1 //=-- ExprEngine.cpp - Path-Sensitive Expression-Level Dataflow ---*- 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 a meta-engine for path-sensitive dataflow analysis that 11 // is built on GREngine, but provides the boilerplate to execute transfer 12 // functions and build the ExplodedGraph at the expression level. 13 // 14 //===----------------------------------------------------------------------===// 15 16 #include "clang/StaticAnalyzer/Core/PathSensitive/ExprEngine.h" 17 #include "PrettyStackTraceLocationContext.h" 18 #include "clang/AST/CharUnits.h" 19 #include "clang/AST/ParentMap.h" 20 #include "clang/AST/StmtCXX.h" 21 #include "clang/AST/StmtObjC.h" 22 #include "clang/Basic/Builtins.h" 23 #include "clang/Basic/PrettyStackTrace.h" 24 #include "clang/Basic/SourceManager.h" 25 #include "clang/StaticAnalyzer/Core/BugReporter/BugType.h" 26 #include "clang/StaticAnalyzer/Core/CheckerManager.h" 27 #include "clang/StaticAnalyzer/Core/PathSensitive/AnalysisManager.h" 28 #include "clang/StaticAnalyzer/Core/PathSensitive/CallEvent.h" 29 #include "clang/StaticAnalyzer/Core/PathSensitive/LoopWidening.h" 30 #include "llvm/ADT/Statistic.h" 31 #include "llvm/Support/SaveAndRestore.h" 32 #include "llvm/Support/raw_ostream.h" 33 34 #ifndef NDEBUG 35 #include "llvm/Support/GraphWriter.h" 36 #endif 37 38 using namespace clang; 39 using namespace ento; 40 using llvm::APSInt; 41 42 #define DEBUG_TYPE "ExprEngine" 43 44 STATISTIC(NumRemoveDeadBindings, 45 "The # of times RemoveDeadBindings is called"); 46 STATISTIC(NumMaxBlockCountReached, 47 "The # of aborted paths due to reaching the maximum block count in " 48 "a top level function"); 49 STATISTIC(NumMaxBlockCountReachedInInlined, 50 "The # of aborted paths due to reaching the maximum block count in " 51 "an inlined function"); 52 STATISTIC(NumTimesRetriedWithoutInlining, 53 "The # of times we re-evaluated a call without inlining"); 54 55 typedef std::pair<const CXXBindTemporaryExpr *, const StackFrameContext *> 56 CXXBindTemporaryContext; 57 58 // Keeps track of whether CXXBindTemporaryExpr nodes have been evaluated. 59 // The StackFrameContext assures that nested calls due to inlined recursive 60 // functions do not interfere. 61 REGISTER_TRAIT_WITH_PROGRAMSTATE(InitializedTemporariesSet, 62 llvm::ImmutableSet<CXXBindTemporaryContext>) 63 64 //===----------------------------------------------------------------------===// 65 // Engine construction and deletion. 66 //===----------------------------------------------------------------------===// 67 68 static const char* TagProviderName = "ExprEngine"; 69 70 ExprEngine::ExprEngine(AnalysisManager &mgr, bool gcEnabled, 71 SetOfConstDecls *VisitedCalleesIn, 72 FunctionSummariesTy *FS, 73 InliningModes HowToInlineIn) 74 : AMgr(mgr), 75 AnalysisDeclContexts(mgr.getAnalysisDeclContextManager()), 76 Engine(*this, FS), 77 G(Engine.getGraph()), 78 StateMgr(getContext(), mgr.getStoreManagerCreator(), 79 mgr.getConstraintManagerCreator(), G.getAllocator(), 80 this), 81 SymMgr(StateMgr.getSymbolManager()), 82 svalBuilder(StateMgr.getSValBuilder()), 83 currStmtIdx(0), currBldrCtx(nullptr), 84 ObjCNoRet(mgr.getASTContext()), 85 ObjCGCEnabled(gcEnabled), BR(mgr, *this), 86 VisitedCallees(VisitedCalleesIn), 87 HowToInline(HowToInlineIn) 88 { 89 unsigned TrimInterval = mgr.options.getGraphTrimInterval(); 90 if (TrimInterval != 0) { 91 // Enable eager node reclaimation when constructing the ExplodedGraph. 92 G.enableNodeReclamation(TrimInterval); 93 } 94 } 95 96 ExprEngine::~ExprEngine() { 97 BR.FlushReports(); 98 } 99 100 //===----------------------------------------------------------------------===// 101 // Utility methods. 102 //===----------------------------------------------------------------------===// 103 104 ProgramStateRef ExprEngine::getInitialState(const LocationContext *InitLoc) { 105 ProgramStateRef state = StateMgr.getInitialState(InitLoc); 106 const Decl *D = InitLoc->getDecl(); 107 108 // Preconditions. 109 // FIXME: It would be nice if we had a more general mechanism to add 110 // such preconditions. Some day. 111 do { 112 113 if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(D)) { 114 // Precondition: the first argument of 'main' is an integer guaranteed 115 // to be > 0. 116 const IdentifierInfo *II = FD->getIdentifier(); 117 if (!II || !(II->getName() == "main" && FD->getNumParams() > 0)) 118 break; 119 120 const ParmVarDecl *PD = FD->getParamDecl(0); 121 QualType T = PD->getType(); 122 const BuiltinType *BT = dyn_cast<BuiltinType>(T); 123 if (!BT || !BT->isInteger()) 124 break; 125 126 const MemRegion *R = state->getRegion(PD, InitLoc); 127 if (!R) 128 break; 129 130 SVal V = state->getSVal(loc::MemRegionVal(R)); 131 SVal Constraint_untested = evalBinOp(state, BO_GT, V, 132 svalBuilder.makeZeroVal(T), 133 svalBuilder.getConditionType()); 134 135 Optional<DefinedOrUnknownSVal> Constraint = 136 Constraint_untested.getAs<DefinedOrUnknownSVal>(); 137 138 if (!Constraint) 139 break; 140 141 if (ProgramStateRef newState = state->assume(*Constraint, true)) 142 state = newState; 143 } 144 break; 145 } 146 while (0); 147 148 if (const ObjCMethodDecl *MD = dyn_cast<ObjCMethodDecl>(D)) { 149 // Precondition: 'self' is always non-null upon entry to an Objective-C 150 // method. 151 const ImplicitParamDecl *SelfD = MD->getSelfDecl(); 152 const MemRegion *R = state->getRegion(SelfD, InitLoc); 153 SVal V = state->getSVal(loc::MemRegionVal(R)); 154 155 if (Optional<Loc> LV = V.getAs<Loc>()) { 156 // Assume that the pointer value in 'self' is non-null. 157 state = state->assume(*LV, true); 158 assert(state && "'self' cannot be null"); 159 } 160 } 161 162 if (const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(D)) { 163 if (!MD->isStatic()) { 164 // Precondition: 'this' is always non-null upon entry to the 165 // top-level function. This is our starting assumption for 166 // analyzing an "open" program. 167 const StackFrameContext *SFC = InitLoc->getCurrentStackFrame(); 168 if (SFC->getParent() == nullptr) { 169 loc::MemRegionVal L = svalBuilder.getCXXThis(MD, SFC); 170 SVal V = state->getSVal(L); 171 if (Optional<Loc> LV = V.getAs<Loc>()) { 172 state = state->assume(*LV, true); 173 assert(state && "'this' cannot be null"); 174 } 175 } 176 } 177 } 178 179 return state; 180 } 181 182 ProgramStateRef 183 ExprEngine::createTemporaryRegionIfNeeded(ProgramStateRef State, 184 const LocationContext *LC, 185 const Expr *Ex, 186 const Expr *Result) { 187 SVal V = State->getSVal(Ex, LC); 188 if (!Result) { 189 // If we don't have an explicit result expression, we're in "if needed" 190 // mode. Only create a region if the current value is a NonLoc. 191 if (!V.getAs<NonLoc>()) 192 return State; 193 Result = Ex; 194 } else { 195 // We need to create a region no matter what. For sanity, make sure we don't 196 // try to stuff a Loc into a non-pointer temporary region. 197 assert(!V.getAs<Loc>() || Loc::isLocType(Result->getType()) || 198 Result->getType()->isMemberPointerType()); 199 } 200 201 ProgramStateManager &StateMgr = State->getStateManager(); 202 MemRegionManager &MRMgr = StateMgr.getRegionManager(); 203 StoreManager &StoreMgr = StateMgr.getStoreManager(); 204 205 // We need to be careful about treating a derived type's value as 206 // bindings for a base type. Unless we're creating a temporary pointer region, 207 // start by stripping and recording base casts. 208 SmallVector<const CastExpr *, 4> Casts; 209 const Expr *Inner = Ex->IgnoreParens(); 210 if (!Loc::isLocType(Result->getType())) { 211 while (const CastExpr *CE = dyn_cast<CastExpr>(Inner)) { 212 if (CE->getCastKind() == CK_DerivedToBase || 213 CE->getCastKind() == CK_UncheckedDerivedToBase) 214 Casts.push_back(CE); 215 else if (CE->getCastKind() != CK_NoOp) 216 break; 217 218 Inner = CE->getSubExpr()->IgnoreParens(); 219 } 220 } 221 222 // Create a temporary object region for the inner expression (which may have 223 // a more derived type) and bind the value into it. 224 const TypedValueRegion *TR = nullptr; 225 if (const MaterializeTemporaryExpr *MT = 226 dyn_cast<MaterializeTemporaryExpr>(Result)) { 227 StorageDuration SD = MT->getStorageDuration(); 228 // If this object is bound to a reference with static storage duration, we 229 // put it in a different region to prevent "address leakage" warnings. 230 if (SD == SD_Static || SD == SD_Thread) 231 TR = MRMgr.getCXXStaticTempObjectRegion(Inner); 232 } 233 if (!TR) 234 TR = MRMgr.getCXXTempObjectRegion(Inner, LC); 235 236 SVal Reg = loc::MemRegionVal(TR); 237 238 if (V.isUnknown()) 239 V = getSValBuilder().conjureSymbolVal(Result, LC, TR->getValueType(), 240 currBldrCtx->blockCount()); 241 State = State->bindLoc(Reg, V); 242 243 // Re-apply the casts (from innermost to outermost) for type sanity. 244 for (SmallVectorImpl<const CastExpr *>::reverse_iterator I = Casts.rbegin(), 245 E = Casts.rend(); 246 I != E; ++I) { 247 Reg = StoreMgr.evalDerivedToBase(Reg, *I); 248 } 249 250 State = State->BindExpr(Result, LC, Reg); 251 return State; 252 } 253 254 //===----------------------------------------------------------------------===// 255 // Top-level transfer function logic (Dispatcher). 256 //===----------------------------------------------------------------------===// 257 258 /// evalAssume - Called by ConstraintManager. Used to call checker-specific 259 /// logic for handling assumptions on symbolic values. 260 ProgramStateRef ExprEngine::processAssume(ProgramStateRef state, 261 SVal cond, bool assumption) { 262 return getCheckerManager().runCheckersForEvalAssume(state, cond, assumption); 263 } 264 265 bool ExprEngine::wantsRegionChangeUpdate(ProgramStateRef state) { 266 return getCheckerManager().wantsRegionChangeUpdate(state); 267 } 268 269 ProgramStateRef 270 ExprEngine::processRegionChanges(ProgramStateRef state, 271 const InvalidatedSymbols *invalidated, 272 ArrayRef<const MemRegion *> Explicits, 273 ArrayRef<const MemRegion *> Regions, 274 const CallEvent *Call) { 275 return getCheckerManager().runCheckersForRegionChanges(state, invalidated, 276 Explicits, Regions, Call); 277 } 278 279 void ExprEngine::printState(raw_ostream &Out, ProgramStateRef State, 280 const char *NL, const char *Sep) { 281 getCheckerManager().runCheckersForPrintState(Out, State, NL, Sep); 282 } 283 284 void ExprEngine::processEndWorklist(bool hasWorkRemaining) { 285 getCheckerManager().runCheckersForEndAnalysis(G, BR, *this); 286 } 287 288 void ExprEngine::processCFGElement(const CFGElement E, ExplodedNode *Pred, 289 unsigned StmtIdx, NodeBuilderContext *Ctx) { 290 PrettyStackTraceLocationContext CrashInfo(Pred->getLocationContext()); 291 currStmtIdx = StmtIdx; 292 currBldrCtx = Ctx; 293 294 switch (E.getKind()) { 295 case CFGElement::Statement: 296 ProcessStmt(const_cast<Stmt*>(E.castAs<CFGStmt>().getStmt()), Pred); 297 return; 298 case CFGElement::Initializer: 299 ProcessInitializer(E.castAs<CFGInitializer>().getInitializer(), Pred); 300 return; 301 case CFGElement::NewAllocator: 302 ProcessNewAllocator(E.castAs<CFGNewAllocator>().getAllocatorExpr(), 303 Pred); 304 return; 305 case CFGElement::AutomaticObjectDtor: 306 case CFGElement::DeleteDtor: 307 case CFGElement::BaseDtor: 308 case CFGElement::MemberDtor: 309 case CFGElement::TemporaryDtor: 310 ProcessImplicitDtor(E.castAs<CFGImplicitDtor>(), Pred); 311 return; 312 } 313 } 314 315 static bool shouldRemoveDeadBindings(AnalysisManager &AMgr, 316 const CFGStmt S, 317 const ExplodedNode *Pred, 318 const LocationContext *LC) { 319 320 // Are we never purging state values? 321 if (AMgr.options.AnalysisPurgeOpt == PurgeNone) 322 return false; 323 324 // Is this the beginning of a basic block? 325 if (Pred->getLocation().getAs<BlockEntrance>()) 326 return true; 327 328 // Is this on a non-expression? 329 if (!isa<Expr>(S.getStmt())) 330 return true; 331 332 // Run before processing a call. 333 if (CallEvent::isCallStmt(S.getStmt())) 334 return true; 335 336 // Is this an expression that is consumed by another expression? If so, 337 // postpone cleaning out the state. 