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#include "llvm/DebugInfo/PDB/Native/SymbolCache.h"
#include "llvm/DebugInfo/CodeView/DebugInlineeLinesSubsection.h"
#include "llvm/DebugInfo/CodeView/DebugLinesSubsection.h"
#include "llvm/DebugInfo/CodeView/SymbolDeserializer.h"
#include "llvm/DebugInfo/CodeView/TypeDeserializer.h"
#include "llvm/DebugInfo/CodeView/TypeRecordHelpers.h"
#include "llvm/DebugInfo/PDB/Native/DbiStream.h"
#include "llvm/DebugInfo/PDB/Native/GlobalsStream.h"
#include "llvm/DebugInfo/PDB/Native/ISectionContribVisitor.h"
#include "llvm/DebugInfo/PDB/Native/NativeCompilandSymbol.h"
#include "llvm/DebugInfo/PDB/Native/NativeEnumGlobals.h"
#include "llvm/DebugInfo/PDB/Native/NativeEnumLineNumbers.h"
#include "llvm/DebugInfo/PDB/Native/NativeEnumSymbols.h"
#include "llvm/DebugInfo/PDB/Native/NativeEnumTypes.h"
#include "llvm/DebugInfo/PDB/Native/NativeFunctionSymbol.h"
#include "llvm/DebugInfo/PDB/Native/NativeInlineSiteSymbol.h"
#include "llvm/DebugInfo/PDB/Native/NativePublicSymbol.h"
#include "llvm/DebugInfo/PDB/Native/NativeRawSymbol.h"
#include "llvm/DebugInfo/PDB/Native/NativeSession.h"
#include "llvm/DebugInfo/PDB/Native/NativeTypeArray.h"
#include "llvm/DebugInfo/PDB/Native/NativeTypeBuiltin.h"
#include "llvm/DebugInfo/PDB/Native/NativeTypeEnum.h"
#include "llvm/DebugInfo/PDB/Native/NativeTypeFunctionSig.h"
#include "llvm/DebugInfo/PDB/Native/NativeTypePointer.h"
#include "llvm/DebugInfo/PDB/Native/NativeTypeTypedef.h"
#include "llvm/DebugInfo/PDB/Native/NativeTypeUDT.h"
#include "llvm/DebugInfo/PDB/Native/NativeTypeVTShape.h"
#include "llvm/DebugInfo/PDB/Native/PDBFile.h"
#include "llvm/DebugInfo/PDB/Native/PublicsStream.h"
#include "llvm/DebugInfo/PDB/Native/SymbolStream.h"
#include "llvm/DebugInfo/PDB/Native/TpiStream.h"
#include "llvm/DebugInfo/PDB/PDBSymbol.h"
#include "llvm/DebugInfo/PDB/PDBSymbolCompiland.h"
#include "llvm/DebugInfo/PDB/PDBSymbolTypeEnum.h"
using namespace llvm;
using namespace llvm::codeview;
using namespace llvm::pdb;
// Maps codeview::SimpleTypeKind of a built-in type to the parameters necessary
// to instantiate a NativeBuiltinSymbol for that type.
static const struct BuiltinTypeEntry {
codeview::SimpleTypeKind Kind;
PDB_BuiltinType Type;
uint32_t Size;
} BuiltinTypes[] = {
{codeview::SimpleTypeKind::None, PDB_BuiltinType::None, 0},
{codeview::SimpleTypeKind::Void, PDB_BuiltinType::Void, 0},
{codeview::SimpleTypeKind::HResult, PDB_BuiltinType::HResult, 4},
{codeview::SimpleTypeKind::Int16Short, PDB_BuiltinType::Int, 2},
{codeview::SimpleTypeKind::UInt16Short, PDB_BuiltinType::UInt, 2},
{codeview::SimpleTypeKind::Int32, PDB_BuiltinType::Int, 4},
{codeview::SimpleTypeKind::UInt32, PDB_BuiltinType::UInt, 4},
{codeview::SimpleTypeKind::Int32Long, PDB_BuiltinType::Int, 4},
{codeview::SimpleTypeKind::UInt32Long, PDB_BuiltinType::UInt, 4},
{codeview::SimpleTypeKind::Int64Quad, PDB_BuiltinType::Int, 8},
{codeview::SimpleTypeKind::UInt64Quad, PDB_BuiltinType::UInt, 8},
{codeview::SimpleTypeKind::NarrowCharacter, PDB_BuiltinType::Char, 1},
{codeview::SimpleTypeKind::WideCharacter, PDB_BuiltinType::WCharT, 2},
{codeview::SimpleTypeKind::Character16, PDB_BuiltinType::Char16, 2},
{codeview::SimpleTypeKind::Character32, PDB_BuiltinType::Char32, 4},
{codeview::SimpleTypeKind::SignedCharacter, PDB_BuiltinType::Char, 1},
{codeview::SimpleTypeKind::UnsignedCharacter, PDB_BuiltinType::UInt, 1},
{codeview::SimpleTypeKind::Float32, PDB_BuiltinType::Float, 4},
{codeview::SimpleTypeKind::Float64, PDB_BuiltinType::Float, 8},
{codeview::SimpleTypeKind::Float80, PDB_BuiltinType::Float, 10},
{codeview::SimpleTypeKind::Boolean8, PDB_BuiltinType::Bool, 1},
// This table can be grown as necessary, but these are the only types we've
// needed so far.
