1 //===--- BugReporter.h - Generate PathDiagnostics --------------*- C++ -*-===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 // 10 // This file defines BugReporter, a utility class for generating 11 // PathDiagnostics for analyses based on ProgramState. 12 // 13 //===----------------------------------------------------------------------===// 14 15 #ifndef LLVM_CLANG_STATICANALYZER_CORE_BUGREPORTER_BUGREPORTER_H 16 #define LLVM_CLANG_STATICANALYZER_CORE_BUGREPORTER_BUGREPORTER_H 17 18 #include "clang/Basic/SourceLocation.h" 19 #include "clang/StaticAnalyzer/Core/AnalyzerOptions.h" 20 #include "clang/StaticAnalyzer/Core/BugReporter/BugReporterVisitor.h" 21 #include "clang/StaticAnalyzer/Core/BugReporter/PathDiagnostic.h" 22 #include "clang/StaticAnalyzer/Core/CheckerManager.h" 23 #include "clang/StaticAnalyzer/Core/PathSensitive/ProgramState.h" 24 #include "llvm/ADT/DenseSet.h" 25 #include "llvm/ADT/FoldingSet.h" 26 #include "llvm/ADT/ImmutableSet.h" 27 #include "llvm/ADT/SmallSet.h" 28 #include "llvm/ADT/ilist.h" 29 #include "llvm/ADT/ilist_node.h" 30 31 namespace clang { 32 33 class ASTContext; 34 class DiagnosticsEngine; 35 class Stmt; 36 class ParentMap; 37 38 namespace ento { 39 40 class PathDiagnostic; 41 class ExplodedNode; 42 class ExplodedGraph; 43 class BugReport; 44 class BugReporter; 45 class BugReporterContext; 46 class ExprEngine; 47 class BugType; 48 49 //===----------------------------------------------------------------------===// 50 // Interface for individual bug reports. 51 //===----------------------------------------------------------------------===// 52 53 /// This class provides an interface through which checkers can create 54 /// individual bug reports. 55 class BugReport : public llvm::ilist_node<BugReport> { 56 public: 57 class NodeResolver { 58 virtual void anchor(); 59 public: 60 virtual ~NodeResolver() {} 61 virtual const ExplodedNode* 62 getOriginalNode(const ExplodedNode *N) = 0; 63 }; 64 65 typedef const SourceRange *ranges_iterator; 66 typedef SmallVector<std::unique_ptr<BugReporterVisitor>, 8> VisitorList; 67 typedef VisitorList::iterator visitor_iterator; 68 typedef SmallVector<StringRef, 2> ExtraTextList; 69 70 protected: 71 friend class BugReporter; 72 friend class BugReportEquivClass; 73 74 BugType& BT; 75 const Decl *DeclWithIssue; 76 std::string ShortDescription; 77 std::string Description; 78 PathDiagnosticLocation Location; 79 PathDiagnosticLocation UniqueingLocation; 80 const Decl *UniqueingDecl; 81 82 const ExplodedNode *ErrorNode; 83 SmallVector<SourceRange, 4> Ranges; 84 ExtraTextList ExtraText; 85 86 typedef llvm::DenseSet<SymbolRef> Symbols; 87 typedef llvm::DenseSet<const MemRegion *> Regions; 88 89 /// A (stack of) a set of symbols that are registered with this 90 /// report as being "interesting", and thus used to help decide which 91 /// diagnostics to include when constructing the final path diagnostic. 92 /// The stack is largely used by BugReporter when generating PathDiagnostics 93 /// for multiple PathDiagnosticConsumers. 94 SmallVector<Symbols *, 2> interestingSymbols; 95 96 /// A (stack of) set of regions that are registered with this report as being 97 /// "interesting", and thus used to help decide which diagnostics 98 /// to include when constructing the final path diagnostic. 99 /// The stack is largely used by BugReporter when generating PathDiagnostics 100 /// for multiple PathDiagnosticConsumers. 101 SmallVector<Regions *, 2> interestingRegions; 102 103 /// A set of location contexts that correspoind to call sites which should be 104 /// considered "interesting". 105 llvm::SmallSet<const LocationContext *, 2> InterestingLocationContexts; 106 107 /// A set of custom visitors which generate "event" diagnostics at 108 /// interesting points in the path. 109 VisitorList Callbacks; 110 111 /// Used for ensuring the visitors are only added once. 112 llvm::FoldingSet<BugReporterVisitor> CallbacksSet; 113 114 /// Used for clients to tell if the report's configuration has changed 115 /// since the last time they checked. 