338 ParentMap &PM = LC->getAnalysisDeclContext()->getParentMap(); 339 return !PM.isConsumedExpr(cast<Expr>(S.getStmt())); 340 } 341 342 void ExprEngine::removeDead(ExplodedNode *Pred, ExplodedNodeSet &Out, 343 const Stmt *ReferenceStmt, 344 const LocationContext *LC, 345 const Stmt *DiagnosticStmt, 346 ProgramPoint::Kind K) { 347 assert((K == ProgramPoint::PreStmtPurgeDeadSymbolsKind || 348 ReferenceStmt == nullptr || isa<ReturnStmt>(ReferenceStmt)) 349 && "PostStmt is not generally supported by the SymbolReaper yet"); 350 assert(LC && "Must pass the current (or expiring) LocationContext"); 351 352 if (!DiagnosticStmt) { 353 DiagnosticStmt = ReferenceStmt; 354 assert(DiagnosticStmt && "Required for clearing a LocationContext"); 355 } 356 357 NumRemoveDeadBindings++; 358 ProgramStateRef CleanedState = Pred->getState(); 359 360 // LC is the location context being destroyed, but SymbolReaper wants a 361 // location context that is still live. (If this is the top-level stack 362 // frame, this will be null.) 363 if (!ReferenceStmt) { 364 assert(K == ProgramPoint::PostStmtPurgeDeadSymbolsKind && 365 "Use PostStmtPurgeDeadSymbolsKind for clearing a LocationContext"); 366 LC = LC->getParent(); 367 } 368 369 const StackFrameContext *SFC = LC ? LC->getCurrentStackFrame() : nullptr; 370 SymbolReaper SymReaper(SFC, ReferenceStmt, SymMgr, getStoreManager()); 371 372 getCheckerManager().runCheckersForLiveSymbols(CleanedState, SymReaper); 373 374 // Create a state in which dead bindings are removed from the environment 375 // and the store. TODO: The function should just return new env and store, 376 // not a new state. 377 CleanedState = StateMgr.removeDeadBindings(CleanedState, SFC, SymReaper); 378 379 // Process any special transfer function for dead symbols. 380 // A tag to track convenience transitions, which can be removed at cleanup. 381 static SimpleProgramPointTag cleanupTag(TagProviderName, "Clean Node"); 382 if (!SymReaper.hasDeadSymbols()) { 383 // Generate a CleanedNode that has the environment and store cleaned 384 // up. Since no symbols are dead, we can optimize and not clean out 385 // the constraint manager. 386 StmtNodeBuilder Bldr(Pred, Out, *currBldrCtx); 387 Bldr.generateNode(DiagnosticStmt, Pred, CleanedState, &cleanupTag, K); 388 389 } else { 390 // Call checkers with the non-cleaned state so that they could query the 391 // values of the soon to be dead symbols. 392 ExplodedNodeSet CheckedSet; 393 getCheckerManager().runCheckersForDeadSymbols(CheckedSet, Pred, SymReaper, 394 DiagnosticStmt, *this, K); 395 396 // For each node in CheckedSet, generate CleanedNodes that have the 397 // environment, the store, and the constraints cleaned up but have the 398 // user-supplied states as the predecessors. 399 StmtNodeBuilder Bldr(CheckedSet, Out, *currBldrCtx); 400 for (ExplodedNodeSet::const_iterator 401 I = CheckedSet.begin(), E = CheckedSet.end(); I != E; ++I) { 402 ProgramStateRef CheckerState = (*I)->getState(); 403 404 // The constraint manager has not been cleaned up yet, so clean up now. 405 CheckerState = getConstraintManager().removeDeadBindings(CheckerState, 406 SymReaper); 407 408 assert(StateMgr.haveEqualEnvironments(CheckerState, Pred->getState()) && 409 "Checkers are not allowed to modify the Environment as a part of " 410 "checkDeadSymbols processing."); 411 assert(StateMgr.haveEqualStores(CheckerState, Pred->getState()) && 412 "Checkers are not allowed to modify the Store as a part of " 413 "checkDeadSymbols processing."); 414 415 // Create a state based on CleanedState with CheckerState GDM and 416 // generate a transition to that state. 417 ProgramStateRef CleanedCheckerSt = 418 StateMgr.getPersistentStateWithGDM(CleanedState, CheckerState); 419 Bldr.generateNode(DiagnosticStmt, *I, CleanedCheckerSt, &cleanupTag, K); 420 } 421 } 422 } 423 424 void ExprEngine::ProcessStmt(const CFGStmt S, 425 ExplodedNode *Pred) { 426 // Reclaim any unnecessary nodes in the ExplodedGraph. 427 G.reclaimRecentlyAllocatedNodes(); 428 429 const Stmt *currStmt = S.getStmt(); 430 PrettyStackTraceLoc CrashInfo(getContext().getSourceManager(), 431 currStmt->getLocStart(), 432 "Error evaluating statement"); 433 434 // Remove dead bindings and symbols. 435 ExplodedNodeSet CleanedStates; 436 if (shouldRemoveDeadBindings(AMgr, S, Pred, Pred->getLocationContext())){ 437 removeDead(Pred, CleanedStates, currStmt, Pred->getLocationContext()); 438 } else 439 CleanedStates.Add(Pred); 440 441 // Visit the statement. 442 ExplodedNodeSet Dst; 443 for (ExplodedNodeSet::iterator I = CleanedStates.begin(), 444 E = CleanedStates.end(); I != E; ++I) { 445 ExplodedNodeSet DstI; 446 // Visit the statement. 447 Visit(currStmt, *I, DstI); 448 Dst.insert(DstI); 449 } 450 451 // Enqueue the new nodes onto the work list. 452 Engine.enqueue(Dst, currBldrCtx->getBlock(), currStmtIdx); 453 } 454 455 void ExprEngine::ProcessInitializer(const CFGInitializer Init, 456 ExplodedNode *Pred) { 457 const CXXCtorInitializer *BMI = Init.getInitializer(); 458 459 PrettyStackTraceLoc CrashInfo(getContext().getSourceManager(), 460 BMI->getSourceLocation(), 461 "Error evaluating initializer"); 462 463 // We don't clean up dead bindings here. 464 const StackFrameContext *stackFrame = 465 cast<StackFrameContext>(Pred->getLocationContext()); 466 const CXXConstructorDecl *decl = 467 cast<CXXConstructorDecl>(stackFrame->getDecl()); 468 469 ProgramStateRef State = Pred->getState(); 470 SVal thisVal = State->getSVal(svalBuilder.getCXXThis(decl, stackFrame)); 471 472 ExplodedNodeSet Tmp(Pred); 473 SVal FieldLoc; 474 475 // Evaluate the initializer, if necessary 476 if (BMI->isAnyMemberInitializer()) { 477 // Constructors build the object directly in the field, 478 // but non-objects must be copied in from the initializer. 479 if (auto *CtorExpr = findDirectConstructorForCurrentCFGElement()) { 480 assert(BMI->getInit()->IgnoreImplicit() == CtorExpr); 481 (void)CtorExpr; 482 // The field was directly constructed, so there is no need to bind. 483 } else { 484 const Expr *Init = BMI->getInit()->IgnoreImplicit(); 485 const ValueDecl *Field; 486 if (BMI->isIndirectMemberInitializer()) { 487 Field = BMI->getIndirectMember(); 488 FieldLoc = State->getLValue(BMI->getIndirectMember(), thisVal); 489 } else { 490 Field = BMI->getMember(); 491 FieldLoc = State->getLValue(BMI->getMember(), thisVal); 492 } 493 494 SVal InitVal; 495 if (BMI->getNumArrayIndices() > 0) { 496 // Handle arrays of trivial type. We can represent this with a 497 // primitive load/copy from the base array region. 498 const ArraySubscriptExpr *ASE; 499 while ((ASE = dyn_cast<ArraySubscriptExpr>(Init))) 500 Init = ASE->getBase()->IgnoreImplicit(); 501 502 SVal LValue = State->getSVal(Init, stackFrame); 503 if (Optional<Loc> LValueLoc = LValue.getAs<Loc>()) 504 InitVal = State->getSVal(*LValueLoc); 505 506 // If we fail to get the value for some reason, use a symbolic value. 507 if (InitVal.isUnknownOrUndef()) { 508 SValBuilder &SVB = getSValBuilder(); 509 InitVal = SVB.conjureSymbolVal(BMI->getInit(), stackFrame, 510 Field->getType(), 511 currBldrCtx->blockCount()); 512 } 513 } else { 514 InitVal = State->getSVal(BMI->getInit(), stackFrame); 515 } 516 517 assert(Tmp.size() == 1 && "have not generated any new nodes yet"); 518 assert(*Tmp.begin() == Pred && "have not generated any new nodes yet"); 519 Tmp.clear(); 520 521 PostInitializer PP(BMI, FieldLoc.getAsRegion(), stackFrame); 522 evalBind(Tmp, Init, Pred, FieldLoc, InitVal, /*isInit=*/true, &PP); 523 } 524 } else { 525 assert(BMI->isBaseInitializer() || BMI->isDelegatingInitializer()); 526 // We already did all the work when visiting the CXXConstructExpr. 527 } 528 529 // Construct PostInitializer nodes whether the state changed or not, 530 // so that the diagnostics don't get confused. 531 PostInitializer PP(BMI, FieldLoc.getAsRegion(), stackFrame); 532 ExplodedNodeSet Dst; 533 NodeBuilder Bldr(Tmp, Dst, *currBldrCtx); 534 for (ExplodedNodeSet::iterator I = Tmp.begin(), E = Tmp.end(); I != E; ++I) { 535 ExplodedNode *N = *I; 536 Bldr.generateNode(PP, N->getState(), N); 537 } 538 539 // Enqueue the new nodes onto the work list. 540 Engine.enqueue(Dst, currBldrCtx->getBlock(), currStmtIdx); 541 } 542 543 void ExprEngine::ProcessImplicitDtor(const CFGImplicitDtor D, 544 ExplodedNode *Pred) { 545 ExplodedNodeSet Dst; 546 switch (D.getKind()) { 547 case CFGElement::AutomaticObjectDtor: 548 ProcessAutomaticObjDtor(D.castAs<CFGAutomaticObjDtor>(), Pred, Dst); 549 break; 550 case CFGElement::BaseDtor: 551 ProcessBaseDtor(D.castAs<CFGBaseDtor>(), Pred, Dst); 552 break; 553 case CFGElement::MemberDtor: 554 ProcessMemberDtor(D.castAs<CFGMemberDtor>(), Pred, Dst); 555 break; 556 case CFGElement::TemporaryDtor: 557 ProcessTemporaryDtor(D.castAs<CFGTemporaryDtor>(), Pred, Dst); 558 break; 559 case CFGElement::DeleteDtor: 560 ProcessDeleteDtor(D.castAs<CFGDeleteDtor>(), Pred, Dst); 561 break; 562 default: 563 llvm_unreachable("Unexpected dtor kind."); 564 } 565 566 // Enqueue the new nodes onto the work list. 567 Engine.enqueue(Dst, currBldrCtx->getBlock(), currStmtIdx); 568 } 569 570 void ExprEngine::ProcessNewAllocator(const CXXNewExpr *NE, 571 ExplodedNode *Pred) { 572 ExplodedNodeSet Dst; 573 AnalysisManager &AMgr = getAnalysisManager(); 574 AnalyzerOptions &Opts = AMgr.options; 575 // TODO: We're not evaluating allocators for all cases just yet as 576 // we're not handling the return value correctly, which causes false 577 // positives when the alpha.cplusplus.NewDeleteLeaks check is on. 578 if (Opts.mayInlineCXXAllocator()) 579 VisitCXXNewAllocatorCall(NE, Pred, Dst); 580 else { 581 NodeBuilder Bldr(Pred, Dst, *currBldrCtx); 582 const LocationContext *LCtx = Pred->getLocationContext(); 583 PostImplicitCall PP(NE->getOperatorNew(), NE->getLocStart(), LCtx); 584 Bldr.generateNode(PP, Pred->getState(), Pred); 585 } 586 Engine.enqueue(Dst, currBldrCtx->getBlock(), currStmtIdx); 587 } 588 589 void ExprEngine::ProcessAutomaticObjDtor(const CFGAutomaticObjDtor Dtor, 590 ExplodedNode *Pred, 591 ExplodedNodeSet &Dst) { 592 const VarDecl *varDecl = Dtor.getVarDecl(); 593 QualType varType = varDecl->getType(); 594 595 ProgramStateRef state = Pred->getState(); 596 SVal dest = state->getLValue(varDecl, Pred->getLocationContext()); 597 const MemRegion *Region = dest.castAs<loc::MemRegionVal>().getRegion(); 598 599 if (const ReferenceType *refType = varType->getAs<ReferenceType>()) { 600 varType = refType->getPointeeType(); 601 Region = state->getSVal(Region).getAsRegion(); 602 } 603 604 VisitCXXDestructor(varType, Region, Dtor.getTriggerStmt(), /*IsBase=*/ false, 605 Pred, Dst); 606 } 607 608 void ExprEngine::ProcessDeleteDtor(const CFGDeleteDtor Dtor, 609 ExplodedNode *Pred, 610 ExplodedNodeSet &Dst) { 611 ProgramStateRef State = Pred->getState(); 612 const LocationContext *LCtx = Pred->getLocationContext(); 613 const CXXDeleteExpr *DE = Dtor.getDeleteExpr(); 614 const Stmt *Arg = DE->getArgument(); 615 SVal ArgVal = State->getSVal(Arg, LCtx); 616 617 // If the argument to delete is known to be a null value, 618 // don't run destructor. 619 if (State->isNull(ArgVal).isConstrainedTrue()) { 620 QualType DTy = DE->getDestroyedType(); 621 QualType BTy = getContext().getBaseElementType(DTy); 622 const CXXRecordDecl *RD = BTy->getAsCXXRecordDecl(); 623 const CXXDestructorDecl *Dtor = RD->getDestructor(); 624 625 PostImplicitCall PP(Dtor, DE->getLocStart(), LCtx); 626 NodeBuilder Bldr(Pred, Dst, *currBldrCtx); 627 Bldr.generateNode(PP, Pred->getState(), Pred); 628 return; 629 } 630 631 VisitCXXDestructor(DE->getDestroyedType(), 632 ArgVal.getAsRegion(), 633 DE, /*IsBase=*/ false, 634 Pred, Dst); 635 } 636 637 void ExprEngine::ProcessBaseDtor(const CFGBaseDtor D, 638 ExplodedNode *Pred, ExplodedNodeSet &Dst) { 639 const LocationContext *LCtx = Pred->getLocationContext(); 640 641 const CXXDestructorDecl *CurDtor = cast<CXXDestructorDecl>(LCtx->getDecl()); 642 Loc ThisPtr = getSValBuilder().getCXXThis(CurDtor, 643 LCtx->getCurrentStackFrame()); 644 SVal ThisVal = Pred->getState()->getSVal(ThisPtr); 645 646 // Create the base object region. 647 const CXXBaseSpecifier *Base = D.getBaseSpecifier(); 648 QualType BaseTy = Base->getType(); 649 SVal BaseVal = getStoreManager().evalDerivedToBase(ThisVal, BaseTy, 650 Base->isVirtual()); 651 652 VisitCXXDestructor(BaseTy, BaseVal.castAs<loc::MemRegionVal>().getRegion(), 653 CurDtor->getBody(), /*IsBase=*/ true, Pred, Dst); 654 } 655 656 void ExprEngine::ProcessMemberDtor(const CFGMemberDtor D, 657 ExplodedNode *Pred, ExplodedNodeSet &Dst) { 658 const FieldDecl *Member = D.getFieldDecl(); 659 ProgramStateRef State = Pred->getState(); 660 const LocationContext *LCtx = Pred->getLocationContext(); 661 662 const CXXDestructorDecl *CurDtor = cast<CXXDestructorDecl>(LCtx->getDecl()); 663 Loc ThisVal = getSValBuilder().getCXXThis(CurDtor, 664 LCtx->getCurrentStackFrame()); 665 SVal FieldVal = 666 State->getLValue(Member, State->getSVal(ThisVal).castAs<Loc>()); 667 668 VisitCXXDestructor(Member->getType(), 669 FieldVal.castAs<loc::MemRegionVal>().getRegion(), 670 CurDtor->getBody(), /*IsBase=*/false, Pred, Dst); 671 } 672 673 void ExprEngine::ProcessTemporaryDtor(const CFGTemporaryDtor D, 674 ExplodedNode *Pred, 675 ExplodedNodeSet &Dst) { 676 ExplodedNodeSet CleanDtorState; 677 StmtNodeBuilder StmtBldr(Pred, CleanDtorState, *currBldrCtx); 678 ProgramStateRef State = Pred->getState(); 679 if (State->contains<InitializedTemporariesSet>( 680 std::make_pair(D.getBindTemporaryExpr(), Pred->getStackFrame()))) { 681 // FIXME: Currently we insert temporary destructors for default parameters, 682 // but we don't insert the constructors. 