xref: /freebsd/contrib/llvm-project/llvm/lib/DebugInfo/LogicalView/Readers/LVCodeViewReader.cpp (revision 02e9120893770924227138ba49df1edb3896112a)
1 //===-- LVCodeViewReader.cpp ----------------------------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 //
9 // This implements the LVCodeViewReader class.
10 //
11 //===----------------------------------------------------------------------===//
12 
13 #include "llvm/DebugInfo/LogicalView/Readers/LVCodeViewReader.h"
14 #include "llvm/DebugInfo/CodeView/CVSymbolVisitor.h"
15 #include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
16 #include "llvm/DebugInfo/CodeView/EnumTables.h"
17 #include "llvm/DebugInfo/CodeView/LazyRandomTypeCollection.h"
18 #include "llvm/DebugInfo/CodeView/SymbolDeserializer.h"
19 #include "llvm/DebugInfo/CodeView/SymbolVisitorCallbackPipeline.h"
20 #include "llvm/DebugInfo/LogicalView/Core/LVLine.h"
21 #include "llvm/DebugInfo/LogicalView/Core/LVScope.h"
22 #include "llvm/DebugInfo/LogicalView/Core/LVSymbol.h"
23 #include "llvm/DebugInfo/LogicalView/Core/LVType.h"
24 #include "llvm/DebugInfo/PDB/GenericError.h"
25 #include "llvm/DebugInfo/PDB/Native/DbiStream.h"
26 #include "llvm/DebugInfo/PDB/Native/GlobalsStream.h"
27 #include "llvm/DebugInfo/PDB/Native/InfoStream.h"
28 #include "llvm/DebugInfo/PDB/Native/LinePrinter.h"
29 #include "llvm/DebugInfo/PDB/Native/PDBFile.h"
30 #include "llvm/DebugInfo/PDB/Native/RawConstants.h"
31 #include "llvm/DebugInfo/PDB/Native/SymbolStream.h"
32 #include "llvm/DebugInfo/PDB/Native/TpiStream.h"
33 #include "llvm/Demangle/Demangle.h"
34 #include "llvm/Object/COFF.h"
35 #include "llvm/Support/Errc.h"
36 #include "llvm/Support/Error.h"
37 #include "llvm/Support/FormatAdapters.h"
38 #include "llvm/Support/FormatVariadic.h"
39 #include "llvm/Support/WithColor.h"
40 
41 using namespace llvm;
42 using namespace llvm::codeview;
43 using namespace llvm::logicalview;
44 using namespace llvm::msf;
45 using namespace llvm::object;
46 using namespace llvm::pdb;
47 
48 #define DEBUG_TYPE "CodeViewReader"
49 
50 StringRef LVCodeViewReader::getSymbolKindName(SymbolKind Kind) {
51   switch (Kind) {
52 #define SYMBOL_RECORD(EnumName, EnumVal, Name)                                 \
53   case EnumName:                                                               \
54     return #EnumName;
55 #include "llvm/DebugInfo/CodeView/CodeViewSymbols.def"
56   default:
57     return "UnknownSym";
58   }
59   llvm_unreachable("Unknown SymbolKind::Kind");
60 }
61 
62 std::string LVCodeViewReader::formatRegisterId(RegisterId Register,
63                                                CPUType CPU) {
64 #define RETURN_CASE(Enum, X, Ret)                                              \
65   case Enum::X:                                                                \
66     return Ret;
67 
68   if (CPU == CPUType::ARMNT) {
69     switch (Register) {
70 #define CV_REGISTERS_ARM
71 #define CV_REGISTER(name, val) RETURN_CASE(RegisterId, name, #name)
72 #include "llvm/DebugInfo/CodeView/CodeViewRegisters.def"
73 #undef CV_REGISTER
74 #undef CV_REGISTERS_ARM
75 
76     default:
77       break;
78     }
79   } else if (CPU == CPUType::ARM64) {
80     switch (Register) {
81 #define CV_REGISTERS_ARM64
82 #define CV_REGISTER(name, val) RETURN_CASE(RegisterId, name, #name)
83 #include "llvm/DebugInfo/CodeView/CodeViewRegisters.def"
84 #undef CV_REGISTER
85 #undef CV_REGISTERS_ARM64
86 
87     default:
88       break;
89     }
90   } else {
91     switch (Register) {
92 #define CV_REGISTERS_X86
93 #define CV_REGISTER(name, val) RETURN_CASE(RegisterId, name, #name)
94 #include "llvm/DebugInfo/CodeView/CodeViewRegisters.def"
95 #undef CV_REGISTER
96 #undef CV_REGISTERS_X86
97 
98     default:
99       break;
100     }
101   }
102   return "formatUnknownEnum(Id)";
103 }
104 
105 void LVCodeViewReader::printRelocatedField(StringRef Label,
106                                            const coff_section *CoffSection,
107                                            uint32_t RelocOffset,
108                                            uint32_t Offset,
109                                            StringRef *RelocSym) {
110   StringRef SymStorage;
111   StringRef &Symbol = RelocSym ? *RelocSym : SymStorage;
112   if (!resolveSymbolName(CoffSection, RelocOffset, Symbol))
113     W.printSymbolOffset(Label, Symbol, Offset);
114   else
115     W.printHex(Label, RelocOffset);
116 }
117 
118 void LVCodeViewReader::getLinkageName(const coff_section *CoffSection,
119                                       uint32_t RelocOffset, uint32_t Offset,
120                                       StringRef *RelocSym) {
121   StringRef SymStorage;
122   StringRef &Symbol = RelocSym ? *RelocSym : SymStorage;
123   if (resolveSymbolName(CoffSection, RelocOffset, Symbol))
124     Symbol = "";
125 }
126 
127 Expected<StringRef>
128 LVCodeViewReader::getFileNameForFileOffset(uint32_t FileOffset,
129                                            const SymbolGroup *SG) {
130   if (SG) {
131     Expected<StringRef> Filename = SG->getNameFromChecksums(FileOffset);
132     if (!Filename) {
133       consumeError(Filename.takeError());
134       return StringRef("");
135     }
136     return *Filename;
137   }
138 
139   // The file checksum subsection should precede all references to it.
140   if (!CVFileChecksumTable.valid() || !CVStringTable.valid())
141     return createStringError(object_error::parse_failed, getFileName());
142 
143   VarStreamArray<FileChecksumEntry>::Iterator Iter =
144       CVFileChecksumTable.getArray().at(FileOffset);
145 
146   // Check if the file checksum table offset is valid.
