContinuationBuilder.writeMemberType(DMR); 257776c9eb99SAmjad Aboud MemberCount++; 257876c9eb99SAmjad Aboud } 257976c9eb99SAmjad Aboud 258076c9eb99SAmjad Aboud // Create methods 258176c9eb99SAmjad Aboud for (auto &MethodItr : Info.Methods) { 258276c9eb99SAmjad Aboud StringRef Name = MethodItr.first->getString(); 258376c9eb99SAmjad Aboud 258476c9eb99SAmjad Aboud std::vector<OneMethodRecord> Methods; 2585156a7239SReid Kleckner for (const DISubprogram *SP : MethodItr.second) { 2586156a7239SReid Kleckner TypeIndex MethodType = getMemberFunctionType(SP, Ty); 2587156a7239SReid Kleckner bool Introduced = SP->getFlags() & DINode::FlagIntroducedVirtual; 258876c9eb99SAmjad Aboud 258976c9eb99SAmjad Aboud unsigned VFTableOffset = -1; 259076c9eb99SAmjad Aboud if (Introduced) 259176c9eb99SAmjad Aboud VFTableOffset = SP->getVirtualIndex() * getPointerSizeInBytes(); 259276c9eb99SAmjad Aboud 25937251ede7SZachary Turner Methods.push_back(OneMethodRecord( 25947251ede7SZachary Turner MethodType, translateAccessFlags(Ty->getTag(), SP->getFlags()), 25957251ede7SZachary Turner translateMethodKindFlags(SP, Introduced), 25967251ede7SZachary Turner translateMethodOptionFlags(SP), VFTableOffset, Name)); 259776c9eb99SAmjad Aboud MemberCount++; 259876c9eb99SAmjad Aboud } 2599fb69e66cSEugene Zelenko assert(!Methods.empty() && "Empty methods map entry"); 260076c9eb99SAmjad Aboud if (Methods.size() == 1) 26016900de1dSZachary Turner ContinuationBuilder.writeMemberType(Methods[0]); 260276c9eb99SAmjad Aboud else { 26036900de1dSZachary Turner // FIXME: Make this use its own ContinuationBuilder so that 26046900de1dSZachary Turner // MethodOverloadList can be split correctly. 26054efa0a42SZachary Turner MethodOverloadListRecord MOLR(Methods); 26066900de1dSZachary Turner TypeIndex MethodList = TypeTable.writeLeafType(MOLR); 26076900de1dSZachary Turner 26084efa0a42SZachary Turner OverloadedMethodRecord OMR(Methods.size(), MethodList, Name); 26096900de1dSZachary Turner ContinuationBuilder.writeMemberType(OMR); 261076c9eb99SAmjad Aboud } 261176c9eb99SAmjad Aboud } 2612820ca540SAdrian McCarthy 2613820ca540SAdrian McCarthy // Create nested classes. 2614e2e82061SReid Kleckner for (const DIType *Nested : Info.NestedTypes) { 2615da82ce99SFangrui Song NestedTypeRecord R(getTypeIndex(Nested), Nested->getName()); 26166900de1dSZachary Turner ContinuationBuilder.writeMemberType(R); 2617820ca540SAdrian McCarthy MemberCount++; 2618820ca540SAdrian McCarthy } 2619820ca540SAdrian McCarthy 26206900de1dSZachary Turner TypeIndex FieldTI = TypeTable.insertRecord(ContinuationBuilder); 26219dac4731SReid Kleckner return std::make_tuple(FieldTI, Info.VShapeTI, MemberCount, 2622e2e82061SReid Kleckner !Info.NestedTypes.empty()); 262376c9eb99SAmjad Aboud } 262476c9eb99SAmjad Aboud 26259f7f3e1eSReid Kleckner TypeIndex CodeViewDebug::getVBPTypeIndex() { 26269f7f3e1eSReid Kleckner if (!VBPType.getIndex()) { 26279f7f3e1eSReid Kleckner // Make a 'const int *' type. 26289f7f3e1eSReid Kleckner ModifierRecord MR(TypeIndex::Int32(), ModifierOptions::Const); 26296900de1dSZachary Turner TypeIndex ModifiedTI = TypeTable.writeLeafType(MR); 26309f7f3e1eSReid Kleckner 26319f7f3e1eSReid Kleckner PointerKind PK = getPointerSizeInBytes() == 8 ? PointerKind::Near64 26329f7f3e1eSReid Kleckner : PointerKind::Near32; 26339f7f3e1eSReid Kleckner PointerMode PM = PointerMode::Pointer; 26349f7f3e1eSReid Kleckner PointerOptions PO = PointerOptions::None; 26359f7f3e1eSReid Kleckner PointerRecord PR(ModifiedTI, PK, PM, PO, getPointerSizeInBytes()); 26366900de1dSZachary Turner VBPType = TypeTable.writeLeafType(PR); 26379f7f3e1eSReid Kleckner } 26389f7f3e1eSReid Kleckner 26399f7f3e1eSReid Kleckner return VBPType; 26409f7f3e1eSReid Kleckner } 26419f7f3e1eSReid Kleckner 2642da82ce99SFangrui Song TypeIndex CodeViewDebug::getTypeIndex(const DIType *Ty, const DIType *ClassTy) { 26435acacbb0SReid Kleckner // The null DIType is the void type. Don't try to hash it. 26445acacbb0SReid Kleckner if (!Ty) 26455acacbb0SReid Kleckner return TypeIndex::Void(); 26465acacbb0SReid Kleckner 2647a8d57407SReid Kleckner // Check if we've already translated this type. Don't try to do a 2648a8d57407SReid Kleckner // get-or-create style insertion that caches the hash lookup across the 2649a8d57407SReid Kleckner // lowerType call. It will update the TypeIndices map. 265076c9eb99SAmjad Aboud auto I = TypeIndices.find({Ty, ClassTy}); 26515acacbb0SReid Kleckner if (I != TypeIndices.end()) 26525acacbb0SReid Kleckner return I->second; 26535acacbb0SReid Kleckner 2654643dd836SReid Kleckner TypeLoweringScope S(*this); 2655b5af11dfSReid Kleckner TypeIndex TI = lowerType(Ty, ClassTy); 2656b5af11dfSReid Kleckner return recordTypeIndexForDINode(Ty, TI, ClassTy); 2657a8d57407SReid Kleckner } 2658a8d57407SReid Kleckner 2659c68f8957SZachary Turner codeview::TypeIndex 2660c168c6f8SReid Kleckner CodeViewDebug::getTypeIndexForThisPtr(const DIDerivedType *PtrTy, 2661c68f8957SZachary Turner const DISubroutineType *SubroutineTy) { 2662c168c6f8SReid Kleckner assert(PtrTy->getTag() == dwarf::DW_TAG_pointer_type && 2663c168c6f8SReid Kleckner "this type must be a pointer type"); 2664c68f8957SZachary Turner 2665c68f8957SZachary Turner PointerOptions Options = PointerOptions::None; 2666c68f8957SZachary Turner if (SubroutineTy->getFlags() & DINode::DIFlags::FlagLValueReference) 2667c68f8957SZachary Turner Options = PointerOptions::LValueRefThisPointer; 2668c68f8957SZachary Turner else if (SubroutineTy->getFlags() & DINode::DIFlags::FlagRValueReference) 2669c68f8957SZachary Turner Options = PointerOptions::RValueRefThisPointer; 2670c68f8957SZachary Turner 2671c68f8957SZachary Turner // Check if we've already translated this type. If there is no ref qualifier 2672c68f8957SZachary Turner // on the function then we look up this pointer type with no associated class 2673c68f8957SZachary Turner // so that the TypeIndex for the this pointer can be shared with the type 2674c68f8957SZachary Turner // index for other pointers to this class type. If there is a ref qualifier 2675c68f8957SZachary Turner // then we lookup the pointer using the subroutine as the parent type. 2676c168c6f8SReid Kleckner auto I = TypeIndices.find({PtrTy, SubroutineTy}); 2677c68f8957SZachary Turner if (I != TypeIndices.end()) 