683 State = State->remove<InitializedTemporariesSet>( 684 std::make_pair(D.getBindTemporaryExpr(), Pred->getStackFrame())); 685 } 686 StmtBldr.generateNode(D.getBindTemporaryExpr(), Pred, State); 687 688 QualType varType = D.getBindTemporaryExpr()->getSubExpr()->getType(); 689 // FIXME: Currently CleanDtorState can be empty here due to temporaries being 690 // bound to default parameters. 691 assert(CleanDtorState.size() <= 1); 692 ExplodedNode *CleanPred = 693 CleanDtorState.empty() ? Pred : *CleanDtorState.begin(); 694 // FIXME: Inlining of temporary destructors is not supported yet anyway, so 695 // we just put a NULL region for now. This will need to be changed later. 696 VisitCXXDestructor(varType, nullptr, D.getBindTemporaryExpr(), 697 /*IsBase=*/false, CleanPred, Dst); 698 } 699 700 void ExprEngine::processCleanupTemporaryBranch(const CXXBindTemporaryExpr *BTE, 701 NodeBuilderContext &BldCtx, 702 ExplodedNode *Pred, 703 ExplodedNodeSet &Dst, 704 const CFGBlock *DstT, 705 const CFGBlock *DstF) { 706 BranchNodeBuilder TempDtorBuilder(Pred, Dst, BldCtx, DstT, DstF); 707 if (Pred->getState()->contains<InitializedTemporariesSet>( 708 std::make_pair(BTE, Pred->getStackFrame()))) { 709 TempDtorBuilder.markInfeasible(false); 710 TempDtorBuilder.generateNode(Pred->getState(), true, Pred); 711 } else { 712 TempDtorBuilder.markInfeasible(true); 713 TempDtorBuilder.generateNode(Pred->getState(), false, Pred); 714 } 715 } 716 717 void ExprEngine::VisitCXXBindTemporaryExpr(const CXXBindTemporaryExpr *BTE, 718 ExplodedNodeSet &PreVisit, 719 ExplodedNodeSet &Dst) { 720 if (!getAnalysisManager().options.includeTemporaryDtorsInCFG()) { 721 // In case we don't have temporary destructors in the CFG, do not mark 722 // the initialization - we would otherwise never clean it up. 723 Dst = PreVisit; 724 return; 725 } 726 StmtNodeBuilder StmtBldr(PreVisit, Dst, *currBldrCtx); 727 for (ExplodedNode *Node : PreVisit) { 728 ProgramStateRef State = Node->getState(); 729 730 if (!State->contains<InitializedTemporariesSet>( 731 std::make_pair(BTE, Node->getStackFrame()))) { 732 // FIXME: Currently the state might already contain the marker due to 733 // incorrect handling of temporaries bound to default parameters; for 734 // those, we currently skip the CXXBindTemporaryExpr but rely on adding 735 // temporary destructor nodes. 736 State = State->add<InitializedTemporariesSet>( 737 std::make_pair(BTE, Node->getStackFrame())); 738 } 739 StmtBldr.generateNode(BTE, Node, State); 740 } 741 } 742 743 void ExprEngine::Visit(const Stmt *S, ExplodedNode *Pred, 744 ExplodedNodeSet &DstTop) { 745 PrettyStackTraceLoc CrashInfo(getContext().getSourceManager(), 746 S->getLocStart(), 747 "Error evaluating statement"); 748 ExplodedNodeSet Dst; 749 StmtNodeBuilder Bldr(Pred, DstTop, *currBldrCtx); 750 751 assert(!isa<Expr>(S) || S == cast<Expr>(S)->IgnoreParens()); 752 753 switch (S->getStmtClass()) { 754 // C++ and ARC stuff we don't support yet. 755 case Expr::ObjCIndirectCopyRestoreExprClass: 756 case Stmt::CXXDependentScopeMemberExprClass: 757 case Stmt::CXXInheritedCtorInitExprClass: 758 case Stmt::CXXTryStmtClass: 759 case Stmt::CXXTypeidExprClass: 760 case Stmt::CXXUuidofExprClass: 761 case Stmt::CXXFoldExprClass: 762 case Stmt::MSPropertyRefExprClass: 763 case Stmt::MSPropertySubscriptExprClass: 764 case Stmt::CXXUnresolvedConstructExprClass: 765 case Stmt::DependentScopeDeclRefExprClass: 766 case Stmt::ArrayTypeTraitExprClass: 767 case Stmt::ExpressionTraitExprClass: 768 case Stmt::UnresolvedLookupExprClass: 769 case Stmt::UnresolvedMemberExprClass: 770 case Stmt::TypoExprClass: 771 case Stmt::CXXNoexceptExprClass: 772 case Stmt::PackExpansionExprClass: 773 case Stmt::SubstNonTypeTemplateParmPackExprClass: 774 case Stmt::FunctionParmPackExprClass: 775 case Stmt::CoroutineBodyStmtClass: 776 case Stmt::CoawaitExprClass: 777 case Stmt::CoreturnStmtClass: 778 case Stmt::CoyieldExprClass: 779 case Stmt::SEHTryStmtClass: 780 case Stmt::SEHExceptStmtClass: 781 case Stmt::SEHLeaveStmtClass: 782 case Stmt::SEHFinallyStmtClass: { 783 const ExplodedNode *node = Bldr.generateSink(S, Pred, Pred->getState()); 784 Engine.addAbortedBlock(node, currBldrCtx->getBlock()); 785 break; 786 } 787 788 case Stmt::ParenExprClass: 789 llvm_unreachable("ParenExprs already handled."); 790 case Stmt::GenericSelectionExprClass: 791 llvm_unreachable("GenericSelectionExprs already handled."); 792 // Cases that should never be evaluated simply because they shouldn't 793 // appear in the CFG. 794 case Stmt::BreakStmtClass: 795 case Stmt::CaseStmtClass: 796 case Stmt::CompoundStmtClass: 797 case Stmt::ContinueStmtClass: 798 case Stmt::CXXForRangeStmtClass: 799 case Stmt::DefaultStmtClass: 800 case Stmt::DoStmtClass: 801 case Stmt::ForStmtClass: 802 case Stmt::GotoStmtClass: 803 case Stmt::IfStmtClass: 804 case Stmt::IndirectGotoStmtClass: 805 case Stmt::LabelStmtClass: 806 case Stmt::NoStmtClass: 807 case Stmt::NullStmtClass: 808 case Stmt::SwitchStmtClass: 809 case Stmt::WhileStmtClass: 810 case Expr::MSDependentExistsStmtClass: 811 case Stmt::CapturedStmtClass: 812 case Stmt::OMPParallelDirectiveClass: 813 case Stmt::OMPSimdDirectiveClass: 814 case Stmt::OMPForDirectiveClass: 815 case Stmt::OMPForSimdDirectiveClass: 816 case Stmt::OMPSectionsDirectiveClass: 817 case Stmt::OMPSectionDirectiveClass: 818 case Stmt::OMPSingleDirectiveClass: 819 case Stmt::OMPMasterDirectiveClass: 820 case Stmt::OMPCriticalDirectiveClass: 821 case Stmt::OMPParallelForDirectiveClass: 822 case Stmt::OMPParallelForSimdDirectiveClass: 823 case Stmt::OMPParallelSectionsDirectiveClass: 824 case Stmt::OMPTaskDirectiveClass: 825 case Stmt::OMPTaskyieldDirectiveClass: 826 case Stmt::OMPBarrierDirectiveClass: 827 case Stmt::OMPTaskwaitDirectiveClass: 828 case Stmt::OMPTaskgroupDirectiveClass: 829 case Stmt::OMPFlushDirectiveClass: 830 case Stmt::OMPOrderedDirectiveClass: 831 case Stmt::OMPAtomicDirectiveClass: 832 case Stmt::OMPTargetDirectiveClass: 833 case Stmt::OMPTargetDataDirectiveClass: 834 case Stmt::OMPTargetEnterDataDirectiveClass: 835 case Stmt::OMPTargetExitDataDirectiveClass: 836 case Stmt::OMPTargetParallelDirectiveClass: 837 case Stmt::OMPTargetParallelForDirectiveClass: 838 case Stmt::OMPTargetUpdateDirectiveClass: 839 case Stmt::OMPTeamsDirectiveClass: 840 case Stmt::OMPCancellationPointDirectiveClass: 841 case Stmt::OMPCancelDirectiveClass: 842 case Stmt::OMPTaskLoopDirectiveClass: 843 case Stmt::OMPTaskLoopSimdDirectiveClass: 844 case Stmt::OMPDistributeDirectiveClass: 845 case Stmt::OMPDistributeParallelForDirectiveClass: 846 case Stmt::OMPDistributeParallelForSimdDirectiveClass: 847 case Stmt::OMPDistributeSimdDirectiveClass: 848 case Stmt::OMPTargetParallelForSimdDirectiveClass: 849 case Stmt::OMPTargetSimdDirectiveClass: 850 llvm_unreachable("Stmt should not be in analyzer evaluation loop"); 851 852 case Stmt::ObjCSubscriptRefExprClass: 853 case Stmt::ObjCPropertyRefExprClass: 854 llvm_unreachable("These are handled by PseudoObjectExpr"); 855 856 case Stmt::GNUNullExprClass: { 857 // GNU __null is a pointer-width integer, not an actual pointer. 858 ProgramStateRef state = Pred->getState(); 859 state = state->BindExpr(S, Pred->getLocationContext(), 860 svalBuilder.makeIntValWithPtrWidth(0, false)); 861 Bldr.generateNode(S, Pred, state); 862 break; 863 } 864 865 case Stmt::ObjCAtSynchronizedStmtClass: 866 Bldr.takeNodes(Pred); 867 VisitObjCAtSynchronizedStmt(cast<ObjCAtSynchronizedStmt>(S), Pred, Dst); 868 Bldr.addNodes(Dst); 869 break; 870 871 case Stmt::ExprWithCleanupsClass: 872 // Handled due to fully linearised CFG. 873 break; 874 875 case Stmt::CXXBindTemporaryExprClass: { 876 Bldr.takeNodes(Pred); 877 ExplodedNodeSet PreVisit; 878 getCheckerManager().runCheckersForPreStmt(PreVisit, Pred, S, *this); 879 ExplodedNodeSet Next; 880 VisitCXXBindTemporaryExpr(cast<CXXBindTemporaryExpr>(S), PreVisit, Next); 881 getCheckerManager().runCheckersForPostStmt(Dst, Next, S, *this); 882 Bldr.addNodes(Dst); 883 break; 884 } 885 886 // Cases not handled yet; but will handle some day. 887 case Stmt::DesignatedInitExprClass: 888 case Stmt::DesignatedInitUpdateExprClass: 889 case Stmt::ExtVectorElementExprClass: 890 case Stmt::ImaginaryLiteralClass: 891 case Stmt::ObjCAtCatchStmtClass: 892 case Stmt::ObjCAtFinallyStmtClass: 893 case Stmt::ObjCAtTryStmtClass: 894 case Stmt::ObjCAutoreleasePoolStmtClass: 895 case Stmt::ObjCEncodeExprClass: 896 case Stmt::ObjCIsaExprClass: 897 case Stmt::ObjCProtocolExprClass: 898 case Stmt::ObjCSelectorExprClass: 899 case Stmt::ParenListExprClass: 900 case Stmt::ShuffleVectorExprClass: 901 case Stmt::ConvertVectorExprClass: 902 case Stmt::VAArgExprClass: 903 case Stmt::CUDAKernelCallExprClass: 904 case Stmt::OpaqueValueExprClass: 905 case Stmt::AsTypeExprClass: 906 // Fall through. 907 908 // Cases we intentionally don't evaluate, since they don't need 909 // to be explicitly evaluated. 910 case Stmt::PredefinedExprClass: 911 case Stmt::AddrLabelExprClass: 912 case Stmt::AttributedStmtClass: 913 case Stmt::IntegerLiteralClass: 914 case Stmt::CharacterLiteralClass: 915 case Stmt::ImplicitValueInitExprClass: 916 case Stmt::CXXScalarValueInitExprClass: 917 case Stmt::CXXBoolLiteralExprClass: 918 case Stmt::ObjCBoolLiteralExprClass: 919 case Stmt::ObjCAvailabilityCheckExprClass: 920 case Stmt::FloatingLiteralClass: 921 case Stmt::NoInitExprClass: 922 case Stmt::SizeOfPackExprClass: 923 case Stmt::StringLiteralClass: 924 case Stmt::ObjCStringLiteralClass: 925 case Stmt::CXXPseudoDestructorExprClass: 926 case Stmt::SubstNonTypeTemplateParmExprClass: 927 case Stmt::CXXNullPtrLiteralExprClass: 928 case Stmt::OMPArraySectionExprClass: 929 case Stmt::TypeTraitExprClass: { 930 Bldr.takeNodes(Pred); 931 ExplodedNodeSet preVisit; 932 getCheckerManager().runCheckersForPreStmt(preVisit, Pred, S, *this); 933 getCheckerManager().runCheckersForPostStmt(Dst, preVisit, S, *this); 934 Bldr.addNodes(Dst); 935 break; 936 } 937 938 case Stmt::CXXDefaultArgExprClass: 939 case Stmt::CXXDefaultInitExprClass: { 940 Bldr.takeNodes(Pred); 941 ExplodedNodeSet PreVisit; 942 getCheckerManager().runCheckersForPreStmt(PreVisit, Pred, S, *this); 943 944 ExplodedNodeSet Tmp; 945 StmtNodeBuilder Bldr2(PreVisit, Tmp, *currBldrCtx); 946 947 const Expr *ArgE; 948 if (const CXXDefaultArgExpr *DefE = dyn_cast<CXXDefaultArgExpr>(S)) 949 ArgE = DefE->getExpr(); 950 else if (const CXXDefaultInitExpr *DefE = dyn_cast<CXXDefaultInitExpr>(S)) 951 ArgE = DefE->getExpr(); 952 else 953 llvm_unreachable("unknown constant wrapper kind"); 954 955 bool IsTemporary = false; 956 if (const MaterializeTemporaryExpr *MTE = 957 dyn_cast<MaterializeTemporaryExpr>(ArgE)) { 958 ArgE = MTE->GetTemporaryExpr(); 959 IsTemporary = true; 960 } 961 962 Optional<SVal> ConstantVal = svalBuilder.getConstantVal(ArgE); 963 if (!ConstantVal) 964 ConstantVal = UnknownVal(); 965 966 const LocationContext *LCtx = Pred->getLocationContext(); 967 for (ExplodedNodeSet::iterator I = PreVisit.begin(), E = PreVisit.end(); 968 I != E; ++I) { 969 ProgramStateRef State = (*I)->getState(); 970 State = State->BindExpr(S, LCtx, *ConstantVal); 971 if (IsTemporary) 972 State = createTemporaryRegionIfNeeded(State, LCtx, 973 cast<Expr>(S), 974 cast<Expr>(S)); 975 Bldr2.generateNode(S, *I, State); 976 } 977 978 getCheckerManager().runCheckersForPostStmt(Dst, Tmp, S, *this); 979 Bldr.addNodes(Dst); 980 break; 981 } 982 983 // Cases we evaluate as opaque expressions, conjuring a symbol. 