//===- MinimalSymbolDumper.cpp -------------------------------- *- C++ --*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "MinimalSymbolDumper.h" #include "llvm/ADT/StringExtras.h" #include "llvm/DebugInfo/CodeView/CVRecord.h" #include "llvm/DebugInfo/CodeView/CodeView.h" #include "llvm/DebugInfo/CodeView/Formatters.h" #include "llvm/DebugInfo/CodeView/LazyRandomTypeCollection.h" #include "llvm/DebugInfo/CodeView/SymbolRecord.h" #include "llvm/DebugInfo/CodeView/TypeRecord.h" #include "llvm/DebugInfo/PDB/Native/FormatUtil.h" #include "llvm/DebugInfo/PDB/Native/InputFile.h" #include "llvm/DebugInfo/PDB/Native/LinePrinter.h" #include "llvm/DebugInfo/PDB/Native/NativeSession.h" #include "llvm/DebugInfo/PDB/Native/PDBFile.h" #include "llvm/DebugInfo/PDB/Native/PDBStringTable.h" #include "llvm/Object/COFF.h" #include "llvm/Support/FormatVariadic.h" using namespace llvm; using namespace llvm::codeview; using namespace llvm::pdb; static std::string formatLocalSymFlags(uint32_t IndentLevel, LocalSymFlags Flags) { std::vector Opts; if (Flags == LocalSymFlags::None) return "none"; PUSH_FLAG(LocalSymFlags, IsParameter, Flags, "param"); PUSH_FLAG(LocalSymFlags, IsAddressTaken, Flags, "address is taken"); PUSH_FLAG(LocalSymFlags, IsCompilerGenerated, Flags, "compiler generated"); PUSH_FLAG(LocalSymFlags, IsAggregate, Flags, "aggregate"); PUSH_FLAG(LocalSymFlags, IsAggregated, Flags, "aggregated"); PUSH_FLAG(LocalSymFlags, IsAliased, Flags, "aliased"); PUSH_FLAG(LocalSymFlags, IsAlias, Flags, "alias"); PUSH_FLAG(LocalSymFlags, IsReturnValue, Flags, "return val"); PUSH_FLAG(LocalSymFlags, IsOptimizedOut, Flags, "optimized away"); PUSH_FLAG(LocalSymFlags, IsEnregisteredGlobal, Flags, "enreg global"); PUSH_FLAG(LocalSymFlags, IsEnregisteredStatic, Flags, "enreg static"); return typesetItemList(Opts, 4, IndentLevel, " | "); } static std::string formatExportFlags(uint32_t IndentLevel, ExportFlags Flags) { std::vector Opts; if (Flags == ExportFlags::None) return "none"; PUSH_FLAG(ExportFlags, IsConstant, Flags, "constant"); PUSH_FLAG(ExportFlags, IsData, Flags, "data"); PUSH_FLAG(ExportFlags, IsPrivate, Flags, "private"); PUSH_FLAG(ExportFlags, HasNoName, Flags, "no name"); PUSH_FLAG(ExportFlags, HasExplicitOrdinal, Flags, "explicit ord"); PUSH_FLAG(ExportFlags, IsForwarder, Flags, "forwarder"); return typesetItemList(Opts, 4, IndentLevel, " | "); } static std::string formatCompileSym2Flags(uint32_t IndentLevel, CompileSym2Flags Flags) { std::vector Opts; Flags &= ~CompileSym2Flags::SourceLanguageMask; if (Flags == CompileSym2Flags::None) return "none"; PUSH_FLAG(CompileSym2Flags, EC, Flags, "edit and continue"); PUSH_FLAG(CompileSym2Flags, NoDbgInfo, Flags, "no dbg info"); PUSH_FLAG(CompileSym2Flags, LTCG, Flags, "ltcg"); PUSH_FLAG(CompileSym2Flags, NoDataAlign, Flags, "no data align"); PUSH_FLAG(CompileSym2Flags, ManagedPresent, Flags, "has managed code"); PUSH_FLAG(CompileSym2Flags, SecurityChecks, Flags, "security checks"); PUSH_FLAG(CompileSym2Flags, HotPatch, Flags, "hot patchable"); PUSH_FLAG(CompileSym2Flags, CVTCIL, Flags, "cvtcil"); PUSH_FLAG(CompileSym2Flags, MSILModule, Flags, "msil module"); return typesetItemList(Opts, 4, IndentLevel, " | "); } static std::string formatCompileSym3Flags(uint32_t IndentLevel, CompileSym3Flags Flags) { std::vector Opts; Flags &= ~CompileSym3Flags::SourceLanguageMask; if (Flags == CompileSym3Flags::None) return "none"; PUSH_FLAG(CompileSym3Flags, EC, Flags, "edit and continue"); PUSH_FLAG(CompileSym3Flags, NoDbgInfo, Flags, "no dbg info"); PUSH_FLAG(CompileSym3Flags, LTCG, Flags, "ltcg"); PUSH_FLAG(CompileSym3Flags, NoDataAlign, Flags, "no data align"); PUSH_FLAG(CompileSym3Flags, ManagedPresent, Flags, "has managed code"); PUSH_FLAG(CompileSym3Flags, SecurityChecks, Flags, "security checks"); PUSH_FLAG(CompileSym3Flags, HotPatch, Flags, "hot patchable"); PUSH_FLAG(CompileSym3Flags, CVTCIL, Flags, "cvtcil"); PUSH_FLAG(CompileSym3Flags, MSILModule, Flags, "msil