147   if (Iter == CVFileChecksumTable.end())
148     return createStringError(object_error::parse_failed, getFileName());
149 
150   Expected<StringRef> NameOrErr = CVStringTable.getString(Iter->FileNameOffset);
151   if (!NameOrErr)
152     return createStringError(object_error::parse_failed, getFileName());
153   return *NameOrErr;
154 }
155 
156 Error LVCodeViewReader::printFileNameForOffset(StringRef Label,
157                                                uint32_t FileOffset,
158                                                const SymbolGroup *SG) {
159   Expected<StringRef> NameOrErr = getFileNameForFileOffset(FileOffset, SG);
160   if (!NameOrErr)
161     return NameOrErr.takeError();
162   W.printHex(Label, *NameOrErr, FileOffset);
163   return Error::success();
164 }
165 
166 void LVCodeViewReader::cacheRelocations() {
167   for (const SectionRef &Section : getObj().sections()) {
168     const coff_section *CoffSection = getObj().getCOFFSection(Section);
169 
170     for (const RelocationRef &Relocacion : Section.relocations())
171       RelocMap[CoffSection].push_back(Relocacion);
172 
173     // Sort relocations by address.
174     llvm::sort(RelocMap[CoffSection], [](RelocationRef L, RelocationRef R) {
175       return L.getOffset() < R.getOffset();
176     });
177   }
178 }
179 
180 // Given a section and an offset into this section the function returns the
181 // symbol used for the relocation at the offset.
182 Error LVCodeViewReader::resolveSymbol(const coff_section *CoffSection,
183                                       uint64_t Offset, SymbolRef &Sym) {
184   const auto &Relocations = RelocMap[CoffSection];
185   basic_symbol_iterator SymI = getObj().symbol_end();
186   for (const RelocationRef &Relocation : Relocations) {
187     uint64_t RelocationOffset = Relocation.getOffset();
188 
189     if (RelocationOffset == Offset) {
190       SymI = Relocation.getSymbol();
191       break;
192     }
193   }
194   if (SymI == getObj().symbol_end())
195     return make_error<StringError>("Unknown Symbol", inconvertibleErrorCode());
196   Sym = *SymI;
197   return ErrorSuccess();
198 }
199 
200 // Given a section and an offset into this section the function returns the
201 // name of the symbol used for the relocation at the offset.
202 Error LVCodeViewReader::resolveSymbolName(const coff_section *CoffSection,
203                                           uint64_t Offset, StringRef &Name) {
204   SymbolRef Symbol;
205   if (Error E = resolveSymbol(CoffSection, Offset, Symbol))
206     return E;
207   Expected<StringRef> NameOrErr = Symbol.getName();
208   if (!NameOrErr)
209     return NameOrErr.takeError();
210   Name = *NameOrErr;
211   return ErrorSuccess();
212 }
213 
214 // CodeView and DWARF can have references to compiler generated elements,
215 // used for initialization. The MSVC includes in the PDBs, internal compile
216 // units, associated with the MS runtime support. We mark them as 'system'
217 // and they are printed only if the command line option 'internal=system'.
218 bool LVCodeViewReader::isSystemEntry(LVElement *Element, StringRef Name) const {
219   Name = Name.empty() ? Element->getName() : Name;
220   auto Find = [=](const char *String) -> bool {
221     return StringRef::npos != Name.find(String);
222   };
223   auto Starts = [=](const char *Pattern) -> bool {
224     return Name.startswith(Pattern);
225   };
226   auto CheckExclude = [&]() -> bool {
227     if (Starts("__") || Starts("_PMD") || Starts("_PMFN"))
228       return true;
229     if (Find("_s__"))
230       return true;
231     if (Find("_CatchableType") || Find("_TypeDescriptor"))
232       return true;
233     if (Find("Intermediate\\vctools"))
234       return true;
235     if (Find("$initializer$") || Find("dynamic initializer"))
236       return true;
237     if (Find("`vftable'") || Find("_GLOBAL__sub"))
238       return true;
239     return false;
240   };
241   bool Excluded = CheckExclude();
242   if (Excluded)
243     Element->setIsSystem();
244 
245   return Excluded;
246 }
247 
248 Error LVCodeViewReader::collectInlineeInfo(
249     DebugInlineeLinesSubsectionRef &Lines, const llvm::pdb::SymbolGroup *SG) {
250   for (const InlineeSourceLine &Line : Lines) {
251     TypeIndex TIInlinee = Line.Header->Inlinee;
252     uint32_t LineNumber = Line.Header->SourceLineNum;
253     uint32_t FileOffset = Line.Header->FileID;
254     LLVM_DEBUG({
255       DictScope S(W, "InlineeSourceLine");
256       LogicalVisitor.printTypeIndex("Inlinee", TIInlinee, StreamTPI);
257       if (Error Err = printFileNameForOffset("FileID", FileOffset, SG))
258         return Err;
259       W.printNumber("SourceLineNum", LineNumber);
260 
261       if (Lines.hasExtraFiles()) {
262         W.printNumber("ExtraFileCount", Line.ExtraFiles.size());
263         ListScope ExtraFiles(W, "ExtraFiles");
264         for (const ulittle32_t &FID : Line.ExtraFiles)
265           if (Error Err = printFileNameForOffset("FileID", FID, SG))
266             return Err;
267       }
268     });
269     Expected<StringRef> NameOrErr = getFileNameForFileOffset(FileOffset, SG);
270     if (!NameOrErr)
271       return NameOrErr.takeError();
272     LogicalVisitor.addInlineeInfo(TIInlinee, LineNumber, *NameOrErr);
273   }
274 
275   return Error::success();
276 }
277 
278 Error LVCodeViewReader::traverseInlineeLines(StringRef Subsection) {
279   BinaryStreamReader SR(Subsection, llvm::support::little);
280   DebugInlineeLinesSubsectionRef Lines;
281   if (Error E = Lines.initialize(SR))
282     return createStringError(errorToErrorCode(std::move(E)), getFileName());
283 
284   return collectInlineeInfo(Lines);
285 }
286 
287 Error LVCodeViewReader::createLines(
288     const FixedStreamArray<LineNumberEntry> &LineNumbers, LVAddress Addendum,
289     uint32_t Segment, uint32_t Begin, uint32_t Size, uint32_t NameIndex,
290     const SymbolGroup *SG) {
291   LLVM_DEBUG({
292     uint32_t End = Begin + Size;
293     W.getOStream() << formatv("{0:x-4}:{1:x-8}-{2:x-8}\n", Segment, Begin, End);
294   });
295 
296   for (const LineNumberEntry &Line : LineNumbers) {
297     if (Line.Offset >= Size)
298       return createStringError(object_error::parse_failed, getFileName());
299 
300     LineInfo LI(Line.Flags);
301 
302     LLVM_DEBUG({
303       W.getOStream() << formatv(
304           "{0} {1:x-8}\n", utostr(LI.getStartLine()),
305           fmt_align(Begin + Line.Offset, AlignStyle::Right, 8, '0'));
306     });
307 
308     // The 'processLines()' function will move each created logical line
309     // to its enclosing logical scope, using the debug ranges information
310     // and they will be released when its scope parent is deleted.