984 case Stmt::CXXStdInitializerListExprClass: 985 case Expr::ObjCArrayLiteralClass: 986 case Expr::ObjCDictionaryLiteralClass: 987 case Expr::ObjCBoxedExprClass: { 988 Bldr.takeNodes(Pred); 989 990 ExplodedNodeSet preVisit; 991 getCheckerManager().runCheckersForPreStmt(preVisit, Pred, S, *this); 992 993 ExplodedNodeSet Tmp; 994 StmtNodeBuilder Bldr2(preVisit, Tmp, *currBldrCtx); 995 996 const Expr *Ex = cast<Expr>(S); 997 QualType resultType = Ex->getType(); 998 999 for (ExplodedNodeSet::iterator it = preVisit.begin(), et = preVisit.end(); 1000 it != et; ++it) { 1001 ExplodedNode *N = *it; 1002 const LocationContext *LCtx = N->getLocationContext(); 1003 SVal result = svalBuilder.conjureSymbolVal(nullptr, Ex, LCtx, 1004 resultType, 1005 currBldrCtx->blockCount()); 1006 ProgramStateRef state = N->getState()->BindExpr(Ex, LCtx, result); 1007 Bldr2.generateNode(S, N, state); 1008 } 1009 1010 getCheckerManager().runCheckersForPostStmt(Dst, Tmp, S, *this); 1011 Bldr.addNodes(Dst); 1012 break; 1013 } 1014 1015 case Stmt::ArraySubscriptExprClass: 1016 Bldr.takeNodes(Pred); 1017 VisitLvalArraySubscriptExpr(cast<ArraySubscriptExpr>(S), Pred, Dst); 1018 Bldr.addNodes(Dst); 1019 break; 1020 1021 case Stmt::GCCAsmStmtClass: 1022 Bldr.takeNodes(Pred); 1023 VisitGCCAsmStmt(cast<GCCAsmStmt>(S), Pred, Dst); 1024 Bldr.addNodes(Dst); 1025 break; 1026 1027 case Stmt::MSAsmStmtClass: 1028 Bldr.takeNodes(Pred); 1029 VisitMSAsmStmt(cast<MSAsmStmt>(S), Pred, Dst); 1030 Bldr.addNodes(Dst); 1031 break; 1032 1033 case Stmt::BlockExprClass: 1034 Bldr.takeNodes(Pred); 1035 VisitBlockExpr(cast<BlockExpr>(S), Pred, Dst); 1036 Bldr.addNodes(Dst); 1037 break; 1038 1039 case Stmt::LambdaExprClass: 1040 if (AMgr.options.shouldInlineLambdas()) { 1041 Bldr.takeNodes(Pred); 1042 VisitLambdaExpr(cast<LambdaExpr>(S), Pred, Dst); 1043 Bldr.addNodes(Dst); 1044 } else { 1045 const ExplodedNode *node = Bldr.generateSink(S, Pred, Pred->getState()); 1046 Engine.addAbortedBlock(node, currBldrCtx->getBlock()); 1047 } 1048 break; 1049 1050 case Stmt::BinaryOperatorClass: { 1051 const BinaryOperator* B = cast<BinaryOperator>(S); 1052 if (B->isLogicalOp()) { 1053 Bldr.takeNodes(Pred); 1054 VisitLogicalExpr(B, Pred, Dst); 1055 Bldr.addNodes(Dst); 1056 break; 1057 } 1058 else if (B->getOpcode() == BO_Comma) { 1059 ProgramStateRef state = Pred->getState(); 1060 Bldr.generateNode(B, Pred, 1061 state->BindExpr(B, Pred->getLocationContext(), 1062 state->getSVal(B->getRHS(), 1063 Pred->getLocationContext()))); 1064 break; 1065 } 1066 1067 Bldr.takeNodes(Pred); 1068 1069 if (AMgr.options.eagerlyAssumeBinOpBifurcation && 1070 (B->isRelationalOp() || B->isEqualityOp())) { 1071 ExplodedNodeSet Tmp; 1072 VisitBinaryOperator(cast<BinaryOperator>(S), Pred, Tmp); 1073 evalEagerlyAssumeBinOpBifurcation(Dst, Tmp, cast<Expr>(S)); 1074 } 1075 else 1076 VisitBinaryOperator(cast<BinaryOperator>(S), Pred, Dst); 1077 1078 Bldr.addNodes(Dst); 1079 break; 1080 } 1081 1082 case Stmt::CXXOperatorCallExprClass: { 1083 const CXXOperatorCallExpr *OCE = cast<CXXOperatorCallExpr>(S); 1084 1085 // For instance method operators, make sure the 'this' argument has a 1086 // valid region. 1087 const Decl *Callee = OCE->getCalleeDecl(); 1088 if (const CXXMethodDecl *MD = dyn_cast_or_null<CXXMethodDecl>(Callee)) { 1089 if (MD->isInstance()) { 1090 ProgramStateRef State = Pred->getState(); 1091 const LocationContext *LCtx = Pred->getLocationContext(); 1092 ProgramStateRef NewState = 1093 createTemporaryRegionIfNeeded(State, LCtx, OCE->getArg(0)); 1094 if (NewState != State) { 1095 Pred = Bldr.generateNode(OCE, Pred, NewState, /*Tag=*/nullptr, 1096 ProgramPoint::PreStmtKind); 1097 // Did we cache out? 1098 if (!Pred) 1099 break; 1100 } 1101 } 1102 } 1103 // FALLTHROUGH 1104 } 1105 case Stmt::CallExprClass: 1106 case Stmt::CXXMemberCallExprClass: 1107 case Stmt::UserDefinedLiteralClass: { 1108 Bldr.takeNodes(Pred); 1109 VisitCallExpr(cast<CallExpr>(S), Pred, Dst); 1110 Bldr.addNodes(Dst); 1111 break; 1112 } 1113 1114 case Stmt::CXXCatchStmtClass: { 1115 Bldr.takeNodes(Pred); 1116 VisitCXXCatchStmt(cast<CXXCatchStmt>(S), Pred, Dst); 1117 Bldr.addNodes(Dst); 1118 break; 1119 } 1120 1121 case Stmt::CXXTemporaryObjectExprClass: 1122 case Stmt::CXXConstructExprClass: { 1123 Bldr.takeNodes(Pred); 1124 VisitCXXConstructExpr(cast<CXXConstructExpr>(S), Pred, Dst); 1125 Bldr.addNodes(Dst); 1126 break; 1127 } 1128 1129 case Stmt::CXXNewExprClass: { 1130 Bldr.takeNodes(Pred); 1131 ExplodedNodeSet PostVisit; 1132 VisitCXXNewExpr(cast<CXXNewExpr>(S), Pred, PostVisit); 1133 getCheckerManager().runCheckersForPostStmt(Dst, PostVisit, S, *this); 1134 Bldr.addNodes(Dst); 1135 break; 1136 } 1137 1138 case Stmt::CXXDeleteExprClass: { 1139 Bldr.takeNodes(Pred); 1140 ExplodedNodeSet PreVisit; 1141 const CXXDeleteExpr *CDE = cast<CXXDeleteExpr>(S); 1142 getCheckerManager().runCheckersForPreStmt(PreVisit, Pred, S, *this); 1143 1144 for (ExplodedNodeSet::iterator i = PreVisit.begin(), 1145 e = PreVisit.end(); i != e ; ++i) 1146 VisitCXXDeleteExpr(CDE, *i, Dst); 1147 1148 Bldr.addNodes(Dst); 1149 break; 1150 } 1151 // FIXME: ChooseExpr is really a constant. We need to fix 1152 // the CFG do not model them as explicit control-flow. 1153 1154 case Stmt::ChooseExprClass: { // __builtin_choose_expr 1155 Bldr.takeNodes(Pred); 1156 const ChooseExpr *C = cast<ChooseExpr>(S); 1157 VisitGuardedExpr(C, C->getLHS(), C->getRHS(), Pred, Dst); 1158 Bldr.addNodes(Dst); 1159 break; 1160 } 1161 1162 case Stmt::CompoundAssignOperatorClass: 1163 Bldr.takeNodes(Pred); 1164 VisitBinaryOperator(cast<BinaryOperator>(S), Pred, Dst); 1165 Bldr.addNodes(Dst); 1166 break; 1167 1168 case Stmt::CompoundLiteralExprClass: 1169 Bldr.takeNodes(Pred); 1170 VisitCompoundLiteralExpr(cast<CompoundLiteralExpr>(S), Pred, Dst); 1171 Bldr.addNodes(Dst); 1172 break; 1173 1174 case Stmt::BinaryConditionalOperatorClass: 1175 case Stmt::ConditionalOperatorClass: { // '?' operator 1176 Bldr.takeNodes(Pred); 1177 const AbstractConditionalOperator *C 1178 = cast<AbstractConditionalOperator>(S); 1179 VisitGuardedExpr(C, C->getTrueExpr(), C->getFalseExpr(), Pred, Dst); 1180 Bldr.addNodes(Dst); 1181 break; 1182 } 1183 1184 case Stmt::CXXThisExprClass: 1185 Bldr.takeNodes(Pred); 1186 VisitCXXThisExpr(cast<CXXThisExpr>(S), Pred, Dst); 1187 Bldr.addNodes(Dst); 1188 break; 1189 1190 case Stmt::DeclRefExprClass: { 1191 Bldr.takeNodes(Pred); 1192 const DeclRefExpr *DE = cast<DeclRefExpr>(S); 1193 VisitCommonDeclRefExpr(DE, DE->getDecl(), Pred, Dst); 1194 Bldr.addNodes(Dst); 1195 break; 1196 } 1197 1198 case Stmt::DeclStmtClass: 1199 Bldr.takeNodes(Pred); 1200 VisitDeclStmt(cast<DeclStmt>(S), Pred, Dst); 1201 Bldr.addNodes(Dst); 1202 break; 1203 1204 case Stmt::ImplicitCastExprClass: 1205 case Stmt::CStyleCastExprClass: 1206 case Stmt::CXXStaticCastExprClass: 1207 case Stmt::CXXDynamicCastExprClass: 1208 case Stmt::CXXReinterpretCastExprClass: 1209 case Stmt::CXXConstCastExprClass: 1210 case Stmt::CXXFunctionalCastExprClass: 1211 case Stmt::ObjCBridgedCastExprClass: { 1212 Bldr.takeNodes(Pred); 1213 const CastExpr *C = cast<CastExpr>(S); 1214 // Handle the previsit checks. 1215 ExplodedNodeSet dstPrevisit; 1216 getCheckerManager().runCheckersForPreStmt(dstPrevisit, Pred, C, *this); 1217 1218 // Handle the expression itself. 1219 ExplodedNodeSet dstExpr; 1220 for (ExplodedNodeSet::iterator i = dstPrevisit.begin(), 1221 e = dstPrevisit.end(); i != e ; ++i) { 1222 VisitCast(C, C->getSubExpr(), *i, dstExpr); 1223 } 1224 1225 // Handle the postvisit checks. 1226 getCheckerManager().runCheckersForPostStmt(Dst, dstExpr, C, *this); 1227 Bldr.addNodes(Dst); 1228 break; 1229 } 1230 1231 case Expr::MaterializeTemporaryExprClass: { 1232 Bldr.takeNodes(Pred); 1233 const MaterializeTemporaryExpr *MTE = cast<MaterializeTemporaryExpr>(S); 1234 CreateCXXTemporaryObject(MTE, Pred, Dst); 1235 Bldr.addNodes(Dst); 1236 break; 1237 } 1238 1239 case Stmt::InitListExprClass: 1240 Bldr.takeNodes(Pred); 1241 VisitInitListExpr(cast<InitListExpr>(S), Pred, Dst); 1242 Bldr.addNodes(Dst); 1243 break; 1244 1245 case Stmt::MemberExprClass: 1246 Bldr.takeNodes(Pred); 1247 VisitMemberExpr(cast<MemberExpr>(S), Pred, Dst); 1248 Bldr.addNodes(Dst); 1249 break; 1250 1251 case Stmt::AtomicExprClass: 1252 Bldr.takeNodes(Pred); 1253 VisitAtomicExpr(cast<AtomicExpr>(S), Pred, Dst); 1254 Bldr.addNodes(Dst); 1255 break; 1256 1257 case Stmt::ObjCIvarRefExprClass: 1258 Bldr.takeNodes(Pred); 1259 VisitLvalObjCIvarRefExpr(cast<ObjCIvarRefExpr>(S), Pred, Dst); 1260 Bldr.addNodes(Dst); 1261 break; 1262 1263 case Stmt::ObjCForCollectionStmtClass: 1264 Bldr.takeNodes(Pred); 1265 VisitObjCForCollectionStmt(cast<ObjCForCollectionStmt>(S), Pred, Dst); 1266 Bldr.addNodes(Dst); 1267 break; 1268 1269 case Stmt::ObjCMessageExprClass: 1270 Bldr.takeNodes(Pred); 1271 VisitObjCMessage(cast<ObjCMessageExpr>(S), Pred, Dst); 1272 Bldr.addNodes(Dst); 1273 break; 1274 1275 case Stmt::ObjCAtThrowStmtClass: 1276 case Stmt::CXXThrowExprClass: 1277 // FIXME: This is not complete. We basically treat @throw as 1278 // an abort. 1279 Bldr.generateSink(S, Pred, Pred->getState()); 1280 break; 1281 1282 case Stmt::ReturnStmtClass: 1283 Bldr.takeNodes(Pred); 1284 VisitReturnStmt(cast<ReturnStmt>(S), Pred, Dst); 1285 Bldr.addNodes(Dst); 1286 break; 1287 1288 case Stmt::OffsetOfExprClass: 1289 Bldr.takeNodes(Pred); 1290 VisitOffsetOfExpr(cast<OffsetOfExpr>(S), Pred, Dst); 1291 Bldr.addNodes(Dst); 1292 break; 1293 1294 case Stmt::UnaryExprOrTypeTraitExprClass: 1295 Bldr.takeNodes(Pred); 1296 VisitUnaryExprOrTypeTraitExpr(cast<UnaryExprOrTypeTraitExpr>(S), 1297 Pred, Dst); 1298 Bldr.addNodes(Dst); 1299 break; 1300 1301 case Stmt::StmtExprClass: { 1302 const StmtExpr *SE = cast<StmtExpr>(S); 1303 1304 if (SE->getSubStmt()->body_empty()) { 1305 // Empty statement expression. 1306 assert(SE->getType() == getContext().VoidTy 1307 && "Empty statement expression must have void type."); 1308 break; 1309 } 1310 1311 if (Expr *LastExpr = dyn_cast<Expr>(*SE->getSubStmt()->body_rbegin())) { 1312 ProgramStateRef state = Pred->getState(); 1313 Bldr.generateNode(SE, Pred, 1314 state->BindExpr(SE, Pred->getLocationContext(), 1315 state->getSVal(LastExpr, 1316 Pred->getLocationContext()))); 1317 } 1318 break; 1319 } 1320 1321 case Stmt::UnaryOperatorClass: { 1322 Bldr.takeNodes(Pred); 1323 const UnaryOperator *U = cast<UnaryOperator>(S); 1324 if (AMgr.options.eagerlyAssumeBinOpBifurcation && (U->getOpcode() == UO_LNot)) { 1325 ExplodedNodeSet Tmp; 1326 VisitUnaryOperator(U, Pred, Tmp); 1327 evalEagerlyAssumeBinOpBifurcation(Dst, Tmp, U); 1328 } 1329 else 1330 VisitUnaryOperator(U, Pred, Dst); 1331 Bldr.addNodes(Dst); 1332 break; 1333 } 1334 1335 case Stmt::PseudoObjectExprClass: { 1336 Bldr.takeNodes(Pred); 1337 ProgramStateRef state = Pred->getState(); 1338 const PseudoObjectExpr *PE = cast<PseudoObjectExpr>(S); 1339 if (const Expr *Result = PE->getResultExpr()) { 1340 SVal V = state->getSVal(Result, Pred->getLocationContext()); 1341 Bldr.generateNode(S, Pred, 1342 state->BindExpr(S, Pred->getLocationContext(), V)); 1343 } 1344 else 1345 Bldr.generateNode(S, Pred, 1346 state->BindExpr(S, Pred->getLocationContext(), 1347 UnknownVal())); 1348 1349 Bldr.addNodes(Dst); 1350 break; 1351 } 1352 } 1353 } 1354 1355 bool ExprEngine::replayWithoutInlining(ExplodedNode *N, 1356 const LocationContext *CalleeLC) { 1357 const StackFrameContext *CalleeSF = CalleeLC->getCurrentStackFrame(); 1358 const StackFrameContext *CallerSF = CalleeSF->getParent()->getCurrentStackFrame(); 1359 assert(CalleeSF && CallerSF); 1360 ExplodedNode *BeforeProcessingCall = nullptr; 1361 const Stmt *CE = CalleeSF->getCallSite(); 1362 1363 // Find the first node before we started processing the call expression. 1364 while (N) { 1365 ProgramPoint L = N->getLocation(); 1366 BeforeProcessingCall = N; 1367 N = N->pred_empty() ? nullptr : *(N->pred_begin()); 1368 1369 // Skip the nodes corresponding to the inlined code. 1370 if (L.getLocationContext()->getCurrentStackFrame() != CallerSF) 1371 continue; 1372 // We reached the caller. Find the node right before we started 1373 // processing the call. 1374 if (L.isPurgeKind()) 1375 continue; 1376 if (L.getAs<PreImplicitCall>()) 1377 continue; 1378 if (L.getAs<CallEnter>()) 1379 continue; 1380 if (Optional<StmtPoint> SP = L.getAs<StmtPoint>()) 1381 if (SP->getStmt() == CE) 1382 continue; 1383 break; 1384 } 1385 1386 if (!BeforeProcessingCall) 1387 return false; 1388 1389 // TODO: Clean up the unneeded nodes. 1390 1391 // Build an Epsilon node from which we will restart the analyzes. 1392 // Note that CE is permitted to be NULL! 1393 ProgramPoint NewNodeLoc = 1394 EpsilonPoint(BeforeProcessingCall->getLocationContext(), CE); 1395 // Add the special flag to GDM to signal retrying with no inlining. 