};
SymbolCache::SymbolCache(NativeSession &Session, DbiStream *Dbi)
: Session(Session), Dbi(Dbi) {
// Id 0 is reserved for the invalid symbol.
Cache.push_back(nullptr);
SourceFiles.push_back(nullptr);
if (Dbi)
Compilands.resize(Dbi->modules().getModuleCount());
}
std::unique_ptr<IPDBEnumSymbols>
SymbolCache::createTypeEnumerator(TypeLeafKind Kind) {
return createTypeEnumerator(std::vector<TypeLeafKind>{Kind});
}
std::unique_ptr<IPDBEnumSymbols>
SymbolCache::createTypeEnumerator(std::vector<TypeLeafKind> Kinds) {
auto Tpi = Session.getPDBFile().getPDBTpiStream();
if (!Tpi) {
consumeError(Tpi.takeError());
return nullptr;
}
auto &Types = Tpi->typeCollection();
return std::unique_ptr<IPDBEnumSymbols>(
new NativeEnumTypes(Session, Types, std::move(Kinds)));
}
std::unique_ptr<IPDBEnumSymbols>
SymbolCache::createGlobalsEnumerator(codeview::SymbolKind Kind) {
return std::unique_ptr<IPDBEnumSymbols>(
new NativeEnumGlobals(Session, {Kind}));
}
SymIndexId SymbolCache::createSimpleType(TypeIndex Index,
ModifierOptions Mods) const {
if (Index.getSimpleMode() != codeview::SimpleTypeMode::Direct)
return createSymbol<NativeTypePointer>(Index);
const auto Kind = Index.getSimpleKind();
const auto It =
llvm::find_if(BuiltinTypes, [Kind](const BuiltinTypeEntry &Builtin) {
return Builtin.Kind == Kind;
});
if (It == std::end(BuiltinTypes))
return 0;
return createSymbol<NativeTypeBuiltin>(Mods, It->Type, It->Size);
}
SymIndexId
SymbolCache::createSymbolForModifiedType(codeview::TypeIndex ModifierTI,
codeview::CVType CVT) const {
ModifierRecord Record;
if (auto EC = TypeDeserializer::deserializeAs<ModifierRecord>(CVT, Record)) {
consumeError(std::move(EC));
return 0;
}
if (Record.ModifiedType.isSimple())
return createSimpleType(Record.ModifiedType, Record.Modifiers);
// Make sure we create and cache a record for the unmodified type.
SymIndexId UnmodifiedId = findSymbolByTypeIndex(Record.ModifiedType);
NativeRawSymbol &UnmodifiedNRS = *Cache[UnmodifiedId];
switch (UnmodifiedNRS.getSymTag()) {
case PDB_SymType::Enum:
return createSymbol<NativeTypeEnum>(
static_cast<NativeTypeEnum &>(UnmodifiedNRS), std::move(Record));
case PDB_SymType::UDT:
return createSymbol<NativeTypeUDT>(
static_cast<NativeTypeUDT &>(UnmodifiedNRS), std::move(Record));
default:
// No other types can be modified. (LF_POINTER, for example, records
// its modifiers a different way.
assert(false && "Invalid LF_MODIFIER record");
break;
}
return 0;
}
SymIndexId SymbolCache::findSymbolByTypeIndex(codeview::TypeIndex Index) const {
// First see if it's already in our cache.
