//===--- SerializedDiagnosticReader.cpp - Reads diagnostics ---------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "clang/Frontend/SerializedDiagnosticReader.h" #include "clang/Basic/FileManager.h" #include "clang/Frontend/SerializedDiagnostics.h" #include "llvm/Support/ManagedStatic.h" #include "llvm/Support/MemoryBuffer.h" using namespace clang; using namespace clang::serialized_diags; std::error_code SerializedDiagnosticReader::readDiagnostics(StringRef File) { // Open the diagnostics file. FileSystemOptions FO; FileManager FileMgr(FO); auto Buffer = FileMgr.getBufferForFile(File); if (!Buffer) return SDError::CouldNotLoad; llvm::BitstreamReader StreamFile; StreamFile.init((const unsigned char *)(*Buffer)->getBufferStart(), (const unsigned char *)(*Buffer)->getBufferEnd()); llvm::BitstreamCursor Stream(StreamFile); // Sniff for the signature. if (Stream.Read(8) != 'D' || Stream.Read(8) != 'I' || Stream.Read(8) != 'A' || Stream.Read(8) != 'G') return SDError::InvalidSignature; // Read the top level blocks. while (!Stream.AtEndOfStream()) { if (Stream.ReadCode() != llvm::bitc::ENTER_SUBBLOCK) return SDError::InvalidDiagnostics; std::error_code EC; switch (Stream.ReadSubBlockID()) { case llvm::bitc::BLOCKINFO_BLOCK_ID: if (Stream.ReadBlockInfoBlock()) return SDError::MalformedBlockInfoBlock; continue; case BLOCK_META: if ((EC = readMetaBlock(Stream))) return EC; continue; case BLOCK_DIAG: if ((EC = readDiagnosticBlock(Stream))) return EC; continue; default: if (!Stream.SkipBlock()) return SDError::MalformedTopLevelBlock; continue; } } return std::error_code(); } enum class SerializedDiagnosticReader::Cursor { Record = 1, BlockEnd, BlockBegin }; llvm::ErrorOr<SerializedDiagnosticReader::Cursor> SerializedDiagnosticReader::skipUntilRecordOrBlock( llvm::BitstreamCursor &Stream, unsigned &BlockOrRecordID) { BlockOrRecordID = 0; while (!Stream.AtEndOfStream()) { unsigned Code = Stream.ReadCode(); switch ((llvm::bitc::FixedAbbrevIDs)Code) { case llvm::bitc::ENTER_SUBBLOCK: BlockOrRecordID = Stream.ReadSubBlockID(); return Cursor::BlockBegin; case llvm::bitc::END_BLOCK: if (Stream.ReadBlockEnd()) return SDError::InvalidDiagnostics; return Cursor::BlockEnd; case llvm::bitc::DEFINE_ABBREV: Stream.ReadAbbrevRecord(); continue; case llvm::bitc::UNABBREV_RECORD: return SDError::UnsupportedConstruct; default: // We found a record. BlockOrRecordID = Code; return Cursor::Record; } } return SDError::InvalidDiagnostics; } std::error_code SerializedDiagnosticReader::readMetaBlock(llvm::BitstreamCursor &Stream) { if (Stream.EnterSubBlock(clang::serialized_diags::BLOCK_META)) return SDError::MalformedMetadataBlock; bool VersionChecked = false; while (true) { unsigned BlockOrCode = 0; llvm::ErrorOr<Cursor> Res = skipUntilRecordOrBlock(Stream, BlockOrCode); if (!Res) Res.getError(); switch (Res.get()) { case Cursor::Record: break; case Cursor::BlockBegin: if (Stream.SkipBlock()) return SDError::MalformedMetadataBlock; case Cursor::BlockEnd: if (!VersionChecked) return SDError::MissingVersion; return std::error_code(); } SmallVector<uint64_t, 1> Record; unsigned RecordID = Stream.readRecord(BlockOrCode, Record); if (RecordID == RECORD_VERSION) { if (Record.size() < 1) return SDError::MissingVersion; if (Record[0] > VersionNumber) return SDError::VersionMismatch; VersionChecked = true; } } } std::error_code SerializedDiagnosticReader::readDiagnosticBlock(llvm::BitstreamCursor &Stream) { if (Stream.EnterSubBlock(clang::serialized_diags::BLOCK_DIAG)) return SDError::MalformedDiagnosticBlock; std::error_code EC; if ((EC = visitStartOfDiagnostic())) return EC; SmallVector<uint64_t, 16> Record; while (true) { unsigned BlockOrCode = 0; llvm::ErrorOr<Cursor> Res = skipUntilRecordOrBlock(Stream, BlockOrCode); if (!Res) Res.getError(); switch (Res.get()) { case Cursor::BlockBegin: // The only blocks we care about are subdiagnostics. if (BlockOrCode == serialized_diags::BLOCK_DIAG) { if ((EC = readDiagnosticBlock(Stream))) return EC; } else if (!Stream.SkipBlock()) return SDError::MalformedSubBlock; continue; case Cursor::BlockEnd: if ((EC = visitEndOfDiagnostic())) return EC; return std::error_code(); case Cursor::Record: break; } // Read the record. Record.clear(); StringRef Blob; unsigned RecID = Stream.readRecord(BlockOrCode, Record, &Blob); if (RecID < serialized_diags::RECORD_FIRST || RecID > serialized_diags::RECORD_LAST) continue; switch ((RecordIDs)RecID) { case RECORD_CATEGORY: // A category has ID and name size. if (Record.size() != 2) return SDError::MalformedDiagnosticRecord; if ((EC = visitCategoryRecord(Record[0], Blob))) return EC; continue; case RECORD_DIAG: // A diagnostic has severity, location (4), category, flag, and message // size. if (Record.size() != 8) return SDError::MalformedDiagnosticRecord; if ((EC = visitDiagnosticRecord( Record[0], Location(Record[1], Record[2], Record[3], Record[4]), Record[5], Record[6], Blob))) return EC; continue; case RECORD_DIAG_FLAG: // A diagnostic flag has ID and name size. if (Record.size() != 2) return SDError::MalformedDiagnosticRecord; if ((EC = visitDiagFlagRecord(Record[0], Blob))) return EC; continue; case RECORD_FILENAME: // A filename has ID, size, timestamp, and name size. The size and // timestamp are legacy fields that are always zero these days. if (Record.size() != 4) return SDError::MalformedDiagnosticRecord; if ((EC = visitFilenameRecord(Record[0], Record[1], Record[2], Blob))) return EC; continue; case RECORD_FIXIT: // A fixit has two locations (4 each) and message size. if (Record.size() != 9) return SDError::MalformedDiagnosticRecord; if ((EC = visitFixitRecord( Location(Record[0], Record[1], Record[2], Record[3]), Location(Record[4], Record[5], Record[6], Record[7]), Blob))) return EC; continue; case RECORD_SOURCE_RANGE: // A source range is two locations (4 each). if (Record.size() != 8) return SDError::MalformedDiagnosticRecord; if ((EC = visitSourceRangeRecord( Location(Record[0], Record[1], Record[2], Record[3]), Location(Record[4], Record[5], Record[6], Record[7])))) return EC; continue; case RECORD_VERSION: // A version is just a number. if (Record.size() != 1) return SDError::MalformedDiagnosticRecord; if ((EC = visitVersionRecord(Record[0]))) return EC; continue; } } } namespace { class SDErrorCategoryType final : public std::error_category { const char *name() const LLVM_NOEXCEPT override { return "clang.serialized_diags"; } std::string message(int IE) const override { SDError E = static_cast<SDError>(IE); switch (E) { case SDError::CouldNotLoad: return "Failed to open diagnostics file"; case SDError::InvalidSignature: return "Invalid diagnostics signature"; case SDError::InvalidDiagnostics: return "Parse error reading diagnostics"; case SDError::MalformedTopLevelBlock: return "Malformed block at top-level of diagnostics"; case SDError::MalformedSubBlock: return "Malformed sub-block in a diagnostic"; case SDError::MalformedBlockInfoBlock: return "Malformed BlockInfo block"; case SDError::MalformedMetadataBlock: return "Malformed Metadata block"; case SDError::MalformedDiagnosticBlock: return "Malformed Diagnostic block"; case SDError::MalformedDiagnosticRecord: return "Malformed Diagnostic record"; case SDError::MissingVersion: return "No version provided in diagnostics"; case SDError::VersionMismatch: return "Unsupported diagnostics version"; case SDError::UnsupportedConstruct: return "Bitcode constructs that are not supported in diagnostics appear"; case SDError::HandlerFailed: return "Generic error occurred while handling a record"; } llvm_unreachable("Unknown error type!"); } }; } static llvm::ManagedStatic<SDErrorCategoryType> ErrorCategory; const std::error_category &clang::serialized_diags::SDErrorCategory() { return *ErrorCategory; }