1396 // Note, changing the state ensures that we are not going to cache out. 1397 ProgramStateRef NewNodeState = BeforeProcessingCall->getState(); 1398 NewNodeState = 1399 NewNodeState->set<ReplayWithoutInlining>(const_cast<Stmt *>(CE)); 1400 1401 // Make the new node a successor of BeforeProcessingCall. 1402 bool IsNew = false; 1403 ExplodedNode *NewNode = G.getNode(NewNodeLoc, NewNodeState, false, &IsNew); 1404 // We cached out at this point. Caching out is common due to us backtracking 1405 // from the inlined function, which might spawn several paths. 1406 if (!IsNew) 1407 return true; 1408 1409 NewNode->addPredecessor(BeforeProcessingCall, G); 1410 1411 // Add the new node to the work list. 1412 Engine.enqueueStmtNode(NewNode, CalleeSF->getCallSiteBlock(), 1413 CalleeSF->getIndex()); 1414 NumTimesRetriedWithoutInlining++; 1415 return true; 1416 } 1417 1418 /// Block entrance. (Update counters). 1419 void ExprEngine::processCFGBlockEntrance(const BlockEdge &L, 1420 NodeBuilderWithSinks &nodeBuilder, 1421 ExplodedNode *Pred) { 1422 PrettyStackTraceLocationContext CrashInfo(Pred->getLocationContext()); 1423 1424 // If this block is terminated by a loop and it has already been visited the 1425 // maximum number of times, widen the loop. 1426 unsigned int BlockCount = nodeBuilder.getContext().blockCount(); 1427 if (BlockCount == AMgr.options.maxBlockVisitOnPath - 1 && 1428 AMgr.options.shouldWidenLoops()) { 1429 const Stmt *Term = nodeBuilder.getContext().getBlock()->getTerminator(); 1430 if (!(Term && 1431 (isa<ForStmt>(Term) || isa<WhileStmt>(Term) || isa<DoStmt>(Term)))) 1432 return; 1433 // Widen. 1434 const LocationContext *LCtx = Pred->getLocationContext(); 1435 ProgramStateRef WidenedState = 1436 getWidenedLoopState(Pred->getState(), LCtx, BlockCount, Term); 1437 nodeBuilder.generateNode(WidenedState, Pred); 1438 return; 1439 } 1440 1441 // FIXME: Refactor this into a checker. 1442 if (BlockCount >= AMgr.options.maxBlockVisitOnPath) { 1443 static SimpleProgramPointTag tag(TagProviderName, "Block count exceeded"); 1444 const ExplodedNode *Sink = 1445 nodeBuilder.generateSink(Pred->getState(), Pred, &tag); 1446 1447 // Check if we stopped at the top level function or not. 1448 // Root node should have the location context of the top most function. 1449 const LocationContext *CalleeLC = Pred->getLocation().getLocationContext(); 1450 const LocationContext *CalleeSF = CalleeLC->getCurrentStackFrame(); 1451 const LocationContext *RootLC = 1452 (*G.roots_begin())->getLocation().getLocationContext(); 1453 if (RootLC->getCurrentStackFrame() != CalleeSF) { 1454 Engine.FunctionSummaries->markReachedMaxBlockCount(CalleeSF->getDecl()); 1455 1456 // Re-run the call evaluation without inlining it, by storing the 1457 // no-inlining policy in the state and enqueuing the new work item on 1458 // the list. Replay should almost never fail. Use the stats to catch it 1459 // if it does. 1460 if ((!AMgr.options.NoRetryExhausted && 1461 replayWithoutInlining(Pred, CalleeLC))) 1462 return; 1463 NumMaxBlockCountReachedInInlined++; 1464 } else 1465 NumMaxBlockCountReached++; 1466 1467 // Make sink nodes as exhausted(for stats) only if retry failed. 1468 Engine.blocksExhausted.push_back(std::make_pair(L, Sink)); 1469 } 1470 } 1471 1472 //===----------------------------------------------------------------------===// 1473 // Branch processing. 1474 //===----------------------------------------------------------------------===// 1475 1476 /// RecoverCastedSymbol - A helper function for ProcessBranch that is used 1477 /// to try to recover some path-sensitivity for casts of symbolic 1478 /// integers that promote their values (which are currently not tracked well). 1479 /// This function returns the SVal bound to Condition->IgnoreCasts if all the 1480 // cast(s) did was sign-extend the original value. 1481 static SVal RecoverCastedSymbol(ProgramStateManager& StateMgr, 1482 ProgramStateRef state, 1483 const Stmt *Condition, 1484 const LocationContext *LCtx, 1485 ASTContext &Ctx) { 1486 1487 const Expr *Ex = dyn_cast<Expr>(Condition); 1488 if (!Ex) 1489 return UnknownVal(); 1490 1491 uint64_t bits = 0; 1492 bool bitsInit = false; 1493 1494 while (const CastExpr *CE = dyn_cast<CastExpr>(Ex)) { 1495 QualType T = CE->getType(); 1496 1497 if (!T->isIntegralOrEnumerationType()) 1498 return UnknownVal(); 1499 1500 uint64_t newBits = Ctx.getTypeSize(T); 1501 if (!bitsInit || newBits < bits) { 1502 bitsInit = true; 1503 bits = newBits; 1504 } 1505 1506 Ex = CE->getSubExpr(); 1507 } 1508 1509 // We reached a non-cast. Is it a symbolic value? 1510 QualType T = Ex->getType(); 1511 1512 if (!bitsInit || !T->isIntegralOrEnumerationType() || 1513 Ctx.getTypeSize(T) > bits) 1514 return UnknownVal(); 1515 1516 return state->getSVal(Ex, LCtx); 1517 } 1518 1519 #ifndef NDEBUG 1520 static const Stmt *getRightmostLeaf(const Stmt *Condition) { 1521 while (Condition) { 1522 const BinaryOperator *BO = dyn_cast<BinaryOperator>(Condition); 1523 if (!BO || !BO->isLogicalOp()) { 1524 return Condition; 1525 } 1526 Condition = BO->getRHS()->IgnoreParens(); 1527 } 1528 return nullptr; 1529 } 1530 #endif 1531 1532 // Returns the condition the branch at the end of 'B' depends on and whose value 1533 // has been evaluated within 'B'. 1534 // In most cases, the terminator condition of 'B' will be evaluated fully in 1535 // the last statement of 'B'; in those cases, the resolved condition is the 1536 // given 'Condition'. 1537 // If the condition of the branch is a logical binary operator tree, the CFG is 1538 // optimized: in that case, we know that the expression formed by all but the 1539 // rightmost leaf of the logical binary operator tree must be true, and thus 1540 // the branch condition is at this point equivalent to the truth value of that 1541 // rightmost leaf; the CFG block thus only evaluates this rightmost leaf 1542 // expression in its final statement. As the full condition in that case was 1543 // not evaluated, and is thus not in the SVal cache, we need to use that leaf 1544 // expression to evaluate the truth value of the condition in the current state 1545 // space. 1546 static const Stmt *ResolveCondition(const Stmt *Condition, 1547 const CFGBlock *B) { 1548 if (const Expr *Ex = dyn_cast<Expr>(Condition)) 1549 Condition = Ex->IgnoreParens(); 1550 1551 const BinaryOperator *BO = dyn_cast<BinaryOperator>(Condition); 1552 if (!BO || !BO->isLogicalOp()) 1553 return Condition; 1554 1555 assert(!B->getTerminator().isTemporaryDtorsBranch() && 1556 "Temporary destructor branches handled by processBindTemporary."); 1557 1558 // For logical operations, we still have the case where some branches 1559 // use the traditional "merge" approach and others sink the branch 1560 // directly into the basic blocks representing the logical operation. 1561 // We need to distinguish between those two cases here. 1562 1563 // The invariants are still shifting, but it is possible that the 1564 // last element in a CFGBlock is not a CFGStmt. Look for the last 1565 // CFGStmt as the value of the condition. 1566 CFGBlock::const_reverse_iterator I = B->rbegin(), E = B->rend(); 1567 for (; I != E; ++I) { 1568 CFGElement Elem = *I; 1569 Optional<CFGStmt> CS = Elem.getAs<CFGStmt>(); 1570 if (!CS) 1571 continue; 1572 const Stmt *LastStmt = CS->getStmt(); 1573 assert(LastStmt == Condition || LastStmt == getRightmostLeaf(Condition)); 1574 return LastStmt; 1575 } 1576 llvm_unreachable("could not resolve condition"); 1577 } 1578 1579 void ExprEngine::processBranch(const Stmt *Condition, const Stmt *Term, 1580 NodeBuilderContext& BldCtx, 1581 ExplodedNode *Pred, 1582 ExplodedNodeSet &Dst, 1583 const CFGBlock *DstT, 1584 const CFGBlock *DstF) { 1585 assert((!Condition || !isa<CXXBindTemporaryExpr>(Condition)) && 1586 "CXXBindTemporaryExprs are handled by processBindTemporary."); 1587 const LocationContext *LCtx = Pred->getLocationContext(); 1588 PrettyStackTraceLocationContext StackCrashInfo(LCtx); 1589 currBldrCtx = &BldCtx; 1590 1591 // Check for NULL conditions; e.g. "for(;;)" 1592 if (!Condition) { 1593 BranchNodeBuilder NullCondBldr(Pred, Dst, BldCtx, DstT, DstF); 1594 NullCondBldr.markInfeasible(false); 1595 NullCondBldr.generateNode(Pred->getState(), true, Pred); 1596 return; 1597 } 1598 1599 if (const Expr *Ex = dyn_cast<Expr>(Condition)) 1600 Condition = Ex->IgnoreParens(); 1601 1602 Condition = ResolveCondition(Condition, BldCtx.getBlock()); 1603 PrettyStackTraceLoc CrashInfo(getContext().getSourceManager(), 1604 Condition->getLocStart(), 1605 "Error evaluating branch"); 1606 1607 ExplodedNodeSet CheckersOutSet; 1608 getCheckerManager().runCheckersForBranchCondition(Condition, CheckersOutSet, 1609 Pred, *this); 1610 // We generated only sinks. 1611 if (CheckersOutSet.empty()) 1612 return; 1613 1614 BranchNodeBuilder builder(CheckersOutSet, Dst, BldCtx, DstT, DstF); 1615 for (NodeBuilder::iterator I = CheckersOutSet.begin(), 1616 E = CheckersOutSet.end(); E != I; ++I) { 1617 ExplodedNode *PredI = *I; 1618 1619 if (PredI->isSink()) 1620 continue; 1621 1622 ProgramStateRef PrevState = PredI->getState(); 1623 SVal X = PrevState->getSVal(Condition, PredI->getLocationContext()); 1624 1625 if (X.isUnknownOrUndef()) { 1626 // Give it a chance to recover from unknown. 1627 if (const Expr *Ex = dyn_cast<Expr>(Condition)) { 1628 if (Ex->getType()->isIntegralOrEnumerationType()) { 1629 // Try to recover some path-sensitivity. Right now casts of symbolic 1630 // integers that promote their values are currently not tracked well. 1631 // If 'Condition' is such an expression, try and recover the 1632 // underlying value and use that instead. 1633 SVal recovered = RecoverCastedSymbol(getStateManager(), 1634 PrevState, Condition, 1635 PredI->getLocationContext(), 1636 getContext()); 1637 1638 if (!recovered.isUnknown()) { 1639 X = recovered; 1640 } 1641 } 1642 } 1643 } 1644 1645 // If the condition is still unknown, give up. 1646 if (X.isUnknownOrUndef()) { 1647 builder.generateNode(PrevState, true, PredI); 1648 builder.generateNode(PrevState, false, PredI); 1649 continue; 1650 } 1651 1652 DefinedSVal V = X.castAs<DefinedSVal>(); 1653 1654 ProgramStateRef StTrue, StFalse; 1655 std::tie(StTrue, StFalse) = PrevState->assume(V); 1656 1657 // Process the true branch. 1658 if (builder.isFeasible(true)) { 1659 if (StTrue) 1660 builder.generateNode(StTrue, true, PredI); 1661 else 1662 builder.markInfeasible(true); 1663 } 1664 1665 // Process the false branch. 1666 if (builder.isFeasible(false)) { 1667 if (StFalse) 1668 builder.generateNode(StFalse, false, PredI); 1669 else 1670 builder.markInfeasible(false); 1671 } 1672 } 1673 currBldrCtx = nullptr; 1674 } 1675 1676 /// The GDM component containing the set of global variables which have been 1677 /// previously initialized with explicit initializers. 1678 REGISTER_TRAIT_WITH_PROGRAMSTATE(InitializedGlobalsSet, 1679 llvm::ImmutableSet<const VarDecl *>) 1680 1681 void ExprEngine::processStaticInitializer(const DeclStmt *DS, 1682 NodeBuilderContext &BuilderCtx, 1683 ExplodedNode *Pred, 1684 clang::ento::ExplodedNodeSet &Dst, 1685 const CFGBlock *DstT, 1686 const CFGBlock *DstF) { 1687 PrettyStackTraceLocationContext CrashInfo(Pred->getLocationContext()); 1688 currBldrCtx = &BuilderCtx; 1689 1690 const VarDecl *VD = cast<VarDecl>(DS->getSingleDecl()); 1691 ProgramStateRef state = Pred->getState(); 1692 bool initHasRun = state->contains<InitializedGlobalsSet>(VD); 1693 BranchNodeBuilder builder(Pred, Dst, BuilderCtx, DstT, DstF); 1694 1695 if (!initHasRun) { 1696 state = state->add<InitializedGlobalsSet>(VD); 1697 } 1698 1699 builder.generateNode(state, initHasRun, Pred); 1700 builder.markInfeasible(!initHasRun); 1701 1702 currBldrCtx = nullptr; 1703 } 1704 1705 /// processIndirectGoto - Called by CoreEngine. Used to generate successor 1706 /// nodes by processing the 'effects' of a computed goto jump. 1707 void ExprEngine::processIndirectGoto(IndirectGotoNodeBuilder &builder) { 1708 1709 ProgramStateRef state = builder.getState(); 1710 SVal V = state->getSVal(builder.getTarget(), builder.getLocationContext()); 1711 1712 // Three possibilities: 1713 // 1714 // (1) We know the computed label. 1715 // (2) The label is NULL (or some other constant), or Undefined. 1716 // (3) We have no clue about the label. Dispatch to all targets. 