const auto Entry = TypeIndexToSymbolId.find(Index);
if (Entry != TypeIndexToSymbolId.end())
return Entry->second;
// Symbols for built-in types are created on the fly.
if (Index.isSimple()) {
SymIndexId Result = createSimpleType(Index, ModifierOptions::None);
assert(TypeIndexToSymbolId.count(Index) == 0);
TypeIndexToSymbolId[Index] = Result;
return Result;
}
// We need to instantiate and cache the desired type symbol.
auto Tpi = Session.getPDBFile().getPDBTpiStream();
if (!Tpi) {
consumeError(Tpi.takeError());
return 0;
}
codeview::LazyRandomTypeCollection &Types = Tpi->typeCollection();
codeview::CVType CVT = Types.getType(Index);
if (isUdtForwardRef(CVT)) {
Expected<TypeIndex> EFD = Tpi->findFullDeclForForwardRef(Index);
if (!EFD)
consumeError(EFD.takeError());
else if (*EFD != Index) {
assert(!isUdtForwardRef(Types.getType(*EFD)));
SymIndexId Result = findSymbolByTypeIndex(*EFD);
// Record a mapping from ForwardRef -> SymIndex of complete type so that
// we'll take the fast path next time.
assert(TypeIndexToSymbolId.count(Index) == 0);
TypeIndexToSymbolId[Index] = Result;
return Result;
}
}
// At this point if we still have a forward ref udt it means the full decl was
// not in the PDB. We just have to deal with it and use the forward ref.
SymIndexId Id = 0;
switch (CVT.kind()) {
case codeview::LF_ENUM:
Id = createSymbolForType<NativeTypeEnum, EnumRecord>(Index, std::move(CVT));
break;
case codeview::LF_ARRAY:
Id = createSymbolForType<NativeTypeArray, ArrayRecord>(Index,
std::move(CVT));
break;
case codeview::LF_CLASS:
case codeview::LF_STRUCTURE:
case codeview::LF_INTERFACE:
Id = createSymbolForType<NativeTypeUDT, ClassRecord>(Index, std::move(CVT));
break;
case codeview::LF_UNION:
Id = createSymbolForType<NativeTypeUDT, UnionRecord>(Index, std::move(CVT));
break;
case codeview::LF_POINTER:
Id = createSymbolForType<NativeTypePointer, PointerRecord>(Index,
std::move(CVT));
break;
case codeview::LF_MODIFIER:
Id = createSymbolForModifiedType(Index, std::move(CVT));
break;
case codeview::LF_PROCEDURE:
Id = createSymbolForType<NativeTypeFunctionSig, ProcedureRecord>(
Index, std::move(CVT));
break;
case codeview::LF_MFUNCTION:
Id = createSymbolForType<NativeTypeFunctionSig, MemberFunctionRecord>(
Index, std::move(CVT));
break;
case codeview::LF_VTSHAPE:
Id = createSymbolForType<NativeTypeVTShape, VFTableShapeRecord>(
Index, std::move(CVT));
break;
default:
Id = createSymbolPlaceholder();
break;
}
if (Id != 0) {
assert(TypeIndexToSymbolId.count(Index) == 0);
TypeIndexToSymbolId[Index] = Id;
}
return Id;
}
std::unique_ptr<PDBSymbol>
SymbolCache::getSymbolById(SymIndexId SymbolId) const {
assert(SymbolId < Cache.size());
// Id 0 is reserved.
if (SymbolId == 0 || SymbolId >= Cache.size())
return nullptr;
// Make sure to handle the case where we've inserted a placeholder symbol
// for types we don't yet support.
