//===- VerifyDiagnosticConsumer.cpp - Verifying Diagnostic Client ---------===// // // 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 // //===----------------------------------------------------------------------===// // // This is a concrete diagnostic client, which buffers the diagnostic messages. // //===----------------------------------------------------------------------===// #include "clang/Frontend/VerifyDiagnosticConsumer.h" #include "clang/Basic/CharInfo.h" #include "clang/Basic/Diagnostic.h" #include "clang/Basic/DiagnosticOptions.h" #include "clang/Basic/FileManager.h" #include "clang/Basic/LLVM.h" #include "clang/Basic/SourceLocation.h" #include "clang/Basic/SourceManager.h" #include "clang/Basic/TokenKinds.h" #include "clang/Frontend/FrontendDiagnostic.h" #include "clang/Frontend/TextDiagnosticBuffer.h" #include "clang/Lex/HeaderSearch.h" #include "clang/Lex/Lexer.h" #include "clang/Lex/PPCallbacks.h" #include "clang/Lex/Preprocessor.h" #include "clang/Lex/Token.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/SmallPtrSet.h" #include "llvm/ADT/SmallString.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/Twine.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/Regex.h" #include "llvm/Support/raw_ostream.h" #include #include #include #include #include #include #include #include #include using namespace clang; using Directive = VerifyDiagnosticConsumer::Directive; using DirectiveList = VerifyDiagnosticConsumer::DirectiveList; using ExpectedData = VerifyDiagnosticConsumer::ExpectedData; #ifndef NDEBUG namespace { class VerifyFileTracker : public PPCallbacks { VerifyDiagnosticConsumer &Verify; SourceManager &SM; public: VerifyFileTracker(VerifyDiagnosticConsumer &Verify, SourceManager &SM) : Verify(Verify), SM(SM) {} /// Hook into the preprocessor and update the list of parsed /// files when the preprocessor indicates a new file is entered. void FileChanged(SourceLocation Loc, FileChangeReason Reason, SrcMgr::CharacteristicKind FileType, FileID PrevFID) override { Verify.UpdateParsedFileStatus(SM, SM.getFileID(Loc), VerifyDiagnosticConsumer::IsParsed); } }; } // namespace #endif //===----------------------------------------------------------------------===// // Checking diagnostics implementation. //===----------------------------------------------------------------------===// using DiagList = TextDiagnosticBuffer::DiagList; using const_diag_iterator = TextDiagnosticBuffer::const_iterator; namespace { /// StandardDirective - Directive with string matching. class StandardDirective : public Directive { public: StandardDirective(SourceLocation DirectiveLoc, SourceLocation DiagnosticLoc, bool MatchAnyFileAndLine, bool MatchAnyLine, StringRef Text, unsigned Min, unsigned Max) : Directive(DirectiveLoc, DiagnosticLoc, MatchAnyFileAndLine, MatchAnyLine, Text, Min, Max) {} bool isValid(std::string &Error) override { // all strings are considered valid; even empty ones return true; } bool match(StringRef S) override { return S.contains(Text); } }; /// RegexDirective - Directive with regular-expression matching. class RegexDirective : public Directive { public: RegexDirective(SourceLocation DirectiveLoc, SourceLocation DiagnosticLoc, bool MatchAnyFileAndLine, bool MatchAnyLine, StringRef Text, unsigned Min, unsigned Max, StringRef RegexStr) : Directive(DirectiveLoc, DiagnosticLoc, MatchAnyFileAndLine, MatchAnyLine, Text, Min, Max), Regex(RegexStr) {} bool isValid(std::string &Error) override { return Regex.isValid(Error); } bool match(StringRef S) override { return Regex.match(S); } private: llvm::Regex Regex; }; class ParseHelper { public: ParseHelper(StringRef S) : Begin(S.begin()), End(S.end()), C(Begin), P(Begin) {} // Return true if string literal is next. bool Next(StringRef S) { P = C; PEnd = C + S.size(); if (PEnd > End) return false; return memcmp(P, S.data(), S.size()) == 0; } // Return true if number is next. // Output N only if number is next. bool Next(unsigned &N) { unsigned TMP = 0; P = C; PEnd = P; for (; PEnd < End && *PEnd >= '0' && *PEnd <= '9'; ++PEnd) { TMP *= 10; TMP += *PEnd - '0'; } if (PEnd == C) return false; N = TMP; return true; } // Return true if a marker is next. // A marker is the longest match for /#[A-Za-z0-9_-]+/. bool NextMarker() { P = C; if (P == End || *P != '#') return false; PEnd = P; ++PEnd; while ((isAlphanumeric(*PEnd) || *PEnd == '-' || *PEnd == '_') && PEnd < End) ++PEnd; return PEnd > P + 1; } // Return true if string literal S is matched in content. // When true, P marks begin-position of the match, and calling Advance sets C // to end-position of the match. // If S is the empty string, then search for any letter instead (makes sense // with FinishDirectiveToken=true). // If EnsureStartOfWord, then skip matches that don't start a new word. // If FinishDirectiveToken, then assume the match is the start of a comment // directive for -verify, and extend the match to include the entire first // token of that directive. bool Search(StringRef S, bool EnsureStartOfWord = false, bool FinishDirectiveToken = false) { do { if (!S.empty()) { P = std::search(C, End, S.begin(), S.end()); PEnd = P + S.size(); } else { P = C; while (P != End && !isLetter(*P)) ++P; PEnd = P + 1; } if (P == End) break; // If not start of word but required, skip and search again. if (EnsureStartOfWord // Check if string literal starts a new word. && !(P == Begin || isWhitespace(P[-1]) // Or it could be preceded by the start of a comment. || (P > (Begin + 1) && (P[-1] == '/' || P[-1] == '*') && P[-2] == '/'))) continue; if (FinishDirectiveToken) { while (PEnd != End && (isAlphanumeric(*PEnd) || *PEnd == '-' || *PEnd == '_')) ++PEnd; // Put back trailing digits and hyphens to be parsed later as a count // or count range. Because -verify prefixes must start with letters, // we know the actual directive we found starts with a letter, so // we won't put back the entire directive word and thus record an empty // string. assert(isLetter(*P) && "-verify prefix must start with a letter"); while (isDigit(PEnd[-1]) || PEnd[-1] == '-') --PEnd; } return true; } while (Advance()); return false; } // Return true if a CloseBrace that closes the OpenBrace at the current nest // level is found. When true, P marks begin-position of CloseBrace. bool SearchClosingBrace(StringRef OpenBrace, StringRef CloseBrace) { unsigned Depth = 1; P = C; while (P < End) { StringRef S(P, End - P); if (S.starts_with(OpenBrace)) { ++Depth; P += OpenBrace.size(); } else if (S.starts_with(CloseBrace)) { --Depth; if (Depth == 0) { PEnd = P + CloseBrace.size(); return true; } P += CloseBrace.size(); } else { ++P; } } return false; } // Advance 1-past previous next/search. // Behavior is undefined if previous next/search failed. bool Advance() { C = PEnd; return C < End; } // Return the text matched by the previous next/search. // Behavior is undefined if previous next/search failed. StringRef Match() { return StringRef(P, PEnd - P); } // Skip zero or more whitespace. void SkipWhitespace() { for (; C < End && isWhitespace(*C); ++C) ; } // Return true if EOF reached. bool Done() { return !(C < End); } // Beginning of expected content. const char * const Begin; // End of expected content (1-past). const char * const End; // Position of next char in content. const char *C; // Previous next/search subject start. const char *P; private: // Previous next/search subject end (1-past). const char *PEnd = nullptr; }; // The information necessary to create a directive. struct UnattachedDirective { DirectiveList *DL = nullptr; bool RegexKind = false; SourceLocation DirectivePos, ContentBegin; std::string Text; unsigned Min = 1, Max = 1; }; // Attach the specified directive to the line of code indicated by // \p ExpectedLoc. void attachDirective(DiagnosticsEngine &Diags, const UnattachedDirective &UD, SourceLocation ExpectedLoc, bool MatchAnyFileAndLine = false, bool MatchAnyLine = false) { // Construct new directive. std::unique_ptr D = Directive::create( UD.RegexKind, UD.DirectivePos, ExpectedLoc, MatchAnyFileAndLine, MatchAnyLine, UD.Text, UD.Min, UD.Max); std::string Error; if (!D->isValid(Error)) { Diags.Report(UD.ContentBegin, diag::err_verify_invalid_content) << (UD.RegexKind ? "regex" : "string") << Error; } UD.DL->push_back(std::move(D)); } } // anonymous // Tracker for markers in the input files. A marker is a comment of the form // // n = 123; // #123 // // ... that can be referred to by a later expected-* directive: // // // expected-error@#123 {{undeclared identifier 'n'}} // // Marker declarations must be at the start of a comment or preceded by // whitespace to distinguish them from uses of markers in directives. class VerifyDiagnosticConsumer::MarkerTracker { DiagnosticsEngine &Diags; struct Marker { SourceLocation DefLoc; SourceLocation RedefLoc; SourceLocation UseLoc; }; llvm::StringMap Markers; // Directives that couldn't be created yet because they name an unknown // marker. llvm::StringMap> DeferredDirectives; public: MarkerTracker(DiagnosticsEngine &Diags) : Diags(Diags) {} // Register a marker. void addMarker(StringRef MarkerName, SourceLocation Pos) { auto InsertResult = Markers.insert( {MarkerName, Marker{Pos, SourceLocation(), SourceLocation()}}); Marker &M = InsertResult.first->second; if (!InsertResult.second) { // Marker was redefined. M.RedefLoc = Pos; } else { // First definition: build any deferred directives. auto Deferred = DeferredDirectives.find(MarkerName); if (Deferred != DeferredDirectives.end()) { for (auto &UD : Deferred->second) { if (M.UseLoc.isInvalid()) M.UseLoc = UD.DirectivePos; attachDirective(Diags, UD, Pos); } DeferredDirectives.erase(Deferred); } } } // Register a directive at the specified marker. void addDirective(StringRef MarkerName, const UnattachedDirective &UD) { auto MarkerIt = Markers.find(MarkerName); if (MarkerIt != Markers.end()) { Marker &M = MarkerIt->second; if (M.UseLoc.isInvalid()) M.UseLoc = UD.DirectivePos; return attachDirective(Diags, UD, M.DefLoc); } DeferredDirectives[MarkerName].push_back(UD); } // Ensure we have no remaining deferred directives, and no // multiply-defined-and-used markers. void finalize() { for (auto &MarkerInfo : Markers) { StringRef Name = MarkerInfo.first(); Marker &M = MarkerInfo.second; if (M.RedefLoc.isValid() && M.UseLoc.isValid()) { Diags.Report(M.UseLoc, diag::err_verify_ambiguous_marker) << Name; Diags.Report(M.DefLoc, diag::note_verify_ambiguous_marker) << Name; Diags.Report(M.RedefLoc, diag::note_verify_ambiguous_marker) << Name; } } for (auto &DeferredPair : DeferredDirectives) { Diags.Report(DeferredPair.second.front().DirectivePos, diag::err_verify_no_such_marker) << DeferredPair.first(); } } }; /// ParseDirective - Go through the comment and see if it indicates expected /// diagnostics. If so, then put them in the appropriate directive list. /// /// Returns true if any valid directives were found. static bool ParseDirective(StringRef S, ExpectedData *ED, SourceManager &SM, Preprocessor *PP, SourceLocation Pos, VerifyDiagnosticConsumer::DirectiveStatus &Status, VerifyDiagnosticConsumer::MarkerTracker &Markers) { DiagnosticsEngine &Diags = PP ? PP->getDiagnostics() : SM.getDiagnostics(); // First, scan the comment looking for markers. for (ParseHelper PH(S); !PH.Done();) { if (!PH.Search("#", true)) break; PH.C = PH.P; if (!PH.NextMarker()) { PH.Next("#"); PH.Advance(); continue; } PH.Advance(); Markers.addMarker(PH.Match(), Pos); } // A single comment may contain multiple directives. bool FoundDirective = false; for (ParseHelper PH(S); !PH.Done();) { // Search for the initial directive token. // If one prefix, save time by searching only for its directives. // Otherwise, search for any potential directive token and check it later. const auto &Prefixes = Diags.getDiagnosticOptions().VerifyPrefixes; if (!(Prefixes.size() == 1 ? PH.Search(*Prefixes.begin(), true, true) : PH.Search("", true, true))) break; StringRef DToken = PH.Match(); PH.Advance(); // Default directive kind. UnattachedDirective D; const char *KindStr = "string"; // Parse the initial directive token in reverse so we can easily determine // its exact actual prefix. If we were to parse it from the front instead, // it would be harder to determine where the prefix ends because there // might be multiple matching -verify prefixes because some might prefix // others. // Regex in initial directive token: -re if (DToken.ends_with("-re")) { D.RegexKind = true; KindStr = "regex"; DToken = DToken.substr(0, DToken.size()-3); } // Type in initial directive token: -{error|warning|note|no-diagnostics} bool NoDiag = false; StringRef DType; if (DToken.ends_with(DType = "-error")) D.DL = ED ? &ED->Errors : nullptr; else if (DToken.ends_with(DType = "-warning")) D.DL = ED ? &ED->Warnings : nullptr; else if (DToken.ends_with(DType = "-remark")) D.DL = ED ? &ED->Remarks : nullptr; else if (DToken.ends_with(DType = "-note")) D.DL = ED ? &ED->Notes : nullptr; else if (DToken.ends_with(DType = "-no-diagnostics")) { NoDiag = true; if (D.RegexKind) continue; } else continue; DToken = DToken.substr(0, DToken.size()-DType.size()); // What's left in DToken is the actual prefix. That might not be a -verify // prefix even if there is only one -verify prefix (for example, the full // DToken is foo-bar-warning, but foo is the only -verify prefix). if (!std::binary_search(Prefixes.begin(), Prefixes.end(), DToken)) continue; if (NoDiag) { if (Status == VerifyDiagnosticConsumer::HasOtherExpectedDirectives) Diags.Report(Pos, diag::err_verify_invalid_no_diags) << /*IsExpectedNoDiagnostics=*/true; else Status = VerifyDiagnosticConsumer::HasExpectedNoDiagnostics; continue; } if (Status == VerifyDiagnosticConsumer::HasExpectedNoDiagnostics) { Diags.Report(Pos, diag::err_verify_invalid_no_diags) << /*IsExpectedNoDiagnostics=*/false; continue; } Status = VerifyDiagnosticConsumer::HasOtherExpectedDirectives; // If a directive has been found but we're not interested // in storing the directive information, return now. if (!D.DL) return true; // Next optional token: @ SourceLocation ExpectedLoc; StringRef Marker; bool MatchAnyFileAndLine = false; bool MatchAnyLine = false; if (!PH.Next("@")) { ExpectedLoc = Pos; } else { PH.Advance(); unsigned Line = 0; bool FoundPlus = PH.Next("+"); if (FoundPlus || PH.Next("-")) { // Relative to current line. PH.Advance(); bool Invalid = false; unsigned ExpectedLine = SM.getSpellingLineNumber(Pos, &Invalid); if (!Invalid && PH.Next(Line) && (FoundPlus || Line < ExpectedLine)) { if (FoundPlus) ExpectedLine += Line; else ExpectedLine -= Line; ExpectedLoc = SM.translateLineCol(SM.getFileID(Pos), ExpectedLine, 1); } } else if (PH.Next(Line)) { // Absolute line number. if (Line > 0) ExpectedLoc = SM.translateLineCol(SM.getFileID(Pos), Line, 1); } else if (PH.NextMarker()) { Marker = PH.Match(); } else if (PP && PH.Search(":")) { // Specific source file. StringRef Filename(PH.C, PH.P-PH.C); PH.Advance(); if (Filename == "*") { MatchAnyFileAndLine = true; if (!PH.Next("*")) { Diags.Report(Pos.getLocWithOffset(PH.C - PH.Begin), diag::err_verify_missing_line) << "'*'"; continue; } MatchAnyLine = true; ExpectedLoc = SourceLocation(); } else { // Lookup file via Preprocessor, like a #include. OptionalFileEntryRef File = PP->LookupFile(Pos, Filename, false, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr); if (!File) { Diags.Report(Pos.getLocWithOffset(PH.C - PH.Begin), diag::err_verify_missing_file) << Filename << KindStr; continue; } FileID FID = SM.translateFile(*File); if (FID.isInvalid()) FID = SM.createFileID(*File, Pos, SrcMgr::C_User); if (PH.Next(Line) && Line > 0) ExpectedLoc = SM.translateLineCol(FID, Line, 1); else if (PH.Next("*")) { MatchAnyLine = true; ExpectedLoc = SM.translateLineCol(FID, 1, 1); } } } else if (PH.Next("*")) { MatchAnyLine = true; ExpectedLoc = SourceLocation(); } if (ExpectedLoc.isInvalid() && !MatchAnyLine && Marker.empty()) { Diags.Report(Pos.getLocWithOffset(PH.C-PH.Begin), diag::err_verify_missing_line) << KindStr; continue; } PH.Advance(); } // Skip optional whitespace. PH.SkipWhitespace(); // Next optional token: positive integer or a '+'. if (PH.Next(D.Min)) { PH.Advance(); // A positive integer can be followed by a '+' meaning min // or more, or by a '-' meaning a range from min to max. if (PH.Next("+")) { D.Max = Directive::MaxCount; PH.Advance(); } else if (PH.Next("-")) { PH.Advance(); if (!PH.Next(D.Max) || D.Max < D.Min) { Diags.Report(Pos.getLocWithOffset(PH.C-PH.Begin), diag::err_verify_invalid_range) << KindStr; continue; } PH.Advance(); } else { D.Max = D.Min; } } else if (PH.Next("+")) { // '+' on its own means "1 or more". D.Max = Directive::MaxCount; PH.Advance(); } // Skip optional whitespace. PH.SkipWhitespace(); // Next token: {{ if (!PH.Next("{{")) { Diags.Report(Pos.getLocWithOffset(PH.C-PH.Begin), diag::err_verify_missing_start) << KindStr; continue; } PH.Advance(); const char* const ContentBegin = PH.C; // mark content begin // Search for token: }} if (!PH.SearchClosingBrace("{{", "}}")) { Diags.Report(Pos.getLocWithOffset(PH.C-PH.Begin), diag::err_verify_missing_end) << KindStr; continue; } const char* const ContentEnd = PH.P; // mark content end PH.Advance(); D.DirectivePos = Pos; D.ContentBegin = Pos.getLocWithOffset(ContentBegin - PH.Begin); // Build directive text; convert \n to newlines. StringRef NewlineStr = "\\n"; StringRef Content(ContentBegin, ContentEnd-ContentBegin); size_t CPos = 0; size_t FPos; while ((FPos = Content.find(NewlineStr, CPos)) != StringRef::npos) { D.Text += Content.substr(CPos, FPos-CPos); D.Text += '\n'; CPos = FPos + NewlineStr.size(); } if (D.Text.empty()) D.Text.assign(ContentBegin, ContentEnd); // Check that regex directives contain at least one regex. if (D.RegexKind && D.Text.find("{{") == StringRef::npos) { Diags.Report(D.ContentBegin, diag::err_verify_missing_regex) << D.Text; return false; } if (Marker.empty()) attachDirective(Diags, D, ExpectedLoc, MatchAnyFileAndLine, MatchAnyLine); else Markers.addDirective(Marker, D); FoundDirective = true; } return FoundDirective; } VerifyDiagnosticConsumer::VerifyDiagnosticConsumer(DiagnosticsEngine &Diags_) : Diags(Diags_), PrimaryClient(Diags.getClient()), PrimaryClientOwner(Diags.takeClient()), Buffer(new TextDiagnosticBuffer()), Markers(new MarkerTracker(Diags)), Status(HasNoDirectives) { if (Diags.hasSourceManager()) setSourceManager(Diags.getSourceManager()); } VerifyDiagnosticConsumer::~VerifyDiagnosticConsumer() { assert(!ActiveSourceFiles && "Incomplete parsing of source files!"); assert(!CurrentPreprocessor && "CurrentPreprocessor should be invalid!"); SrcManager = nullptr; CheckDiagnostics(); assert(!Diags.ownsClient() && "The VerifyDiagnosticConsumer takes over ownership of the client!"); } // DiagnosticConsumer interface. void VerifyDiagnosticConsumer::BeginSourceFile(const LangOptions &LangOpts, const Preprocessor *PP) { // Attach comment handler on first invocation. if (++ActiveSourceFiles == 1) { if (PP) { CurrentPreprocessor = PP; this->LangOpts = &LangOpts; setSourceManager(PP->getSourceManager()); const_cast(PP)->addCommentHandler(this); #ifndef NDEBUG // Debug build tracks parsed files. const_cast(PP)->addPPCallbacks( std::make_unique(*this, *SrcManager)); #endif } } assert((!PP || CurrentPreprocessor == PP) && "Preprocessor changed!"); PrimaryClient->BeginSourceFile(LangOpts, PP); } void VerifyDiagnosticConsumer::EndSourceFile() { assert(ActiveSourceFiles && "No active source files!"); PrimaryClient->EndSourceFile(); // Detach comment handler once last active source file completed. if (--ActiveSourceFiles == 0) { if (CurrentPreprocessor) const_cast(CurrentPreprocessor)-> removeCommentHandler(this); // Diagnose any used-but-not-defined markers. Markers->finalize(); // Check diagnostics once last file completed. CheckDiagnostics(); CurrentPreprocessor = nullptr; LangOpts = nullptr; } } void VerifyDiagnosticConsumer::HandleDiagnostic( DiagnosticsEngine::Level DiagLevel, const Diagnostic &Info) { if (Info.hasSourceManager()) { // If this diagnostic is for a different source manager, ignore it. if (SrcManager && &Info.getSourceManager() != SrcManager) return; setSourceManager(Info.getSourceManager()); } #ifndef NDEBUG // Debug build tracks unparsed files for possible // unparsed expected-* directives. if (SrcManager) { SourceLocation Loc = Info.getLocation(); if (Loc.isValid()) { ParsedStatus PS = IsUnparsed; Loc = SrcManager->getExpansionLoc(Loc); FileID FID = SrcManager->getFileID(Loc); auto FE = SrcManager->getFileEntryRefForID(FID); if (FE && CurrentPreprocessor && SrcManager->isLoadedFileID(FID)) { // If the file is a modules header file it shall not be parsed // for expected-* directives. HeaderSearch &HS = CurrentPreprocessor->getHeaderSearchInfo(); if (HS.findModuleForHeader(*FE)) PS = IsUnparsedNoDirectives; } UpdateParsedFileStatus(*SrcManager, FID, PS); } } #endif // Send the diagnostic to the buffer, we will check it once we reach the end // of the source file (or are destructed). Buffer->HandleDiagnostic(DiagLevel, Info); } /// HandleComment - Hook into the preprocessor and extract comments containing /// expected errors and