1717 // 1718 1719 typedef IndirectGotoNodeBuilder::iterator iterator; 1720 1721 if (Optional<loc::GotoLabel> LV = V.getAs<loc::GotoLabel>()) { 1722 const LabelDecl *L = LV->getLabel(); 1723 1724 for (iterator I = builder.begin(), E = builder.end(); I != E; ++I) { 1725 if (I.getLabel() == L) { 1726 builder.generateNode(I, state); 1727 return; 1728 } 1729 } 1730 1731 llvm_unreachable("No block with label."); 1732 } 1733 1734 if (V.getAs<loc::ConcreteInt>() || V.getAs<UndefinedVal>()) { 1735 // Dispatch to the first target and mark it as a sink. 1736 //ExplodedNode* N = builder.generateNode(builder.begin(), state, true); 1737 // FIXME: add checker visit. 1738 // UndefBranches.insert(N); 1739 return; 1740 } 1741 1742 // This is really a catch-all. We don't support symbolics yet. 1743 // FIXME: Implement dispatch for symbolic pointers. 1744 1745 for (iterator I=builder.begin(), E=builder.end(); I != E; ++I) 1746 builder.generateNode(I, state); 1747 } 1748 1749 #if 0 1750 static bool stackFrameDoesNotContainInitializedTemporaries(ExplodedNode &Pred) { 1751 const StackFrameContext* Frame = Pred.getStackFrame(); 1752 const llvm::ImmutableSet<CXXBindTemporaryContext> &Set = 1753 Pred.getState()->get<InitializedTemporariesSet>(); 1754 return std::find_if(Set.begin(), Set.end(), 1755 [&](const CXXBindTemporaryContext &Ctx) { 1756 if (Ctx.second == Frame) { 1757 Ctx.first->dump(); 1758 llvm::errs() << "\n"; 1759 } 1760 return Ctx.second == Frame; 1761 }) == Set.end(); 1762 } 1763 #endif 1764 1765 void ExprEngine::processBeginOfFunction(NodeBuilderContext &BC, 1766 ExplodedNode *Pred, 1767 ExplodedNodeSet &Dst, 1768 const BlockEdge &L) { 1769 SaveAndRestore<const NodeBuilderContext *> NodeContextRAII(currBldrCtx, &BC); 1770 getCheckerManager().runCheckersForBeginFunction(Dst, L, Pred, *this); 1771 } 1772 1773 /// ProcessEndPath - Called by CoreEngine. Used to generate end-of-path 1774 /// nodes when the control reaches the end of a function. 1775 void ExprEngine::processEndOfFunction(NodeBuilderContext& BC, 1776 ExplodedNode *Pred) { 1777 // FIXME: Assert that stackFrameDoesNotContainInitializedTemporaries(*Pred)). 1778 // We currently cannot enable this assert, as lifetime extended temporaries 1779 // are not modelled correctly. 1780 PrettyStackTraceLocationContext CrashInfo(Pred->getLocationContext()); 1781 StateMgr.EndPath(Pred->getState()); 1782 1783 ExplodedNodeSet Dst; 1784 if (Pred->getLocationContext()->inTopFrame()) { 1785 // Remove dead symbols. 1786 ExplodedNodeSet AfterRemovedDead; 1787 removeDeadOnEndOfFunction(BC, Pred, AfterRemovedDead); 1788 1789 // Notify checkers. 1790 for (ExplodedNodeSet::iterator I = AfterRemovedDead.begin(), 1791 E = AfterRemovedDead.end(); I != E; ++I) { 1792 getCheckerManager().runCheckersForEndFunction(BC, Dst, *I, *this); 1793 } 1794 } else { 1795 getCheckerManager().runCheckersForEndFunction(BC, Dst, Pred, *this); 1796 } 1797 1798 Engine.enqueueEndOfFunction(Dst); 1799 } 1800 1801 /// ProcessSwitch - Called by CoreEngine. Used to generate successor 1802 /// nodes by processing the 'effects' of a switch statement. 1803 void ExprEngine::processSwitch(SwitchNodeBuilder& builder) { 1804 typedef SwitchNodeBuilder::iterator iterator; 1805 ProgramStateRef state = builder.getState(); 1806 const Expr *CondE = builder.getCondition(); 1807 SVal CondV_untested = state->getSVal(CondE, builder.getLocationContext()); 1808 1809 if (CondV_untested.isUndef()) { 1810 //ExplodedNode* N = builder.generateDefaultCaseNode(state, true); 1811 // FIXME: add checker 1812 //UndefBranches.insert(N); 1813 1814 return; 1815 } 1816 DefinedOrUnknownSVal CondV = CondV_untested.castAs<DefinedOrUnknownSVal>(); 1817 1818 ProgramStateRef DefaultSt = state; 1819 1820 iterator I = builder.begin(), EI = builder.end(); 1821 bool defaultIsFeasible = I == EI; 1822 1823 for ( ; I != EI; ++I) { 1824 // Successor may be pruned out during CFG construction. 1825 if (!I.getBlock()) 1826 continue; 1827 1828 const CaseStmt *Case = I.getCase(); 1829 1830 // Evaluate the LHS of the case value. 1831 llvm::APSInt V1 = Case->getLHS()->EvaluateKnownConstInt(getContext()); 1832 assert(V1.getBitWidth() == getContext().getTypeSize(CondE->getType())); 1833 1834 // Get the RHS of the case, if it exists. 1835 llvm::APSInt V2; 1836 if (const Expr *E = Case->getRHS()) 1837 V2 = E->EvaluateKnownConstInt(getContext()); 1838 else 1839 V2 = V1; 1840 1841 ProgramStateRef StateCase; 1842 if (Optional<NonLoc> NL = CondV.getAs<NonLoc>()) 1843 std::tie(StateCase, DefaultSt) = 1844 DefaultSt->assumeWithinInclusiveRange(*NL, V1, V2); 1845 else // UnknownVal 1846 StateCase = DefaultSt; 1847 1848 if (StateCase) 1849 builder.generateCaseStmtNode(I, StateCase); 1850 1851 // Now "assume" that the case doesn't match. Add this state 1852 // to the default state (if it is feasible). 1853 if (DefaultSt) 1854 defaultIsFeasible = true; 1855 else { 1856 defaultIsFeasible = false; 1857 break; 1858 } 1859 } 1860 1861 if (!defaultIsFeasible) 1862 return; 1863 1864 // If we have switch(enum value), the default branch is not 1865 // feasible if all of the enum constants not covered by 'case:' statements 1866 // are not feasible values for the switch condition. 1867 // 1868 // Note that this isn't as accurate as it could be. Even if there isn't 1869 // a case for a particular enum value as long as that enum value isn't 1870 // feasible then it shouldn't be considered for making 'default:' reachable. 1871 const SwitchStmt *SS = builder.getSwitch(); 1872 const Expr *CondExpr = SS->getCond()->IgnoreParenImpCasts(); 1873 if (CondExpr->getType()->getAs<EnumType>()) { 1874 if (SS->isAllEnumCasesCovered()) 1875 return; 1876 } 1877 1878 builder.generateDefaultCaseNode(DefaultSt); 1879 } 1880 1881 //===----------------------------------------------------------------------===// 1882 // Transfer functions: Loads and stores. 1883 //===----------------------------------------------------------------------===// 1884 1885 void ExprEngine::VisitCommonDeclRefExpr(const Expr *Ex, const NamedDecl *D, 1886 ExplodedNode *Pred, 1887 ExplodedNodeSet &Dst) { 1888 StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx); 1889 1890 ProgramStateRef state = Pred->getState(); 1891 const LocationContext *LCtx = Pred->getLocationContext(); 1892 1893 if (const VarDecl *VD = dyn_cast<VarDecl>(D)) { 1894 // C permits "extern void v", and if you cast the address to a valid type, 1895 // you can even do things with it. We simply pretend 1896 assert(Ex->isGLValue() || VD->getType()->isVoidType()); 1897 const LocationContext *LocCtxt = Pred->getLocationContext(); 1898 const Decl *D = LocCtxt->getDecl(); 1899 const auto *MD = D ? dyn_cast<CXXMethodDecl>(D) : nullptr; 1900 const auto *DeclRefEx = dyn_cast<DeclRefExpr>(Ex); 1901 SVal V; 1902 bool IsReference; 1903 if (AMgr.options.shouldInlineLambdas() && DeclRefEx && 1904 DeclRefEx->refersToEnclosingVariableOrCapture() && MD && 1905 MD->getParent()->isLambda()) { 1906 // Lookup the field of the lambda. 1907 const CXXRecordDecl *CXXRec = MD->getParent(); 1908 llvm::DenseMap<const VarDecl *, FieldDecl *> LambdaCaptureFields; 1909 FieldDecl *LambdaThisCaptureField; 1910 CXXRec->getCaptureFields(LambdaCaptureFields, LambdaThisCaptureField); 1911 const FieldDecl *FD = LambdaCaptureFields[VD]; 1912 if (!FD) { 1913 // When a constant is captured, sometimes no corresponding field is 1914 // created in the lambda object. 1915 assert(VD->getType().isConstQualified()); 1916 V = state->getLValue(VD, LocCtxt); 1917 IsReference = false; 1918 } else { 1919 Loc CXXThis = 1920 svalBuilder.getCXXThis(MD, LocCtxt->getCurrentStackFrame()); 1921 SVal CXXThisVal = state->getSVal(CXXThis); 1922 V = state->getLValue(FD, CXXThisVal); 1923 IsReference = FD->getType()->isReferenceType(); 1924 } 1925 } else { 1926 V = state->getLValue(VD, LocCtxt); 1927 IsReference = VD->getType()->isReferenceType(); 1928 } 1929 1930 // For references, the 'lvalue' is the pointer address stored in the 1931 // reference region. 1932 if (IsReference) { 1933 if (const MemRegion *R = V.getAsRegion()) 1934 V = state->getSVal(R); 1935 else 1936 V = UnknownVal(); 1937 } 1938 1939 Bldr.generateNode(Ex, Pred, state->BindExpr(Ex, LCtx, V), nullptr, 1940 ProgramPoint::PostLValueKind); 1941 return; 1942 } 1943 if (const EnumConstantDecl *ED = dyn_cast<EnumConstantDecl>(D)) { 1944 assert(!Ex->isGLValue()); 1945 SVal V = svalBuilder.makeIntVal(ED->getInitVal()); 1946 Bldr.generateNode(Ex, Pred, state->BindExpr(Ex, LCtx, V)); 1947 return; 1948 } 1949 if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(D)) { 1950 SVal V = svalBuilder.getFunctionPointer(FD); 1951 Bldr.generateNode(Ex, Pred, state->BindExpr(Ex, LCtx, V), nullptr, 1952 ProgramPoint::PostLValueKind); 1953 return; 1954 } 1955 if (isa<FieldDecl>(D)) { 1956 // FIXME: Compute lvalue of field pointers-to-member. 1957 // Right now we just use a non-null void pointer, so that it gives proper 1958 // results in boolean contexts. 1959 SVal V = svalBuilder.conjureSymbolVal(Ex, LCtx, getContext().VoidPtrTy, 1960 currBldrCtx->blockCount()); 1961 state = state->assume(V.castAs<DefinedOrUnknownSVal>(), true); 1962 Bldr.generateNode(Ex, Pred, state->BindExpr(Ex, LCtx, V), nullptr, 1963 ProgramPoint::PostLValueKind); 1964 return; 1965 } 1966 1967 llvm_unreachable("Support for this Decl not implemented."); 1968 } 1969 1970 /// VisitArraySubscriptExpr - Transfer function for array accesses 1971 void ExprEngine::VisitLvalArraySubscriptExpr(const ArraySubscriptExpr *A, 1972 ExplodedNode *Pred, 1973 ExplodedNodeSet &Dst){ 1974 1975 const Expr *Base = A->getBase()->IgnoreParens(); 1976 const Expr *Idx = A->getIdx()->IgnoreParens(); 1977 1978 ExplodedNodeSet checkerPreStmt; 1979 getCheckerManager().runCheckersForPreStmt(checkerPreStmt, Pred, A, *this); 1980 1981 StmtNodeBuilder Bldr(checkerPreStmt, Dst, *currBldrCtx); 1982 assert(A->isGLValue() || 1983 (!AMgr.getLangOpts().CPlusPlus && 1984 A->getType().isCForbiddenLValueType())); 1985 1986 for (ExplodedNodeSet::iterator it = checkerPreStmt.begin(), 1987 ei = checkerPreStmt.end(); it != ei; ++it) { 1988 const LocationContext *LCtx = (*it)->getLocationContext(); 1989 ProgramStateRef state = (*it)->getState(); 1990 SVal V = state->getLValue(A->getType(), 1991 state->getSVal(Idx, LCtx), 1992 state->getSVal(Base, LCtx)); 1993 Bldr.generateNode(A, *it, state->BindExpr(A, LCtx, V), nullptr, 1994 ProgramPoint::PostLValueKind); 1995 } 1996 } 1997 1998 /// VisitMemberExpr - Transfer function for member expressions. 1999 void ExprEngine::VisitMemberExpr(const MemberExpr *M, ExplodedNode *Pred, 2000 ExplodedNodeSet &Dst) { 2001 2002 // FIXME: Prechecks eventually go in ::Visit(). 2003 ExplodedNodeSet CheckedSet; 2004 getCheckerManager().runCheckersForPreStmt(CheckedSet, Pred, M, *this); 2005 2006 ExplodedNodeSet EvalSet; 2007 ValueDecl *Member = M->getMemberDecl(); 2008 2009 // Handle static member variables and enum constants accessed via 2010 // member syntax. 2011 if (isa<VarDecl>(Member) || isa<EnumConstantDecl>(Member)) { 2012 ExplodedNodeSet Dst; 2013 for (ExplodedNodeSet::iterator I = CheckedSet.begin(), E = CheckedSet.end(); 2014 I != E; ++I) { 2015 VisitCommonDeclRefExpr(M, Member, Pred, EvalSet); 2016 } 2017 } else { 2018 StmtNodeBuilder Bldr(CheckedSet, EvalSet, *currBldrCtx); 2019 ExplodedNodeSet Tmp; 2020 2021 for (ExplodedNodeSet::iterator I = CheckedSet.begin(), E = CheckedSet.end(); 2022 I != E; ++I) { 2023 ProgramStateRef state = (*I)->getState(); 2024 const LocationContext *LCtx = (*I)->getLocationContext(); 2025 Expr *BaseExpr = M->getBase(); 2026 2027 // Handle C++ method calls. 2028 if (const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(Member)) { 2029 if (MD->isInstance()) 2030 state = createTemporaryRegionIfNeeded(state, LCtx, BaseExpr); 2031 2032 SVal MDVal = svalBuilder.getFunctionPointer(MD); 2033 state = state->BindExpr(M, LCtx, MDVal); 2034 2035 Bldr.generateNode(M, *I, state); 2036 continue; 2037 } 2038 2039 // Handle regular struct fields / member variables. 