NativeRawSymbol *NRS = Cache[SymbolId].get();
if (!NRS)
return nullptr;
return PDBSymbol::create(Session, *NRS);
}
NativeRawSymbol &SymbolCache::getNativeSymbolById(SymIndexId SymbolId) const {
return *Cache[SymbolId];
}
uint32_t SymbolCache::getNumCompilands() const {
if (!Dbi)
return 0;
return Dbi->modules().getModuleCount();
}
SymIndexId SymbolCache::getOrCreateGlobalSymbolByOffset(uint32_t Offset) {
auto Iter = GlobalOffsetToSymbolId.find(Offset);
if (Iter != GlobalOffsetToSymbolId.end())
return Iter->second;
SymbolStream &SS = cantFail(Session.getPDBFile().getPDBSymbolStream());
CVSymbol CVS = SS.readRecord(Offset);
SymIndexId Id = 0;
switch (CVS.kind()) {
case SymbolKind::S_UDT: {
UDTSym US = cantFail(SymbolDeserializer::deserializeAs<UDTSym>(CVS));
Id = createSymbol<NativeTypeTypedef>(std::move(US));
break;
}
default:
Id = createSymbolPlaceholder();
break;
}
if (Id != 0) {
assert(GlobalOffsetToSymbolId.count(Offset) == 0);
GlobalOffsetToSymbolId[Offset] = Id;
}
return Id;
}
SymIndexId SymbolCache::getOrCreateInlineSymbol(InlineSiteSym Sym,
uint64_t ParentAddr,
uint16_t Modi,
uint32_t RecordOffset) const {
auto Iter = SymTabOffsetToSymbolId.find({Modi, RecordOffset});
if (Iter != SymTabOffsetToSymbolId.end())
return Iter->second;
SymIndexId Id = createSymbol<NativeInlineSiteSymbol>(Sym, ParentAddr);
SymTabOffsetToSymbolId.insert({{Modi, RecordOffset}, Id});
return Id;
}
std::unique_ptr<PDBSymbol>
SymbolCache::findSymbolBySectOffset(uint32_t Sect, uint32_t Offset,
PDB_SymType Type) {
switch (Type) {
case PDB_SymType::Function:
return findFunctionSymbolBySectOffset(Sect, Offset);
case PDB_SymType::PublicSymbol:
return findPublicSymbolBySectOffset(Sect, Offset);
case PDB_SymType::Compiland: {
uint16_t Modi;
if (!Session.moduleIndexForSectOffset(Sect, Offset, Modi))
return nullptr;
return getOrCreateCompiland(Modi);
}
case PDB_SymType::None: {
// FIXME: Implement for PDB_SymType::Data. The symbolizer calls this but
// only uses it to find the symbol length.
if (auto Sym = findFunctionSymbolBySectOffset(Sect, Offset))
return Sym;
return nullptr;
}
default:
return nullptr;
}
}
std::unique_ptr<PDBSymbol>
SymbolCache::findFunctionSymbolBySectOffset(uint32_t Sect, uint32_t Offset) {
auto Iter = AddressToSymbolId.find({Sect, Offset});
if (Iter != AddressToSymbolId.end())
return getSymbolById(Iter->second);
if (!Dbi)
return nullptr;
uint16_t Modi;
if (!Session.moduleIndexForSectOffset(Sect, Offset, Modi))
return nullptr;
Expected<ModuleDebugStreamRef> ExpectedModS =
Session.getModuleDebugStream(Modi);
if (!ExpectedModS) {
consumeError(ExpectedModS.takeError());
return nullptr;
}
CVSymbolArray Syms = ExpectedModS->getSymbolArray();
// Search for the symbol in this module.
for (auto I = Syms.begin(), E = Syms.end(); I != E; ++I) {
if (I->kind() != S_LPROC32 && I->kind() != S_GPROC32)
continue;
auto PS = cantFail(SymbolDeserializer::deserializeAs<ProcSym>(*I));
if (Sect == PS.Segment && Offset >= PS.CodeOffset &&
Offset < PS.CodeOffset + PS.CodeSize) {
// Check if the symbol is already cached.
auto Found = AddressToSymbolId.find({PS.Segment, PS.CodeOffset});
if (Found != AddressToSymbolId.end())
return getSymbolById(Found->second);
// Otherwise, create a new symbol.
SymIndexId Id = createSymbol<NativeFunctionSymbol>(PS, I.offset());
AddressToSymbolId.insert({{PS.Segment, PS.CodeOffset}, Id});
return getSymbolById(Id);
}
// Jump to the end of this ProcSym.