2678c68f8957SZachary Turner return I->second; 2679c68f8957SZachary Turner 2680c68f8957SZachary Turner TypeLoweringScope S(*this); 2681c168c6f8SReid Kleckner TypeIndex TI = lowerTypePointer(PtrTy, Options); 2682c168c6f8SReid Kleckner return recordTypeIndexForDINode(PtrTy, TI, SubroutineTy); 2683c68f8957SZachary Turner } 2684c68f8957SZachary Turner 2685da82ce99SFangrui Song TypeIndex CodeViewDebug::getTypeIndexForReferenceTo(const DIType *Ty) { 2686223303c5SBob Haarman PointerRecord PR(getTypeIndex(Ty), 2687223303c5SBob Haarman getPointerSizeInBytes() == 8 ? PointerKind::Near64 2688223303c5SBob Haarman : PointerKind::Near32, 2689223303c5SBob Haarman PointerMode::LValueReference, PointerOptions::None, 2690223303c5SBob Haarman Ty->getSizeInBits() / 8); 26916900de1dSZachary Turner return TypeTable.writeLeafType(PR); 2692223303c5SBob Haarman } 2693223303c5SBob Haarman 2694da82ce99SFangrui Song TypeIndex CodeViewDebug::getCompleteTypeIndex(const DIType *Ty) { 2695a8d57407SReid Kleckner // The null DIType is the void type. Don't try to hash it. 2696a8d57407SReid Kleckner if (!Ty) 2697a8d57407SReid Kleckner return TypeIndex::Void(); 2698a8d57407SReid Kleckner 26999571c806SReid Kleckner // Look through typedefs when getting the complete type index. Call 27009571c806SReid Kleckner // getTypeIndex on the typdef to ensure that any UDTs are accumulated and are 27019571c806SReid Kleckner // emitted only once. 27029571c806SReid Kleckner if (Ty->getTag() == dwarf::DW_TAG_typedef) 27039571c806SReid Kleckner (void)getTypeIndex(Ty); 27049571c806SReid Kleckner while (Ty->getTag() == dwarf::DW_TAG_typedef) 2705da82ce99SFangrui Song Ty = cast<DIDerivedType>(Ty)->getBaseType(); 27069571c806SReid Kleckner 2707a8d57407SReid Kleckner // If this is a non-record type, the complete type index is the same as the 2708a8d57407SReid Kleckner // normal type index. Just call getTypeIndex. 2709a8d57407SReid Kleckner switch (Ty->getTag()) { 2710a8d57407SReid Kleckner case dwarf::DW_TAG_class_type: 2711a8d57407SReid Kleckner case dwarf::DW_TAG_structure_type: 2712a8d57407SReid Kleckner case dwarf::DW_TAG_union_type: 2713a8d57407SReid Kleckner break; 2714a8d57407SReid Kleckner default: 2715a8d57407SReid Kleckner return getTypeIndex(Ty); 2716a8d57407SReid Kleckner } 2717a8d57407SReid Kleckner 2718a8d57407SReid Kleckner const auto *CTy = cast<DICompositeType>(Ty); 2719a8d57407SReid Kleckner 2720643dd836SReid Kleckner TypeLoweringScope S(*this); 2721643dd836SReid Kleckner 2722a8d57407SReid Kleckner // Make sure the forward declaration is emitted first. It's unclear if this 2723a8d57407SReid Kleckner // is necessary, but MSVC does it, and we should follow suit until we can show 2724a8d57407SReid Kleckner // otherwise. 2725b60532f8SBrock Wyma // We only emit a forward declaration for named types. 2726b60532f8SBrock Wyma if (!CTy->getName().empty() || !CTy->getIdentifier().empty()) { 2727a8d57407SReid Kleckner TypeIndex FwdDeclTI = getTypeIndex(CTy); 2728a8d57407SReid Kleckner 2729b60532f8SBrock Wyma // Just use the forward decl if we don't have complete type info. This 2730b60532f8SBrock Wyma // might happen if the frontend is using modules and expects the complete 2731b60532f8SBrock Wyma // definition to be emitted elsewhere. 2732a8d57407SReid Kleckner if (CTy->isForwardDecl()) 2733a8d57407SReid Kleckner return FwdDeclTI; 2734b60532f8SBrock Wyma } 2735a8d57407SReid Kleckner 2736987b969bSAmy Huang // Check if we've already translated the complete record type. 2737987b969bSAmy Huang // Insert the type with a null TypeIndex to signify that the type is currently 2738987b969bSAmy Huang // being lowered. 2739987b969bSAmy Huang auto InsertResult = CompleteTypeIndices.insert({CTy, TypeIndex()}); 2740987b969bSAmy Huang if (!InsertResult.second) 2741987b969bSAmy Huang return InsertResult.first->second; 2742987b969bSAmy Huang 2743a8d57407SReid Kleckner TypeIndex TI; 2744a8d57407SReid Kleckner switch (CTy->getTag()) { 2745a8d57407SReid Kleckner case dwarf::DW_TAG_class_type: 2746a8d57407SReid Kleckner case dwarf::DW_TAG_structure_type: 2747a8d57407SReid Kleckner TI = lowerCompleteTypeClass(CTy); 2748a8d57407SReid Kleckner break; 2749a8d57407SReid Kleckner case dwarf::DW_TAG_union_type: 2750a8d57407SReid Kleckner TI = lowerCompleteTypeUnion(CTy); 2751a8d57407SReid Kleckner break; 2752a8d57407SReid Kleckner default: 2753a8d57407SReid Kleckner llvm_unreachable("not a record"); 2754a8d57407SReid Kleckner } 2755a8d57407SReid Kleckner 2756b60532f8SBrock Wyma // Update the type index associated with this CompositeType. This cannot 2757b60532f8SBrock Wyma // use the 'InsertResult' iterator above because it is potentially 2758b60532f8SBrock Wyma // invalidated by map insertions which can occur while lowering the class 2759b60532f8SBrock Wyma // type above. 2760b60532f8SBrock Wyma CompleteTypeIndices[CTy] = TI; 27615acacbb0SReid Kleckner return TI; 27625acacbb0SReid Kleckner } 27635acacbb0SReid Kleckner 2764643dd836SReid Kleckner /// Emit all the deferred complete record types. Try to do this in FIFO order, 2765acee5685SAmjad Aboud /// and do this until fixpoint, as each complete record type typically 2766acee5685SAmjad Aboud /// references 2767643dd836SReid Kleckner /// many other record types. 2768643dd836SReid Kleckner void CodeViewDebug::emitDeferredCompleteTypes() { 2769643dd836SReid Kleckner SmallVector<const DICompositeType *, 4> TypesToEmit; 2770643dd836SReid Kleckner while (!DeferredCompleteTypes.empty()) { 2771643dd836SReid Kleckner std::swap(DeferredCompleteTypes, TypesToEmit); 2772643dd836SReid Kleckner for (const DICompositeType *RecordTy : TypesToEmit) 2773643dd836SReid Kleckner getCompleteTypeIndex(RecordTy); 2774643dd836SReid Kleckner TypesToEmit.clear(); 2775643dd836SReid Kleckner } 2776643dd836SReid Kleckner } 2777643dd836SReid Kleckner 27789ea2c012SReid Kleckner void CodeViewDebug::emitLocalVariableList(const FunctionInfo &FI, 27799ea2c012SReid Kleckner ArrayRef<LocalVariable> Locals) { 278010dd55c5SReid Kleckner // Get the sorted list of parameters and emit them first. 