module"); PUSH_FLAG(CompileSym3Flags, Sdl, Flags, "sdl"); PUSH_FLAG(CompileSym3Flags, PGO, Flags, "pgo"); PUSH_FLAG(CompileSym3Flags, Exp, Flags, "exp"); return typesetItemList(Opts, 4, IndentLevel, " | "); } static std::string formatFrameProcedureOptions(uint32_t IndentLevel, FrameProcedureOptions FPO) { std::vector Opts; if (FPO == FrameProcedureOptions::None) return "none"; PUSH_FLAG(FrameProcedureOptions, HasAlloca, FPO, "has alloca"); PUSH_FLAG(FrameProcedureOptions, HasSetJmp, FPO, "has setjmp"); PUSH_FLAG(FrameProcedureOptions, HasLongJmp, FPO, "has longjmp"); PUSH_FLAG(FrameProcedureOptions, HasInlineAssembly, FPO, "has inline asm"); PUSH_FLAG(FrameProcedureOptions, HasExceptionHandling, FPO, "has eh"); PUSH_FLAG(FrameProcedureOptions, MarkedInline, FPO, "marked inline"); PUSH_FLAG(FrameProcedureOptions, HasStructuredExceptionHandling, FPO, "has seh"); PUSH_FLAG(FrameProcedureOptions, Naked, FPO, "naked"); PUSH_FLAG(FrameProcedureOptions, SecurityChecks, FPO, "secure checks"); PUSH_FLAG(FrameProcedureOptions, AsynchronousExceptionHandling, FPO, "has async eh"); PUSH_FLAG(FrameProcedureOptions, NoStackOrderingForSecurityChecks, FPO, "no stack order"); PUSH_FLAG(FrameProcedureOptions, Inlined, FPO, "inlined"); PUSH_FLAG(FrameProcedureOptions, StrictSecurityChecks, FPO, "strict secure checks"); PUSH_FLAG(FrameProcedureOptions, SafeBuffers, FPO, "safe buffers"); PUSH_FLAG(FrameProcedureOptions, ProfileGuidedOptimization, FPO, "pgo"); PUSH_FLAG(FrameProcedureOptions, ValidProfileCounts, FPO, "has profile counts"); PUSH_FLAG(FrameProcedureOptions, OptimizedForSpeed, FPO, "opt speed"); PUSH_FLAG(FrameProcedureOptions, GuardCfg, FPO, "guard cfg"); PUSH_FLAG(FrameProcedureOptions, GuardCfw, FPO, "guard cfw"); return typesetItemList(Opts, 4, IndentLevel, " | "); } static std::string formatPublicSymFlags(uint32_t IndentLevel, PublicSymFlags Flags) { std::vector Opts; if (Flags == PublicSymFlags::None) return "none"; PUSH_FLAG(PublicSymFlags, Code, Flags, "code"); PUSH_FLAG(PublicSymFlags, Function, Flags, "function"); PUSH_FLAG(PublicSymFlags, Managed, Flags, "managed"); PUSH_FLAG(PublicSymFlags, MSIL, Flags, "msil"); return typesetItemList(Opts, 4, IndentLevel, " | "); } static std::string formatProcSymFlags(uint32_t IndentLevel, ProcSymFlags Flags) { std::vector Opts; if (Flags == ProcSymFlags::None) return "none"; PUSH_FLAG(ProcSymFlags, HasFP, Flags, "has fp"); PUSH_FLAG(ProcSymFlags, HasIRET, Flags, "has iret"); PUSH_FLAG(ProcSymFlags, HasFRET, Flags, "has fret"); PUSH_FLAG(ProcSymFlags, IsNoReturn, Flags, "noreturn"); PUSH_FLAG(ProcSymFlags, IsUnreachable, Flags, "unreachable"); PUSH_FLAG(ProcSymFlags, HasCustomCallingConv, Flags, "custom calling conv"); PUSH_FLAG(ProcSymFlags, IsNoInline, Flags, "noinline"); PUSH_FLAG(ProcSymFlags, HasOptimizedDebugInfo, Flags, "opt debuginfo"); return typesetItemList(Opts, 4, IndentLevel, " | "); } static std::string formatThunkOrdinal(ThunkOrdinal Ordinal) { switch (Ordinal) { RETURN_CASE(ThunkOrdinal, Standard, "thunk"); RETURN_CASE(ThunkOrdinal, ThisAdjustor, "this adjustor"); RETURN_CASE(ThunkOrdinal, Vcall, "vcall"); RETURN_CASE(ThunkOrdinal, Pcode, "pcode"); RETURN_CASE(ThunkOrdinal, UnknownLoad, "unknown load"); RETURN_CASE(ThunkOrdinal, TrampIncremental, "tramp incremental"); RETURN_CASE(ThunkOrdinal, BranchIsland, "branch island"); } return formatUnknownEnum(Ordinal); } static std::string formatTrampolineType(TrampolineType Tramp) { switch (Tramp) { RETURN_CASE(TrampolineType, TrampIncremental, "tramp incremental"); RETURN_CASE(TrampolineType, BranchIsland, "branch island"); } return formatUnknownEnum(Tramp); } static std::string formatSourceLanguage(SourceLanguage Lang) { switch (Lang) { RETURN_CASE(SourceLanguage, C, "c"); RETURN_CASE(SourceLanguage, Cpp, "c++"); RETURN_CASE(SourceLanguage, Fortran, "fortran"); RETURN_CASE(SourceLanguage, Masm, "masm"); RETURN_CASE(SourceLanguage, Pascal, "pascal"); RETURN_CASE(SourceLanguage, Basic, "basic"); RETURN_CASE(SourceLanguage, Cobol, "cobol"); RETURN_CASE(SourceLanguage, Link, "link"); RETURN_CASE(SourceLanguage, VB, "vb"); RETURN_CASE(SourceLanguage, Cvtres, "cvtres"); RETURN_CASE(SourceLanguage, Cvtpgd, "cvtpgd"); RETURN_CASE(SourceLanguage, CSharp, "c#"); RETURN_CASE(SourceLanguage, ILAsm, "il