//===- CodeCoverage.cpp - Coverage tool based on profiling instrumentation-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // The 'CodeCoverageTool' class implements a command line tool to analyze and // report coverage information using the profiling instrumentation and code // coverage mapping. // //===----------------------------------------------------------------------===// #include "CoverageFilters.h" #include "CoverageReport.h" #include "CoverageViewOptions.h" #include "RenderingSupport.h" #include "SourceCoverageView.h" #include "llvm/ADT/SmallString.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/Triple.h" #include "llvm/ProfileData/Coverage/CoverageMapping.h" #include "llvm/ProfileData/InstrProfReader.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Format.h" #include "llvm/Support/Path.h" #include "llvm/Support/Process.h" #include "llvm/Support/ThreadPool.h" #include #include using namespace llvm; using namespace coverage; namespace { /// \brief The implementation of the coverage tool. class CodeCoverageTool { public: enum Command { /// \brief The show command. Show, /// \brief The report command. Report }; /// \brief Print the error message to the error output stream. void error(const Twine &Message, StringRef Whence = ""); /// \brief Record (but do not print) an error message in a thread-safe way. void deferError(const Twine &Message, StringRef Whence = ""); /// \brief Record (but do not print) a warning message in a thread-safe way. void deferWarning(const Twine &Message, StringRef Whence = ""); /// \brief Print (and then clear) all deferred error and warning messages. void consumeDeferredMessages(); /// \brief Append a reference to a private copy of \p Path into SourceFiles. void addCollectedPath(const std::string &Path); /// \brief Return a memory buffer for the given source file. ErrorOr getSourceFile(StringRef SourceFile); /// \brief Create source views for the expansions of the view. void attachExpansionSubViews(SourceCoverageView &View, ArrayRef Expansions, CoverageMapping &Coverage); /// \brief Create the source view of a particular function. std::unique_ptr createFunctionView(const FunctionRecord &Function, CoverageMapping &Coverage); /// \brief Create the main source view of a particular source file. std::unique_ptr createSourceFileView(StringRef SourceFile, CoverageMapping &Coverage); /// \brief Load the coverage mapping data. Return true if an error occured. std::unique_ptr load(); int run(Command Cmd, int argc, const char **argv); typedef llvm::function_ref CommandLineParserType; int show(int argc, const char **argv, CommandLineParserType commandLineParser); int report(int argc, const char **argv, CommandLineParserType commandLineParser); std::string ObjectFilename; CoverageViewOptions ViewOpts; std::string PGOFilename; CoverageFiltersMatchAll Filters; std::vector SourceFiles; bool CompareFilenamesOnly; StringMap RemappedFilenames; std::string CoverageArch; private: std::vector CollectedPaths; std::mutex DeferredMessagesLock; std::vector DeferredMessages; std::mutex LoadedSourceFilesLock; std::vector>> LoadedSourceFiles; }; } static std::string getErrorString(const Twine &Message, StringRef Whence, bool Warning) { std::string Str = (Warning ? "warning" : "error"); Str += ": "; if (!Whence.empty()) Str += Whence; Str += Message.str() + "\n"; return Str; } void CodeCoverageTool::error(const Twine &Message, StringRef Whence) { errs() << getErrorString(Message, Whence, false); } void CodeCoverageTool::deferError(const Twine &Message, StringRef Whence) { std::unique_lock Guard{DeferredMessagesLock}; DeferredMessages.emplace_back(getErrorString(Message, Whence, false)); } void