2040 state = createTemporaryRegionIfNeeded(state, LCtx, BaseExpr); 2041 SVal baseExprVal = state->getSVal(BaseExpr, LCtx); 2042 2043 FieldDecl *field = cast<FieldDecl>(Member); 2044 SVal L = state->getLValue(field, baseExprVal); 2045 2046 if (M->isGLValue() || M->getType()->isArrayType()) { 2047 // We special-case rvalues of array type because the analyzer cannot 2048 // reason about them, since we expect all regions to be wrapped in Locs. 2049 // We instead treat these as lvalues and assume that they will decay to 2050 // pointers as soon as they are used. 2051 if (!M->isGLValue()) { 2052 assert(M->getType()->isArrayType()); 2053 const ImplicitCastExpr *PE = 2054 dyn_cast<ImplicitCastExpr>((*I)->getParentMap().getParent(M)); 2055 if (!PE || PE->getCastKind() != CK_ArrayToPointerDecay) { 2056 llvm_unreachable("should always be wrapped in ArrayToPointerDecay"); 2057 } 2058 } 2059 2060 if (field->getType()->isReferenceType()) { 2061 if (const MemRegion *R = L.getAsRegion()) 2062 L = state->getSVal(R); 2063 else 2064 L = UnknownVal(); 2065 } 2066 2067 Bldr.generateNode(M, *I, state->BindExpr(M, LCtx, L), nullptr, 2068 ProgramPoint::PostLValueKind); 2069 } else { 2070 Bldr.takeNodes(*I); 2071 evalLoad(Tmp, M, M, *I, state, L); 2072 Bldr.addNodes(Tmp); 2073 } 2074 } 2075 } 2076 2077 getCheckerManager().runCheckersForPostStmt(Dst, EvalSet, M, *this); 2078 } 2079 2080 void ExprEngine::VisitAtomicExpr(const AtomicExpr *AE, ExplodedNode *Pred, 2081 ExplodedNodeSet &Dst) { 2082 ExplodedNodeSet AfterPreSet; 2083 getCheckerManager().runCheckersForPreStmt(AfterPreSet, Pred, AE, *this); 2084 2085 // For now, treat all the arguments to C11 atomics as escaping. 2086 // FIXME: Ideally we should model the behavior of the atomics precisely here. 2087 2088 ExplodedNodeSet AfterInvalidateSet; 2089 StmtNodeBuilder Bldr(AfterPreSet, AfterInvalidateSet, *currBldrCtx); 2090 2091 for (ExplodedNodeSet::iterator I = AfterPreSet.begin(), E = AfterPreSet.end(); 2092 I != E; ++I) { 2093 ProgramStateRef State = (*I)->getState(); 2094 const LocationContext *LCtx = (*I)->getLocationContext(); 2095 2096 SmallVector<SVal, 8> ValuesToInvalidate; 2097 for (unsigned SI = 0, Count = AE->getNumSubExprs(); SI != Count; SI++) { 2098 const Expr *SubExpr = AE->getSubExprs()[SI]; 2099 SVal SubExprVal = State->getSVal(SubExpr, LCtx); 2100 ValuesToInvalidate.push_back(SubExprVal); 2101 } 2102 2103 State = State->invalidateRegions(ValuesToInvalidate, AE, 2104 currBldrCtx->blockCount(), 2105 LCtx, 2106 /*CausedByPointerEscape*/true, 2107 /*Symbols=*/nullptr); 2108 2109 SVal ResultVal = UnknownVal(); 2110 State = State->BindExpr(AE, LCtx, ResultVal); 2111 Bldr.generateNode(AE, *I, State, nullptr, 2112 ProgramPoint::PostStmtKind); 2113 } 2114 2115 getCheckerManager().runCheckersForPostStmt(Dst, AfterInvalidateSet, AE, *this); 2116 } 2117 2118 namespace { 2119 class CollectReachableSymbolsCallback final : public SymbolVisitor { 2120 InvalidatedSymbols Symbols; 2121 2122 public: 2123 CollectReachableSymbolsCallback(ProgramStateRef State) {} 2124 const InvalidatedSymbols &getSymbols() const { return Symbols; } 2125 2126 bool VisitSymbol(SymbolRef Sym) override { 2127 Symbols.insert(Sym); 2128 return true; 2129 } 2130 }; 2131 } // end anonymous namespace 2132 2133 // A value escapes in three possible cases: 2134 // (1) We are binding to something that is not a memory region. 2135 // (2) We are binding to a MemrRegion that does not have stack storage. 2136 // (3) We are binding to a MemRegion with stack storage that the store 2137 // does not understand. 2138 ProgramStateRef ExprEngine::processPointerEscapedOnBind(ProgramStateRef State, 2139 SVal Loc, SVal Val) { 2140 // Are we storing to something that causes the value to "escape"? 2141 bool escapes = true; 2142 2143 // TODO: Move to StoreManager. 2144 if (Optional<loc::MemRegionVal> regionLoc = Loc.getAs<loc::MemRegionVal>()) { 2145 escapes = !regionLoc->getRegion()->hasStackStorage(); 2146 2147 if (!escapes) { 2148 // To test (3), generate a new state with the binding added. If it is 2149 // the same state, then it escapes (since the store cannot represent 2150 // the binding). 2151 // Do this only if we know that the store is not supposed to generate the 2152 // same state. 2153 SVal StoredVal = State->getSVal(regionLoc->getRegion()); 2154 if (StoredVal != Val) 2155 escapes = (State == (State->bindLoc(*regionLoc, Val))); 2156 } 2157 } 2158 2159 // If our store can represent the binding and we aren't storing to something 2160 // that doesn't have local storage then just return and have the simulation 2161 // state continue as is. 2162 if (!escapes) 2163 return State; 2164 2165 // Otherwise, find all symbols referenced by 'val' that we are tracking 2166 // and stop tracking them. 2167 CollectReachableSymbolsCallback Scanner = 2168 State->scanReachableSymbols<CollectReachableSymbolsCallback>(Val); 2169 const InvalidatedSymbols &EscapedSymbols = Scanner.getSymbols(); 2170 State = getCheckerManager().runCheckersForPointerEscape(State, 2171 EscapedSymbols, 2172 /*CallEvent*/ nullptr, 2173 PSK_EscapeOnBind, 2174 nullptr); 2175 2176 return State; 2177 } 2178 2179 ProgramStateRef 2180 ExprEngine::notifyCheckersOfPointerEscape(ProgramStateRef State, 2181 const InvalidatedSymbols *Invalidated, 2182 ArrayRef<const MemRegion *> ExplicitRegions, 2183 ArrayRef<const MemRegion *> Regions, 2184 const CallEvent *Call, 2185 RegionAndSymbolInvalidationTraits &ITraits) { 2186 2187 if (!Invalidated || Invalidated->empty()) 2188 return State; 2189 2190 if (!Call) 2191 return getCheckerManager().runCheckersForPointerEscape(State, 2192 *Invalidated, 2193 nullptr, 2194 PSK_EscapeOther, 2195 &ITraits); 2196 2197 // If the symbols were invalidated by a call, we want to find out which ones 2198 // were invalidated directly due to being arguments to the call. 2199 InvalidatedSymbols SymbolsDirectlyInvalidated; 2200 for (ArrayRef<const MemRegion *>::iterator I = ExplicitRegions.begin(), 2201 E = ExplicitRegions.end(); I != E; ++I) { 2202 if (const SymbolicRegion *R = (*I)->StripCasts()->getAs<SymbolicRegion>()) 2203 SymbolsDirectlyInvalidated.insert(R->getSymbol()); 2204 } 2205 2206 InvalidatedSymbols SymbolsIndirectlyInvalidated; 2207 for (InvalidatedSymbols::const_iterator I=Invalidated->begin(), 2208 E = Invalidated->end(); I!=E; ++I) { 2209 SymbolRef sym = *I; 2210 if (SymbolsDirectlyInvalidated.count(sym)) 2211 continue; 2212 SymbolsIndirectlyInvalidated.insert(sym); 2213 } 2214 2215 if (!SymbolsDirectlyInvalidated.empty()) 2216 State = getCheckerManager().runCheckersForPointerEscape(State, 2217 SymbolsDirectlyInvalidated, Call, PSK_DirectEscapeOnCall, &ITraits); 2218 2219 // Notify about the symbols that get indirectly invalidated by the call. 2220 if (!SymbolsIndirectlyInvalidated.empty()) 2221 State = getCheckerManager().runCheckersForPointerEscape(State, 2222 SymbolsIndirectlyInvalidated, Call, PSK_IndirectEscapeOnCall, &ITraits); 2223 2224 return State; 2225 } 2226 2227 /// evalBind - Handle the semantics of binding a value to a specific location. 2228 /// This method is used by evalStore and (soon) VisitDeclStmt, and others. 2229 void ExprEngine::evalBind(ExplodedNodeSet &Dst, const Stmt *StoreE, 2230 ExplodedNode *Pred, 2231 SVal location, SVal Val, 2232 bool atDeclInit, const ProgramPoint *PP) { 2233 2234 const LocationContext *LC = Pred->getLocationContext(); 2235 PostStmt PS(StoreE, LC); 2236 if (!PP) 2237 PP = &PS; 2238 2239 // Do a previsit of the bind. 2240 ExplodedNodeSet CheckedSet; 2241 getCheckerManager().runCheckersForBind(CheckedSet, Pred, location, Val, 2242 StoreE, *this, *PP); 2243 2244 StmtNodeBuilder Bldr(CheckedSet, Dst, *currBldrCtx); 2245 2246 // If the location is not a 'Loc', it will already be handled by 2247 // the checkers. There is nothing left to do. 2248 if (!location.getAs<Loc>()) { 2249 const ProgramPoint L = PostStore(StoreE, LC, /*Loc*/nullptr, 2250 /*tag*/nullptr); 2251 ProgramStateRef state = Pred->getState(); 2252 state = processPointerEscapedOnBind(state, location, Val); 2253 Bldr.generateNode(L, state, Pred); 2254 return; 2255 } 2256 2257 for (ExplodedNodeSet::iterator I = CheckedSet.begin(), E = CheckedSet.end(); 2258 I!=E; ++I) { 2259 ExplodedNode *PredI = *I; 2260 ProgramStateRef state = PredI->getState(); 2261 2262 state = processPointerEscapedOnBind(state, location, Val); 2263 2264 // When binding the value, pass on the hint that this is a initialization. 2265 // For initializations, we do not need to inform clients of region 2266 // changes. 2267 state = state->bindLoc(location.castAs<Loc>(), 2268 Val, /* notifyChanges = */ !atDeclInit); 2269 2270 const MemRegion *LocReg = nullptr; 2271 if (Optional<loc::MemRegionVal> LocRegVal = 2272 location.getAs<loc::MemRegionVal>()) { 2273 LocReg = LocRegVal->getRegion(); 2274 } 2275 2276 const ProgramPoint L = PostStore(StoreE, LC, LocReg, nullptr); 2277 Bldr.generateNode(L, state, PredI); 2278 } 2279 } 2280 2281 /// evalStore - Handle the semantics of a store via an assignment. 2282 /// @param Dst The node set to store generated state nodes 2283 /// @param AssignE The assignment expression if the store happens in an 2284 /// assignment. 2285 /// @param LocationE The location expression that is stored to. 2286 /// @param state The current simulation state 2287 /// @param location The location to store the value 2288 /// @param Val The value to be stored 2289 void ExprEngine::evalStore(ExplodedNodeSet &Dst, const Expr *AssignE, 2290 const Expr *LocationE, 2291 ExplodedNode *Pred, 2292 ProgramStateRef state, SVal location, SVal Val, 2293 const ProgramPointTag *tag) { 2294 // Proceed with the store. We use AssignE as the anchor for the PostStore 2295 // ProgramPoint if it is non-NULL, and LocationE otherwise. 2296 const Expr *StoreE = AssignE ? AssignE : LocationE; 2297 2298 // Evaluate the location (checks for bad dereferences). 2299 ExplodedNodeSet Tmp; 2300 evalLocation(Tmp, AssignE, LocationE, Pred, state, location, tag, false); 2301 2302 if (Tmp.empty()) 2303 return; 2304 2305 if (location.isUndef()) 2306 return; 2307 2308 for (ExplodedNodeSet::iterator NI=Tmp.begin(), NE=Tmp.end(); NI!=NE; ++NI) 2309 evalBind(Dst, StoreE, *NI, location, Val, false); 2310 } 2311 2312 void ExprEngine::evalLoad(ExplodedNodeSet &Dst, 2313 const Expr *NodeEx, 2314 const Expr *BoundEx, 2315 ExplodedNode *Pred, 2316 ProgramStateRef state, 2317 SVal location, 2318 const ProgramPointTag *tag, 2319 QualType LoadTy) 2320 { 2321 assert(!location.getAs<NonLoc>() && "location cannot be a NonLoc."); 2322 2323 // Are we loading from a region? This actually results in two loads; one 2324 // to fetch the address of the referenced value and one to fetch the 2325 // referenced value. 2326 if (const TypedValueRegion *TR = 2327 dyn_cast_or_null<TypedValueRegion>(location.getAsRegion())) { 2328 2329 QualType ValTy = TR->getValueType(); 2330 if (const ReferenceType *RT = ValTy->getAs<ReferenceType>()) { 2331 static SimpleProgramPointTag 2332 loadReferenceTag(TagProviderName, "Load Reference"); 2333 ExplodedNodeSet Tmp; 2334 evalLoadCommon(Tmp, NodeEx, BoundEx, Pred, state, 2335 location, &loadReferenceTag, 2336 getContext().getPointerType(RT->getPointeeType())); 2337 2338 // Perform the load from the referenced value. 2339 for (ExplodedNodeSet::iterator I=Tmp.begin(), E=Tmp.end() ; I!=E; ++I) { 2340 state = (*I)->getState(); 2341 location = state->getSVal(BoundEx, (*I)->getLocationContext()); 2342 evalLoadCommon(Dst, NodeEx, BoundEx, *I, state, location, tag, LoadTy); 2343 } 2344 return; 2345 } 2346 } 2347 2348 evalLoadCommon(Dst, NodeEx, BoundEx, Pred, state, location, tag, LoadTy); 2349 } 2350 2351 void ExprEngine::evalLoadCommon(ExplodedNodeSet &Dst, 2352 const Expr *NodeEx, 2353 const Expr *BoundEx, 2354 ExplodedNode *Pred, 2355 ProgramStateRef state, 2356 SVal location, 2357 const ProgramPointTag *tag, 2358 QualType LoadTy) { 2359 assert(NodeEx); 2360 assert(BoundEx); 2361 // Evaluate the location (checks for bad dereferences). 2362 ExplodedNodeSet Tmp; 2363 evalLocation(Tmp, NodeEx, BoundEx, Pred, state, location, tag, true); 2364 if (Tmp.empty()) 2365 return; 2366 2367 StmtNodeBuilder Bldr(Tmp, Dst, *currBldrCtx); 2368 if (location.isUndef()) 2369 return; 2370 2371 // Proceed with the load. 2372 for (ExplodedNodeSet::iterator NI=Tmp.begin(), NE=Tmp.end(); NI!=NE; ++NI) { 2373 state = (*NI)->getState(); 2374 const LocationContext *LCtx = (*NI)->getLocationContext(); 2375 2376 SVal V = UnknownVal(); 2377 if (location.isValid()) { 2378 if (LoadTy.isNull()) 2379 LoadTy = BoundEx->getType(); 2380 V = state->getSVal(location.castAs<Loc>(), LoadTy); 2381 } 2382 2383 Bldr.generateNode(NodeEx, *NI, state->BindExpr(BoundEx, LCtx, V), tag, 2384 ProgramPoint::PostLoadKind); 2385 } 2386 } 2387 2388 void ExprEngine::evalLocation(ExplodedNodeSet &Dst, 2389 const Stmt *NodeEx, 2390 const Stmt *BoundEx, 2391 ExplodedNode *Pred, 2392 ProgramStateRef state, 2393 SVal location, 2394 const ProgramPointTag *tag, 2395 bool isLoad) { 2396 StmtNodeBuilder BldrTop(Pred, Dst, *currBldrCtx); 2397 // Early checks for performance reason. 2398 if (location.isUnknown()) { 2399 return; 2400 } 2401 2402 ExplodedNodeSet Src; 2403 BldrTop.takeNodes(Pred); 2404 StmtNodeBuilder Bldr(Pred, Src, *currBldrCtx); 2405 if (Pred->getState() != state) { 2406 // Associate this new state with an ExplodedNode. 