asm"); RETURN_CASE(SourceLanguage, Java, "java"); RETURN_CASE(SourceLanguage, JScript, "javascript"); RETURN_CASE(SourceLanguage, MSIL, "msil"); RETURN_CASE(SourceLanguage, HLSL, "hlsl"); RETURN_CASE(SourceLanguage, D, "d"); RETURN_CASE(SourceLanguage, Swift, "swift"); RETURN_CASE(SourceLanguage, Rust, "rust"); RETURN_CASE(SourceLanguage, ObjC, "objc"); RETURN_CASE(SourceLanguage, ObjCpp, "objc++"); RETURN_CASE(SourceLanguage, AliasObj, "aliasobj"); RETURN_CASE(SourceLanguage, Go, "go"); RETURN_CASE(SourceLanguage, OldSwift, "swift"); } return formatUnknownEnum(Lang); } static std::string formatMachineType(CPUType Cpu) { switch (Cpu) { RETURN_CASE(CPUType, Intel8080, "intel 8080"); RETURN_CASE(CPUType, Intel8086, "intel 8086"); RETURN_CASE(CPUType, Intel80286, "intel 80286"); RETURN_CASE(CPUType, Intel80386, "intel 80386"); RETURN_CASE(CPUType, Intel80486, "intel 80486"); RETURN_CASE(CPUType, Pentium, "intel pentium"); RETURN_CASE(CPUType, PentiumPro, "intel pentium pro"); RETURN_CASE(CPUType, Pentium3, "intel pentium 3"); RETURN_CASE(CPUType, MIPS, "mips"); RETURN_CASE(CPUType, MIPS16, "mips-16"); RETURN_CASE(CPUType, MIPS32, "mips-32"); RETURN_CASE(CPUType, MIPS64, "mips-64"); RETURN_CASE(CPUType, MIPSI, "mips i"); RETURN_CASE(CPUType, MIPSII, "mips ii"); RETURN_CASE(CPUType, MIPSIII, "mips iii"); RETURN_CASE(CPUType, MIPSIV, "mips iv"); RETURN_CASE(CPUType, MIPSV, "mips v"); RETURN_CASE(CPUType, M68000, "motorola 68000"); RETURN_CASE(CPUType, M68010, "motorola 68010"); RETURN_CASE(CPUType, M68020, "motorola 68020"); RETURN_CASE(CPUType, M68030, "motorola 68030"); RETURN_CASE(CPUType, M68040, "motorola 68040"); RETURN_CASE(CPUType, Alpha, "alpha"); RETURN_CASE(CPUType, Alpha21164, "alpha 21164"); RETURN_CASE(CPUType, Alpha21164A, "alpha 21164a"); RETURN_CASE(CPUType, Alpha21264, "alpha 21264"); RETURN_CASE(CPUType, Alpha21364, "alpha 21364"); RETURN_CASE(CPUType, PPC601, "powerpc 601"); RETURN_CASE(CPUType, PPC603, "powerpc 603"); RETURN_CASE(CPUType, PPC604, "powerpc 604"); RETURN_CASE(CPUType, PPC620, "powerpc 620"); RETURN_CASE(CPUType, PPCFP, "powerpc fp"); RETURN_CASE(CPUType, PPCBE, "powerpc be"); RETURN_CASE(CPUType, SH3, "sh3"); RETURN_CASE(CPUType, SH3E, "sh3e"); RETURN_CASE(CPUType, SH3DSP, "sh3 dsp"); RETURN_CASE(CPUType, SH4, "sh4"); RETURN_CASE(CPUType, SHMedia, "shmedia"); RETURN_CASE(CPUType, ARM3, "arm 3"); RETURN_CASE(CPUType, ARM4, "arm 4"); RETURN_CASE(CPUType, ARM4T, "arm 4t"); RETURN_CASE(CPUType, ARM5, "arm 5"); RETURN_CASE(CPUType, ARM5T, "arm 5t"); RETURN_CASE(CPUType, ARM6, "arm 6"); RETURN_CASE(CPUType, ARM_XMAC, "arm xmac"); RETURN_CASE(CPUType, ARM_WMMX, "arm wmmx"); RETURN_CASE(CPUType, ARM7, "arm 7"); RETURN_CASE(CPUType, ARM64, "arm64"); RETURN_CASE(CPUType, ARM64EC, "arm64ec"); RETURN_CASE(CPUType, ARM64X, "arm64x"); RETURN_CASE(CPUType, HybridX86ARM64, "hybrid x86 arm64"); RETURN_CASE(CPUType, Omni, "omni"); RETURN_CASE(CPUType, Ia64, "intel itanium ia64"); RETURN_CASE(CPUType, Ia64_2, "intel itanium ia64 2"); RETURN_CASE(CPUType, CEE, "cee"); RETURN_CASE(CPUType, AM33, "am33"); RETURN_CASE(CPUType, M32R, "m32r"); RETURN_CASE(CPUType, TriCore, "tri-core"); RETURN_CASE(CPUType, X64, "intel x86-x64"); RETURN_CASE(CPUType, EBC, "ebc"); RETURN_CASE(CPUType, Thumb, "thumb"); RETURN_CASE(CPUType, ARMNT, "arm nt"); RETURN_CASE(CPUType, D3D11_Shader, "d3d11 shader"); RETURN_CASE(CPUType, Unknown, "unknown"); } return formatUnknownEnum(Cpu); } static std::string formatCookieKind(FrameCookieKind Kind) { switch (Kind) { RETURN_CASE(FrameCookieKind, Copy, "copy"); RETURN_CASE(FrameCookieKind, XorStackPointer, "xor stack ptr"); RETURN_CASE(FrameCookieKind, XorFramePointer, "xor frame ptr"); RETURN_CASE(FrameCookieKind, XorR13, "xor rot13"); } return formatUnknownEnum(Kind); } static