CodeCoverageTool::deferWarning(const Twine &Message, StringRef Whence) { std::unique_lock Guard{DeferredMessagesLock}; DeferredMessages.emplace_back(getErrorString(Message, Whence, true)); } void CodeCoverageTool::consumeDeferredMessages() { std::unique_lock Guard{DeferredMessagesLock}; for (const std::string &Message : DeferredMessages) ViewOpts.colored_ostream(errs(), raw_ostream::RED) << Message; DeferredMessages.clear(); } void CodeCoverageTool::addCollectedPath(const std::string &Path) { CollectedPaths.push_back(Path); SourceFiles.emplace_back(CollectedPaths.back()); } ErrorOr CodeCoverageTool::getSourceFile(StringRef SourceFile) { // If we've remapped filenames, look up the real location for this file. if (!RemappedFilenames.empty()) { auto Loc = RemappedFilenames.find(SourceFile); if (Loc != RemappedFilenames.end()) SourceFile = Loc->second; } for (const auto &Files : LoadedSourceFiles) if (sys::fs::equivalent(SourceFile, Files.first)) return *Files.second; auto Buffer = MemoryBuffer::getFile(SourceFile); if (auto EC = Buffer.getError()) { deferError(EC.message(), SourceFile); return EC; } std::unique_lock Guard{LoadedSourceFilesLock}; LoadedSourceFiles.emplace_back(SourceFile, std::move(Buffer.get())); return *LoadedSourceFiles.back().second; } void CodeCoverageTool::attachExpansionSubViews(SourceCoverageView &View, ArrayRef Expansions, CoverageMapping &Coverage) { if (!ViewOpts.ShowExpandedRegions) return; for (const auto &Expansion : Expansions) { auto ExpansionCoverage = Coverage.getCoverageForExpansion(Expansion); if (ExpansionCoverage.empty()) continue; auto SourceBuffer = getSourceFile(ExpansionCoverage.getFilename()); if (!SourceBuffer) continue; auto SubViewExpansions = ExpansionCoverage.getExpansions(); auto SubView = SourceCoverageView::create(Expansion.Function.Name, SourceBuffer.get(), ViewOpts, std::move(ExpansionCoverage)); attachExpansionSubViews(*SubView, SubViewExpansions, Coverage); View.addExpansion(Expansion.Region, std::move(SubView)); } } std::unique_ptr CodeCoverageTool::createFunctionView(const FunctionRecord &Function, CoverageMapping &Coverage) { auto FunctionCoverage = Coverage.getCoverageForFunction(Function); if (FunctionCoverage.empty()) return nullptr; auto SourceBuffer = getSourceFile(FunctionCoverage.getFilename()); if (!SourceBuffer) return nullptr; auto Expansions = FunctionCoverage.getExpansions(); auto View = SourceCoverageView::create(Function.Name, SourceBuffer.get(), ViewOpts, std::move(FunctionCoverage)); attachExpansionSubViews(*View, Expansions, Coverage); return View; } std::unique_ptr CodeCoverageTool::createSourceFileView(StringRef SourceFile, CoverageMapping &Coverage) { auto SourceBuffer = getSourceFile(SourceFile); if (!SourceBuffer) return nullptr; auto FileCoverage = Coverage.getCoverageForFile(SourceFile); if (FileCoverage.empty()) return nullptr; auto Expansions = FileCoverage.getExpansions(); auto View = SourceCoverageView::create(SourceFile, SourceBuffer.get(), ViewOpts, std::move(FileCoverage)); attachExpansionSubViews(*View, Expansions, Coverage); for (auto Function : Coverage.getInstantiations(SourceFile)) { auto SubViewCoverage = Coverage.getCoverageForFunction(*Function); auto SubViewExpansions = SubViewCoverage.getExpansions(); auto SubView = SourceCoverageView::create(Function->Name, SourceBuffer.get(), ViewOpts, std::move(SubViewCoverage)); attachExpansionSubViews(*SubView, SubViewExpansions, Coverage); if (SubView) { unsigned FileID = Function->CountedRegions.front().FileID; unsigned Line = 0; for (const auto &CR : Function->CountedRegions) if (CR.FileID == FileID) Line = std::max(CR.LineEnd, Line); View->addInstantiation(Function->Name, Line, std::move(SubView)); } } return View; } static bool modifiedTimeGT(StringRef LHS, StringRef RHS) { sys::fs::file_status Status; if (sys::fs::status(LHS, Status)) return false; auto LHSTime = Status.getLastModificationTime(); if (sys::fs::status(RHS, Status)) return false; auto RHSTime = Status.getLastModificationTime(); return LHSTime > RHSTime; } std::unique_ptr CodeCoverageTool::load() { if (modifiedTimeGT(ObjectFilename, PGOFilename)) errs() << "warning: profile data may be out of date - object is newer\n"; auto CoverageOrErr = CoverageMapping::load(ObjectFilename, PGOFilename, CoverageArch); if (Error E = CoverageOrErr.takeError()) { colored_ostream(errs(), raw_ostream::RED) << "error: Failed to load coverage: " << toString(std::move(E)) << "\n"; return nullptr; } auto Coverage = std::move(CoverageOrErr.get()); unsigned Mismatched = Coverage->getMismatchedCount(); if (Mismatched) { colored_ostream(errs(), raw_ostream::RED) << "warning: " << Mismatched << " functions have mismatched data. "; errs() << "\n"; } if (CompareFilenamesOnly) { auto CoveredFiles = Coverage.get()->getUniqueSourceFiles(); for (auto &SF : SourceFiles) { StringRef SFBase = sys::path::filename(SF); for (const auto &CF : CoveredFiles) if (SFBase == sys::path::filename(CF)) { RemappedFilenames[CF] = SF; SF = CF; break; } } } return Coverage; } int CodeCoverageTool::run(Command Cmd, int argc, const char **argv) { cl::opt ObjectFilename( cl::Positional, cl::Required, cl::location(this->ObjectFilename), cl::desc("Covered executable or object file.")); cl::list InputSourceFiles( cl::Positional, cl::desc(""), cl::ZeroOrMore); cl::opt PGOFilename( "instr-profile", cl::Required, cl::location(this->PGOFilename), cl::desc( "File with the profile data obtained after an instrumented run")); cl::opt Arch( "arch", cl::desc("architecture of the coverage mapping binary")); cl::opt DebugDump("dump", cl::Optional, cl::desc("Show internal debug dump")); cl::opt Format( "format", cl::desc("Output format for line-based coverage reports"), cl::values(clEnumValN(CoverageViewOptions::OutputFormat::Text, "text", "Text output"), clEnumValN(CoverageViewOptions::OutputFormat::HTML, "html", "HTML output"), clEnumValEnd), cl::init(CoverageViewOptions::OutputFormat::Text)); cl::opt FilenameEquivalence( "filename-equivalence", cl::Optional, cl::desc("Treat source files as equivalent to paths in the coverage data " "when the file names match, even if the full paths do not")); cl::OptionCategory FilteringCategory("Function filtering options"); cl::list NameFilters( "name", cl::Optional, cl::desc("Show code coverage only for functions with the given name"), cl::ZeroOrMore, cl::cat(FilteringCategory)); cl::list NameRegexFilters( "name-regex", cl::Optional, cl::desc("Show code coverage only for functions that match the given " "regular expression"), cl::ZeroOrMore, cl::cat(FilteringCategory)); cl::opt RegionCoverageLtFilter( "region-coverage-lt", cl::Optional, cl::desc("Show code coverage only for functions with region coverage " "less than the given threshold"), cl::cat(FilteringCategory)); cl::opt RegionCoverageGtFilter( "region-coverage-gt", cl::Optional, cl::desc("Show code coverage only for functions with region coverage " "greater than the given threshold"), cl::cat(FilteringCategory)); cl::opt LineCoverageLtFilter( "line-coverage-lt", cl::Optional, cl::desc("Show code coverage only for functions with line coverage less " "than the given threshold"), cl::cat(FilteringCategory)); cl::opt LineCoverageGtFilter( "line-coverage-gt", cl::Optional, cl::desc("Show code coverage only for functions