278110dd55c5SReid Kleckner SmallVector<const LocalVariable *, 6> Params; 278210dd55c5SReid Kleckner for (const LocalVariable &L : Locals) 278310dd55c5SReid Kleckner if (L.DIVar->isParameter()) 278410dd55c5SReid Kleckner Params.push_back(&L); 27850cac726aSFangrui Song llvm::sort(Params, [](const LocalVariable *L, const LocalVariable *R) { 278610dd55c5SReid Kleckner return L->DIVar->getArg() < R->DIVar->getArg(); 278710dd55c5SReid Kleckner }); 278810dd55c5SReid Kleckner for (const LocalVariable *L : Params) 27899ea2c012SReid Kleckner emitLocalVariable(FI, *L); 279010dd55c5SReid Kleckner 279110dd55c5SReid Kleckner // Next emit all non-parameters in the order that we found them. 279210dd55c5SReid Kleckner for (const LocalVariable &L : Locals) 279310dd55c5SReid Kleckner if (!L.DIVar->isParameter()) 27949ea2c012SReid Kleckner emitLocalVariable(FI, L); 279510dd55c5SReid Kleckner } 279610dd55c5SReid Kleckner 27979ea2c012SReid Kleckner void CodeViewDebug::emitLocalVariable(const FunctionInfo &FI, 27989ea2c012SReid Kleckner const LocalVariable &Var) { 2799f9c275feSReid Kleckner // LocalSym record, see SymbolRecord.h for more info. 28005bf71d11SReid Kleckner MCSymbol *LocalEnd = beginSymbolRecord(SymbolKind::S_LOCAL); 2801f9c275feSReid Kleckner 280263a2846eSZachary Turner LocalSymFlags Flags = LocalSymFlags::None; 2803f9c275feSReid Kleckner if (Var.DIVar->isParameter()) 280463a2846eSZachary Turner Flags |= LocalSymFlags::IsParameter; 2805876330d5SReid Kleckner if (Var.DefRanges.empty()) 280663a2846eSZachary Turner Flags |= LocalSymFlags::IsOptimizedOut; 2807f9c275feSReid Kleckner 2808f9c275feSReid Kleckner OS.AddComment("TypeIndex"); 280908f5fd51SReid Kleckner TypeIndex TI = Var.UseReferenceType 281008f5fd51SReid Kleckner ? getTypeIndexForReferenceTo(Var.DIVar->getType()) 2811223303c5SBob Haarman : getCompleteTypeIndex(Var.DIVar->getType()); 2812692e0c96SFangrui Song OS.emitInt32(TI.getIndex()); 2813f9c275feSReid Kleckner OS.AddComment("Flags"); 2814692e0c96SFangrui Song OS.emitInt16(static_cast<uint16_t>(Flags)); 28151256125fSDavid Majnemer // Truncate the name so we won't overflow the record length field. 2816b9456a5eSDavid Majnemer emitNullTerminatedSymbolName(OS, Var.DIVar->getName()); 28175bf71d11SReid Kleckner endSymbolRecord(LocalEnd); 2818f9c275feSReid Kleckner 2819876330d5SReid Kleckner // Calculate the on disk prefix of the appropriate def range record. The 2820876330d5SReid Kleckner // records and on disk formats are described in SymbolRecords.h. BytePrefix 2821876330d5SReid Kleckner // should be big enough to hold all forms without memory allocation. 2822876330d5SReid Kleckner SmallString<20> BytePrefix; 2823876330d5SReid Kleckner for (const LocalVarDefRange &DefRange : Var.DefRanges) { 2824876330d5SReid Kleckner BytePrefix.clear(); 2825876330d5SReid Kleckner if (DefRange.InMemory) { 28269ea2c012SReid Kleckner int Offset = DefRange.DataOffset; 28279ea2c012SReid Kleckner unsigned Reg = DefRange.CVRegister; 28289ea2c012SReid Kleckner 2829d5e4ec74SReid Kleckner // 32-bit x86 call sequences often use PUSH instructions, which disrupt 28309ea2c012SReid Kleckner // ESP-relative offsets. Use the virtual frame pointer, VFRAME or $T0, 28312bcb288aSReid Kleckner // instead. In frames without stack realignment, $T0 will be the CFA. 28329ea2c012SReid Kleckner if (RegisterId(Reg) == RegisterId::ESP) { 28339ea2c012SReid Kleckner Reg = unsigned(RegisterId::VFRAME); 28342bcb288aSReid Kleckner Offset += FI.OffsetAdjustment; 28359ea2c012SReid Kleckner } 28369ea2c012SReid Kleckner 28379ea2c012SReid Kleckner // If we can use the chosen frame pointer for the frame and this isn't a 28389ea2c012SReid Kleckner // sliced aggregate, use the smaller S_DEFRANGE_FRAMEPOINTER_REL record. 28399ea2c012SReid Kleckner // Otherwise, use S_DEFRANGE_REGISTER_REL. 28409ea2c012SReid Kleckner EncodedFramePtrReg EncFP = encodeFramePtrReg(RegisterId(Reg), TheCPU); 28419ea2c012SReid Kleckner if (!DefRange.IsSubfield && EncFP != EncodedFramePtrReg::None && 28429ea2c012SReid Kleckner (bool(Flags & LocalSymFlags::IsParameter) 28439ea2c012SReid Kleckner ? (EncFP == FI.EncodedParamFramePtrReg) 28449ea2c012SReid Kleckner : (EncFP == FI.EncodedLocalFramePtrReg))) { 28457bbe711fSReid Kleckner DefRangeFramePointerRelHeader DRHdr; 2846da60fc81SNilanjana Basu DRHdr.Offset = Offset; 2847c031378cSShengchen Kan OS.emitCVDefRangeDirective(DefRange.Ranges, DRHdr); 28489ea2c012SReid Kleckner } else { 28492b3e6428SReid Kleckner uint16_t RegRelFlags = 0; 28502b3e6428SReid Kleckner if (DefRange.IsSubfield) { 28512b3e6428SReid Kleckner RegRelFlags = DefRangeRegisterRelSym::IsSubfieldFlag | 28522b3e6428SReid Kleckner (DefRange.StructOffset 28532b3e6428SReid Kleckner << DefRangeRegisterRelSym::OffsetInParentShift); 28542b3e6428SReid Kleckner } 28557bbe711fSReid Kleckner DefRangeRegisterRelHeader DRHdr; 28569ea2c012SReid Kleckner DRHdr.Register = Reg; 28579ea2c012SReid Kleckner DRHdr.Flags = RegRelFlags; 28589ea2c012SReid Kleckner DRHdr.BasePointerOffset = Offset; 2859c031378cSShengchen Kan OS.emitCVDefRangeDirective(DefRange.Ranges, DRHdr); 28609ea2c012SReid Kleckner } 2861876330d5SReid Kleckner } else { 2862876330d5SReid Kleckner assert(DefRange.DataOffset == 0 && "unexpected offset into register"); 28632b3e6428SReid Kleckner if (DefRange.IsSubfield) { 28647bbe711fSReid Kleckner DefRangeSubfieldRegisterHeader DRHdr; 28658d7c421aSReid Kleckner DRHdr.Register = DefRange.CVRegister; 28668d7c421aSReid Kleckner DRHdr.MayHaveNoName = 0; 28678d7c421aSReid Kleckner DRHdr.OffsetInParent = DefRange.StructOffset; 2868c031378cSShengchen Kan OS.emitCVDefRangeDirective(DefRange.Ranges, DRHdr); 28692b3e6428SReid Kleckner } else { 28707bbe711fSReid Kleckner DefRangeRegisterHeader DRHdr; 28718d7c421aSReid Kleckner DRHdr.Register = DefRange.CVRegister; 28728d7c421aSReid Kleckner DRHdr.MayHaveNoName = 0; 2873c031378cSShengchen Kan OS.emitCVDefRangeDirective(DefRange.Ranges, DRHdr); 28742b3e6428SReid Kleckner } 2875876330d5SReid Kleckner } 2876876330d5SReid Kleckner } 2877f9c275feSReid Kleckner } 2878f9c275feSReid Kleckner 28795a791ee4SReid Kleckner void CodeViewDebug::emitLexicalBlockList(ArrayRef<LexicalBlock *> Blocks, 28805a791ee4SReid Kleckner const FunctionInfo& FI) { 28815a791ee4SReid Kleckner for (LexicalBlock *Block : Blocks) 28825a791ee4SReid Kleckner emitLexicalBlock(*Block, FI); 28835a791ee4SReid Kleckner } 28845a791ee4SReid Kleckner 28855a791ee4SReid Kleckner /// Emit an S_BLOCK32 and S_END record pair delimiting the contents of a 28865a791ee4SReid Kleckner /// lexical block scope. 