311     LVLineDebug *LineDebug = createLineDebug();
312     CULines.push_back(LineDebug);
313     LVAddress Address = linearAddress(Segment, Begin + Line.Offset);
314     LineDebug->setAddress(Address + Addendum);
315 
316     if (LI.isAlwaysStepInto())
317       LineDebug->setIsAlwaysStepInto();
318     else if (LI.isNeverStepInto())
319       LineDebug->setIsNeverStepInto();
320     else
321       LineDebug->setLineNumber(LI.getStartLine());
322 
323     if (LI.isStatement())
324       LineDebug->setIsNewStatement();
325 
326     Expected<StringRef> NameOrErr = getFileNameForFileOffset(NameIndex, SG);
327     if (!NameOrErr)
328       return NameOrErr.takeError();
329     LineDebug->setFilename(*NameOrErr);
330   }
331 
332   return Error::success();
333 }
334 
335 Error LVCodeViewReader::initializeFileAndStringTables(
336     BinaryStreamReader &Reader) {
337   while (Reader.bytesRemaining() > 0 &&
338          (!CVFileChecksumTable.valid() || !CVStringTable.valid())) {
339     // The section consists of a number of subsection in the following format:
340     // |SubSectionType|SubSectionSize|Contents...|
341     uint32_t SubType, SubSectionSize;
342 
343     if (Error E = Reader.readInteger(SubType))
344       return createStringError(errorToErrorCode(std::move(E)), getFileName());
345     if (Error E = Reader.readInteger(SubSectionSize))
346       return createStringError(errorToErrorCode(std::move(E)), getFileName());
347 
348     StringRef Contents;
349     if (Error E = Reader.readFixedString(Contents, SubSectionSize))
350       return createStringError(errorToErrorCode(std::move(E)), getFileName());
351 
352     BinaryStreamRef ST(Contents, support::little);
353     switch (DebugSubsectionKind(SubType)) {
354     case DebugSubsectionKind::FileChecksums:
355       if (Error E = CVFileChecksumTable.initialize(ST))
356         return createStringError(errorToErrorCode(std::move(E)), getFileName());
357       break;
358     case DebugSubsectionKind::StringTable:
359       if (Error E = CVStringTable.initialize(ST))
360         return createStringError(errorToErrorCode(std::move(E)), getFileName());
361       break;
362     default:
363       break;
364     }
365 
366     uint32_t PaddedSize = alignTo(SubSectionSize, 4);
367     if (Error E = Reader.skip(PaddedSize - SubSectionSize))
368       return createStringError(errorToErrorCode(std::move(E)), getFileName());
369   }
370 
371   return Error::success();
372 }
373 
374 Error LVCodeViewReader::loadTypeServer(TypeServer2Record &TS) {
375   LLVM_DEBUG({
376     W.printString("Guid", formatv("{0}", TS.getGuid()).str());
377     W.printNumber("Age", TS.getAge());
378     W.printString("Name", TS.getName());
379   });
380 
381   SmallString<128> ServerName(TS.getName());
382   BuffOrErr = MemoryBuffer::getFile(ServerName);
383   if (BuffOrErr.getError()) {
384     // The server name does not exist. Try in the same directory as the
385     // input file.
386     ServerName = createAlternativePath(ServerName);
387     BuffOrErr = MemoryBuffer::getFile(ServerName);
388     if (BuffOrErr.getError()) {
389       // For the error message, use the original type server name.
390       return createStringError(errc::bad_file_descriptor,
391                                "File '%s' does not exist.",
392                                TS.getName().str().c_str());
393     }
394   }
395   MemBuffer = std::move(BuffOrErr.get());
396 
397   // Check if the buffer corresponds to a PDB file.
398   assert(identify_magic((*MemBuffer).getBuffer()) == file_magic::pdb &&
399          "Invalid PDB file.");
400 
401   if (Error Err = loadDataForPDB(PDB_ReaderType::Native, ServerName, Session))
402     return createStringError(errorToErrorCode(std::move(Err)), "%s",
403                              ServerName.c_str());
404 
405   PdbSession.reset(static_cast<NativeSession *>(Session.release()));
406   PDBFile &Pdb = PdbSession->getPDBFile();
407 
408   // Just because a file with a matching name was found and it was an actual
409   // PDB file doesn't mean it matches. For it to match the InfoStream's GUID
410   // must match the GUID specified in the TypeServer2 record.
411   Expected<InfoStream &> expectedInfo = Pdb.getPDBInfoStream();
412   if (!expectedInfo || expectedInfo->getGuid() != TS.getGuid())
413     return createStringError(errc::invalid_argument, "signature_out_of_date");
414 
415   // The reader needs to switch to a type server, to process the types from
416   // the server. We need to keep the original input source, as reading other
417   // sections will require the input associated with the loaded object file.
418   TypeServer = std::make_shared<InputFile>(&Pdb);
419   LogicalVisitor.setInput(TypeServer);
420 
421   LazyRandomTypeCollection &Types = types();
422   LazyRandomTypeCollection &Ids = ids();
423   if (Error Err = traverseTypes(Pdb, Types, Ids))
424     return Err;
425 
426   return Error::success();
427 }
428 
429 Error LVCodeViewReader::loadPrecompiledObject(PrecompRecord &Precomp,
430                                               CVTypeArray &CVTypesObj) {
431   LLVM_DEBUG({
432     W.printHex("Count", Precomp.getTypesCount());
433     W.printHex("Signature", Precomp.getSignature());
434     W.printString("PrecompFile", Precomp.getPrecompFilePath());
435   });
436 
437   SmallString<128> ServerName(Precomp.getPrecompFilePath());
438   BuffOrErr = MemoryBuffer::getFile(ServerName);
439   if (BuffOrErr.getError()) {
440     // The server name does not exist. Try in the directory as the input file.
441     ServerName = createAlternativePath(ServerName);
442     if (BuffOrErr.getError()) {
443       // For the error message, use the original type server name.
444       return createStringError(errc::bad_file_descriptor,
445                                "File '%s' does not exist.",
446                                Precomp.getPrecompFilePath().str().c_str());
447     }
448   }
449   MemBuffer = std::move(BuffOrErr.get());
450 
451   Expected<std::unique_ptr<Binary>> BinOrErr = createBinary(*MemBuffer);
452   if (errorToErrorCode(BinOrErr.takeError()))
453     return createStringError(errc::not_supported,
454                              "Binary object format in '%s' is not supported.",
455                              ServerName.c_str());
456 
457   Binary &BinaryObj = *BinOrErr.get();
458   if (!BinaryObj.isCOFF())
459     return createStringError(errc::not_supported, "'%s' is not a COFF object.",
460                              ServerName.c_str());
461 
462   Builder = std::make_unique<AppendingTypeTableBuilder>(BuilderAllocator);
463 
464   // The MSVC precompiled header object file, should contain just a single
465   // ".debug$P" section.
