//===-- CXLoadedDiagnostic.cpp - Handling of persisent diags ----*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Implements handling of persisent diagnostics. // //===----------------------------------------------------------------------===// #include "CXLoadedDiagnostic.h" #include "CXString.h" #include "clang/Basic/Diagnostic.h" #include "clang/Basic/FileManager.h" #include "clang/Basic/LLVM.h" #include "clang/Frontend/SerializedDiagnosticReader.h" #include "clang/Frontend/SerializedDiagnostics.h" #include "llvm/ADT/Optional.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/Twine.h" #include "llvm/Bitcode/BitstreamReader.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/MemoryBuffer.h" using namespace clang; //===----------------------------------------------------------------------===// // Extend CXDiagnosticSetImpl which contains strings for diagnostics. //===----------------------------------------------------------------------===// typedef llvm::DenseMap<unsigned, const char *> Strings; namespace { class CXLoadedDiagnosticSetImpl : public CXDiagnosticSetImpl { public: CXLoadedDiagnosticSetImpl() : CXDiagnosticSetImpl(true), FakeFiles(FO) {} ~CXLoadedDiagnosticSetImpl() override {} llvm::BumpPtrAllocator Alloc; Strings Categories; Strings WarningFlags; Strings FileNames; FileSystemOptions FO; FileManager FakeFiles; llvm::DenseMap<unsigned, const FileEntry *> Files; /// \brief Copy the string into our own allocator. const char *copyString(StringRef Blob) { char *mem = Alloc.Allocate<char>(Blob.size() + 1); memcpy(mem, Blob.data(), Blob.size()); mem[Blob.size()] = '\0'; return mem; } }; } // end anonymous namespace //===----------------------------------------------------------------------===// // Cleanup. //===----------------------------------------------------------------------===// CXLoadedDiagnostic::~CXLoadedDiagnostic() {} //===----------------------------------------------------------------------===// // Public CXLoadedDiagnostic methods. //===----------------------------------------------------------------------===// CXDiagnosticSeverity CXLoadedDiagnostic::getSeverity() const { // FIXME: Fail more softly if the diagnostic level is unknown? auto severityAsLevel = static_cast<serialized_diags::Level>(severity); assert(severity == static_cast<unsigned>(severityAsLevel) && "unknown serialized diagnostic level"); switch (severityAsLevel) { #define CASE(X) case serialized_diags::X: return CXDiagnostic_##X; CASE(Ignored) CASE(Note) CASE(Warning) CASE(Error) CASE(Fatal) #undef CASE // The 'Remark' level isn't represented in the stable API. case serialized_diags::Remark: return CXDiagnostic_Warning; } llvm_unreachable("Invalid diagnostic level"); } static CXSourceLocation makeLocation(const CXLoadedDiagnostic::Location *DLoc) { // The lowest bit of ptr_data[0] is always set to 1 to indicate this // is a persistent diagnostic. uintptr_t V = (uintptr_t) DLoc; V |= 0x1; CXSourceLocation Loc = { { (void*) V, nullptr }, 0 }; return Loc; } CXSourceLocation CXLoadedDiagnostic::getLocation() const { // The lowest bit of ptr_data[0] is always set to 1 to indicate this // is a persistent diagnostic. return makeLocation(&DiagLoc); } CXString CXLoadedDiagnostic::getSpelling() const { return cxstring::createRef(Spelling); } CXString CXLoadedDiagnostic::getDiagnosticOption(CXString *Disable) const { if (DiagOption.empty()) return cxstring::createEmpty(); // FIXME: possibly refactor with logic in CXStoredDiagnostic. if (Disable) *Disable = cxstring::createDup((Twine("-Wno-") + DiagOption).str()); return cxstring::createDup((Twine("-W") + DiagOption).str()); } unsigned CXLoadedDiagnostic::getCategory() const { return category; } CXString CXLoadedDiagnostic::getCategoryText() const { return cxstring::createDup(CategoryText); } unsigned CXLoadedDiagnostic::getNumRanges() const { return Ranges.size(); } CXSourceRange