116 unsigned ConfigurationChangeToken; 117 118 /// When set, this flag disables all callstack pruning from a diagnostic 119 /// path. This is useful for some reports that want maximum fidelty 120 /// when reporting an issue. 121 bool DoNotPrunePath; 122 123 /// Used to track unique reasons why a bug report might be invalid. 124 /// 125 /// \sa markInvalid 126 /// \sa removeInvalidation 127 typedef std::pair<const void *, const void *> InvalidationRecord; 128 129 /// If non-empty, this bug report is likely a false positive and should not be 130 /// shown to the user. 131 /// 132 /// \sa markInvalid 133 /// \sa removeInvalidation 134 llvm::SmallSet<InvalidationRecord, 4> Invalidations; 135 136 private: 137 // Used internally by BugReporter. 138 Symbols &getInterestingSymbols(); 139 Regions &getInterestingRegions(); 140 141 void lazyInitializeInterestingSets(); 142 void pushInterestingSymbolsAndRegions(); 143 void popInterestingSymbolsAndRegions(); 144 145 public: 146 BugReport(BugType& bt, StringRef desc, const ExplodedNode *errornode) 147 : BT(bt), DeclWithIssue(nullptr), Description(desc), ErrorNode(errornode), 148 ConfigurationChangeToken(0), DoNotPrunePath(false) {} 149 150 BugReport(BugType& bt, StringRef shortDesc, StringRef desc, 151 const ExplodedNode *errornode) 152 : BT(bt), DeclWithIssue(nullptr), ShortDescription(shortDesc), 153 Description(desc), ErrorNode(errornode), ConfigurationChangeToken(0), 154 DoNotPrunePath(false) {} 155 156 BugReport(BugType &bt, StringRef desc, PathDiagnosticLocation l) 157 : BT(bt), DeclWithIssue(nullptr), Description(desc), Location(l), 158 ErrorNode(nullptr), ConfigurationChangeToken(0), DoNotPrunePath(false) {} 159 160 /// \brief Create a BugReport with a custom uniqueing location. 161 /// 162 /// The reports that have the same report location, description, bug type, and 163 /// ranges are uniqued - only one of the equivalent reports will be presented 164 /// to the user. This method allows to rest the location which should be used 165 /// for uniquing reports. For example, memory leaks checker, could set this to 166 /// the allocation site, rather then the location where the bug is reported. 167 BugReport(BugType& bt, StringRef desc, const ExplodedNode *errornode, 168 PathDiagnosticLocation LocationToUnique, const Decl *DeclToUnique) 169 : BT(bt), DeclWithIssue(nullptr), Description(desc), 170 UniqueingLocation(LocationToUnique), 171 UniqueingDecl(DeclToUnique), 172 ErrorNode(errornode), ConfigurationChangeToken(0), 173 DoNotPrunePath(false) {} 174 175 virtual ~BugReport(); 176 177 const BugType& getBugType() const { return BT; } 178 BugType& getBugType() { return BT; } 179 180 const ExplodedNode *getErrorNode() const { return ErrorNode; } 181 182 StringRef getDescription() const { return Description; } 183 184 StringRef getShortDescription(bool UseFallback = true) const { 185 if (ShortDescription.empty() && UseFallback) 186 return Description; 187 return ShortDescription; 188 } 189 190 /// Indicates whether or not any path pruning should take place 191 /// when generating a PathDiagnostic from this BugReport. 192 bool shouldPrunePath() const { return !DoNotPrunePath; } 193 194 /// Disable all path pruning when generating a PathDiagnostic. 195 void disablePathPruning() { DoNotPrunePath = true; } 196 197 void markInteresting(SymbolRef sym); 198 void markInteresting(const MemRegion *R); 199 void markInteresting(SVal V); 200 void markInteresting(const LocationContext *LC); 201 202 bool isInteresting(SymbolRef sym); 203 bool isInteresting(const MemRegion *R); 204 bool isInteresting(SVal V); 205 bool isInteresting(const LocationContext *LC); 206 207 unsigned getConfigurationChangeToken() const { 208 return ConfigurationChangeToken; 209 } 210 211 /// Returns whether or not this report should be considered valid. 