466   COFFObjectFile &Obj = *cast<COFFObjectFile>(&BinaryObj);
467   for (const SectionRef &Section : Obj.sections()) {
468     Expected<StringRef> SectionNameOrErr = Section.getName();
469     if (!SectionNameOrErr)
470       return SectionNameOrErr.takeError();
471     if (*SectionNameOrErr == ".debug$P") {
472       Expected<StringRef> DataOrErr = Section.getContents();
473       if (!DataOrErr)
474         return DataOrErr.takeError();
475       uint32_t Magic;
476       if (Error Err = consume(*DataOrErr, Magic))
477         return Err;
478       if (Magic != COFF::DEBUG_SECTION_MAGIC)
479         return errorCodeToError(object_error::parse_failed);
480 
481       ReaderPrecomp =
482           std::make_unique<BinaryStreamReader>(*DataOrErr, support::little);
483       cantFail(
484           ReaderPrecomp->readArray(CVTypesPrecomp, ReaderPrecomp->getLength()));
485 
486       // Append all the type records up to the LF_ENDPRECOMP marker and
487       // check if the signatures match.
488       for (const CVType &Type : CVTypesPrecomp) {
489         ArrayRef<uint8_t> TypeData = Type.data();
490         if (Type.kind() == LF_ENDPRECOMP) {
491           EndPrecompRecord EndPrecomp = cantFail(
492               TypeDeserializer::deserializeAs<EndPrecompRecord>(TypeData));
493           if (Precomp.getSignature() != EndPrecomp.getSignature())
494             return createStringError(errc::invalid_argument, "no matching pch");
495           break;
496         }
497         Builder->insertRecordBytes(TypeData);
498       }
499       // Done processing .debug$P, break out of section loop.
500       break;
501     }
502   }
503 
504   // Append all the type records, skipping the first record which is the
505   // reference to the precompiled header object information.
506   for (const CVType &Type : CVTypesObj) {
507     ArrayRef<uint8_t> TypeData = Type.data();
508     if (Type.kind() != LF_PRECOMP)
509       Builder->insertRecordBytes(TypeData);
510   }
511 
512   // Set up a type stream that refers to the added type records.
513   Builder->ForEachRecord(
514       [&](TypeIndex TI, const CVType &Type) { TypeArray.push_back(Type); });
515 
516   ItemStream =
517       std::make_unique<BinaryItemStream<CVType>>(llvm::support::little);
518   ItemStream->setItems(TypeArray);
519   TypeStream.setUnderlyingStream(*ItemStream);
520 
521   PrecompHeader =
522       std::make_shared<LazyRandomTypeCollection>(TypeStream, TypeArray.size());
523 
524   // Change the original input source to use the collected type records.
525   LogicalVisitor.setInput(PrecompHeader);
526 
527   LazyRandomTypeCollection &Types = types();
528   LazyRandomTypeCollection &Ids = ids();
529   LVTypeVisitor TDV(W, &LogicalVisitor, Types, Ids, StreamTPI,
530                     LogicalVisitor.getShared());
531   return visitTypeStream(Types, TDV);
532 }
533 
534 Error LVCodeViewReader::traverseTypeSection(StringRef SectionName,
535                                             const SectionRef &Section) {
536   LLVM_DEBUG({
537     ListScope D(W, "CodeViewTypes");
538     W.printNumber("Section", SectionName, getObj().getSectionID(Section));
539   });
540 
541   Expected<StringRef> DataOrErr = Section.getContents();
542   if (!DataOrErr)
543     return DataOrErr.takeError();
544   uint32_t Magic;
545   if (Error Err = consume(*DataOrErr, Magic))
546     return Err;
547   if (Magic != COFF::DEBUG_SECTION_MAGIC)
548     return errorCodeToError(object_error::parse_failed);
549 
550   // Get the first type record. It will indicate if this object uses a type
551   // server (/Zi) or a PCH file (/Yu).
552   CVTypeArray CVTypes;
553   BinaryStreamReader Reader(*DataOrErr, support::little);
554   cantFail(Reader.readArray(CVTypes, Reader.getLength()));
555   CVTypeArray::Iterator FirstType = CVTypes.begin();
556 
557   // The object was compiled with /Zi. It uses types from a type server PDB.
558   if (FirstType->kind() == LF_TYPESERVER2) {
559     TypeServer2Record TS = cantFail(
560         TypeDeserializer::deserializeAs<TypeServer2Record>(FirstType->data()));
561     return loadTypeServer(TS);
562   }
563 
564   // The object was compiled with /Yc or /Yu. It uses types from another
565   // object file with a matching signature.
566   if (FirstType->kind() == LF_PRECOMP) {
567     PrecompRecord Precomp = cantFail(
568         TypeDeserializer::deserializeAs<PrecompRecord>(FirstType->data()));
569     return loadPrecompiledObject(Precomp, CVTypes);
570   }
571 
572   LazyRandomTypeCollection &Types = types();
573   LazyRandomTypeCollection &Ids = ids();
574   Types.reset(*DataOrErr, 100);
575   LVTypeVisitor TDV(W, &LogicalVisitor, Types, Ids, StreamTPI,
576                     LogicalVisitor.getShared());
577   return visitTypeStream(Types, TDV);
578 }
579 
580 Error LVCodeViewReader::traverseTypes(PDBFile &Pdb,
581                                       LazyRandomTypeCollection &Types,
582                                       LazyRandomTypeCollection &Ids) {
583   // Traverse types (TPI and IPI).
