1 //===- ExprEngine.cpp - Path-Sensitive Expression-Level Dataflow ----------===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 // 9 // This file defines a meta-engine for path-sensitive dataflow analysis that 10 // is built on GREngine, but provides the boilerplate to execute transfer 11 // functions and build the ExplodedGraph at the expression level. 12 // 13 //===----------------------------------------------------------------------===// 14 15 #include "clang/StaticAnalyzer/Core/PathSensitive/ExprEngine.h" 16 #include "PrettyStackTraceLocationContext.h" 17 #include "clang/AST/ASTContext.h" 18 #include "clang/AST/Decl.h" 19 #include "clang/AST/DeclBase.h" 20 #include "clang/AST/DeclCXX.h" 21 #include "clang/AST/DeclObjC.h" 22 #include "clang/AST/Expr.h" 23 #include "clang/AST/ExprCXX.h" 24 #include "clang/AST/ExprObjC.h" 25 #include "clang/AST/ParentMap.h" 26 #include "clang/AST/PrettyPrinter.h" 27 #include "clang/AST/Stmt.h" 28 #include "clang/AST/StmtCXX.h" 29 #include "clang/AST/StmtObjC.h" 30 #include "clang/AST/Type.h" 31 #include "clang/Analysis/AnalysisDeclContext.h" 32 #include "clang/Analysis/CFG.h" 33 #include "clang/Analysis/ConstructionContext.h" 34 #include "clang/Analysis/ProgramPoint.h" 35 #include "clang/Basic/IdentifierTable.h" 36 #include "clang/Basic/JsonSupport.h" 37 #include "clang/Basic/LLVM.h" 38 #include "clang/Basic/LangOptions.h" 39 #include "clang/Basic/PrettyStackTrace.h" 40 #include "clang/Basic/SourceLocation.h" 41 #include "clang/Basic/SourceManager.h" 42 #include "clang/Basic/Specifiers.h" 43 #include "clang/StaticAnalyzer/Core/AnalyzerOptions.h" 44 #include "clang/StaticAnalyzer/Core/BugReporter/BugReporter.h" 45 #include "clang/StaticAnalyzer/Core/BugReporter/BugType.h" 46 #include "clang/StaticAnalyzer/Core/CheckerManager.h" 47 #include "clang/StaticAnalyzer/Core/PathSensitive/AnalysisManager.h" 48 #include "clang/StaticAnalyzer/Core/PathSensitive/CallEvent.h" 49 #include "clang/StaticAnalyzer/Core/PathSensitive/ConstraintManager.h" 50 #include "clang/StaticAnalyzer/Core/PathSensitive/CoreEngine.h" 51 #include "clang/StaticAnalyzer/Core/PathSensitive/ExplodedGraph.h" 52 #include "clang/StaticAnalyzer/Core/PathSensitive/LoopUnrolling.h" 53 #include "clang/StaticAnalyzer/Core/PathSensitive/LoopWidening.h" 54 #include "clang/StaticAnalyzer/Core/PathSensitive/MemRegion.h" 55 #include "clang/StaticAnalyzer/Core/PathSensitive/ProgramState.h" 56 #include "clang/StaticAnalyzer/Core/PathSensitive/ProgramStateTrait.h" 57 #include "clang/StaticAnalyzer/Core/PathSensitive/ProgramState_Fwd.h" 58 #include "clang/StaticAnalyzer/Core/PathSensitive/SValBuilder.h" 59 #include "clang/StaticAnalyzer/Core/PathSensitive/SVals.h" 60 #include "clang/StaticAnalyzer/Core/PathSensitive/Store.h" 61 #include "clang/StaticAnalyzer/Core/PathSensitive/SymExpr.h" 62 #include "clang/StaticAnalyzer/Core/PathSensitive/SymbolManager.h" 63 #include "llvm/ADT/APSInt.h" 64 #include "llvm/ADT/DenseMap.h" 65 #include "llvm/ADT/ImmutableMap.h" 66 #include "llvm/ADT/ImmutableSet.h" 67 #include "llvm/ADT/Optional.h" 68 #include "llvm/ADT/SmallVector.h" 69 #include "llvm/ADT/Statistic.h" 70 #include "llvm/Support/Casting.h" 71 #include "llvm/Support/Compiler.h" 72 #include "llvm/Support/DOTGraphTraits.h" 73 #include "llvm/Support/ErrorHandling.h" 74 #include "llvm/Support/GraphWriter.h" 75 #include "llvm/Support/SaveAndRestore.h" 76 #include "llvm/Support/raw_ostream.h" 77 #include <cassert> 78 #include <cstdint> 79 #include <memory> 80 #include <string> 81 #include <tuple> 82 #include <utility> 83 #include <vector> 84 85 using namespace clang; 86 using namespace ento; 87 88 #define DEBUG_TYPE "ExprEngine" 89 90 STATISTIC(NumRemoveDeadBindings, 91 "The # of times RemoveDeadBindings is called"); 92 STATISTIC(NumMaxBlockCountReached, 93 "The # of aborted paths due to reaching the maximum block count in " 94 "a top level function"); 95 STATISTIC(NumMaxBlockCountReachedInInlined, 96 "The # of aborted paths due to reaching the maximum block count in " 97 "an inlined function"); 98 STATISTIC(NumTimesRetriedWithoutInlining, 99 "The # of times we re-evaluated a call without inlining"); 100 101 //===----------------------------------------------------------------------===// 102 // Internal program state traits. 103 //===----------------------------------------------------------------------===// 104 105 namespace { 106 107 // When modeling a C++ constructor, for a variety of reasons we need to track 108 // the location of the object for the duration of its ConstructionContext. 109 // ObjectsUnderConstruction maps statements within the construction context 110 // to the object's location, so that on every such statement the location 111 // could have been retrieved. 112 113 /// ConstructedObjectKey is used for being able to find the path-sensitive 114 /// memory region of a freshly constructed object while modeling the AST node 115 /// that syntactically represents the object that is being constructed. 116 /// Semantics of such nodes may sometimes require access to the region that's 117 /// not otherwise present in the program state, or to the very fact that 118 /// the construction context was present and contained references to these 119 /// AST nodes. 120 class ConstructedObjectKey { 121 typedef std::pair<ConstructionContextItem, const LocationContext *> 122 ConstructedObjectKeyImpl; 123 124 const ConstructedObjectKeyImpl Impl; 125 126 const void *getAnyASTNodePtr() const { 127 if (const Stmt *S = getItem().getStmtOrNull()) 128 return S; 129 else 130 return getItem().getCXXCtorInitializer(); 131 } 132 133 public: 134 explicit ConstructedObjectKey(const ConstructionContextItem &Item, 135 const LocationContext *LC) 136 : Impl(Item, LC) {} 137 138 const ConstructionContextItem &getItem() const { return Impl.first; } 139 const LocationContext *getLocationContext() const { return Impl.second; } 140 141 ASTContext &getASTContext() const { 142 return getLocationContext()->getDecl()->getASTContext(); 143 } 144 145 void printJson(llvm::raw_ostream &Out, PrinterHelper *Helper, 146 PrintingPolicy &PP) const { 147 const Stmt *S = getItem().getStmtOrNull(); 148 const CXXCtorInitializer *I = nullptr; 149 if (!S) 150 I = getItem().getCXXCtorInitializer(); 151 152 if (S) 153 Out << "\"stmt_id\": " << S->getID(getASTContext()); 154 else 155 Out << "\"init_id\": " << I->getID(getASTContext()); 156 157 // Kind 158 Out << ", \"kind\": \"" << getItem().getKindAsString() 159 << "\", \"argument_index\": "; 160 161 if (getItem().getKind() == ConstructionContextItem::ArgumentKind) 162 Out << getItem().getIndex(); 163 else 164 Out << "null"; 165 166 // Pretty-print 167 Out << ", \"pretty\": "; 168 169 if (S) { 170 S->printJson(Out, Helper, PP, /*AddQuotes=*/true); 171 } else { 172 Out << '\"' << I->getAnyMember()->getDeclName() << '\"'; 173 } 174 } 175 176 void Profile(llvm::FoldingSetNodeID &ID) const { 177 ID.Add(Impl.first); 178 ID.AddPointer(Impl.second); 179 } 180 181 bool operator==(const ConstructedObjectKey &RHS) const { 182 return Impl == RHS.Impl; 183 } 184 185 bool operator<(const ConstructedObjectKey &RHS) const { 186 return Impl < RHS.Impl; 187 } 188 }; 189 } // namespace 190 191 typedef llvm::ImmutableMap<ConstructedObjectKey, SVal> 192 ObjectsUnderConstructionMap; 193 REGISTER_TRAIT_WITH_PROGRAMSTATE(ObjectsUnderConstruction, 194 ObjectsUnderConstructionMap) 195 196 //===----------------------------------------------------------------------===// 197 // Engine construction and deletion. 