212 /// 213 /// Invalid reports are those that have been classified as likely false 214 /// positives after the fact. 215 bool isValid() const { 216 return Invalidations.empty(); 217 } 218 219 /// Marks the current report as invalid, meaning that it is probably a false 220 /// positive and should not be reported to the user. 221 /// 222 /// The \p Tag and \p Data arguments are intended to be opaque identifiers for 223 /// this particular invalidation, where \p Tag represents the visitor 224 /// responsible for invalidation, and \p Data represents the reason this 225 /// visitor decided to invalidate the bug report. 226 /// 227 /// \sa removeInvalidation 228 void markInvalid(const void *Tag, const void *Data) { 229 Invalidations.insert(std::make_pair(Tag, Data)); 230 } 231 232 /// Reverses the effects of a previous invalidation. 233 /// 234 /// \sa markInvalid 235 void removeInvalidation(const void *Tag, const void *Data) { 236 Invalidations.erase(std::make_pair(Tag, Data)); 237 } 238 239 /// Return the canonical declaration, be it a method or class, where 240 /// this issue semantically occurred. 241 const Decl *getDeclWithIssue() const; 242 243 /// Specifically set the Decl where an issue occurred. This isn't necessary 244 /// for BugReports that cover a path as it will be automatically inferred. 245 void setDeclWithIssue(const Decl *declWithIssue) { 246 DeclWithIssue = declWithIssue; 247 } 248 249 /// \brief This allows for addition of meta data to the diagnostic. 250 /// 251 /// Currently, only the HTMLDiagnosticClient knows how to display it. 252 void addExtraText(StringRef S) { 253 ExtraText.push_back(S); 254 } 255 256 virtual const ExtraTextList &getExtraText() { 257 return ExtraText; 258 } 259 260 /// \brief Return the "definitive" location of the reported bug. 261 /// 262 /// While a bug can span an entire path, usually there is a specific 263 /// location that can be used to identify where the key issue occurred. 264 /// This location is used by clients rendering diagnostics. 265 virtual PathDiagnosticLocation getLocation(const SourceManager &SM) const; 266 267 /// \brief Get the location on which the report should be uniqued. 268 PathDiagnosticLocation getUniqueingLocation() const { 269 return UniqueingLocation; 270 } 271 272 /// \brief Get the declaration containing the uniqueing location. 273 const Decl *getUniqueingDecl() const { 274 return UniqueingDecl; 275 } 276 277 const Stmt *getStmt() const; 278 279 /// \brief Add a range to a bug report. 280 /// 281 /// Ranges are used to highlight regions of interest in the source code. 282 /// They should be at the same source code line as the BugReport location. 283 /// By default, the source range of the statement corresponding to the error 284 /// node will be used; add a single invalid range to specify absence of 285 /// ranges. 286 void addRange(SourceRange R) { 287 assert((R.isValid() || Ranges.empty()) && "Invalid range can only be used " 288 "to specify that the report does not have a range."); 289 Ranges.push_back(R); 290 } 291 292 /// \brief Get the SourceRanges associated with the report. 293 virtual llvm::iterator_range<ranges_iterator> getRanges(); 294 295 /// \brief Add custom or predefined bug report visitors to this report. 296 /// 297 /// The visitors should be used when the default trace is not sufficient. 298 /// For example, they allow constructing a more elaborate trace. 299 /// \sa registerConditionVisitor(), registerTrackNullOrUndefValue(), 300 /// registerFindLastStore(), registerNilReceiverVisitor(), and 301 /// registerVarDeclsLastStore(). 302 void addVisitor(std::unique_ptr<BugReporterVisitor> visitor); 303 304 /// Iterators through the custom diagnostic visitors. 305 visitor_iterator visitor_begin() { return Callbacks.begin(); } 306 visitor_iterator visitor_end() { return Callbacks.end(); } 307 308 /// Profile to identify equivalent bug reports for error report coalescing. 