std::string formatRegisterId(RegisterId Id, CPUType Cpu) { if (Cpu == CPUType::ARMNT) { switch (Id) { #define CV_REGISTERS_ARM #define CV_REGISTER(name, val) RETURN_CASE(RegisterId, name, #name) #include "llvm/DebugInfo/CodeView/CodeViewRegisters.def" #undef CV_REGISTER #undef CV_REGISTERS_ARM default: break; } } else if (Cpu == CPUType::ARM64) { switch (Id) { #define CV_REGISTERS_ARM64 #define CV_REGISTER(name, val) RETURN_CASE(RegisterId, name, #name) #include "llvm/DebugInfo/CodeView/CodeViewRegisters.def" #undef CV_REGISTER #undef CV_REGISTERS_ARM64 default: break; } } else { switch (Id) { #define CV_REGISTERS_X86 #define CV_REGISTER(name, val) RETURN_CASE(RegisterId, name, #name) #include "llvm/DebugInfo/CodeView/CodeViewRegisters.def" #undef CV_REGISTER #undef CV_REGISTERS_X86 default: break; } } return formatUnknownEnum(Id); } static std::string formatRegisterId(uint16_t Reg16, CPUType Cpu) { return formatRegisterId(RegisterId(Reg16), Cpu); } static std::string formatRegisterId(ulittle16_t &Reg16, CPUType Cpu) { return formatRegisterId(uint16_t(Reg16), Cpu); } static std::string formatRange(LocalVariableAddrRange Range) { return formatv("[{0},+{1})", formatSegmentOffset(Range.ISectStart, Range.OffsetStart), Range.Range) .str(); } static std::string formatGaps(uint32_t IndentLevel, ArrayRef Gaps) { std::vector GapStrs; for (const auto &G : Gaps) { GapStrs.push_back(formatv("({0},{1})", G.GapStartOffset, G.Range).str()); } return typesetItemList(GapStrs, 7, IndentLevel, ", "); } static std::string formatJumpTableEntrySize(JumpTableEntrySize EntrySize) { switch (EntrySize) { RETURN_CASE(JumpTableEntrySize, Int8, "int8"); RETURN_CASE(JumpTableEntrySize, UInt8, "uin8"); RETURN_CASE(JumpTableEntrySize, Int16, "int16"); RETURN_CASE(JumpTableEntrySize, UInt16, "uint16"); RETURN_CASE(JumpTableEntrySize, Int32, "int32"); RETURN_CASE(JumpTableEntrySize, UInt32, "uint32"); RETURN_CASE(JumpTableEntrySize, Pointer, "pointer"); RETURN_CASE(JumpTableEntrySize, UInt8ShiftLeft, "uint8shl"); RETURN_CASE(JumpTableEntrySize, UInt16ShiftLeft, "uint16shl"); RETURN_CASE(JumpTableEntrySize, Int8ShiftLeft, "int8shl"); RETURN_CASE(JumpTableEntrySize, Int16ShiftLeft, "int16shl"); } return formatUnknownEnum(EntrySize); } Error MinimalSymbolDumper::visitSymbolBegin(codeview::CVSymbol &Record) { return visitSymbolBegin(Record, 0); } Error MinimalSymbolDumper::visitSymbolBegin(codeview::CVSymbol &Record, uint32_t Offset) { // formatLine puts the newline at the beginning, so we use formatLine here // to start a new line, and then individual visit methods use format to // append to the existing line. P.formatLine("{0} | {1} [size = {2}]", fmt_align(Offset, AlignStyle::Right, 6), formatSymbolKind(Record.kind()), Record.length()); P.Indent(); return Error::success(); } Error MinimalSymbolDumper::visitSymbolEnd(CVSymbol &Record) { if (RecordBytes) { AutoIndent Indent(P, 7); P.formatBinary("bytes", Record.content(), 0); } P.Unindent(); return Error::success(); } std::string MinimalSymbolDumper::typeOrIdIndex(codeview::TypeIndex TI, bool IsType) const { if (TI.isSimple() || TI.isDecoratedItemId()) return formatv("{0}", TI).str(); auto &Container = IsType ? Types : Ids; StringRef Name = Container.getTypeName(TI); if (Name.size() > 32) { Name = Name.take_front(32); return std::string(formatv("{0} ({1}...)", TI, Name)); } else return std::string(formatv("{0} ({1})", TI, Name)); } std::string MinimalSymbolDumper::idIndex(codeview::TypeIndex TI) const { return typeOrIdIndex(TI, false); } std::string MinimalSymbolDumper::typeIndex(TypeIndex TI) const { return typeOrIdIndex(TI, true); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, BlockSym &Block) { P.format(" `{0}`", Block.Name); AutoIndent Indent(P, 7); P.formatLine("parent = {0}, end = {1}", Block.Parent, Block.End); P.formatLine("code size = {0}, addr = {1}", Block.CodeSize, formatSegmentOffset(Block.Segment, Block.CodeOffset)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, Thunk32Sym &Thunk) { P.format(" `{0}`", Thunk.Name); AutoIndent Indent(P, 7); P.formatLine("parent = {0}, end = {1}, next = {2}", Thunk.Parent, Thunk.End, Thunk.Next); P.formatLine("kind = {0}, size = {1}, addr = {2}", formatThunkOrdinal(Thunk.Thunk), Thunk.Length, formatSegmentOffset(Thunk.Segment, Thunk.Offset)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, TrampolineSym &Tramp) { AutoIndent Indent(P, 7); P.formatLine("type = {0}, size = {1}, source = {2}, target = {3}", formatTrampolineType(Tramp.Type), Tramp.Size, formatSegmentOffset(Tramp.ThunkSection, Tramp.ThunkOffset), formatSegmentOffset(Tramp.TargetSection, Tramp.ThunkOffset)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, SectionSym &Section) { P.format(" `{0}`", Section.Name); AutoIndent Indent(P, 7); P.formatLine("length = {0}, alignment = {1}, rva = {2}, section # = {3}", Section.Length, Section.Alignment, Section.Rva, Section.SectionNumber); P.printLine("characteristics ="); AutoIndent Indent2(P, 2); P.printLine(formatSectionCharacteristics(P.getIndentLevel(), Section.Characteristics, 1, "", CharacteristicStyle::Descriptive)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, CoffGroupSym &CG) { P.format(" `{0}`", CG.Name); AutoIndent Indent(P, 7); P.formatLine("length = {0}, addr = {1}", CG.Size, formatSegmentOffset(CG.Segment, CG.Offset)); P.printLine("characteristics ="); AutoIndent Indent2(P, 2); P.printLine(formatSectionCharacteristics(P.getIndentLevel(), CG.Characteristics, 1, "", CharacteristicStyle::Descriptive)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, BPRelativeSym &BPRel) { P.format(" `{0}`", BPRel.Name); AutoIndent Indent(P, 7); P.formatLine("type = {0}, offset = {1}", typeIndex(BPRel.Type), BPRel.Offset); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, BuildInfoSym &BuildInfo) { P.format(" BuildId = `{0}`", BuildInfo.BuildId); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, CallSiteInfoSym &CSI) { AutoIndent Indent(P, 7); P.formatLine("type = {0}, addr = {1}", typeIndex(CSI.Type), formatSegmentOffset(CSI.Segment, CSI.CodeOffset)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, EnvBlockSym &EnvBlock) { AutoIndent Indent(P, 7); for (const auto &Entry : EnvBlock.Fields) { P.formatLine("- {0}", Entry); } return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, FileStaticSym &FS) { P.format(" `{0}`", FS.Name); AutoIndent Indent(P, 7); if (SymGroup) { Expected FileName = SymGroup->getNameFromStringTable(FS.ModFilenameOffset); if (FileName) { P.formatLine("type = {0}, file name = {1} ({2}), flags = {3}", typeIndex(FS.Index), FS.ModFilenameOffset, *FileName, formatLocalSymFlags(P.getIndentLevel() + 9, FS.Flags)); } return Error::success(); } P.formatLine("type = {0}, file name offset = {1}, flags = {2}", typeIndex(FS.Index), FS.ModFilenameOffset, formatLocalSymFlags(P.getIndentLevel() + 9, FS.Flags)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, ExportSym &Export) { P.format(" `{0}`", Export.Name); AutoIndent Indent(P, 7); P.formatLine("ordinal = {0}, flags = {1}", Export.Ordinal, formatExportFlags(P.getIndentLevel() + 9, Export.Flags)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, Compile2Sym &Compile2) { AutoIndent Indent(P, 7); SourceLanguage Lang = static_cast( Compile2.Flags & CompileSym2Flags::SourceLanguageMask); CompilationCPU = Compile2.Machine; P.formatLine("machine = {0}, ver = {1}, language = {2}", formatMachineType(Compile2.Machine), Compile2.Version, formatSourceLanguage(Lang)); P.formatLine("frontend = {0}.{1}.{2}, backend = {3}.{4}.{5}", Compile2.VersionFrontendMajor, Compile2.VersionFrontendMinor, Compile2.VersionFrontendBuild, Compile2.VersionBackendMajor, Compile2.VersionBackendMinor, Compile2.VersionBackendBuild); P.formatLine("flags = {0}", formatCompileSym2Flags(P.getIndentLevel() + 9, Compile2.Flags)); P.formatLine( "extra strings = {0}", typesetStringList(P.getIndentLevel() + 9 + 2, Compile2.ExtraStrings)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, Compile3Sym &Compile3) { AutoIndent Indent(P, 7); SourceLanguage Lang = static_cast( Compile3.Flags & CompileSym3Flags::SourceLanguageMask); CompilationCPU = Compile3.Machine; P.formatLine("machine = {0}, Ver = {1}, language = {2}", formatMachineType(Compile3.Machine), Compile3.Version, formatSourceLanguage(Lang)); P.formatLine("frontend = {0}.