584   auto VisitTypes = [&](LazyRandomTypeCollection &Types,
585                         LazyRandomTypeCollection &Ids,
586                         SpecialStream StreamIdx) -> Error {
587     LVTypeVisitor TDV(W, &LogicalVisitor, Types, Ids, StreamIdx,
588                       LogicalVisitor.getShared());
589     return visitTypeStream(Types, TDV);
590   };
591 
592   Expected<TpiStream &> StreamTpiOrErr = Pdb.getPDBTpiStream();
593   if (!StreamTpiOrErr)
594     return StreamTpiOrErr.takeError();
595   TpiStream &StreamTpi = *StreamTpiOrErr;
596   StreamTpi.buildHashMap();
597   LLVM_DEBUG({
598     W.getOStream() << formatv("Showing {0:N} TPI records\n",
599                               StreamTpi.getNumTypeRecords());
600   });
601   if (Error Err = VisitTypes(Types, Ids, StreamTPI))
602     return Err;
603 
604   Expected<TpiStream &> StreamIpiOrErr = Pdb.getPDBIpiStream();
605   if (!StreamIpiOrErr)
606     return StreamIpiOrErr.takeError();
607   TpiStream &StreamIpi = *StreamIpiOrErr;
608   StreamIpi.buildHashMap();
609   LLVM_DEBUG({
610     W.getOStream() << formatv("Showing {0:N} IPI records\n",
611                               StreamIpi.getNumTypeRecords());
612   });
613   return VisitTypes(Ids, Ids, StreamIPI);
614 }
615 
616 Error LVCodeViewReader::traverseSymbolsSubsection(StringRef Subsection,
617                                                   const SectionRef &Section,
618                                                   StringRef SectionContents) {
619   ArrayRef<uint8_t> BinaryData(Subsection.bytes_begin(),
620                                Subsection.bytes_end());
621   LVSymbolVisitorDelegate VisitorDelegate(this, Section, &getObj(),
622                                           SectionContents);
623   CVSymbolArray Symbols;
624   BinaryStreamReader Reader(BinaryData, llvm::support::little);
625   if (Error E = Reader.readArray(Symbols, Reader.getLength()))
626     return createStringError(errorToErrorCode(std::move(E)), getFileName());
627 
628   LazyRandomTypeCollection &Types = types();
629   LazyRandomTypeCollection &Ids = ids();
630   SymbolVisitorCallbackPipeline Pipeline;
631   SymbolDeserializer Deserializer(&VisitorDelegate,
632                                   CodeViewContainer::ObjectFile);
633   // As we are processing a COFF format, use TPI as IPI, so the generic code
634   // to process the CodeView format does not contain any additional checks.
635   LVSymbolVisitor Traverser(this, W, &LogicalVisitor, Types, Ids,
636                             &VisitorDelegate, LogicalVisitor.getShared());
637 
638   Pipeline.addCallbackToPipeline(Deserializer);
639   Pipeline.addCallbackToPipeline(Traverser);
640   CVSymbolVisitor Visitor(Pipeline);
641   return Visitor.visitSymbolStream(Symbols);
642 }
643 
644 Error LVCodeViewReader::traverseSymbolSection(StringRef SectionName,
645                                               const SectionRef &Section) {
646   LLVM_DEBUG({
647     ListScope D(W, "CodeViewDebugInfo");
648     W.printNumber("Section", SectionName, getObj().getSectionID(Section));
649   });
650 
651   Expected<StringRef> SectionOrErr = Section.getContents();
652   if (!SectionOrErr)
653     return SectionOrErr.takeError();
654   StringRef SectionContents = *SectionOrErr;
655   StringRef Data = SectionContents;
656 
657   SmallVector<StringRef, 10> SymbolNames;
658   StringMap<StringRef> FunctionLineTables;
659 
660   uint32_t Magic;
661   if (Error E = consume(Data, Magic))
662     return createStringError(errorToErrorCode(std::move(E)), getFileName());
663 
664   if (Magic != COFF::DEBUG_SECTION_MAGIC)
665     return createStringError(object_error::parse_failed, getFileName());
666 
667   BinaryStreamReader FSReader(Data, support::little);
668   if (Error Err = initializeFileAndStringTables(FSReader))
669     return Err;
670 
671   while (!Data.empty()) {
672     // The section consists of a number of subsection in the following format:
673     // |SubSectionType|SubSectionSize|Contents...|
674     uint32_t SubType, SubSectionSize;
675     if (Error E = consume(Data, SubType))
676       return createStringError(errorToErrorCode(std::move(E)), getFileName());
677     if (Error E = consume(Data, SubSectionSize))
678       return createStringError(errorToErrorCode(std::move(E)), getFileName());
679 
680     // Process the subsection as normal even if the ignore bit is set.
681     SubType &= ~SubsectionIgnoreFlag;
682 
683     // Get the contents of the subsection.
684     if (SubSectionSize > Data.size())
685       return createStringError(object_error::parse_failed, getFileName());
686     StringRef Contents = Data.substr(0, SubSectionSize);
687 
688     // Add SubSectionSize to the current offset and align that offset
689     // to find the next subsection.
690     size_t SectionOffset = Data.data() - SectionContents.data();
691     size_t NextOffset = SectionOffset + SubSectionSize;
692     NextOffset = alignTo(NextOffset, 4);
693     if (NextOffset > SectionContents.size())
694       return createStringError(object_error::parse_failed, getFileName());
695     Data = SectionContents.drop_front(NextOffset);
696 
697     switch (DebugSubsectionKind(SubType)) {
698     case DebugSubsectionKind::Symbols:
699       if (Error Err =
700               traverseSymbolsSubsection(Contents, Section, SectionContents))
701         return Err;
702       break;
703 
704     case DebugSubsectionKind::InlineeLines:
705       if (Error Err = traverseInlineeLines(Contents))
706         return Err;
707       break;
708 
709     case DebugSubsectionKind::Lines:
710       // Holds a PC to file:line table. Some data to parse this subsection
711       // is stored in the other subsections, so just check sanity and store
712       // the pointers for deferred processing.
713 
714       // Collect function and ranges only if we need to print logical lines.
715       if (options().getGeneralCollectRanges()) {
716 
717         if (SubSectionSize < 12) {
718           // There should be at least three words to store two function
719           // relocations and size of the code.
720           return createStringError(object_error::parse_failed, getFileName());
721         }
722 
723         StringRef SymbolName;
724         if (Error Err = resolveSymbolName(getObj().getCOFFSection(Section),
725                                           SectionOffset, SymbolName))
726           return createStringError(errorToErrorCode(std::move(Err)),
727                                    getFileName());
728 
729         LLVM_DEBUG({ W.printString("Symbol Name", SymbolName); });
730         if (FunctionLineTables.count(SymbolName) != 0) {
731           // Saw debug info for this function already?
732           return createStringError(object_error::parse_failed, getFileName());
733         }
734 
735         FunctionLineTables[SymbolName] = Contents;
736         SymbolNames.push_back(SymbolName);
737       }
738       break;
739 
740     // Do nothing for unrecognized subsections.
741     default:
742       break;
743     }
744     W.flush();
745   }
746 
747   // Traverse the line tables now that we've read all the subsections and
748   // know all the required information.
749   for (StringRef SymbolName : SymbolNames) {
750     LLVM_DEBUG({
751       ListScope S(W, "FunctionLineTable");
752       W.printString("Symbol Name", SymbolName);
753     });
754 
755     BinaryStreamReader Reader(FunctionLineTables[SymbolName], support::little);
756 
757     DebugLinesSubsectionRef Lines;
758     if (Error E = Lines.initialize(Reader))
759       return createStringError(errorToErrorCode(std::move(E)), getFileName());
760 
761     // Find the associated symbol table information.