I = Syms.at(PS.End);
}
return nullptr;
}
std::unique_ptr<PDBSymbol>
SymbolCache::findPublicSymbolBySectOffset(uint32_t Sect, uint32_t Offset) {
auto Iter = AddressToPublicSymId.find({Sect, Offset});
if (Iter != AddressToPublicSymId.end())
return getSymbolById(Iter->second);
auto Publics = Session.getPDBFile().getPDBPublicsStream();
if (!Publics)
return nullptr;
auto ExpectedSyms = Session.getPDBFile().getPDBSymbolStream();
if (!ExpectedSyms)
return nullptr;
BinaryStreamRef SymStream =
ExpectedSyms->getSymbolArray().getUnderlyingStream();
// Use binary search to find the first public symbol with an address greater
// than or equal to Sect, Offset.
auto AddrMap = Publics->getAddressMap();
auto First = AddrMap.begin();
auto It = AddrMap.begin();
size_t Count = AddrMap.size();
size_t Half;
while (Count > 0) {
It = First;
Half = Count / 2;
It += Half;
Expected<CVSymbol> Sym = readSymbolFromStream(SymStream, *It);
if (!Sym) {
consumeError(Sym.takeError());
return nullptr;
}
auto PS =
cantFail(SymbolDeserializer::deserializeAs<PublicSym32>(Sym.get()));
if (PS.Segment < Sect || (PS.Segment == Sect && PS.Offset <= Offset)) {
First = ++It;
Count -= Half + 1;
} else
Count = Half;
}
if (It == AddrMap.begin())
return nullptr;
--It;
Expected<CVSymbol> Sym = readSymbolFromStream(SymStream, *It);
if (!Sym) {
consumeError(Sym.takeError());
return nullptr;
}
// Check if the symbol is already cached.
auto PS = cantFail(SymbolDeserializer::deserializeAs<PublicSym32>(Sym.get()));
auto Found = AddressToPublicSymId.find({PS.Segment, PS.Offset});
if (Found != AddressToPublicSymId.end())
return getSymbolById(Found->second);
// Otherwise, create a new symbol.
SymIndexId Id = createSymbol<NativePublicSymbol>(PS);
AddressToPublicSymId.insert({{PS.Segment, PS.Offset}, Id});
return getSymbolById(Id);
}
std::vector<SymbolCache::LineTableEntry>
SymbolCache::findLineTable(uint16_t Modi) const {
// Check if this module has already been added.
auto LineTableIter = LineTable.find(Modi);
if (LineTableIter != LineTable.end())
return LineTableIter->second;
std::vector<LineTableEntry> &ModuleLineTable = LineTable[Modi];
// If there is an error or there are no lines, just return the
// empty vector.
Expected<ModuleDebugStreamRef> ExpectedModS =
Session.getModuleDebugStream(Modi);
if (!ExpectedModS) {
consumeError(ExpectedModS.takeError());
return ModuleLineTable;
}
std::vector<std::vector<LineTableEntry>> EntryList;
for (const auto &SS : ExpectedModS->getSubsectionsArray()) {
if (SS.kind() != DebugSubsectionKind::Lines)
continue;
DebugLinesSubsectionRef Lines;
BinaryStreamReader Reader(SS.getRecordData());
if (auto EC = Lines.initialize(Reader)) {
consumeError(std::move(EC));
continue;
}
uint32_t RelocSegment = Lines.header()->RelocSegment;
uint32_t RelocOffset = Lines.header()->RelocOffset;
for (const LineColumnEntry &Group : Lines) {
if (Group.LineNumbers.empty())
continue;
std::vector<LineTableEntry> Entries;
// If there are column numbers, then they should be in a parallel stream
// to the line numbers.
auto ColIt = Group.Columns.begin();
auto ColsEnd = Group.Columns.end();
// Add a line to mark the beginning of this section.
uint64_t StartAddr =
Session.getVAFromSectOffset(RelocSegment, RelocOffset);
LineInfo FirstLine(Group.LineNumbers.front().Flags);
uint32_t ColNum =
(Lines.hasColumnInfo()) ? Group.Columns.front().StartColumn : 0;
Entries.push_back({StartAddr, FirstLine, ColNum, Group.NameIndex, false});
for (const LineNumberEntry &LN : Group.LineNumbers) {
uint64_t VA =
Session.getVAFromSectOffset(RelocSegment, RelocOffset + LN.Offset);
LineInfo Line(LN.Flags);
ColNum = 0;
if (Lines.hasColumnInfo() && ColIt != ColsEnd) {
ColNum = ColIt->StartColumn;
++ColIt;
}
Entries.push_back({VA, Line, ColNum, Group.NameIndex, false});
}
// Add a terminal entry line to mark the end of this subsection.
uint64_t EndAddr = StartAddr + Lines.header()->CodeSize;
LineInfo LastLine(Group.LineNumbers.back().Flags);
ColNum = (Lines.hasColumnInfo()) ? Group.Columns.back().StartColumn : 0;
Entries.push_back({EndAddr, LastLine, ColNum, Group.NameIndex, true});
EntryList.push_back(Entries);
}
}
// Sort EntryList, and add flattened contents to the line table.