28875a791ee4SReid Kleckner void CodeViewDebug::emitLexicalBlock(const LexicalBlock &Block, 28885a791ee4SReid Kleckner const FunctionInfo& FI) { 28895bf71d11SReid Kleckner MCSymbol *RecordEnd = beginSymbolRecord(SymbolKind::S_BLOCK32); 28905a791ee4SReid Kleckner OS.AddComment("PtrParent"); 2891692e0c96SFangrui Song OS.emitInt32(0); // PtrParent 28925a791ee4SReid Kleckner OS.AddComment("PtrEnd"); 2893692e0c96SFangrui Song OS.emitInt32(0); // PtrEnd 28945a791ee4SReid Kleckner OS.AddComment("Code size"); 28955a791ee4SReid Kleckner OS.emitAbsoluteSymbolDiff(Block.End, Block.Begin, 4); // Code Size 28965a791ee4SReid Kleckner OS.AddComment("Function section relative address"); 28975a791ee4SReid Kleckner OS.EmitCOFFSecRel32(Block.Begin, /*Offset=*/0); // Func Offset 28985a791ee4SReid Kleckner OS.AddComment("Function section index"); 28995a791ee4SReid Kleckner OS.EmitCOFFSectionIndex(FI.Begin); // Func Symbol 29005a791ee4SReid Kleckner OS.AddComment("Lexical block name"); 29015a791ee4SReid Kleckner emitNullTerminatedSymbolName(OS, Block.Name); // Name 29025bf71d11SReid Kleckner endSymbolRecord(RecordEnd); 29035a791ee4SReid Kleckner 29045a791ee4SReid Kleckner // Emit variables local to this lexical block. 29059ea2c012SReid Kleckner emitLocalVariableList(FI, Block.Locals); 2906b17464e4SBrock Wyma emitGlobalVariableList(Block.Globals); 29075a791ee4SReid Kleckner 29085a791ee4SReid Kleckner // Emit lexical blocks contained within this block. 29095a791ee4SReid Kleckner emitLexicalBlockList(Block.Children, FI); 29105a791ee4SReid Kleckner 29115a791ee4SReid Kleckner // Close the lexical block scope. 29125bf71d11SReid Kleckner emitEndSymbolRecord(SymbolKind::S_END); 29135a791ee4SReid Kleckner } 29145a791ee4SReid Kleckner 29155a791ee4SReid Kleckner /// Convenience routine for collecting lexical block information for a list 29165a791ee4SReid Kleckner /// of lexical scopes. 29175a791ee4SReid Kleckner void CodeViewDebug::collectLexicalBlockInfo( 29185a791ee4SReid Kleckner SmallVectorImpl<LexicalScope *> &Scopes, 29195a791ee4SReid Kleckner SmallVectorImpl<LexicalBlock *> &Blocks, 2920b17464e4SBrock Wyma SmallVectorImpl<LocalVariable> &Locals, 2921b17464e4SBrock Wyma SmallVectorImpl<CVGlobalVariable> &Globals) { 29225a791ee4SReid Kleckner for (LexicalScope *Scope : Scopes) 2923b17464e4SBrock Wyma collectLexicalBlockInfo(*Scope, Blocks, Locals, Globals); 29245a791ee4SReid Kleckner } 29255a791ee4SReid Kleckner 29265a791ee4SReid Kleckner /// Populate the lexical blocks and local variable lists of the parent with 29275a791ee4SReid Kleckner /// information about the specified lexical scope. 29285a791ee4SReid Kleckner void CodeViewDebug::collectLexicalBlockInfo( 29295a791ee4SReid Kleckner LexicalScope &Scope, 29305a791ee4SReid Kleckner SmallVectorImpl<LexicalBlock *> &ParentBlocks, 2931b17464e4SBrock Wyma SmallVectorImpl<LocalVariable> &ParentLocals, 2932b17464e4SBrock Wyma SmallVectorImpl<CVGlobalVariable> &ParentGlobals) { 29335a791ee4SReid Kleckner if (Scope.isAbstractScope()) 29345a791ee4SReid Kleckner return; 29355a791ee4SReid Kleckner 2936b17464e4SBrock Wyma // Gather information about the lexical scope including local variables, 2937b17464e4SBrock Wyma // global variables, and address ranges. 2938b17464e4SBrock Wyma bool IgnoreScope = false; 2939b17464e4SBrock Wyma auto LI = ScopeVariables.find(&Scope); 2940b17464e4SBrock Wyma SmallVectorImpl<LocalVariable> *Locals = 2941b17464e4SBrock Wyma LI != ScopeVariables.end() ? &LI->second : nullptr; 2942b17464e4SBrock Wyma auto GI = ScopeGlobals.find(Scope.getScopeNode()); 2943b17464e4SBrock Wyma SmallVectorImpl<CVGlobalVariable> *Globals = 2944b17464e4SBrock Wyma GI != ScopeGlobals.end() ? GI->second.get() : nullptr; 29455a791ee4SReid Kleckner const DILexicalBlock *DILB = dyn_cast<DILexicalBlock>(Scope.getScopeNode()); 29465a791ee4SReid Kleckner const SmallVectorImpl<InsnRange> &Ranges = Scope.getRanges(); 2947b17464e4SBrock Wyma 2948b17464e4SBrock Wyma // Ignore lexical scopes which do not contain variables. 2949b17464e4SBrock Wyma if (!Locals && !Globals) 2950b17464e4SBrock Wyma IgnoreScope = true; 2951b17464e4SBrock Wyma 2952b17464e4SBrock Wyma // Ignore lexical scopes which are not lexical blocks. 2953b17464e4SBrock Wyma if (!DILB) 2954b17464e4SBrock Wyma IgnoreScope = true; 2955b17464e4SBrock Wyma 2956b17464e4SBrock Wyma // Ignore scopes which have too many address ranges to represent in the 2957b17464e4SBrock Wyma // current CodeView format or do not have a valid address range. 29585a791ee4SReid Kleckner // 29595a791ee4SReid Kleckner // For lexical scopes with multiple address ranges you may be tempted to 29605a791ee4SReid Kleckner // construct a single range covering every instruction where the block is 29615a791ee4SReid Kleckner // live and everything in between. Unfortunately, Visual Studio only 29625a791ee4SReid Kleckner // displays variables from the first matching lexical block scope. If the 29635a791ee4SReid Kleckner // first lexical block contains exception handling code or cold code which 29645a791ee4SReid Kleckner // is moved to the bottom of the routine creating a single range covering 29655a791ee4SReid Kleckner // nearly the entire routine, then it will hide all other lexical blocks 29665a791ee4SReid Kleckner // and the variables they contain. 2967b17464e4SBrock Wyma if (Ranges.size() != 1 || !getLabelAfterInsn(Ranges.front().second)) 2968b17464e4SBrock Wyma IgnoreScope = true; 2969b17464e4SBrock Wyma 2970b17464e4SBrock Wyma if (IgnoreScope) { 2971b17464e4SBrock Wyma // This scope can be safely ignored and eliminating it will reduce the 2972b17464e4SBrock Wyma // size of the debug information. Be sure to collect any variable and scope 2973b17464e4SBrock Wyma // information from the this scope or any of its children and collapse them 2974b17464e4SBrock Wyma // into the parent scope. 