309 /// Reports are uniqued to ensure that we do not emit multiple diagnostics 310 /// for each bug. 311 virtual void Profile(llvm::FoldingSetNodeID& hash) const; 312 }; 313 314 } // end ento namespace 315 } // end clang namespace 316 317 namespace llvm { 318 template<> struct ilist_traits<clang::ento::BugReport> 319 : public ilist_default_traits<clang::ento::BugReport> { 320 clang::ento::BugReport *createSentinel() const { 321 return static_cast<clang::ento::BugReport *>(&Sentinel); 322 } 323 void destroySentinel(clang::ento::BugReport *) const {} 324 325 clang::ento::BugReport *provideInitialHead() const { 326 return createSentinel(); 327 } 328 clang::ento::BugReport *ensureHead(clang::ento::BugReport *) const { 329 return createSentinel(); 330 } 331 private: 332 mutable ilist_half_node<clang::ento::BugReport> Sentinel; 333 }; 334 } 335 336 namespace clang { 337 namespace ento { 338 339 //===----------------------------------------------------------------------===// 340 // BugTypes (collections of related reports). 341 //===----------------------------------------------------------------------===// 342 343 class BugReportEquivClass : public llvm::FoldingSetNode { 344 /// List of *owned* BugReport objects. 345 llvm::ilist<BugReport> Reports; 346 347 friend class BugReporter; 348 void AddReport(std::unique_ptr<BugReport> R) { 349 Reports.push_back(R.release()); 350 } 351 352 public: 353 BugReportEquivClass(std::unique_ptr<BugReport> R) { AddReport(std::move(R)); } 354 ~BugReportEquivClass(); 355 356 void Profile(llvm::FoldingSetNodeID& ID) const { 357 assert(!Reports.empty()); 358 Reports.front().Profile(ID); 359 } 360 361 typedef llvm::ilist<BugReport>::iterator iterator; 362 typedef llvm::ilist<BugReport>::const_iterator const_iterator; 363 364 iterator begin() { return Reports.begin(); } 365 iterator end() { return Reports.end(); } 366 367 const_iterator begin() const { return Reports.begin(); } 368 const_iterator end() const { return Reports.end(); } 369 }; 370 371 //===----------------------------------------------------------------------===// 372 // BugReporter and friends. 373 //===----------------------------------------------------------------------===// 374 375 class BugReporterData { 376 public: 377 virtual ~BugReporterData(); 378 virtual DiagnosticsEngine& getDiagnostic() = 0; 379 virtual ArrayRef<PathDiagnosticConsumer*> getPathDiagnosticConsumers() = 0; 380 virtual ASTContext &getASTContext() = 0; 381 virtual SourceManager& getSourceManager() = 0; 382 virtual AnalyzerOptions& getAnalyzerOptions() = 0; 383 }; 384 385 /// BugReporter is a utility class for generating PathDiagnostics for analysis. 386 /// It collects the BugReports and BugTypes and knows how to generate 387 /// and flush the corresponding diagnostics. 388 class BugReporter { 389 public: 390 enum Kind { BaseBRKind, GRBugReporterKind }; 391 392 private: 393 typedef llvm::ImmutableSet<BugType*> BugTypesTy; 394 BugTypesTy::Factory F; 395 BugTypesTy BugTypes; 396 397 const Kind kind; 398 BugReporterData& D; 399 400 /// Generate and flush the diagnostics for the given bug report. 401 void FlushReport(BugReportEquivClass& EQ); 402 403 /// Generate and flush the diagnostics for the given bug report 404 /// and PathDiagnosticConsumer. 405 void FlushReport(BugReport *exampleReport, 406 PathDiagnosticConsumer &PD, 407 ArrayRef<BugReport*> BugReports); 408 409 /// The set of bug reports tracked by the BugReporter. 410 llvm::FoldingSet<BugReportEquivClass> EQClasses; 411 /// A vector of BugReports for tracking the allocated pointers and cleanup. 412 std::vector<BugReportEquivClass *> EQClassesVector; 413 414 protected: 415 BugReporter(BugReporterData& d, Kind k) : BugTypes(F.getEmptySet()), kind(k), 416 D(d) {} 417 418 public: 419 BugReporter(BugReporterData& d) : BugTypes(F.getEmptySet()), kind(BaseBRKind), 420 D(d) {} 421 virtual ~BugReporter(); 422 423 /// \brief Generate and flush diagnostics for all bug reports. 424 void FlushReports(); 425 426 Kind getKind() const { return kind; } 427 428 DiagnosticsEngine& getDiagnostic() { 429 return D.getDiagnostic(); 430 } 431 432 ArrayRef<PathDiagnosticConsumer*> getPathDiagnosticConsumers() { 433 return D.getPathDiagnosticConsumers(); 434 } 435 436 /// \brief Iterator over the set of BugTypes tracked by the BugReporter. 