with line coverage " "greater than the given threshold"), cl::cat(FilteringCategory)); cl::opt UseColor( "use-color", cl::desc("Emit colored output (default=autodetect)"), cl::init(cl::BOU_UNSET)); auto commandLineParser = [&, this](int argc, const char **argv) -> int { cl::ParseCommandLineOptions(argc, argv, "LLVM code coverage tool\n"); ViewOpts.Debug = DebugDump; CompareFilenamesOnly = FilenameEquivalence; ViewOpts.Format = Format; switch (ViewOpts.Format) { case CoverageViewOptions::OutputFormat::Text: ViewOpts.Colors = UseColor == cl::BOU_UNSET ? sys::Process::StandardOutHasColors() : UseColor == cl::BOU_TRUE; break; case CoverageViewOptions::OutputFormat::HTML: if (UseColor == cl::BOU_FALSE) error("Color output cannot be disabled when generating html."); ViewOpts.Colors = true; break; } // Create the function filters if (!NameFilters.empty() || !NameRegexFilters.empty()) { auto NameFilterer = new CoverageFilters; for (const auto &Name : NameFilters) NameFilterer->push_back(llvm::make_unique(Name)); for (const auto &Regex : NameRegexFilters) NameFilterer->push_back( llvm::make_unique(Regex)); Filters.push_back(std::unique_ptr(NameFilterer)); } if (RegionCoverageLtFilter.getNumOccurrences() || RegionCoverageGtFilter.getNumOccurrences() || LineCoverageLtFilter.getNumOccurrences() || LineCoverageGtFilter.getNumOccurrences()) { auto StatFilterer = new CoverageFilters; if (RegionCoverageLtFilter.getNumOccurrences()) StatFilterer->push_back(llvm::make_unique( RegionCoverageFilter::LessThan, RegionCoverageLtFilter)); if (RegionCoverageGtFilter.getNumOccurrences()) StatFilterer->push_back(llvm::make_unique( RegionCoverageFilter::GreaterThan, RegionCoverageGtFilter)); if (LineCoverageLtFilter.getNumOccurrences()) StatFilterer->push_back(llvm::make_unique( LineCoverageFilter::LessThan, LineCoverageLtFilter)); if (LineCoverageGtFilter.getNumOccurrences()) StatFilterer->push_back(llvm::make_unique( RegionCoverageFilter::GreaterThan, LineCoverageGtFilter)); Filters.push_back(std::unique_ptr(StatFilterer)); } if (!Arch.empty() && Triple(Arch).getArch() == llvm::Triple::ArchType::UnknownArch) { errs() << "error: Unknown architecture: " << Arch << "\n"; return 1; } CoverageArch = Arch; for (const auto &File : InputSourceFiles) { SmallString<128> Path(File); if (!CompareFilenamesOnly) if (std::error_code EC = sys::fs::make_absolute(Path)) { errs() << "error: " << File << ": " << EC.message(); return 1; } addCollectedPath(Path.str()); } return 0; }; switch (Cmd) { case Show: return show(argc, argv, commandLineParser); case Report: return report(argc, argv, commandLineParser); } return 0; } int CodeCoverageTool::show(int argc, const char **argv, CommandLineParserType commandLineParser) { cl::OptionCategory ViewCategory("Viewing options"); cl::opt ShowLineExecutionCounts( "show-line-counts", cl::Optional, cl::desc("Show the execution counts for each line"), cl::init(true), cl::cat(ViewCategory)); cl::opt ShowRegions( "show-regions", cl::Optional, cl::desc("Show the execution counts for each region"), cl::cat(ViewCategory)); cl::opt ShowBestLineRegionsCounts( "show-line-counts-or-regions", cl::Optional, cl::desc("Show the execution counts for each line, or the execution " "counts for each region on lines that have multiple regions"), cl::cat(ViewCategory)); cl::opt ShowExpansions("show-expansions", cl::Optional, cl::desc("Show expanded source regions"), cl::cat(ViewCategory)); cl::opt ShowInstantiations("show-instantiations", cl::Optional, cl::desc("Show function instantiations"), cl::cat(ViewCategory)); cl::opt ShowOutputDirectory( "output-dir", cl::init(""), cl::desc("Directory in which coverage