2975b17464e4SBrock Wyma if (Locals) 2976b17464e4SBrock Wyma ParentLocals.append(Locals->begin(), Locals->end()); 2977b17464e4SBrock Wyma if (Globals) 2978b17464e4SBrock Wyma ParentGlobals.append(Globals->begin(), Globals->end()); 2979b17464e4SBrock Wyma collectLexicalBlockInfo(Scope.getChildren(), 2980b17464e4SBrock Wyma ParentBlocks, 2981b17464e4SBrock Wyma ParentLocals, 2982b17464e4SBrock Wyma ParentGlobals); 29835a791ee4SReid Kleckner return; 29845a791ee4SReid Kleckner } 29855a791ee4SReid Kleckner 29865a791ee4SReid Kleckner // Create a new CodeView lexical block for this lexical scope. If we've 29875a791ee4SReid Kleckner // seen this DILexicalBlock before then the scope tree is malformed and 29885a791ee4SReid Kleckner // we can handle this gracefully by not processing it a second time. 29895a791ee4SReid Kleckner auto BlockInsertion = CurFn->LexicalBlocks.insert({DILB, LexicalBlock()}); 29905a791ee4SReid Kleckner if (!BlockInsertion.second) 29915a791ee4SReid Kleckner return; 29925a791ee4SReid Kleckner 2993b17464e4SBrock Wyma // Create a lexical block containing the variables and collect the the 2994b17464e4SBrock Wyma // lexical block information for the children. 29955a791ee4SReid Kleckner const InsnRange &Range = Ranges.front(); 29965a791ee4SReid Kleckner assert(Range.first && Range.second); 29975a791ee4SReid Kleckner LexicalBlock &Block = BlockInsertion.first->second; 29985a791ee4SReid Kleckner Block.Begin = getLabelBeforeInsn(Range.first); 29995a791ee4SReid Kleckner Block.End = getLabelAfterInsn(Range.second); 30005a791ee4SReid Kleckner assert(Block.Begin && "missing label for scope begin"); 30015a791ee4SReid Kleckner assert(Block.End && "missing label for scope end"); 30025a791ee4SReid Kleckner Block.Name = DILB->getName(); 3003b17464e4SBrock Wyma if (Locals) 3004b17464e4SBrock Wyma Block.Locals = std::move(*Locals); 3005b17464e4SBrock Wyma if (Globals) 3006b17464e4SBrock Wyma Block.Globals = std::move(*Globals); 30075a791ee4SReid Kleckner ParentBlocks.push_back(&Block); 3008b17464e4SBrock Wyma collectLexicalBlockInfo(Scope.getChildren(), 3009b17464e4SBrock Wyma Block.Children, 3010b17464e4SBrock Wyma Block.Locals, 3011b17464e4SBrock Wyma Block.Globals); 30125a791ee4SReid Kleckner } 30135a791ee4SReid Kleckner 3014b2fbb4b2SDavid Blaikie void CodeViewDebug::endFunctionImpl(const MachineFunction *MF) { 3015f1caa283SMatthias Braun const Function &GV = MF->getFunction(); 3016f1caa283SMatthias Braun assert(FnDebugInfo.count(&GV)); 301755baeefdSReid Kleckner assert(CurFn == FnDebugInfo[&GV].get()); 301870f5bc99SReid Kleckner 3019f1caa283SMatthias Braun collectVariableInfo(GV.getSubprogram()); 3020876330d5SReid Kleckner 30215a791ee4SReid Kleckner // Build the lexical block structure to emit for this routine. 30225a791ee4SReid Kleckner if (LexicalScope *CFS = LScopes.getCurrentFunctionScope()) 3023b17464e4SBrock Wyma collectLexicalBlockInfo(*CFS, 3024b17464e4SBrock Wyma CurFn->ChildBlocks, 3025b17464e4SBrock Wyma CurFn->Locals, 3026b17464e4SBrock Wyma CurFn->Globals); 30275a791ee4SReid Kleckner 30285a791ee4SReid Kleckner // Clear the scope and variable information from the map which will not be 30295a791ee4SReid Kleckner // valid after we have finished processing this routine. This also prepares 30305a791ee4SReid Kleckner // the map for the subsequent routine. 30315a791ee4SReid Kleckner ScopeVariables.clear(); 30325a791ee4SReid Kleckner 30332214ed89SReid Kleckner // Don't emit anything if we don't have any line tables. 303494ece8fbSBrock Wyma // Thunks are compiler-generated and probably won't have source correlation. 303594ece8fbSBrock Wyma if (!CurFn->HaveLineInfo && !GV.getSubprogram()->isThunk()) { 3036f1caa283SMatthias Braun FnDebugInfo.erase(&GV); 3037f9c275feSReid Kleckner CurFn = nullptr; 3038f9c275feSReid Kleckner return; 303970f5bc99SReid Kleckner } 3040f9c275feSReid Kleckner 304174204304SAmy Huang // Find heap alloc sites and add to list. 304274204304SAmy Huang for (const auto &MBB : *MF) { 304374204304SAmy Huang for (const auto &MI : MBB) { 304474204304SAmy Huang if (MDNode *MD = MI.getHeapAllocMarker()) { 304574204304SAmy Huang CurFn->HeapAllocSites.push_back(std::make_tuple(getLabelBeforeInsn(&MI), 304674204304SAmy Huang getLabelAfterInsn(&MI), 304774204304SAmy Huang dyn_cast<DIType>(MD))); 304874204304SAmy Huang } 304974204304SAmy Huang } 305074204304SAmy Huang } 305174204304SAmy Huang 3052e33c94f1SReid Kleckner CurFn->Annotations = MF->getCodeViewAnnotations(); 3053e33c94f1SReid Kleckner 3054f9c275feSReid Kleckner CurFn->End = Asm->getFunctionEnd(); 3055f9c275feSReid Kleckner 305670f5bc99SReid Kleckner CurFn = nullptr; 305770f5bc99SReid Kleckner } 305870f5bc99SReid Kleckner 30599d8f0b35SReid Kleckner // Usable locations are valid with non-zero line numbers. A line number of zero 30609d8f0b35SReid Kleckner // corresponds to optimized code that doesn't have a distinct source location. 30619d8f0b35SReid Kleckner // In this case, we try to use the previous or next source location depending on 30629d8f0b35SReid Kleckner // the context. 30639d8f0b35SReid Kleckner static bool isUsableDebugLoc(DebugLoc DL) { 30649d8f0b35SReid Kleckner return DL && DL.getLine() != 0; 30659d8f0b35SReid Kleckner } 30669d8f0b35SReid Kleckner 306770f5bc99SReid Kleckner void CodeViewDebug::beginInstruction(const MachineInstr *MI) { 3068f9c275feSReid Kleckner DebugHandlerBase::beginInstruction(MI); 3069f9c275feSReid Kleckner 3070801bf7ebSShiva Chen // Ignore DBG_VALUE and DBG_LABEL locations and function prologue. 3071801bf7ebSShiva Chen if (!Asm || !CurFn || MI->isDebugInstr() || 307267f684e1SDavid Majnemer MI->getFlag(MachineInstr::FrameSetup)) 307370f5bc99SReid Kleckner return; 307445a74620SReid Kleckner 307545a74620SReid Kleckner // If the first instruction of a new MBB has no location, find the first 307645a74620SReid Kleckner // instruction with a location and use that. 307770f5bc99SReid Kleckner DebugLoc DL = MI->getDebugLoc(); 30789d8f0b35SReid Kleckner if (!isUsableDebugLoc(DL) && MI->getParent() != PrevInstBB) { 307945a74620SReid Kleckner for (const auto &NextMI : *MI->getParent()) { 3080801bf7ebSShiva Chen if (NextMI.isDebugInstr()) 30812de471dcSReid Kleckner continue; 308245a74620SReid Kleckner DL = NextMI.getDebugLoc(); 30839d8f0b35SReid Kleckner if (isUsableDebugLoc(DL)) 308445a74620SReid Kleckner break; 308545a74620SReid Kleckner } 30869d8f0b35SReid Kleckner // FIXME: Handle the case where the BB has no valid locations. This would 30879d8f0b35SReid Kleckner // probably require doing a real dataflow analysis. 