{1}.{2}.{3}, backend = {4}.{5}.{6}.{7}", Compile3.VersionFrontendMajor, Compile3.VersionFrontendMinor, Compile3.VersionFrontendBuild, Compile3.VersionFrontendQFE, Compile3.VersionBackendMajor, Compile3.VersionBackendMinor, Compile3.VersionBackendBuild, Compile3.VersionBackendQFE); P.formatLine("flags = {0}", formatCompileSym3Flags(P.getIndentLevel() + 9, Compile3.Flags)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, ConstantSym &Constant) { P.format(" `{0}`", Constant.Name); AutoIndent Indent(P, 7); P.formatLine("type = {0}, value = {1}", typeIndex(Constant.Type), toString(Constant.Value, 10)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, DataSym &Data) { P.format(" `{0}`", Data.Name); AutoIndent Indent(P, 7); P.formatLine("type = {0}, addr = {1}", typeIndex(Data.Type), formatSegmentOffset(Data.Segment, Data.DataOffset)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord( CVSymbol &CVR, DefRangeFramePointerRelFullScopeSym &Def) { P.format(" offset = {0}", Def.Offset); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, DefRangeFramePointerRelSym &Def) { AutoIndent Indent(P, 7); P.formatLine("offset = {0}, range = {1}", Def.Hdr.Offset, formatRange(Def.Range)); P.formatLine("gaps = [{0}]", formatGaps(P.getIndentLevel() + 9, Def.Gaps)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, DefRangeRegisterRelSym &Def) { AutoIndent Indent(P, 7); P.formatLine("register = {0}, offset = {1}, offset in parent = {2}, has " "spilled udt = {3}", formatRegisterId(Def.Hdr.Register, CompilationCPU), int32_t(Def.Hdr.BasePointerOffset), Def.offsetInParent(), Def.hasSpilledUDTMember()); P.formatLine("range = {0}, gaps = [{1}]", formatRange(Def.Range), formatGaps(P.getIndentLevel() + 9, Def.Gaps)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord( CVSymbol &CVR, DefRangeRegisterSym &DefRangeRegister) { AutoIndent Indent(P, 7); P.formatLine("register = {0}, may have no name = {1}, range start = " "{2}, length = {3}", formatRegisterId(DefRangeRegister.Hdr.Register, CompilationCPU), bool(DefRangeRegister.Hdr.MayHaveNoName), formatSegmentOffset(DefRangeRegister.Range.ISectStart, DefRangeRegister.Range.OffsetStart), DefRangeRegister.Range.Range); P.formatLine("gaps = [{0}]", formatGaps(P.getIndentLevel() + 9, DefRangeRegister.Gaps)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, DefRangeSubfieldRegisterSym &Def) { AutoIndent Indent(P, 7); bool NoName = !!(Def.Hdr.MayHaveNoName == 0); P.formatLine("register = {0}, may have no name = {1}, offset in parent = {2}", formatRegisterId(Def.Hdr.Register, CompilationCPU), NoName, uint32_t(Def.Hdr.OffsetInParent)); P.formatLine("range = {0}, gaps = [{1}]", formatRange(Def.Range), formatGaps(P.getIndentLevel() + 9, Def.Gaps)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, DefRangeSubfieldSym &Def) { AutoIndent Indent(P, 7); P.formatLine("program = {0}, offset in parent = {1}, range = {2}", Def.Program, Def.OffsetInParent, formatRange(Def.Range)); P.formatLine("gaps = [{0}]", formatGaps(P.getIndentLevel() + 9, Def.Gaps)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, DefRangeSym &Def) { AutoIndent Indent(P, 7); P.formatLine("program = {0}, range = {1}", Def.Program, formatRange(Def.Range)); P.formatLine("gaps = [{0}]", formatGaps(P.getIndentLevel() + 9, Def.Gaps)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, FrameCookieSym &FC) { AutoIndent Indent(P, 7); P.formatLine("code offset = {0}, Register = {1}, kind = {2}, flags = {3}", FC.CodeOffset, formatRegisterId(FC.Register, CompilationCPU), formatCookieKind(FC.CookieKind), FC.Flags); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, FrameProcSym &FP) { AutoIndent Indent(P, 7); P.formatLine("size = {0}, padding size = {1}, offset to padding = {2}", FP.TotalFrameBytes, FP.PaddingFrameBytes, FP.OffsetToPadding); P.formatLine("bytes of callee saved registers = {0}, exception handler addr " "= {1}", FP.BytesOfCalleeSavedRegisters, formatSegmentOffset(FP.SectionIdOfExceptionHandler, FP.OffsetOfExceptionHandler)); P.formatLine( "local fp reg = {0}, param fp reg = {1}", formatRegisterId(FP.getLocalFramePtrReg(CompilationCPU), CompilationCPU), formatRegisterId(FP.getParamFramePtrReg(CompilationCPU), CompilationCPU)); P.formatLine("flags = {0}", formatFrameProcedureOptions(P.getIndentLevel() + 9, FP.Flags)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, HeapAllocationSiteSym &HAS) { AutoIndent Indent(P, 7); P.formatLine("type = {0}, addr = {1} call size = {2}", typeIndex(HAS.Type), formatSegmentOffset(HAS.Segment, HAS.CodeOffset), HAS.CallInstructionSize); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, InlineSiteSym &IS) { AutoIndent Indent(P, 7); P.formatLine("inlinee = {0}, parent = {1}, end = {2}", idIndex(IS.Inlinee), IS.Parent, IS.End); // Break down the annotation byte code and calculate code and line offsets. // FIXME: It would be helpful if we could look up the initial file and inlinee // lines offset using the inlinee index above. uint32_t CodeOffset = 0; int32_t LineOffset = 0; for (auto &Annot : IS.annotations()) { P.formatLine(" {0}", fmt_align(toHex(Annot.Bytes), AlignStyle::Left, 9)); auto formatCodeOffset = [&](uint32_t Delta) { CodeOffset += Delta; P.format(" code 0x{0} (+0x{1})", utohexstr(CodeOffset), utohexstr(Delta)); }; auto formatCodeLength = [&](uint32_t Length) { // Notably, changing the code length does not affect the code offset. P.format(" code end 0x{0} (+0x{1})", utohexstr(CodeOffset + Length), utohexstr(Length)); }; auto formatLineOffset = [&](int32_t Delta) { LineOffset += Delta; char Sign = Delta > 0 ? '+' : '-'; P.format(" line {0} ({1}{2})", LineOffset, Sign, std::abs(Delta)); }; // Use the opcode to interpret the integer values. switch (Annot.OpCode) { case BinaryAnnotationsOpCode::Invalid: break; case BinaryAnnotationsOpCode::CodeOffset: case BinaryAnnotationsOpCode::ChangeCodeOffset: formatCodeOffset(Annot.U1); break; case BinaryAnnotationsOpCode::ChangeLineOffset: formatLineOffset(Annot.S1); break; case BinaryAnnotationsOpCode::ChangeCodeLength: formatCodeLength(Annot.U1); // Apparently this annotation updates the code offset. It's hard to make // MSVC produce this opcode, but clang uses it, and debuggers seem to use // this interpretation. CodeOffset += Annot.U1; break; case BinaryAnnotationsOpCode::ChangeCodeOffsetAndLineOffset: formatCodeOffset(Annot.U1); formatLineOffset(Annot.S1); break; case BinaryAnnotationsOpCode::ChangeCodeLengthAndCodeOffset: formatCodeOffset(Annot.U2); formatCodeLength(Annot.U1); break; case BinaryAnnotationsOpCode::ChangeFile: { uint32_t FileOffset = Annot.U1; StringRef Filename = ""; if (SymGroup) { if (Expected MaybeFile = SymGroup->getNameFromStringTable(FileOffset)) Filename = *MaybeFile; else return MaybeFile.takeError(); } P.format(" setfile {0} 0x{1}", utohexstr(FileOffset)); break; } // The rest of these are hard to convince MSVC to emit, so they are not as // well understood. case BinaryAnnotationsOpCode::ChangeCodeOffsetBase: formatCodeOffset(Annot.U1); break; case BinaryAnnotationsOpCode::ChangeLineEndDelta: case BinaryAnnotationsOpCode::ChangeRangeKind: case BinaryAnnotationsOpCode::ChangeColumnStart: case BinaryAnnotationsOpCode::ChangeColumnEnd: P.format(" {0} {1}", Annot.Name, Annot.U1); break; case BinaryAnnotationsOpCode::ChangeColumnEndDelta: P.format(" {0} {1}", Annot.Name, Annot.S1); break; } } return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, RegisterSym &Register) { P.format(" `{0}`", Register.Name); AutoIndent Indent(P, 7); P.formatLine("register = {0}, type = {1}", formatRegisterId(Register.Register, CompilationCPU), typeIndex(Register.Index)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, PublicSym32 &Public) { P.format(" `{0}`", Public.Name); AutoIndent Indent(P, 7); P.formatLine("flags = {0}, addr = {1}", formatPublicSymFlags(P.getIndentLevel() + 9, Public.Flags), formatSegmentOffset(Public.Segment, Public.Offset)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, ProcRefSym &PR) { P.format(" `{0}`", PR.Name); AutoIndent Indent(P, 7); P.formatLine("module = {0}, sum name = {1}, offset = {2}", PR.Module, PR.SumName, PR.SymOffset); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, LabelSym &Label) { P.format(" `{0}` (addr = {1})", Label.Name, formatSegmentOffset(Label.Segment, Label.CodeOffset)); AutoIndent Indent(P, 7); P.formatLine("flags = {0}", formatProcSymFlags(P.getIndentLevel() + 9, Label.Flags)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, LocalSym &Local) { P.format(" `{0}`", Local.Name); AutoIndent Indent(P, 7); std::string FlagStr = formatLocalSymFlags(P.getIndentLevel() + 9, Local.Flags); P.formatLine("type={0}, flags = {1}", typeIndex(Local.Type), FlagStr); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, ObjNameSym &ObjName) { P.format(" sig={0}, `{1}`", ObjName.Signature, ObjName.Name); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, ProcSym &Proc) { P.format(" `{0}`", Proc.Name); AutoIndent Indent(P, 7); P.formatLine("parent = {0}, end = {1}, addr = {2}, code size = {3}", Proc.Parent, Proc.End, formatSegmentOffset(Proc.Segment, Proc.CodeOffset), Proc.CodeSize); bool IsType = true; switch (Proc.getKind()) { case SymbolRecordKind::GlobalProcIdSym: case SymbolRecordKind::ProcIdSym: case SymbolRecordKind::DPCProcIdSym: IsType = false; break; default: break; } P.formatLine("type = `{0}`, debug start = {1}, debug end = {2}, flags = {3}", typeOrIdIndex(Proc.FunctionType, IsType), Proc.DbgStart, Proc.DbgEnd, formatProcSymFlags(P.getIndentLevel() + 9, Proc.Flags)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, ScopeEndSym &ScopeEnd) { return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, CallerSym &Caller) { const char *Format; switch (CVR.kind()) { case S_CALLEES: Format = "callee: {0}"; break; case S_CALLERS: Format = "caller: {0}"; break; case S_INLINEES: Format = "inlinee: {0}"; break; default: return llvm::make_error( "Unknown CV Record type for a CallerSym object!"); } AutoIndent Indent(P, 7); for (const auto &I : Caller.Indices) { P.formatLine(Format, idIndex(I)); } return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, RegRelativeSym &RegRel) { P.format(" `{0}`", RegRel.Name); AutoIndent Indent(P, 7); P.formatLine( "type = {0}, register = {1}, offset = {2}", typeIndex(RegRel.Type), formatRegisterId(RegRel.Register, CompilationCPU), RegRel.Offset); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, ThreadLocalDataSym &Data) { P.format(" `{0}`", Data.Name); AutoIndent Indent(P, 7); P.formatLine("type = {0}, addr = {1}", typeIndex(Data.Type), formatSegmentOffset(Data.Segment, Data.DataOffset)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, UDTSym &UDT) { P.format(" `{0}`", UDT.Name); AutoIndent Indent(P, 7); P.formatLine("original type = {0}", UDT.Type); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, UsingNamespaceSym &UN) { P.format(" `{0}`", UN.Name); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, AnnotationSym &Annot) { AutoIndent Indent(P, 7); P.formatLine("addr = {0}", formatSegmentOffset(Annot.Segment, Annot.CodeOffset)); P.formatLine("strings = {0}", typesetStringList(P.getIndentLevel() + 9 + 2, Annot.Strings)); return Error::success(); } Error MinimalSymbolDumper::visitKnownRecord(CVSymbol &CVR, JumpTableSym &JumpTable) { AutoIndent Indent(P, 7); P.formatLine( "base = {0}, switchtype = {1}, branch = {2}, table = {3}, entriescount = " "{4}", formatSegmentOffset(JumpTable.BaseSegment, JumpTable.BaseOffset), formatJumpTableEntrySize(JumpTable.SwitchType), formatSegmentOffset(JumpTable.BranchSegment, JumpTable.BranchOffset), formatSegmentOffset(JumpTable.TableSegment, JumpTable.TableOffset), JumpTable.EntriesCount); return Error::success(); }