CXLoadedDiagnostic::getRange(unsigned Range) const { assert(Range < Ranges.size()); return Ranges[Range]; } unsigned CXLoadedDiagnostic::getNumFixIts() const { return FixIts.size(); } CXString CXLoadedDiagnostic::getFixIt(unsigned FixIt, CXSourceRange *ReplacementRange) const { assert(FixIt < FixIts.size()); if (ReplacementRange) *ReplacementRange = FixIts[FixIt].first; return cxstring::createRef(FixIts[FixIt].second); } void CXLoadedDiagnostic::decodeLocation(CXSourceLocation location, CXFile *file, unsigned int *line, unsigned int *column, unsigned int *offset) { // CXSourceLocation consists of the following fields: // // void *ptr_data[2]; // unsigned int_data; // // The lowest bit of ptr_data[0] is always set to 1 to indicate this // is a persistent diagnostic. // // For now, do the unoptimized approach and store the data in a side // data structure. We can optimize this case later. uintptr_t V = (uintptr_t) location.ptr_data[0]; assert((V & 0x1) == 1); V &= ~(uintptr_t)1; const Location &Loc = *((Location*)V); if (file) *file = Loc.file; if (line) *line = Loc.line; if (column) *column = Loc.column; if (offset) *offset = Loc.offset; } //===----------------------------------------------------------------------===// // Deserialize diagnostics. //===----------------------------------------------------------------------===// namespace { class DiagLoader : serialized_diags::SerializedDiagnosticReader { enum CXLoadDiag_Error *error; CXString *errorString; std::unique_ptr<CXLoadedDiagnosticSetImpl> TopDiags; SmallVector<std::unique_ptr<CXLoadedDiagnostic>, 8> CurrentDiags; std::error_code reportBad(enum CXLoadDiag_Error code, llvm::StringRef err) { if (error) *error = code; if (errorString) *errorString = cxstring::createDup(err); return serialized_diags::SDError::HandlerFailed; } std::error_code reportInvalidFile(llvm::StringRef err) { return reportBad(CXLoadDiag_InvalidFile, err); } std::error_code readRange(const serialized_diags::Location &SDStart, const serialized_diags::Location &SDEnd, CXSourceRange &SR); std::error_code readLocation(const serialized_diags::Location &SDLoc, CXLoadedDiagnostic::Location &LoadedLoc); protected: std::error_code visitStartOfDiagnostic() override; std::error_code visitEndOfDiagnostic() override; std::error_code visitCategoryRecord(unsigned ID, StringRef Name) override; std::error_code visitDiagFlagRecord(unsigned ID, StringRef Name) override; std::error_code visitDiagnosticRecord( unsigned Severity, const serialized_diags::Location &Location, unsigned Category, unsigned Flag, StringRef Message) override; std::error_code visitFilenameRecord(unsigned ID, unsigned Size, unsigned Timestamp, StringRef Name) override; std::error_code visitFixitRecord(const serialized_diags::Location &Start, const serialized_diags::Location &End, StringRef CodeToInsert) override; std::error_code visitSourceRangeRecord(const serialized_diags::Location &Start, const serialized_diags::Location &End) override; public: DiagLoader(enum CXLoadDiag_Error *e, CXString *es) : SerializedDiagnosticReader(), error(e), errorString(es) { if (error) *error = CXLoadDiag_None; if (errorString) *errorString = cxstring::createEmpty(); } CXDiagnosticSet load(const char *file); }; } // end anonymous namespace CXDiagnosticSet DiagLoader::load(const char *file) { TopDiags = llvm::make_unique<CXLoadedDiagnosticSetImpl>(); std::error_code EC = readDiagnostics(file); if (EC) { switch (EC.value()) { case static_cast<int>(serialized_diags::SDError::HandlerFailed): // We've already reported the problem. break; case static_cast<int>(serialized_diags::SDError::CouldNotLoad): reportBad(CXLoadDiag_CannotLoad, EC.message()); break; default: reportInvalidFile(EC.message()); break; } return nullptr; } return (CXDiagnosticSet)TopDiags.release(); } std::error_code DiagLoader::readLocation(const serialized_diags::Location &SDLoc, CXLoadedDiagnostic::Location &LoadedLoc) { unsigned FileID = SDLoc.FileID; if (FileID == 0) LoadedLoc.file = nullptr; else { LoadedLoc.file = const_cast<FileEntry *>(TopDiags->Files[FileID]); if (!LoadedLoc.file) return reportInvalidFile("Corrupted file entry in source location"); } LoadedLoc.line = SDLoc.Line; LoadedLoc.column = SDLoc.Col; LoadedLoc.offset = SDLoc.Offset; return std::error_code(); } std::error_code DiagLoader::readRange(const serialized_diags::Location &SDStart, const serialized_diags::Location &SDEnd, CXSourceRange &SR) { CXLoadedDiagnostic::Location *Start, *End; Start = TopDiags->Alloc.Allocate<CXLoadedDiagnostic::Location>(); End = TopDiags->Alloc.Allocate<CXLoadedDiagnostic::Location>(); std::error_code EC; if ((EC = readLocation(SDStart, *Start))) return EC; if ((EC = readLocation(SDEnd, *End))) return EC; CXSourceLocation startLoc = makeLocation(Start); CXSourceLocation endLoc = makeLocation(End); SR = clang_getRange(startLoc, endLoc); return std::error_code(); } std::error_code DiagLoader::visitStartOfDiagnostic() { CurrentDiags.push_back(llvm::make_unique<CXLoadedDiagnostic>()); return std::error_code(); } std::error_code DiagLoader::visitEndOfDiagnostic() { auto D = CurrentDiags.pop_back_val(); if (CurrentDiags.empty()) TopDiags->appendDiagnostic(std::move(D)); else CurrentDiags.back()->getChildDiagnostics().appendDiagnostic(std::move(D)); return std::error_code(); } std::error_code DiagLoader::visitCategoryRecord(unsigned ID, StringRef Name) { // FIXME: Why do we care about long strings? if (Name.size() > 65536) return reportInvalidFile("Out-of-bounds string in category"); TopDiags->Categories[ID] = TopDiags->copyString(Name); return std::error_code(); } std::error_code DiagLoader::visitDiagFlagRecord(unsigned ID, StringRef Name) { // FIXME: Why do we care about long strings? if (Name.size() > 65536) return reportInvalidFile("Out-of-bounds string in warning flag"); TopDiags->WarningFlags[ID] = TopDiags->copyString(Name); return std::error_code(); } std::error_code DiagLoader::visitFilenameRecord(unsigned ID, unsigned Size, unsigned Timestamp, StringRef Name) { // FIXME: Why do we care about long strings? if (Name.size() > 65536) return reportInvalidFile("Out-of-bounds string in filename"); TopDiags->FileNames[ID] = TopDiags->copyString(Name); TopDiags->Files[ID] = TopDiags->FakeFiles.getVirtualFile(Name, Size, Timestamp); return std::error_code(); } std::error_code DiagLoader::visitSourceRangeRecord(const serialized_diags::Location &Start, const serialized_diags::Location &End) { CXSourceRange SR; if (std::error_code EC = readRange(Start, End, SR)) return EC; CurrentDiags.back()->Ranges.push_back(SR); return std::error_code(); } std::error_code DiagLoader::visitFixitRecord(const serialized_diags::Location &Start, const serialized_diags::Location &End, StringRef CodeToInsert) { CXSourceRange SR; if (std::error_code EC = readRange(Start, End, SR)) return EC; // FIXME: Why do we care about long strings? if (CodeToInsert.size() > 65536) return reportInvalidFile("Out-of-bounds string in FIXIT"); CurrentDiags.back()->FixIts.push_back( std::make_pair(SR, TopDiags->copyString(CodeToInsert))); return std::error_code(); } std::error_code DiagLoader::visitDiagnosticRecord( unsigned Severity, const serialized_diags::Location &Location, unsigned Category, unsigned Flag, StringRef Message) { CXLoadedDiagnostic &D = *CurrentDiags.back(); D.severity = Severity; if (std::error_code EC = readLocation(Location, D.DiagLoc)) return EC; D.category = Category; D.DiagOption = Flag ? TopDiags->WarningFlags[Flag] : ""; D.CategoryText = Category ? TopDiags->Categories[Category] : ""; D.Spelling = TopDiags->copyString(Message); return std::error_code(); } extern "C" { CXDiagnosticSet clang_loadDiagnostics(const char *file, enum CXLoadDiag_Error *error, CXString *errorString) { DiagLoader L(error, errorString); return L.load(file); } } // end extern 'C'.