308845a74620SReid Kleckner } 308945a74620SReid Kleckner PrevInstBB = MI->getParent(); 309045a74620SReid Kleckner 309145a74620SReid Kleckner // If we still don't have a debug location, don't record a location. 30929d8f0b35SReid Kleckner if (!isUsableDebugLoc(DL)) 309370f5bc99SReid Kleckner return; 309445a74620SReid Kleckner 309570f5bc99SReid Kleckner maybeRecordLocation(DL, Asm->MF); 309670f5bc99SReid Kleckner } 30976f3406dfSReid Kleckner 30988c099fe0SZachary Turner MCSymbol *CodeViewDebug::beginCVSubsection(DebugSubsectionKind Kind) { 30996f3406dfSReid Kleckner MCSymbol *BeginLabel = MMI->getContext().createTempSymbol(), 31006f3406dfSReid Kleckner *EndLabel = MMI->getContext().createTempSymbol(); 3101692e0c96SFangrui Song OS.emitInt32(unsigned(Kind)); 31026f3406dfSReid Kleckner OS.AddComment("Subsection size"); 31036f3406dfSReid Kleckner OS.emitAbsoluteSymbolDiff(EndLabel, BeginLabel, 4); 31046d2d589bSFangrui Song OS.emitLabel(BeginLabel); 31056f3406dfSReid Kleckner return EndLabel; 31066f3406dfSReid Kleckner } 31076f3406dfSReid Kleckner 31086f3406dfSReid Kleckner void CodeViewDebug::endCVSubsection(MCSymbol *EndLabel) { 31096d2d589bSFangrui Song OS.emitLabel(EndLabel); 31106f3406dfSReid Kleckner // Every subsection must be aligned to a 4-byte boundary. 31116d2d589bSFangrui Song OS.emitValueToAlignment(4); 31126f3406dfSReid Kleckner } 31136f3406dfSReid Kleckner 31145bf71d11SReid Kleckner static StringRef getSymbolName(SymbolKind SymKind) { 31155bf71d11SReid Kleckner for (const EnumEntry<SymbolKind> &EE : getSymbolTypeNames()) 31165bf71d11SReid Kleckner if (EE.Value == SymKind) 31175bf71d11SReid Kleckner return EE.Name; 31185bf71d11SReid Kleckner return ""; 31195bf71d11SReid Kleckner } 31205bf71d11SReid Kleckner 31215bf71d11SReid Kleckner MCSymbol *CodeViewDebug::beginSymbolRecord(SymbolKind SymKind) { 31225bf71d11SReid Kleckner MCSymbol *BeginLabel = MMI->getContext().createTempSymbol(), 31235bf71d11SReid Kleckner *EndLabel = MMI->getContext().createTempSymbol(); 31245bf71d11SReid Kleckner OS.AddComment("Record length"); 31255bf71d11SReid Kleckner OS.emitAbsoluteSymbolDiff(EndLabel, BeginLabel, 2); 31266d2d589bSFangrui Song OS.emitLabel(BeginLabel); 31275bf71d11SReid Kleckner if (OS.isVerboseAsm()) 31285bf71d11SReid Kleckner OS.AddComment("Record kind: " + getSymbolName(SymKind)); 3129692e0c96SFangrui Song OS.emitInt16(unsigned(SymKind)); 31305bf71d11SReid Kleckner return EndLabel; 31315bf71d11SReid Kleckner } 31325bf71d11SReid Kleckner 31335bf71d11SReid Kleckner void CodeViewDebug::endSymbolRecord(MCSymbol *SymEnd) { 31344ab50b85SReid Kleckner // MSVC does not pad out symbol records to four bytes, but LLVM does to avoid 31354ab50b85SReid Kleckner // an extra copy of every symbol record in LLD. This increases object file 31364ab50b85SReid Kleckner // size by less than 1% in the clang build, and is compatible with the Visual 31374ab50b85SReid Kleckner // C++ linker. 31386d2d589bSFangrui Song OS.emitValueToAlignment(4); 31396d2d589bSFangrui Song OS.emitLabel(SymEnd); 31405bf71d11SReid Kleckner } 31415bf71d11SReid Kleckner 31425bf71d11SReid Kleckner void CodeViewDebug::emitEndSymbolRecord(SymbolKind EndKind) { 31435bf71d11SReid Kleckner OS.AddComment("Record length"); 3144692e0c96SFangrui Song OS.emitInt16(2); 31455bf71d11SReid Kleckner if (OS.isVerboseAsm()) 31465bf71d11SReid Kleckner OS.AddComment("Record kind: " + getSymbolName(EndKind)); 3147692e0c96SFangrui Song OS.emitInt16(uint16_t(EndKind)); // Record Kind 31485bf71d11SReid Kleckner } 31495bf71d11SReid Kleckner 31503128b10cSDavid Majnemer void CodeViewDebug::emitDebugInfoForUDTs( 315147cc6db9SReid Kleckner const std::vector<std::pair<std::string, const DIType *>> &UDTs) { 315247cc6db9SReid Kleckner #ifndef NDEBUG 315347cc6db9SReid Kleckner size_t OriginalSize = UDTs.size(); 315447cc6db9SReid Kleckner #endif 3155a7b04174SZachary Turner for (const auto &UDT : UDTs) { 3156a7b04174SZachary Turner const DIType *T = UDT.second; 3157a7b04174SZachary Turner assert(shouldEmitUdt(T)); 31585bf71d11SReid Kleckner MCSymbol *UDTRecordEnd = beginSymbolRecord(SymbolKind::S_UDT); 31593128b10cSDavid Majnemer OS.AddComment("Type"); 3160692e0c96SFangrui Song OS.emitInt32(getCompleteTypeIndex(T).getIndex()); 316147cc6db9SReid Kleckner assert(OriginalSize == UDTs.size() && 316247cc6db9SReid Kleckner "getCompleteTypeIndex found new UDTs!"); 31633128b10cSDavid Majnemer emitNullTerminatedSymbolName(OS, UDT.first); 31645bf71d11SReid Kleckner endSymbolRecord(UDTRecordEnd); 31653128b10cSDavid Majnemer } 31663128b10cSDavid Majnemer } 31673128b10cSDavid Majnemer 3168b17464e4SBrock Wyma void CodeViewDebug::collectGlobalVariableInfo() { 3169bceaaa96SAdrian Prantl DenseMap<const DIGlobalVariableExpression *, const GlobalVariable *> 3170bceaaa96SAdrian Prantl GlobalMap; 3171d4135bbcSPeter Collingbourne for (const GlobalVariable &GV : MMI->getModule()->globals()) { 3172bceaaa96SAdrian Prantl SmallVector<DIGlobalVariableExpression *, 1> GVEs; 3173bceaaa96SAdrian Prantl GV.getDebugInfo(GVEs); 3174bceaaa96SAdrian Prantl for (const auto *GVE : GVEs) 3175bceaaa96SAdrian Prantl GlobalMap[GVE] = &GV; 3176d4135bbcSPeter Collingbourne } 3177d4135bbcSPeter Collingbourne 31786f3406dfSReid Kleckner NamedMDNode *CUs = MMI->getModule()->getNamedMetadata("llvm.dbg.cu"); 31796f3406dfSReid Kleckner for (const MDNode *Node : CUs->operands()) { 31806f3406dfSReid Kleckner const auto *CU = cast<DICompileUnit>(Node); 3181b17464e4SBrock Wyma for (const auto *GVE : CU->getGlobalVariables()) { 3182c2029068SAmy Huang const DIGlobalVariable *DIGV = GVE->getVariable(); 3183c2029068SAmy Huang const DIExpression *DIE = GVE->getExpression(); 3184c2029068SAmy Huang 31852ed29d87SChih-Ping Chen if ((DIE->getNumElements() == 2) && 31862ed29d87SChih-Ping Chen (DIE->getElement(0) == dwarf::DW_OP_plus_uconst)) 31872ed29d87SChih-Ping Chen // Record the constant offset for the variable. 31882ed29d87SChih-Ping Chen // 31892ed29d87SChih-Ping Chen // A Fortran common block uses this idiom to encode the offset 31902ed29d87SChih-Ping Chen // of a variable from the common block's starting address. 31912ed29d87SChih-Ping Chen CVGlobalVariableOffsets.insert( 31922ed29d87SChih-Ping Chen std::make_pair(DIGV, DIE->getElement(1))); 31932ed29d87SChih-Ping Chen 3194c2029068SAmy Huang // Emit constant global variables in a global symbol section. 