437 typedef BugTypesTy::iterator iterator; 438 iterator begin() { return BugTypes.begin(); } 439 iterator end() { return BugTypes.end(); } 440 441 /// \brief Iterator over the set of BugReports tracked by the BugReporter. 442 typedef llvm::FoldingSet<BugReportEquivClass>::iterator EQClasses_iterator; 443 EQClasses_iterator EQClasses_begin() { return EQClasses.begin(); } 444 EQClasses_iterator EQClasses_end() { return EQClasses.end(); } 445 446 ASTContext &getContext() { return D.getASTContext(); } 447 448 SourceManager& getSourceManager() { return D.getSourceManager(); } 449 450 AnalyzerOptions& getAnalyzerOptions() { return D.getAnalyzerOptions(); } 451 452 virtual bool generatePathDiagnostic(PathDiagnostic& pathDiagnostic, 453 PathDiagnosticConsumer &PC, 454 ArrayRef<BugReport *> &bugReports) { 455 return true; 456 } 457 458 bool RemoveUnneededCalls(PathPieces &pieces, BugReport *R); 459 460 void Register(BugType *BT); 461 462 /// \brief Add the given report to the set of reports tracked by BugReporter. 463 /// 464 /// The reports are usually generated by the checkers. Further, they are 465 /// folded based on the profile value, which is done to coalesce similar 466 /// reports. 467 void emitReport(std::unique_ptr<BugReport> R); 468 469 void EmitBasicReport(const Decl *DeclWithIssue, const CheckerBase *Checker, 470 StringRef BugName, StringRef BugCategory, 471 StringRef BugStr, PathDiagnosticLocation Loc, 472 ArrayRef<SourceRange> Ranges = None); 473 474 void EmitBasicReport(const Decl *DeclWithIssue, CheckName CheckName, 475 StringRef BugName, StringRef BugCategory, 476 StringRef BugStr, PathDiagnosticLocation Loc, 477 ArrayRef<SourceRange> Ranges = None); 478 479 private: 480 llvm::StringMap<BugType *> StrBugTypes; 481 482 /// \brief Returns a BugType that is associated with the given name and 483 /// category. 484 BugType *getBugTypeForName(CheckName CheckName, StringRef name, 485 StringRef category); 486 }; 487 488 // FIXME: Get rid of GRBugReporter. It's the wrong abstraction. 489 class GRBugReporter : public BugReporter { 490 ExprEngine& Eng; 491 public: 492 GRBugReporter(BugReporterData& d, ExprEngine& eng) 493 : BugReporter(d, GRBugReporterKind), Eng(eng) {} 494 495 ~GRBugReporter() override; 496 497 /// getEngine - Return the analysis engine used to analyze a given 498 /// function or method. 499 ExprEngine &getEngine() { return Eng; } 500 501 /// getGraph - Get the exploded graph created by the analysis engine 502 /// for the analyzed method or function. 503 ExplodedGraph &getGraph(); 504 505 /// getStateManager - Return the state manager used by the analysis 506 /// engine. 507 ProgramStateManager &getStateManager(); 508 509 /// Generates a path corresponding to one of the given bug reports. 510 /// 511 /// Which report is used for path generation is not specified. The 512 /// bug reporter will try to pick the shortest path, but this is not 513 /// guaranteed. 514 /// 515 /// \return True if the report was valid and a path was generated, 516 /// false if the reports should be considered invalid. 517 bool generatePathDiagnostic(PathDiagnostic &PD, PathDiagnosticConsumer &PC, 518 ArrayRef<BugReport*> &bugReports) override; 519 520 /// classof - Used by isa<>, cast<>, and dyn_cast<>. 521 static bool classof(const BugReporter* R) { 522 return R->getKind() == GRBugReporterKind; 523 } 524 }; 525 526 class BugReporterContext { 527 virtual void anchor(); 528 GRBugReporter &BR; 529 public: 530 BugReporterContext(GRBugReporter& br) : BR(br) {} 531 532 virtual ~BugReporterContext() {} 533 534 GRBugReporter& getBugReporter() { return BR; } 535 536 ExplodedGraph &getGraph() { return BR.getGraph(); } 537 538 ProgramStateManager& getStateManager() { 539 return BR.getStateManager(); 540 } 541 542 SValBuilder& getSValBuilder() { 543 return getStateManager().getSValBuilder(); 544 } 545 546 ASTContext &getASTContext() { 547 return BR.getContext(); 548 } 549 550 SourceManager& getSourceManager() { 551 return BR.getSourceManager(); 552 } 553 554 virtual BugReport::NodeResolver& getNodeResolver() = 0; 555 }; 556 557 } // end GR namespace 558 559 } // end clang namespace 560 561 #endif 562