762     LVSymbolTableEntry SymbolTableEntry = getSymbolTableEntry(SymbolName);
763     LVScope *Function = SymbolTableEntry.Scope;
764     if (!Function)
765       continue;
766 
767     LVAddress Addendum = SymbolTableEntry.Address;
768     LVSectionIndex SectionIndex = SymbolTableEntry.SectionIndex;
769 
770     // The given scope represents the function that contains the line numbers.
771     // Collect all generated debug lines associated with the function.
772     CULines.clear();
773 
774     // For the given scope, collect all scopes ranges.
775     LVRange *ScopesWithRanges = getSectionRanges(SectionIndex);
776     ScopesWithRanges->clear();
777     Function->getRanges(*ScopesWithRanges);
778     ScopesWithRanges->sort();
779 
780     uint16_t Segment = Lines.header()->RelocSegment;
781     uint32_t Begin = Lines.header()->RelocOffset;
782     uint32_t Size = Lines.header()->CodeSize;
783     for (const LineColumnEntry &Block : Lines)
784       if (Error Err = createLines(Block.LineNumbers, Addendum, Segment, Begin,
785                                   Size, Block.NameIndex))
786         return Err;
787 
788     // Include lines from any inlined functions within the current function.
789     includeInlineeLines(SectionIndex, Function);
790 
791     if (Error Err = createInstructions(Function, SectionIndex))
792       return Err;
793 
794     processLines(&CULines, SectionIndex, Function);
795   }
796 
797   return Error::success();
798 }
799 
800 void LVCodeViewReader::sortScopes() { Root->sort(); }
801 
802 void LVCodeViewReader::print(raw_ostream &OS) const {
803   LLVM_DEBUG(dbgs() << "CreateReaders\n");
804 }
805 
806 void LVCodeViewReader::mapRangeAddress(const ObjectFile &Obj,
807                                        const SectionRef &Section,
808                                        bool IsComdat) {
809   if (!Obj.isCOFF())
810     return;
811 
812   const COFFObjectFile *Object = cast<COFFObjectFile>(&Obj);
813 
814   for (const SymbolRef &Sym : Object->symbols()) {
815     if (!Section.containsSymbol(Sym))
816       continue;
817 
818     COFFSymbolRef Symbol = Object->getCOFFSymbol(Sym);
819     if (Symbol.getComplexType() != llvm::COFF::IMAGE_SYM_DTYPE_FUNCTION)
820       continue;
821 
822     StringRef SymbolName;
823     Expected<StringRef> SymNameOrErr = Object->getSymbolName(Symbol);
824     if (!SymNameOrErr) {
825       W.startLine() << "Invalid symbol name: " << Symbol.getSectionNumber()
826                     << "\n";
827       consumeError(SymNameOrErr.takeError());
828       continue;
829     }
830     SymbolName = *SymNameOrErr;
831 
832     LLVM_DEBUG({
833       Expected<const coff_section *> SectionOrErr =
834           Object->getSection(Symbol.getSectionNumber());
835       if (!SectionOrErr) {
836         W.startLine() << "Invalid section number: " << Symbol.getSectionNumber()
837                       << "\n";
838         consumeError(SectionOrErr.takeError());
839         return;
840       }
841       W.printNumber("Section #", Symbol.getSectionNumber());
842       W.printString("Name", SymbolName);
843       W.printHex("Value", Symbol.getValue());
844     });
845 
846     // Record the symbol name (linkage) and its loading address.
847     addToSymbolTable(SymbolName, Symbol.getValue(), Symbol.getSectionNumber(),
848                      IsComdat);
849   }
850 }
851 
852 Error LVCodeViewReader::createScopes(COFFObjectFile &Obj) {
853   if (Error Err = loadTargetInfo(Obj))
854     return Err;
855 
856   // Initialization required when processing a COFF file:
857   // Cache the symbols relocations.
858   // Create a mapping for virtual addresses.
859   // Get the functions entry points.
860   cacheRelocations();
861   mapVirtualAddress(Obj);
862 
863   for (const SectionRef &Section : Obj.sections()) {
864     Expected<StringRef> SectionNameOrErr = Section.getName();
865     if (!SectionNameOrErr)
866       return SectionNameOrErr.takeError();
867     // .debug$T is a standard CodeView type section, while .debug$P is the
868     // same format but used for MSVC precompiled header object files.
869     if (*SectionNameOrErr == ".debug$T" || *SectionNameOrErr == ".debug$P")
870       if (Error Err = traverseTypeSection(*SectionNameOrErr, Section))
871         return Err;
872   }
873 
874   // Process collected namespaces.
875   LogicalVisitor.processNamespaces();
876 
877   for (const SectionRef &Section : Obj.sections()) {
878     Expected<StringRef> SectionNameOrErr = Section.getName();
879     if (!SectionNameOrErr)
880       return SectionNameOrErr.takeError();
881     if (*SectionNameOrErr == ".debug$S")
882       if (Error Err = traverseSymbolSection(*SectionNameOrErr, Section))
883         return Err;
884   }
885 
886   // Check if we have to close the Compile Unit scope.
887   LogicalVisitor.closeScope();
888 
889   // Traverse the strings recorded and transform them into filenames.
890   LogicalVisitor.processFiles();
891 
892   // Process collected element lines.
893   LogicalVisitor.processLines();
894 
895   // Translate composite names into a single component.
896   Root->transformScopedName();
897   return Error::success();
898 }
899 
900 Error LVCodeViewReader::createScopes(PDBFile &Pdb) {
901   if (Error Err = loadTargetInfo(Pdb))
902     return Err;
903 
904   if (!Pdb.hasPDBTpiStream() || !Pdb.hasPDBDbiStream())
905     return Error::success();
906 
907   // Open the executable associated with the PDB file and get the section
908   // addresses used to calculate linear addresses for CodeView Symbols.
909   if (!ExePath.empty()) {
910     ErrorOr<std::unique_ptr<MemoryBuffer>> BuffOrErr =
911         MemoryBuffer::getFileOrSTDIN(ExePath);
912     if (BuffOrErr.getError()) {
913       return createStringError(errc::bad_file_descriptor,
914                                "File '%s' does not exist.", ExePath.c_str());
915     }
916     BinaryBuffer = std::move(BuffOrErr.get());
917 
918     // Check if the buffer corresponds to a PECOFF executable.