3195c2029068SAmy Huang if (GlobalMap.count(GVE) == 0 && DIE->isConstant()) { 3196c2029068SAmy Huang CVGlobalVariable CVGV = {DIGV, DIE}; 3197c2029068SAmy Huang GlobalVariables.emplace_back(std::move(CVGV)); 3198c2029068SAmy Huang } 3199c2029068SAmy Huang 3200b17464e4SBrock Wyma const auto *GV = GlobalMap.lookup(GVE); 3201b17464e4SBrock Wyma if (!GV || GV->isDeclarationForLinker()) 3202b17464e4SBrock Wyma continue; 3203c2029068SAmy Huang 3204b17464e4SBrock Wyma DIScope *Scope = DIGV->getScope(); 3205b17464e4SBrock Wyma SmallVector<CVGlobalVariable, 1> *VariableList; 3206b17464e4SBrock Wyma if (Scope && isa<DILocalScope>(Scope)) { 3207b17464e4SBrock Wyma // Locate a global variable list for this scope, creating one if 3208b17464e4SBrock Wyma // necessary. 3209b17464e4SBrock Wyma auto Insertion = ScopeGlobals.insert( 3210b17464e4SBrock Wyma {Scope, std::unique_ptr<GlobalVariableList>()}); 3211b17464e4SBrock Wyma if (Insertion.second) 32120eaee545SJonas Devlieghere Insertion.first->second = std::make_unique<GlobalVariableList>(); 3213b17464e4SBrock Wyma VariableList = Insertion.first->second.get(); 3214b17464e4SBrock Wyma } else if (GV->hasComdat()) 3215b17464e4SBrock Wyma // Emit this global variable into a COMDAT section. 3216b17464e4SBrock Wyma VariableList = &ComdatVariables; 3217b17464e4SBrock Wyma else 3218c2029068SAmy Huang // Emit this global variable in a single global symbol section. 3219b17464e4SBrock Wyma VariableList = &GlobalVariables; 3220b17464e4SBrock Wyma CVGlobalVariable CVGV = {DIGV, GV}; 3221b17464e4SBrock Wyma VariableList->emplace_back(std::move(CVGV)); 3222b17464e4SBrock Wyma } 3223b17464e4SBrock Wyma } 3224b17464e4SBrock Wyma } 32256f3406dfSReid Kleckner 32267669f3c0SAmy Huang void CodeViewDebug::collectDebugInfoForGlobals() { 32277669f3c0SAmy Huang for (const CVGlobalVariable &CVGV : GlobalVariables) { 32287669f3c0SAmy Huang const DIGlobalVariable *DIGV = CVGV.DIGV; 32297669f3c0SAmy Huang const DIScope *Scope = DIGV->getScope(); 32307669f3c0SAmy Huang getCompleteTypeIndex(DIGV->getType()); 32317669f3c0SAmy Huang getFullyQualifiedName(Scope, DIGV->getName()); 32327669f3c0SAmy Huang } 32337669f3c0SAmy Huang 32347669f3c0SAmy Huang for (const CVGlobalVariable &CVGV : ComdatVariables) { 32357669f3c0SAmy Huang const DIGlobalVariable *DIGV = CVGV.DIGV; 32367669f3c0SAmy Huang const DIScope *Scope = DIGV->getScope(); 32377669f3c0SAmy Huang getCompleteTypeIndex(DIGV->getType()); 32387669f3c0SAmy Huang getFullyQualifiedName(Scope, DIGV->getName()); 32397669f3c0SAmy Huang } 32407669f3c0SAmy Huang } 32417669f3c0SAmy Huang 3242b17464e4SBrock Wyma void CodeViewDebug::emitDebugInfoForGlobals() { 32436f3406dfSReid Kleckner // First, emit all globals that are not in a comdat in a single symbol 32446f3406dfSReid Kleckner // substream. MSVC doesn't like it if the substream is empty, so only open 32456f3406dfSReid Kleckner // it if we have at least one global to emit. 32466f3406dfSReid Kleckner switchToDebugSectionForSymbol(nullptr); 32477669f3c0SAmy Huang if (!GlobalVariables.empty() || !StaticConstMembers.empty()) { 32486f3406dfSReid Kleckner OS.AddComment("Symbol subsection for globals"); 3249b17464e4SBrock Wyma MCSymbol *EndLabel = beginCVSubsection(DebugSubsectionKind::Symbols); 3250b17464e4SBrock Wyma emitGlobalVariableList(GlobalVariables); 32517669f3c0SAmy Huang emitStaticConstMemberList(); 32526f3406dfSReid Kleckner endCVSubsection(EndLabel); 3253b17464e4SBrock Wyma } 32546f3406dfSReid Kleckner 32556f3406dfSReid Kleckner // Second, emit each global that is in a comdat into its own .debug$S 32566f3406dfSReid Kleckner // section along with its own symbol substream. 3257b17464e4SBrock Wyma for (const CVGlobalVariable &CVGV : ComdatVariables) { 3258c2029068SAmy Huang const GlobalVariable *GV = CVGV.GVInfo.get<const GlobalVariable *>(); 3259c2029068SAmy Huang MCSymbol *GVSym = Asm->getSymbol(GV); 32606f3406dfSReid Kleckner OS.AddComment("Symbol subsection for " + 3261c2029068SAmy Huang Twine(GlobalValue::dropLLVMManglingEscape(GV->getName()))); 32626f3406dfSReid Kleckner switchToDebugSectionForSymbol(GVSym); 3263b17464e4SBrock Wyma MCSymbol *EndLabel = beginCVSubsection(DebugSubsectionKind::Symbols); 3264bceaaa96SAdrian Prantl // FIXME: emitDebugInfoForGlobal() doesn't handle DIExpressions. 3265c2029068SAmy Huang emitDebugInfoForGlobal(CVGV); 32666f3406dfSReid Kleckner endCVSubsection(EndLabel); 32676f3406dfSReid Kleckner } 32686f3406dfSReid Kleckner } 32696f3406dfSReid Kleckner 3270b510b458SHans Wennborg void CodeViewDebug::emitDebugInfoForRetainedTypes() { 3271b510b458SHans Wennborg NamedMDNode *CUs = MMI->getModule()->getNamedMetadata("llvm.dbg.cu"); 3272b510b458SHans Wennborg for (const MDNode *Node : CUs->operands()) { 3273b510b458SHans Wennborg for (auto *Ty : cast<DICompileUnit>(Node)->getRetainedTypes()) { 3274b510b458SHans Wennborg if (DIType *RT = dyn_cast<DIType>(Ty)) { 3275b510b458SHans Wennborg getTypeIndex(RT); 3276b510b458SHans Wennborg // FIXME: Add to global/local DTU list. 3277b510b458SHans Wennborg } 3278b510b458SHans Wennborg } 3279b510b458SHans Wennborg } 3280b510b458SHans Wennborg } 3281b510b458SHans Wennborg 3282b17464e4SBrock Wyma // Emit each global variable in the specified array. 3283b17464e4SBrock Wyma void CodeViewDebug::emitGlobalVariableList(ArrayRef<CVGlobalVariable> Globals) { 3284b17464e4SBrock Wyma for (const CVGlobalVariable &CVGV : Globals) { 3285b17464e4SBrock Wyma // FIXME: emitDebugInfoForGlobal() doesn't handle DIExpressions. 3286c2029068SAmy Huang emitDebugInfoForGlobal(CVGV); 3287b17464e4SBrock Wyma } 3288b17464e4SBrock Wyma } 3289b17464e4SBrock Wyma 3290f84c70a3SMatheus Izvekov void CodeViewDebug::emitConstantSymbolRecord(const DIType *DTy, APSInt &Value, 3291f84c70a3SMatheus Izvekov const std::string &QualifiedName) { 3292f84c70a3SMatheus Izvekov MCSymbol *SConstantEnd = beginSymbolRecord(SymbolKind::S_CONSTANT); 3293f84c70a3SMatheus Izvekov OS.AddComment("Type"); 3294f84c70a3SMatheus Izvekov OS.emitInt32(getTypeIndex(DTy).getIndex()); 3295f84c70a3SMatheus Izvekov 3296f84c70a3SMatheus Izvekov OS.AddComment("Value"); 3297f84c70a3SMatheus Izvekov 3298f84c70a3SMatheus Izvekov // Encoded integers shouldn't need more than 10 bytes. 