2407 // FIXME: If I pass null tag, the graph is incorrect, e.g for 2408 // int *p; 2409 // p = 0; 2410 // *p = 0xDEADBEEF; 2411 // "p = 0" is not noted as "Null pointer value stored to 'p'" but 2412 // instead "int *p" is noted as 2413 // "Variable 'p' initialized to a null pointer value" 2414 2415 static SimpleProgramPointTag tag(TagProviderName, "Location"); 2416 Bldr.generateNode(NodeEx, Pred, state, &tag); 2417 } 2418 ExplodedNodeSet Tmp; 2419 getCheckerManager().runCheckersForLocation(Tmp, Src, location, isLoad, 2420 NodeEx, BoundEx, *this); 2421 BldrTop.addNodes(Tmp); 2422 } 2423 2424 std::pair<const ProgramPointTag *, const ProgramPointTag*> 2425 ExprEngine::geteagerlyAssumeBinOpBifurcationTags() { 2426 static SimpleProgramPointTag 2427 eagerlyAssumeBinOpBifurcationTrue(TagProviderName, 2428 "Eagerly Assume True"), 2429 eagerlyAssumeBinOpBifurcationFalse(TagProviderName, 2430 "Eagerly Assume False"); 2431 return std::make_pair(&eagerlyAssumeBinOpBifurcationTrue, 2432 &eagerlyAssumeBinOpBifurcationFalse); 2433 } 2434 2435 void ExprEngine::evalEagerlyAssumeBinOpBifurcation(ExplodedNodeSet &Dst, 2436 ExplodedNodeSet &Src, 2437 const Expr *Ex) { 2438 StmtNodeBuilder Bldr(Src, Dst, *currBldrCtx); 2439 2440 for (ExplodedNodeSet::iterator I=Src.begin(), E=Src.end(); I!=E; ++I) { 2441 ExplodedNode *Pred = *I; 2442 // Test if the previous node was as the same expression. This can happen 2443 // when the expression fails to evaluate to anything meaningful and 2444 // (as an optimization) we don't generate a node. 2445 ProgramPoint P = Pred->getLocation(); 2446 if (!P.getAs<PostStmt>() || P.castAs<PostStmt>().getStmt() != Ex) { 2447 continue; 2448 } 2449 2450 ProgramStateRef state = Pred->getState(); 2451 SVal V = state->getSVal(Ex, Pred->getLocationContext()); 2452 Optional<nonloc::SymbolVal> SEV = V.getAs<nonloc::SymbolVal>(); 2453 if (SEV && SEV->isExpression()) { 2454 const std::pair<const ProgramPointTag *, const ProgramPointTag*> &tags = 2455 geteagerlyAssumeBinOpBifurcationTags(); 2456 2457 ProgramStateRef StateTrue, StateFalse; 2458 std::tie(StateTrue, StateFalse) = state->assume(*SEV); 2459 2460 // First assume that the condition is true. 2461 if (StateTrue) { 2462 SVal Val = svalBuilder.makeIntVal(1U, Ex->getType()); 2463 StateTrue = StateTrue->BindExpr(Ex, Pred->getLocationContext(), Val); 2464 Bldr.generateNode(Ex, Pred, StateTrue, tags.first); 2465 } 2466 2467 // Next, assume that the condition is false. 2468 if (StateFalse) { 2469 SVal Val = svalBuilder.makeIntVal(0U, Ex->getType()); 2470 StateFalse = StateFalse->BindExpr(Ex, Pred->getLocationContext(), Val); 2471 Bldr.generateNode(Ex, Pred, StateFalse, tags.second); 2472 } 2473 } 2474 } 2475 } 2476 2477 void ExprEngine::VisitGCCAsmStmt(const GCCAsmStmt *A, ExplodedNode *Pred, 2478 ExplodedNodeSet &Dst) { 2479 StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx); 2480 // We have processed both the inputs and the outputs. All of the outputs 2481 // should evaluate to Locs. Nuke all of their values. 2482 2483 // FIXME: Some day in the future it would be nice to allow a "plug-in" 2484 // which interprets the inline asm and stores proper results in the 2485 // outputs. 2486 2487 ProgramStateRef state = Pred->getState(); 2488 2489 for (const Expr *O : A->outputs()) { 2490 SVal X = state->getSVal(O, Pred->getLocationContext()); 2491 assert (!X.getAs<NonLoc>()); // Should be an Lval, or unknown, undef. 2492 2493 if (Optional<Loc> LV = X.getAs<Loc>()) 2494 state = state->bindLoc(*LV, UnknownVal()); 2495 } 2496 2497 Bldr.generateNode(A, Pred, state); 2498 } 2499 2500 void ExprEngine::VisitMSAsmStmt(const MSAsmStmt *A, ExplodedNode *Pred, 2501 ExplodedNodeSet &Dst) { 2502 StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx); 2503 Bldr.generateNode(A, Pred, Pred->getState()); 2504 } 2505 2506 //===----------------------------------------------------------------------===// 2507 // Visualization. 2508 //===----------------------------------------------------------------------===// 2509 2510 #ifndef NDEBUG 2511 static ExprEngine* GraphPrintCheckerState; 2512 static SourceManager* GraphPrintSourceManager; 2513 2514 namespace llvm { 2515 template<> 2516 struct DOTGraphTraits<ExplodedNode*> : 2517 public DefaultDOTGraphTraits { 2518 2519 DOTGraphTraits (bool isSimple=false) : DefaultDOTGraphTraits(isSimple) {} 2520 2521 // FIXME: Since we do not cache error nodes in ExprEngine now, this does not 2522 // work. 2523 static std::string getNodeAttributes(const ExplodedNode *N, void*) { 2524 return ""; 2525 } 2526 2527 // De-duplicate some source location pretty-printing. 2528 static void printLocation(raw_ostream &Out, SourceLocation SLoc) { 2529 if (SLoc.isFileID()) { 2530 Out << "\\lline=" 2531 << GraphPrintSourceManager->getExpansionLineNumber(SLoc) 2532 << " col=" 2533 << GraphPrintSourceManager->getExpansionColumnNumber(SLoc) 2534 << "\\l"; 2535 } 2536 } 2537 static void printLocation2(raw_ostream &Out, SourceLocation SLoc) { 2538 if (SLoc.isFileID() && GraphPrintSourceManager->isInMainFile(SLoc)) 2539 Out << "line " << GraphPrintSourceManager->getExpansionLineNumber(SLoc); 2540 else 2541 SLoc.print(Out, *GraphPrintSourceManager); 2542 } 2543 2544 static std::string getNodeLabel(const ExplodedNode *N, void*){ 2545 2546 std::string sbuf; 2547 llvm::raw_string_ostream Out(sbuf); 2548 2549 // Program Location. 2550 ProgramPoint Loc = N->getLocation(); 2551 2552 switch (Loc.getKind()) { 2553 case ProgramPoint::BlockEntranceKind: { 2554 Out << "Block Entrance: B" 2555 << Loc.castAs<BlockEntrance>().getBlock()->getBlockID(); 2556 break; 2557 } 2558 2559 case ProgramPoint::BlockExitKind: 2560 assert (false); 2561 break; 2562 2563 case ProgramPoint::CallEnterKind: 2564 Out << "CallEnter"; 2565 break; 2566 2567 case ProgramPoint::CallExitBeginKind: 2568 Out << "CallExitBegin"; 2569 break; 2570 2571 case ProgramPoint::CallExitEndKind: 2572 Out << "CallExitEnd"; 2573 break; 2574 2575 case ProgramPoint::PostStmtPurgeDeadSymbolsKind: 2576 Out << "PostStmtPurgeDeadSymbols"; 2577 break; 2578 2579 case ProgramPoint::PreStmtPurgeDeadSymbolsKind: 2580 Out << "PreStmtPurgeDeadSymbols"; 2581 break; 2582 2583 case ProgramPoint::EpsilonKind: 2584 Out << "Epsilon Point"; 2585 break; 2586 2587 case ProgramPoint::PreImplicitCallKind: { 2588 ImplicitCallPoint PC = Loc.castAs<ImplicitCallPoint>(); 2589 Out << "PreCall: "; 2590 2591 // FIXME: Get proper printing options. 2592 PC.getDecl()->print(Out, LangOptions()); 2593 printLocation(Out, PC.getLocation()); 2594 break; 2595 } 2596 2597 case ProgramPoint::PostImplicitCallKind: { 2598 ImplicitCallPoint PC = Loc.castAs<ImplicitCallPoint>(); 2599 Out << "PostCall: "; 2600 2601 // FIXME: Get proper printing options. 2602 PC.getDecl()->print(Out, LangOptions()); 2603 printLocation(Out, PC.getLocation()); 2604 break; 2605 } 2606 2607 case ProgramPoint::PostInitializerKind: { 2608 Out << "PostInitializer: "; 2609 const CXXCtorInitializer *Init = 2610 Loc.castAs<PostInitializer>().getInitializer(); 2611 if (const FieldDecl *FD = Init->getAnyMember()) 2612 Out << *FD; 2613 else { 2614 QualType Ty = Init->getTypeSourceInfo()->getType(); 2615 Ty = Ty.getLocalUnqualifiedType(); 2616 LangOptions LO; // FIXME. 2617 Ty.print(Out, LO); 2618 } 2619 break; 2620 } 2621 2622 case ProgramPoint::BlockEdgeKind: { 2623 const BlockEdge &E = Loc.castAs<BlockEdge>(); 2624 Out << "Edge: (B" << E.getSrc()->getBlockID() << ", B" 2625 << E.getDst()->getBlockID() << ')'; 2626 2627 if (const Stmt *T = E.getSrc()->getTerminator()) { 2628 SourceLocation SLoc = T->getLocStart(); 2629 2630 Out << "\\|Terminator: "; 2631 LangOptions LO; // FIXME. 2632 E.getSrc()->printTerminator(Out, LO); 2633 2634 if (SLoc.isFileID()) { 2635 Out << "\\lline=" 2636 << GraphPrintSourceManager->getExpansionLineNumber(SLoc) 2637 << " col=" 2638 << GraphPrintSourceManager->getExpansionColumnNumber(SLoc); 2639 } 2640 2641 if (isa<SwitchStmt>(T)) { 2642 const Stmt *Label = E.getDst()->getLabel(); 2643 2644 if (Label) { 2645 if (const CaseStmt *C = dyn_cast<CaseStmt>(Label)) { 2646 Out << "\\lcase "; 2647 LangOptions LO; // FIXME. 2648 if (C->getLHS()) 2649 C->getLHS()->printPretty(Out, nullptr, PrintingPolicy(LO)); 2650 2651 if (const Stmt *RHS = C->getRHS()) { 2652 Out << " .. "; 2653 RHS->printPretty(Out, nullptr, PrintingPolicy(LO)); 2654 } 2655 2656 Out << ":"; 2657 } 2658 else { 2659 assert (isa<DefaultStmt>(Label)); 2660 Out << "\\ldefault:"; 2661 } 2662 } 2663 else 2664 Out << "\\l(implicit) default:"; 2665 } 2666 else if (isa<IndirectGotoStmt>(T)) { 2667 // FIXME 2668 } 2669 else { 2670 Out << "\\lCondition: "; 2671 if (*E.getSrc()->succ_begin() == E.getDst()) 2672 Out << "true"; 2673 else 2674 Out << "false"; 2675 } 2676 2677 Out << "\\l"; 2678 } 2679 2680 break; 2681 } 2682 2683 default: { 2684 const Stmt *S = Loc.castAs<StmtPoint>().getStmt(); 2685 assert(S != nullptr && "Expecting non-null Stmt"); 2686 2687 Out << S->getStmtClassName() << ' ' << (const void*) S << ' '; 2688 LangOptions LO; // FIXME. 2689 S->printPretty(Out, nullptr, PrintingPolicy(LO)); 2690 printLocation(Out, S->getLocStart()); 2691 2692 if (Loc.getAs<PreStmt>()) 2693 Out << "\\lPreStmt\\l;"; 2694 else if (Loc.getAs<PostLoad>()) 2695 Out << "\\lPostLoad\\l;"; 2696 else if (Loc.getAs<PostStore>()) 2697 Out << "\\lPostStore\\l"; 2698 else if (Loc.getAs<PostLValue>()) 2699 Out << "\\lPostLValue\\l"; 2700 2701 break; 2702 } 2703 } 2704 2705 ProgramStateRef state = N->getState(); 2706 Out << "\\|StateID: " << (const void*) state.get() 2707 << " NodeID: " << (const void*) N << "\\|"; 2708 2709 // Analysis stack backtrace. 2710 Out << "Location context stack (from current to outer):\\l"; 2711 const LocationContext *LC = Loc.getLocationContext(); 2712 unsigned Idx = 0; 2713 for (; LC; LC = LC->getParent(), ++Idx) { 2714 Out << Idx << ". (" << (const void *)LC << ") "; 2715 switch (LC->getKind()) { 2716 case LocationContext::StackFrame: 2717 if (const NamedDecl *D = dyn_cast<NamedDecl>(LC->getDecl())) 2718 Out << "Calling " << D->getQualifiedNameAsString(); 2719 else 2720 Out << "Calling anonymous code"; 2721 if (const Stmt *S = cast<StackFrameContext>(LC)->getCallSite()) { 2722 Out << " at "; 2723 printLocation2(Out, S->getLocStart()); 2724 } 2725 break; 2726 case LocationContext::Block: 2727 Out << "Invoking block"; 2728 if (const Decl *D = cast<BlockInvocationContext>(LC)->getBlockDecl()) { 2729 Out << " defined at "; 2730 printLocation2(Out, D->getLocStart()); 2731 } 2732 break; 2733 case LocationContext::Scope: 2734 Out << "Entering scope"; 2735 // FIXME: Add more info once ScopeContext is activated. 2736 break; 2737 } 2738 Out << "\\l"; 2739 } 2740 Out << "\\l"; 2741 2742 state->printDOT(Out); 2743 2744 Out << "\\l"; 2745 2746 if (const ProgramPointTag *tag = Loc.getTag()) { 2747 Out << "\\|Tag: " << tag->getTagDescription(); 2748 Out << "\\l"; 2749 } 2750 return Out.str(); 2751 } 2752 }; 2753 } // end llvm namespace 2754 #endif 2755 2756 void ExprEngine::ViewGraph(bool trim) { 2757 #ifndef NDEBUG 2758 if (trim) { 2759 std::vector<const ExplodedNode*> Src; 2760 2761 // Flush any outstanding reports to make sure we cover all the nodes. 2762 // This does not cause them to get displayed. 2763 for (BugReporter::iterator I=BR.begin(), E=BR.end(); I!=E; ++I) 2764 const_cast<BugType*>(*I)->FlushReports(BR); 2765 2766 // Iterate through the reports and get their nodes. 2767 for (BugReporter::EQClasses_iterator 2768 EI = BR.EQClasses_begin(), EE = BR.EQClasses_end(); EI != EE; ++EI) { 2769 ExplodedNode *N = const_cast<ExplodedNode*>(EI->begin()->getErrorNode()); 2770 if (N) Src.push_back(N); 2771 } 2772 2773 ViewGraph(Src); 2774 } 2775 else { 2776 GraphPrintCheckerState = this; 2777 GraphPrintSourceManager = &getContext().getSourceManager(); 2778 2779 llvm::ViewGraph(*G.roots_begin(), "ExprEngine"); 2780 2781 GraphPrintCheckerState = nullptr; 2782 GraphPrintSourceManager = nullptr; 2783 } 2784 #endif 2785 } 2786 2787 void ExprEngine::ViewGraph(ArrayRef<const ExplodedNode*> Nodes) { 2788 #ifndef NDEBUG 2789 GraphPrintCheckerState = this; 2790 GraphPrintSourceManager = &getContext().getSourceManager(); 2791 2792 std::unique_ptr<ExplodedGraph> TrimmedG(G.trim(Nodes)); 2793 2794 if (!TrimmedG.get()) 2795 llvm::errs() << "warning: Trimmed ExplodedGraph is empty.\n"; 2796 else 2797 llvm::ViewGraph(*TrimmedG->roots_begin(), "TrimmedExprEngine"); 2798 2799 GraphPrintCheckerState = nullptr; 2800 GraphPrintSourceManager = nullptr; 2801 #endif 2802 } 2803