warnings. bool VerifyDiagnosticConsumer::HandleComment(Preprocessor &PP, SourceRange Comment) { SourceManager &SM = PP.getSourceManager(); // If this comment is for a different source manager, ignore it. if (SrcManager && &SM != SrcManager) return false; SourceLocation CommentBegin = Comment.getBegin(); const char *CommentRaw = SM.getCharacterData(CommentBegin); StringRef C(CommentRaw, SM.getCharacterData(Comment.getEnd()) - CommentRaw); if (C.empty()) return false; // Fold any "\" sequences size_t loc = C.find('\\'); if (loc == StringRef::npos) { ParseDirective(C, &ED, SM, &PP, CommentBegin, Status, *Markers); return false; } std::string C2; C2.reserve(C.size()); for (size_t last = 0;; loc = C.find('\\', last)) { if (loc == StringRef::npos || loc == C.size()) { C2 += C.substr(last); break; } C2 += C.substr(last, loc-last); last = loc + 1; if (C[last] == '\n' || C[last] == '\r') { ++last; // Escape \r\n or \n\r, but not \n\n. if (last < C.size()) if (C[last] == '\n' || C[last] == '\r') if (C[last] != C[last-1]) ++last; } else { // This was just a normal backslash. C2 += '\\'; } } if (!C2.empty()) ParseDirective(C2, &ED, SM, &PP, CommentBegin, Status, *Markers); return false; } #ifndef NDEBUG /// Lex the specified source file to determine whether it contains /// any expected-* directives. As a Lexer is used rather than a full-blown /// Preprocessor, directives inside skipped #if blocks will still be found. /// /// \return true if any directives were found. static bool findDirectives(SourceManager &SM, FileID FID, const LangOptions &LangOpts) { // Create a raw lexer to pull all the comments out of FID. if (FID.isInvalid()) return false; // Create a lexer to lex all the tokens of the main file in raw mode. llvm::MemoryBufferRef FromFile = SM.getBufferOrFake(FID); Lexer RawLex(FID, FromFile, SM, LangOpts); // Return comments as tokens, this is how we find expected diagnostics. RawLex.SetCommentRetentionState(true); Token Tok; Tok.setKind(tok::comment); VerifyDiagnosticConsumer::DirectiveStatus Status = VerifyDiagnosticConsumer::HasNoDirectives; while (Tok.isNot(tok::eof)) { RawLex.LexFromRawLexer(Tok); if (!Tok.is(tok::comment)) continue; std::string Comment = RawLex.getSpelling(Tok, SM, LangOpts); if (Comment.empty()) continue; // We don't care about tracking markers for this phase. VerifyDiagnosticConsumer::MarkerTracker Markers(SM.getDiagnostics()); // Find first directive. if (ParseDirective(Comment, nullptr, SM, nullptr, Tok.getLocation(), Status, Markers)) return true; } return false; } #endif // !NDEBUG /// Takes a list of diagnostics that have been generated but not matched /// by an expected-* directive and produces a diagnostic to the user from this. static unsigned PrintUnexpected(DiagnosticsEngine &Diags, SourceManager *SourceMgr, const_diag_iterator diag_begin, const_diag_iterator diag_end, const char *Kind) { if (diag_begin == diag_end) return 0; SmallString<256> Fmt; llvm::raw_svector_ostream OS(Fmt); for (const_diag_iterator I = diag_begin, E = diag_end; I != E; ++I) { if (I->first.isInvalid() || !SourceMgr) OS << "\n (frontend)"; else { OS << "\n "; if (OptionalFileEntryRef File = SourceMgr->getFileEntryRefForID(SourceMgr->getFileID(I->first))) OS << " File " << File->getName(); OS << " Line " << SourceMgr->getPresumedLineNumber(I->first); } OS << ": " << I->second; } std::string Prefix = *Diags.getDiagnosticOptions().VerifyPrefixes.begin(); std::string KindStr = Prefix + "-" + Kind; Diags.Report(diag::err_verify_inconsistent_diags).setForceEmit() << KindStr << /*Unexpected=*/true << OS.str(); return std::distance(diag_begin, diag_end); } /// Takes a list of diagnostics that were expected to have been generated /// but were not and produces a diagnostic to the user from this. static unsigned PrintExpected(DiagnosticsEngine &Diags, SourceManager &SourceMgr, std::vector &DL, const char *Kind) { if (DL.empty()) return 0; SmallString<256> Fmt; llvm::raw_svector_ostream OS(Fmt); for (const auto *D : DL) { if (D->DiagnosticLoc.isInvalid() || D->MatchAnyFileAndLine) OS << "\n File *"; else OS << "\n File " << SourceMgr.getFilename(D->DiagnosticLoc); if (D->MatchAnyLine) OS << " Line *"; else OS << " Line " << SourceMgr.getPresumedLineNumber(D->DiagnosticLoc); if (D->DirectiveLoc != D->DiagnosticLoc) OS << " (directive at " << SourceMgr.getFilename(D->DirectiveLoc) << ':' << SourceMgr.getPresumedLineNumber(D->DirectiveLoc) << ')'; OS << ": " << D->Text; } std::string Prefix = *Diags.getDiagnosticOptions().VerifyPrefixes.begin(); std::string KindStr = Prefix + "-" + Kind; Diags.Report(diag::err_verify_inconsistent_diags).setForceEmit() << KindStr << /*Unexpected=*/false << OS.str(); return DL.size(); } /// Determine whether two source locations come from the same file. static bool IsFromSameFile(SourceManager &SM, SourceLocation DirectiveLoc, SourceLocation DiagnosticLoc) { while (DiagnosticLoc.isMacroID()) DiagnosticLoc = SM.getImmediateMacroCallerLoc(DiagnosticLoc); if (SM.isWrittenInSameFile(DirectiveLoc, DiagnosticLoc)) return true; const FileEntry *DiagFile = SM.getFileEntryForID(SM.getFileID(DiagnosticLoc)); if (!DiagFile && SM.isWrittenInMainFile(DirectiveLoc)) return true; return (DiagFile == SM.getFileEntryForID(SM.getFileID(DirectiveLoc))); } /// CheckLists - Compare expected to seen diagnostic lists and return the /// the difference between them. static unsigned CheckLists(DiagnosticsEngine &Diags, SourceManager &SourceMgr, const char *Label, DirectiveList &Left, const_diag_iterator d2_begin, const_diag_iterator d2_end, bool IgnoreUnexpected) { std::vector LeftOnly; DiagList Right(d2_begin, d2_end); for (auto &Owner : Left) { Directive &D = *Owner; unsigned LineNo1 = SourceMgr.getPresumedLineNumber(D.DiagnosticLoc); for (unsigned i = 0; i < D.Max; ++i) { DiagList::iterator II, IE; for (II = Right.begin(), IE = Right.end(); II != IE; ++II) { if (!D.MatchAnyLine) { unsigned LineNo2 = SourceMgr.getPresumedLineNumber(II->first); if (LineNo1 != LineNo2) continue; } if (!D.DiagnosticLoc.isInvalid() && !D.MatchAnyFileAndLine && !IsFromSameFile(SourceMgr, D.DiagnosticLoc, II->first)) continue; const std::string &RightText = II->second; if (D.match(RightText)) break; } if (II == IE) { // Not found. if (i >= D.Min) break; LeftOnly.push_back(&D); } else { // Found. The same cannot be found twice. Right.erase(II); } } } // Now all that's left in Right are those that were not matched. unsigned num = PrintExpected(Diags, SourceMgr, LeftOnly, Label); if (!IgnoreUnexpected) num += PrintUnexpected(Diags, &SourceMgr, Right.begin(), Right.end(), Label); return num; } /// CheckResults - This compares the expected results to those that /// were actually reported. It emits any discrepencies. Return "true" if there /// were problems. Return "false" otherwise. static unsigned CheckResults(DiagnosticsEngine &Diags, SourceManager &SourceMgr, const TextDiagnosticBuffer &Buffer, ExpectedData &ED) { // We want to capture the delta between what was expected and what was // seen. // // Expected \ Seen - set expected but not seen // Seen \ Expected - set seen but not expected unsigned NumProblems = 0; const DiagnosticLevelMask DiagMask = Diags.getDiagnosticOptions().getVerifyIgnoreUnexpected(); // See if there are error mismatches. NumProblems += CheckLists(Diags, SourceMgr, "error", ED.Errors, Buffer.err_begin(), Buffer.err_end(), bool(DiagnosticLevelMask::Error & DiagMask)); // See if there are warning mismatches. NumProblems += CheckLists(Diags, SourceMgr, "warning", ED.Warnings, Buffer.warn_begin(), Buffer.warn_end(), bool(DiagnosticLevelMask::Warning & DiagMask)); // See if there are remark mismatches. NumProblems += CheckLists(Diags, SourceMgr, "remark", ED.Remarks, Buffer.remark_begin(), Buffer.remark_end(), bool(DiagnosticLevelMask::Remark & DiagMask)); // See if there are note mismatches. NumProblems += CheckLists(Diags, SourceMgr, "note", ED.Notes, Buffer.note_begin(), Buffer.note_end(), bool(DiagnosticLevelMask::Note & DiagMask)); return NumProblems; } void VerifyDiagnosticConsumer::UpdateParsedFileStatus(SourceManager &SM, FileID FID, ParsedStatus PS) { // Check SourceManager hasn't changed. setSourceManager(SM); #ifndef NDEBUG if (FID.isInvalid()) return; OptionalFileEntryRef FE = SM.getFileEntryRefForID(FID); if (PS == IsParsed) { // Move the FileID from the unparsed set to the parsed set. UnparsedFiles.erase(FID); ParsedFiles.insert(std::make_pair(FID, FE ? &FE->getFileEntry() : nullptr)); } else if (!ParsedFiles.count(FID) && !UnparsedFiles.count(FID)) { // Add the FileID to the unparsed set if we haven't seen it before. // Check for directives. bool FoundDirectives; if (PS == IsUnparsedNoDirectives) FoundDirectives = false; else FoundDirectives = !LangOpts || findDirectives(SM, FID, *LangOpts); // Add the FileID to the unparsed set. UnparsedFiles.insert(std::make_pair(FID, UnparsedFileStatus(FE, FoundDirectives))); } #endif } void VerifyDiagnosticConsumer::CheckDiagnostics() { // Ensure any diagnostics go to the primary client. DiagnosticConsumer *CurClient = Diags.getClient(); std::unique_ptr Owner = Diags.takeClient(); Diags.setClient(PrimaryClient, false); #ifndef NDEBUG // In a debug build, scan through any files that may have been missed // during parsing and issue a fatal error if directives are contained // within these files. If a fatal error occurs, this suggests that // this file is being parsed separately from the main file, in which // case consider moving the directives to the correct place, if this // is applicable. if (!UnparsedFiles.empty()) { // Generate a cache of parsed FileEntry pointers for alias lookups. llvm::SmallPtrSet ParsedFileCache; for (const auto &I : ParsedFiles) if (const FileEntry *FE = I.second) ParsedFileCache.insert(FE); // Iterate through list of unparsed files. for (const auto &I : UnparsedFiles) { const UnparsedFileStatus &Status = I.second; OptionalFileEntryRef FE = Status.getFile(); // Skip files that have been parsed via an alias. if (FE && ParsedFileCache.count(*FE)) continue; // Report a fatal error if this file contained directives. if (Status.foundDirectives()) { llvm::report_fatal_error("-verify directives found after rather" " than during normal parsing of " + (FE ? FE->getName() : "(unknown)")); } } // UnparsedFiles has been processed now, so clear it. UnparsedFiles.clear(); } #endif // !NDEBUG if (SrcManager) { // Produce an error if no expected-* directives could be found in the // source file(s) processed. if (Status == HasNoDirectives) { Diags.Report(diag::err_verify_no_directives).setForceEmit(); ++NumErrors; Status = HasNoDirectivesReported; } // Check that the expected diagnostics occurred. NumErrors += CheckResults(Diags, *SrcManager, *Buffer, ED); } else { const DiagnosticLevelMask DiagMask = ~Diags.getDiagnosticOptions().getVerifyIgnoreUnexpected(); if (bool(DiagnosticLevelMask::Error & DiagMask)) NumErrors += PrintUnexpected(Diags, nullptr, Buffer->err_begin(), Buffer->err_end(), "error"); if (bool(DiagnosticLevelMask::Warning & DiagMask)) NumErrors += PrintUnexpected(Diags, nullptr, Buffer->warn_begin(), Buffer->warn_end(), "warn"); if (bool(DiagnosticLevelMask::Remark & DiagMask)) NumErrors += PrintUnexpected(Diags, nullptr, Buffer->remark_begin(), Buffer->remark_end(), "remark"); if (bool(DiagnosticLevelMask::Note & DiagMask)) NumErrors += PrintUnexpected(Diags, nullptr, Buffer->note_begin(), Buffer->note_end(), "note"); } Diags.setClient(CurClient, Owner.release() != nullptr); // Reset the buffer, we have processed all the diagnostics in it. Buffer.reset(new TextDiagnosticBuffer()); ED.Reset(); } std::unique_ptr Directive::create(bool RegexKind, SourceLocation DirectiveLoc, SourceLocation DiagnosticLoc, bool MatchAnyFileAndLine, bool MatchAnyLine, StringRef Text, unsigned Min, unsigned Max) { if (!RegexKind) return std::make_unique(DirectiveLoc, DiagnosticLoc, MatchAnyFileAndLine, MatchAnyLine, Text, Min, Max); // Parse the directive into a regular expression. std::string RegexStr; StringRef S = Text; while (!S.empty()) { if (S.consume_front("{{")) { size_t RegexMatchLength = S.find("}}"); assert(RegexMatchLength != StringRef::npos); // Append the regex, enclosed in parentheses. RegexStr += "("; RegexStr.append(S.data(), RegexMatchLength); RegexStr += ")"; S = S.drop_front(RegexMatchLength + 2); } else { size_t VerbatimMatchLength = S.find("{{"); if (VerbatimMatchLength == StringRef::npos) VerbatimMatchLength = S.size(); // Escape and append the fixed string. RegexStr += llvm::Regex::escape(S.substr(0, VerbatimMatchLength)); S = S.drop_front(VerbatimMatchLength); } } return std::make_unique(DirectiveLoc, DiagnosticLoc, MatchAnyFileAndLine, MatchAnyLine, Text, Min, Max, RegexStr); }