3299f84c70a3SMatheus Izvekov uint8_t Data[10]; 3300f84c70a3SMatheus Izvekov BinaryStreamWriter Writer(Data, llvm::support::endianness::little); 3301f84c70a3SMatheus Izvekov CodeViewRecordIO IO(Writer); 3302f84c70a3SMatheus Izvekov cantFail(IO.mapEncodedInteger(Value)); 3303f84c70a3SMatheus Izvekov StringRef SRef((char *)Data, Writer.getOffset()); 3304f84c70a3SMatheus Izvekov OS.emitBinaryData(SRef); 3305f84c70a3SMatheus Izvekov 3306f84c70a3SMatheus Izvekov OS.AddComment("Name"); 3307f84c70a3SMatheus Izvekov emitNullTerminatedSymbolName(OS, QualifiedName); 3308f84c70a3SMatheus Izvekov endSymbolRecord(SConstantEnd); 3309f84c70a3SMatheus Izvekov } 3310f84c70a3SMatheus Izvekov 33117669f3c0SAmy Huang void CodeViewDebug::emitStaticConstMemberList() { 33127669f3c0SAmy Huang for (const DIDerivedType *DTy : StaticConstMembers) { 33137669f3c0SAmy Huang const DIScope *Scope = DTy->getScope(); 33147669f3c0SAmy Huang 33157669f3c0SAmy Huang APSInt Value; 33167669f3c0SAmy Huang if (const ConstantInt *CI = 33177669f3c0SAmy Huang dyn_cast_or_null<ConstantInt>(DTy->getConstant())) 33187669f3c0SAmy Huang Value = APSInt(CI->getValue(), 33197669f3c0SAmy Huang DebugHandlerBase::isUnsignedDIType(DTy->getBaseType())); 33207669f3c0SAmy Huang else if (const ConstantFP *CFP = 33217669f3c0SAmy Huang dyn_cast_or_null<ConstantFP>(DTy->getConstant())) 33227669f3c0SAmy Huang Value = APSInt(CFP->getValueAPF().bitcastToAPInt(), true); 33237669f3c0SAmy Huang else 33241363dfafSAmy Huang llvm_unreachable("cannot emit a constant without a value"); 33257669f3c0SAmy Huang 3326f84c70a3SMatheus Izvekov emitConstantSymbolRecord(DTy->getBaseType(), Value, 3327f84c70a3SMatheus Izvekov getFullyQualifiedName(Scope, DTy->getName())); 33287669f3c0SAmy Huang } 33297669f3c0SAmy Huang } 33307669f3c0SAmy Huang 33317156910dSAmy Huang static bool isFloatDIType(const DIType *Ty) { 333293c2a9aeSSimon Pilgrim if (isa<DICompositeType>(Ty)) 33337156910dSAmy Huang return false; 33347156910dSAmy Huang 33357156910dSAmy Huang if (auto *DTy = dyn_cast<DIDerivedType>(Ty)) { 33367156910dSAmy Huang dwarf::Tag T = (dwarf::Tag)Ty->getTag(); 33377156910dSAmy Huang if (T == dwarf::DW_TAG_pointer_type || 33387156910dSAmy Huang T == dwarf::DW_TAG_ptr_to_member_type || 33397156910dSAmy Huang T == dwarf::DW_TAG_reference_type || 33407156910dSAmy Huang T == dwarf::DW_TAG_rvalue_reference_type) 33417156910dSAmy Huang return false; 33427156910dSAmy Huang assert(DTy->getBaseType() && "Expected valid base type"); 33437156910dSAmy Huang return isFloatDIType(DTy->getBaseType()); 33447156910dSAmy Huang } 33457156910dSAmy Huang 33467156910dSAmy Huang auto *BTy = cast<DIBasicType>(Ty); 33477156910dSAmy Huang return (BTy->getEncoding() == dwarf::DW_ATE_float); 33487156910dSAmy Huang } 33497156910dSAmy Huang 3350c2029068SAmy Huang void CodeViewDebug::emitDebugInfoForGlobal(const CVGlobalVariable &CVGV) { 3351c2029068SAmy Huang const DIGlobalVariable *DIGV = CVGV.DIGV; 335247cc6db9SReid Kleckner 335347cc6db9SReid Kleckner const DIScope *Scope = DIGV->getScope(); 335447cc6db9SReid Kleckner // For static data members, get the scope from the declaration. 335547cc6db9SReid Kleckner if (const auto *MemberDecl = dyn_cast_or_null<DIDerivedType>( 335647cc6db9SReid Kleckner DIGV->getRawStaticDataMemberDeclaration())) 335747cc6db9SReid Kleckner Scope = MemberDecl->getScope(); 33582ed29d87SChih-Ping Chen // For Fortran, the scoping portion is elided in its name so that we can 33592ed29d87SChih-Ping Chen // reference the variable in the command line of the VS debugger. 33602ed29d87SChih-Ping Chen std::string QualifiedName = 33612ed29d87SChih-Ping Chen (moduleIsInFortran()) ? std::string(DIGV->getName()) 33622ed29d87SChih-Ping Chen : getFullyQualifiedName(Scope, DIGV->getName()); 336347cc6db9SReid Kleckner 3364c2029068SAmy Huang if (const GlobalVariable *GV = 3365c2029068SAmy Huang CVGV.GVInfo.dyn_cast<const GlobalVariable *>()) { 33665bf71d11SReid Kleckner // DataSym record, see SymbolRecord.h for more info. Thread local data 33675bf71d11SReid Kleckner // happens to have the same format as global data. 3368c2029068SAmy Huang MCSymbol *GVSym = Asm->getSymbol(GV); 33695bf71d11SReid Kleckner SymbolKind DataSym = GV->isThreadLocal() 33705bf71d11SReid Kleckner ? (DIGV->isLocalToUnit() ? SymbolKind::S_LTHREAD32 33715bf71d11SReid Kleckner : SymbolKind::S_GTHREAD32) 33725bf71d11SReid Kleckner : (DIGV->isLocalToUnit() ? SymbolKind::S_LDATA32 33735bf71d11SReid Kleckner : SymbolKind::S_GDATA32); 33745bf71d11SReid Kleckner MCSymbol *DataEnd = beginSymbolRecord(DataSym); 33756f3406dfSReid Kleckner OS.AddComment("Type"); 3376692e0c96SFangrui Song OS.emitInt32(getCompleteTypeIndex(DIGV->getType()).getIndex()); 33776f3406dfSReid Kleckner OS.AddComment("DataOffset"); 33782ed29d87SChih-Ping Chen 33792ed29d87SChih-Ping Chen uint64_t Offset = 0; 33802ed29d87SChih-Ping Chen if (CVGlobalVariableOffsets.find(DIGV) != CVGlobalVariableOffsets.end()) 33812ed29d87SChih-Ping Chen // Use the offset seen while collecting info on globals. 33822ed29d87SChih-Ping Chen Offset = CVGlobalVariableOffsets[DIGV]; 33832ed29d87SChih-Ping Chen OS.EmitCOFFSecRel32(GVSym, Offset); 33842ed29d87SChih-Ping Chen 33856f3406dfSReid Kleckner OS.AddComment("Segment"); 33866f3406dfSReid Kleckner OS.EmitCOFFSectionIndex(GVSym); 33876f3406dfSReid Kleckner OS.AddComment("Name"); 33885bf71d11SReid Kleckner const unsigned LengthOfDataRecord = 12; 338947cc6db9SReid Kleckner emitNullTerminatedSymbolName(OS, QualifiedName, LengthOfDataRecord); 33905bf71d11SReid Kleckner endSymbolRecord(DataEnd); 3391c2029068SAmy Huang } else { 3392c2029068SAmy Huang const DIExpression *DIE = CVGV.GVInfo.get<const DIExpression *>(); 3393c2029068SAmy Huang assert(DIE->isConstant() && 3394c2029068SAmy Huang "Global constant variables must contain a constant expression."); 33957156910dSAmy Huang 33967156910dSAmy Huang // Use unsigned for floats. 33977156910dSAmy Huang bool isUnsigned = isFloatDIType(DIGV->getType()) 33987156910dSAmy Huang ? true 33997156910dSAmy Huang : DebugHandlerBase::isUnsignedDIType(DIGV->getType()); 34007156910dSAmy Huang APSInt Value(APInt(/*BitWidth=*/64, DIE->getElement(1)), isUnsigned); 3401f84c70a3SMatheus Izvekov emitConstantSymbolRecord(DIGV->getType(), Value, QualifiedName); 3402c2029068SAmy Huang } 34036f3406dfSReid Kleckner } 3404