information is written out")); cl::alias ShowOutputDirectoryA("o", cl::desc("Alias for --output-dir"), cl::aliasopt(ShowOutputDirectory)); auto Err = commandLineParser(argc, argv); if (Err) return Err; ViewOpts.ShowLineNumbers = true; ViewOpts.ShowLineStats = ShowLineExecutionCounts.getNumOccurrences() != 0 || !ShowRegions || ShowBestLineRegionsCounts; ViewOpts.ShowRegionMarkers = ShowRegions || ShowBestLineRegionsCounts; ViewOpts.ShowLineStatsOrRegionMarkers = ShowBestLineRegionsCounts; ViewOpts.ShowExpandedRegions = ShowExpansions; ViewOpts.ShowFunctionInstantiations = ShowInstantiations; ViewOpts.ShowOutputDirectory = ShowOutputDirectory; if (ViewOpts.hasOutputDirectory()) { if (auto E = sys::fs::create_directories(ViewOpts.ShowOutputDirectory)) { error("Could not create output directory!", E.message()); return 1; } } auto Coverage = load(); if (!Coverage) return 1; auto Printer = CoveragePrinter::create(ViewOpts); if (!Filters.empty()) { auto OSOrErr = Printer->createViewFile("functions", /*InToplevel=*/true); if (Error E = OSOrErr.takeError()) { error(toString(std::move(E))); return 1; } auto OS = std::move(OSOrErr.get()); // Show functions. for (const auto &Function : Coverage->getCoveredFunctions()) { if (!Filters.matches(Function)) continue; auto mainView = createFunctionView(Function, *Coverage); if (!mainView) { ViewOpts.colored_ostream(errs(), raw_ostream::RED) << "warning: Could not read coverage for '" << Function.Name << "'." << "\n"; continue; } mainView->print(*OS.get(), /*WholeFile=*/false, /*ShowSourceName=*/true); } Printer->closeViewFile(std::move(OS)); return 0; } // Show files bool ShowFilenames = SourceFiles.size() != 1; if (SourceFiles.empty()) // Get the source files from the function coverage mapping. for (StringRef Filename : Coverage->getUniqueSourceFiles()) SourceFiles.push_back(Filename); // Create an index out of the source files. if (ViewOpts.hasOutputDirectory()) { if (Error E = Printer->createIndexFile(SourceFiles)) { error(toString(std::move(E))); return 1; } } // In -output-dir mode, it's safe to use multiple threads to print files. unsigned ThreadCount = 1; if (ViewOpts.hasOutputDirectory()) ThreadCount = std::thread::hardware_concurrency(); ThreadPool Pool(ThreadCount); for (StringRef &SourceFile : SourceFiles) { Pool.async([this, &SourceFile, &Coverage, &Printer, ShowFilenames] { auto View = createSourceFileView(SourceFile, *Coverage); if (!View) { deferWarning("The file '" + SourceFile.str() + "' isn't covered."); return; } auto OSOrErr = Printer->createViewFile(SourceFile, /*InToplevel=*/false); if (Error E = OSOrErr.takeError()) { deferError(toString(std::move(E))); return; } auto OS = std::move(OSOrErr.get()); View->print(*OS.get(), /*Wholefile=*/true, /*ShowSourceName=*/ShowFilenames); Printer->closeViewFile(std::move(OS)); }); } Pool.wait(); consumeDeferredMessages(); return 0; } int CodeCoverageTool::report(int argc, const char **argv, CommandLineParserType commandLineParser) { auto Err = commandLineParser(argc, argv); if (Err) return Err; if (ViewOpts.Format == CoverageViewOptions::OutputFormat::HTML) error("HTML output for summary reports is not yet supported."); auto Coverage = load(); if (!Coverage) return 1; CoverageReport Report(ViewOpts, std::move(Coverage)); if (SourceFiles.empty()) Report.renderFileReports(llvm::outs()); else Report.renderFunctionReports(SourceFiles, llvm::outs()); return 0; } int showMain(int argc, const char *argv[]) { CodeCoverageTool Tool; return Tool.run(CodeCoverageTool::Show, argc, argv); } int reportMain(int argc, const char *argv[]) { CodeCoverageTool Tool; return Tool.run(CodeCoverageTool::Report, argc, argv); }