919     assert(identify_magic(BinaryBuffer->getBuffer()) ==
920                file_magic::pecoff_executable &&
921            "Invalid PECOFF executable file.");
922 
923     Expected<std::unique_ptr<Binary>> BinOrErr =
924         createBinary(BinaryBuffer->getMemBufferRef());
925     if (errorToErrorCode(BinOrErr.takeError())) {
926       return createStringError(errc::not_supported,
927                                "Binary object format in '%s' is not supported.",
928                                ExePath.c_str());
929     }
930     BinaryExecutable = std::move(*BinOrErr);
931     if (COFFObjectFile *COFFObject =
932             dyn_cast<COFFObjectFile>(BinaryExecutable.get()))
933       mapVirtualAddress(*COFFObject);
934   }
935 
936   // In order to generate a full logical view, we have to traverse both
937   // streams TPI and IPI if they are present. The following table gives
938   // the stream where a specified type is located. If the IPI stream is
939   // not present, all the types are located in the TPI stream.
940   //
941   // TPI Stream:
942   //   LF_POINTER   LF_MODIFIER     LF_PROCEDURE    LF_MFUNCTION
943   //   LF_LABEL     LF_ARGLIST      LF_FIELDLIST    LF_ARRAY
944   //   LF_CLASS     LF_STRUCTURE    LF_INTERFACE    LF_UNION
945   //   LF_ENUM      LF_TYPESERVER2  LF_VFTABLE      LF_VTSHAPE
946   //   LF_BITFIELD  LF_METHODLIST   LF_PRECOMP      LF_ENDPRECOMP
947   //
948   // IPI stream:
949   //   LF_FUNC_ID           LF_MFUNC_ID   LF_BUILDINFO
950   //   LF_SUBSTR_LIST       LF_STRING_ID  LF_UDT_SRC_LINE
951   //   LF_UDT_MOD_SRC_LINE
952 
953   LazyRandomTypeCollection &Types = types();
954   LazyRandomTypeCollection &Ids = ids();
955   if (Error Err = traverseTypes(Pdb, Types, Ids))
956     return Err;
957 
958   // Process collected namespaces.
959   LogicalVisitor.processNamespaces();
960 
961   LLVM_DEBUG({ W.getOStream() << "Traversing inlined lines\n"; });
962 
963   auto VisitInlineeLines = [&](int32_t Modi, const SymbolGroup &SG,
964                                DebugInlineeLinesSubsectionRef &Lines) -> Error {
965     return collectInlineeInfo(Lines, &SG);
966   };
967 
968   FilterOptions Filters = {};
969   LinePrinter Printer(/*Indent=*/2, false, nulls(), Filters);
970   const PrintScope HeaderScope(Printer, /*IndentLevel=*/2);
971   if (Error Err = iterateModuleSubsections<DebugInlineeLinesSubsectionRef>(
972           Input, HeaderScope, VisitInlineeLines))
973     return Err;
974 
975   // Traverse global symbols.
976   LLVM_DEBUG({ W.getOStream() << "Traversing global symbols\n"; });
977   if (Pdb.hasPDBGlobalsStream()) {
978     Expected<GlobalsStream &> GlobalsOrErr = Pdb.getPDBGlobalsStream();
979     if (!GlobalsOrErr)
980       return GlobalsOrErr.takeError();
981     GlobalsStream &Globals = *GlobalsOrErr;
982     const GSIHashTable &Table = Globals.getGlobalsTable();
983     Expected<SymbolStream &> ExpectedSyms = Pdb.getPDBSymbolStream();
984     if (ExpectedSyms) {
985 
986       SymbolVisitorCallbackPipeline Pipeline;
987       SymbolDeserializer Deserializer(nullptr, CodeViewContainer::Pdb);
988       LVSymbolVisitor Traverser(this, W, &LogicalVisitor, Types, Ids, nullptr,
989                                 LogicalVisitor.getShared());
990 
991       // As the global symbols do not have an associated Compile Unit, create
992       // one, as the container for all global symbols.
993       RecordPrefix Prefix(SymbolKind::S_COMPILE3);
994       CVSymbol Symbol(&Prefix, sizeof(Prefix));
995       uint32_t Offset = 0;
996       if (Error Err = Traverser.visitSymbolBegin(Symbol, Offset))
997         consumeError(std::move(Err));
998       else {
999         // The CodeView compile unit containing the global symbols does not
1000         // have a name; generate one using its parent name (object filename)
1001         // follow by the '_global' string.
1002         std::string Name(CompileUnit->getParentScope()->getName());
1003         CompileUnit->setName(Name.append("_global"));
1004 
1005         Pipeline.addCallbackToPipeline(Deserializer);
1006         Pipeline.addCallbackToPipeline(Traverser);
1007         CVSymbolVisitor Visitor(Pipeline);
1008 
1009         BinaryStreamRef SymStream =
1010             ExpectedSyms->getSymbolArray().getUnderlyingStream();
1011         for (uint32_t PubSymOff : Table) {
1012           Expected<CVSymbol> Sym = readSymbolFromStream(SymStream, PubSymOff);
1013           if (Sym) {
1014             if (Error Err = Visitor.visitSymbolRecord(*Sym, PubSymOff))
1015               return createStringError(errorToErrorCode(std::move(Err)),
1016                                        getFileName());
1017           } else {
1018             consumeError(Sym.takeError());
1019           }
1020         }
1021       }
1022 
1023       LogicalVisitor.closeScope();
1024     } else {
1025       consumeError(ExpectedSyms.takeError());
1026     }
1027   }
1028 
1029   // Traverse symbols (DBI).
1030   LLVM_DEBUG({ W.getOStream() << "Traversing symbol groups\n"; });
1031 
1032   auto VisitSymbolGroup = [&](uint32_t Modi, const SymbolGroup &SG) -> Error {
1033     Expected<ModuleDebugStreamRef> ExpectedModS =
1034         getModuleDebugStream(Pdb, Modi);
1035     if (ExpectedModS) {
1036       ModuleDebugStreamRef &ModS = *ExpectedModS;
1037 
1038       LLVM_DEBUG({
1039         W.getOStream() << formatv("Traversing Group: Mod {0:4}\n", Modi);
1040       });
1041 
1042       SymbolVisitorCallbackPipeline Pipeline;
1043       SymbolDeserializer Deserializer(nullptr, CodeViewContainer::Pdb);
1044       LVSymbolVisitor Traverser(this, W, &LogicalVisitor, Types, Ids, nullptr,
1045                                 LogicalVisitor.getShared());
1046 
1047       Pipeline.addCallbackToPipeline(Deserializer);
1048       Pipeline.addCallbackToPipeline(Traverser);
1049       CVSymbolVisitor Visitor(Pipeline);
1050       BinarySubstreamRef SS = ModS.getSymbolsSubstream();
1051       if (Error Err =
1052               Visitor.visitSymbolStream(ModS.getSymbolArray(), SS.Offset))
1053         return createStringError(errorToErrorCode(std::move(Err)),
1054                                  getFileName());
1055     } else {
1056       // If the module stream does not exist, it is not an error condition.