llvm::sort(EntryList, [](const std::vector<LineTableEntry> &LHS,
const std::vector<LineTableEntry> &RHS) {
return LHS[0].Addr < RHS[0].Addr;
});
for (std::vector<LineTableEntry> &I : EntryList)
llvm::append_range(ModuleLineTable, I);
return ModuleLineTable;
}
std::unique_ptr<IPDBEnumLineNumbers>
SymbolCache::findLineNumbersByVA(uint64_t VA, uint32_t Length) const {
uint16_t Modi;
if (!Session.moduleIndexForVA(VA, Modi))
return nullptr;
std::vector<LineTableEntry> Lines = findLineTable(Modi);
if (Lines.empty())
return nullptr;
// Find the first line in the line table whose address is not greater than
// the one we are searching for.
auto LineIter = llvm::partition_point(Lines, [&](const LineTableEntry &E) {
return (E.Addr < VA || (E.Addr == VA && E.IsTerminalEntry));
});
// Try to back up if we've gone too far.
if (LineIter == Lines.end() || LineIter->Addr > VA) {
if (LineIter == Lines.begin() || std::prev(LineIter)->IsTerminalEntry)
return nullptr;
--LineIter;
}
Expected<ModuleDebugStreamRef> ExpectedModS =
Session.getModuleDebugStream(Modi);
if (!ExpectedModS) {
consumeError(ExpectedModS.takeError());
return nullptr;
}
Expected<DebugChecksumsSubsectionRef> ExpectedChecksums =
ExpectedModS->findChecksumsSubsection();
if (!ExpectedChecksums) {
consumeError(ExpectedChecksums.takeError());
return nullptr;
}
// Populate a vector of NativeLineNumbers that have addresses in the given
// address range.
std::vector<NativeLineNumber> LineNumbers;
while (LineIter != Lines.end()) {
if (LineIter->IsTerminalEntry) {
++LineIter;
continue;
}
// If the line is still within the address range, create a NativeLineNumber
// and add to the list.
if (LineIter->Addr > VA + Length)
break;
uint32_t LineSect, LineOff;
Session.addressForVA(LineIter->Addr, LineSect, LineOff);
uint32_t LineLength = std::next(LineIter)->Addr - LineIter->Addr;
auto ChecksumIter =
ExpectedChecksums->getArray().at(LineIter->FileNameIndex);
uint32_t SrcFileId = getOrCreateSourceFile(*ChecksumIter);
NativeLineNumber LineNum(Session, LineIter->Line, LineIter->ColumnNumber,
LineSect, LineOff, LineLength, SrcFileId, Modi);
LineNumbers.push_back(LineNum);
++LineIter;
}
return std::make_unique<NativeEnumLineNumbers>(std::move(LineNumbers));
}
std::unique_ptr<PDBSymbolCompiland>
SymbolCache::getOrCreateCompiland(uint32_t Index) {
if (!Dbi)
return nullptr;
if (Index >= Compilands.size())
return nullptr;
if (Compilands[Index] == 0) {
const DbiModuleList &Modules = Dbi->modules();
Compilands[Index] =
createSymbol<NativeCompilandSymbol>(Modules.getModuleDescriptor(Index));
}
return Session.getConcreteSymbolById<PDBSymbolCompiland>(Compilands[Index]);
}
std::unique_ptr<IPDBSourceFile>
SymbolCache::getSourceFileById(SymIndexId FileId) const {
assert(FileId < SourceFiles.size());
// Id 0 is reserved.
if (FileId == 0)
return nullptr;
return std::unique_ptr<NativeSourceFile>(
new NativeSourceFile(*SourceFiles[FileId].get()));
}
SymIndexId
SymbolCache::getOrCreateSourceFile(const FileChecksumEntry &Checksums) const {
auto Iter = FileNameOffsetToId.find(Checksums.FileNameOffset);
if (Iter != FileNameOffsetToId.end())
return Iter->second;
SymIndexId Id = SourceFiles.size();
auto SrcFile = std::make_unique<NativeSourceFile>(Session, Id, Checksums);
SourceFiles.push_back(std::move(SrcFile));
FileNameOffsetToId[Checksums.FileNameOffset] = Id;
return Id;
}
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