1057       consumeError(ExpectedModS.takeError());
1058     }
1059 
1060     return Error::success();
1061   };
1062 
1063   if (Error Err = iterateSymbolGroups(Input, HeaderScope, VisitSymbolGroup))
1064     return Err;
1065 
1066   // At this stage, the logical view contains all scopes, symbols and types.
1067   // For PDBs we can use the module id, to access its specific compile unit.
1068   // The line record addresses has been already resolved, so we can apply the
1069   // flow as when processing DWARF.
1070 
1071   LLVM_DEBUG({ W.getOStream() << "Traversing lines\n"; });
1072 
1073   // Record all line records for a Compile Unit.
1074   CULines.clear();
1075 
1076   auto VisitDebugLines = [this](int32_t Modi, const SymbolGroup &SG,
1077                                 DebugLinesSubsectionRef &Lines) -> Error {
1078     if (!options().getPrintLines())
1079       return Error::success();
1080 
1081     uint16_t Segment = Lines.header()->RelocSegment;
1082     uint32_t Begin = Lines.header()->RelocOffset;
1083     uint32_t Size = Lines.header()->CodeSize;
1084 
1085     LLVM_DEBUG({ W.getOStream() << formatv("Modi = {0}\n", Modi); });
1086 
1087     // We have line information for a new module; finish processing the
1088     // collected information for the current module. Once it is done, start
1089     // recording the line information for the new module.
1090     if (CurrentModule != Modi) {
1091       if (Error Err = processModule())
1092         return Err;
1093       CULines.clear();
1094       CurrentModule = Modi;
1095     }
1096 
1097     for (const LineColumnEntry &Block : Lines)
1098       if (Error Err = createLines(Block.LineNumbers, /*Addendum=*/0, Segment,
1099                                   Begin, Size, Block.NameIndex, &SG))
1100         return Err;
1101 
1102     return Error::success();
1103   };
1104 
1105   if (Error Err = iterateModuleSubsections<DebugLinesSubsectionRef>(
1106           Input, HeaderScope, VisitDebugLines))
1107     return Err;
1108 
1109   // Check if we have to close the Compile Unit scope.
1110   LogicalVisitor.closeScope();
1111 
1112   // Process collected element lines.
1113   LogicalVisitor.processLines();
1114 
1115   // Translate composite names into a single component.
1116   Root->transformScopedName();
1117   return Error::success();
1118 }
1119 
1120 Error LVCodeViewReader::processModule() {
1121   if (LVScope *Scope = getScopeForModule(CurrentModule)) {
1122     CompileUnit = static_cast<LVScopeCompileUnit *>(Scope);
1123 
1124     LLVM_DEBUG({ dbgs() << "Processing Scope: " << Scope->getName() << "\n"; });
1125 
1126     // For the given compile unit, collect all scopes ranges.
1127     // For a complete ranges and lines mapping, the logical view support
1128     // needs for the compile unit to have a low and high pc values. We
1129     // can traverse the 'Modules' section and get the information for the
1130     // specific module. Another option, is from all the ranges collected
1131     // to take the first and last values.
1132     LVSectionIndex SectionIndex = DotTextSectionIndex;
1133     LVRange *ScopesWithRanges = getSectionRanges(SectionIndex);
1134     ScopesWithRanges->clear();
1135     CompileUnit->getRanges(*ScopesWithRanges);
1136     if (!ScopesWithRanges->empty())
1137       CompileUnit->addObject(ScopesWithRanges->getLower(),
1138                              ScopesWithRanges->getUpper());
1139     ScopesWithRanges->sort();
1140 
1141     if (Error Err = createInstructions())
1142       return Err;
1143 
1144     // Include lines from any inlined functions within the current function.
1145     includeInlineeLines(SectionIndex, Scope);
1146 
1147     processLines(&CULines, SectionIndex, nullptr);
1148   }
1149 
1150   return Error::success();
1151 }
1152 
1153 // In order to create the scopes, the CodeView Reader will:
1154 // = Traverse the TPI/IPI stream (Type visitor):
1155 // Collect forward references, scoped names, type indexes that will represent
1156 // a logical element, strings, line records, linkage names.
1157 // = Traverse the symbols section (Symbol visitor):
1158 // Create the scopes tree and creates the required logical elements, by
1159 // using the collected indexes from the type visitor.
1160 Error LVCodeViewReader::createScopes() {
1161   LLVM_DEBUG({
1162     W.startLine() << "\n";
1163     W.printString("File", getFileName().str());
1164     W.printString("Exe", ExePath);
1165     W.printString("Format", FileFormatName);
1166   });
1167 
1168   if (Error Err = LVReader::createScopes())
1169     return Err;
1170 
1171   LogicalVisitor.setRoot(Root);
1172 
1173   if (isObj()) {
1174     if (Error Err = createScopes(getObj()))
1175       return Err;
1176   } else {
1177     if (Error Err = createScopes(getPdb()))
1178       return Err;
1179   }
1180 
1181   return Error::success();
1182 }
1183 
1184 Error LVCodeViewReader::loadTargetInfo(const ObjectFile &Obj) {
1185   // Detect the architecture from the object file. We usually don't need OS
1186   // info to lookup a target and create register info.
1187   Triple TT;
1188   TT.setArch(Triple::ArchType(Obj.getArch()));
1189   TT.setVendor(Triple::UnknownVendor);
1190   TT.setOS(Triple::UnknownOS);
1191 
1192   // Features to be passed to target/subtarget
1193   Expected<SubtargetFeatures> Features = Obj.getFeatures();
1194   SubtargetFeatures FeaturesValue;
1195   if (!Features) {
1196     consumeError(Features.takeError());
1197     FeaturesValue = SubtargetFeatures();
1198   }
1199   FeaturesValue = *Features;
1200   return loadGenericTargetInfo(TT.str(), FeaturesValue.getString());
1201 }
1202 
1203 Error LVCodeViewReader::loadTargetInfo(const PDBFile &Pdb) {
1204   Triple TT;
1205   TT.setArch(Triple::ArchType::x86_64);
1206   TT.setVendor(Triple::UnknownVendor);
1207   TT.setOS(Triple::Win32);
1208 
1209   StringRef TheFeature = "";
1210 
1211   return loadGenericTargetInfo(TT.str(), TheFeature);
1212 }
1213 
1214 std::string LVCodeViewReader::getRegisterName(LVSmall Opcode,
1215                                               ArrayRef<uint64_t> Operands) {
1216   // Get Compilation Unit CPU Type.
1217   CPUType CPU = getCompileUnitCPUType();
1218   // For CodeView the register always is in Operands[0];
1219   RegisterId Register = (RegisterId(Operands[0]));
1220   return formatRegisterId(Register, CPU);
1221 }
1222