198 //===----------------------------------------------------------------------===// 199 200 static const char* TagProviderName = "ExprEngine"; 201 202 ExprEngine::ExprEngine(cross_tu::CrossTranslationUnitContext &CTU, 203 AnalysisManager &mgr, 204 SetOfConstDecls *VisitedCalleesIn, 205 FunctionSummariesTy *FS, 206 InliningModes HowToInlineIn) 207 : CTU(CTU), AMgr(mgr), 208 AnalysisDeclContexts(mgr.getAnalysisDeclContextManager()), 209 Engine(*this, FS, mgr.getAnalyzerOptions()), G(Engine.getGraph()), 210 StateMgr(getContext(), mgr.getStoreManagerCreator(), 211 mgr.getConstraintManagerCreator(), G.getAllocator(), 212 this), 213 SymMgr(StateMgr.getSymbolManager()), 214 MRMgr(StateMgr.getRegionManager()), 215 svalBuilder(StateMgr.getSValBuilder()), 216 ObjCNoRet(mgr.getASTContext()), 217 BR(mgr, *this), 218 VisitedCallees(VisitedCalleesIn), 219 HowToInline(HowToInlineIn) 220 { 221 unsigned TrimInterval = mgr.options.GraphTrimInterval; 222 if (TrimInterval != 0) { 223 // Enable eager node reclamation when constructing the ExplodedGraph. 224 G.enableNodeReclamation(TrimInterval); 225 } 226 } 227 228 //===----------------------------------------------------------------------===// 229 // Utility methods. 230 //===----------------------------------------------------------------------===// 231 232 ProgramStateRef ExprEngine::getInitialState(const LocationContext *InitLoc) { 233 ProgramStateRef state = StateMgr.getInitialState(InitLoc); 234 const Decl *D = InitLoc->getDecl(); 235 236 // Preconditions. 237 // FIXME: It would be nice if we had a more general mechanism to add 238 // such preconditions. Some day. 239 do { 240 if (const auto *FD = dyn_cast<FunctionDecl>(D)) { 241 // Precondition: the first argument of 'main' is an integer guaranteed 242 // to be > 0. 243 const IdentifierInfo *II = FD->getIdentifier(); 244 if (!II || !(II->getName() == "main" && FD->getNumParams() > 0)) 245 break; 246 247 const ParmVarDecl *PD = FD->getParamDecl(0); 248 QualType T = PD->getType(); 249 const auto *BT = dyn_cast<BuiltinType>(T); 250 if (!BT || !BT->isInteger()) 251 break; 252 253 const MemRegion *R = state->getRegion(PD, InitLoc); 254 if (!R) 255 break; 256 257 SVal V = state->getSVal(loc::MemRegionVal(R)); 258 SVal Constraint_untested = evalBinOp(state, BO_GT, V, 259 svalBuilder.makeZeroVal(T), 260 svalBuilder.getConditionType()); 261 262 Optional<DefinedOrUnknownSVal> Constraint = 263 Constraint_untested.getAs<DefinedOrUnknownSVal>(); 264 265 if (!Constraint) 266 break; 267 268 if (ProgramStateRef newState = state->assume(*Constraint, true)) 269 state = newState; 270 } 271 break; 272 } 273 while (false); 274 275 if (const auto *MD = dyn_cast<ObjCMethodDecl>(D)) { 276 // Precondition: 'self' is always non-null upon entry to an Objective-C 277 // method. 278 const ImplicitParamDecl *SelfD = MD->getSelfDecl(); 279 const MemRegion *R = state->getRegion(SelfD, InitLoc); 280 SVal V = state->getSVal(loc::MemRegionVal(R)); 281 282 if (Optional<Loc> LV = V.getAs<Loc>()) { 283 // Assume that the pointer value in 'self' is non-null. 284 state = state->assume(*LV, true); 285 assert(state && "'self' cannot be null"); 286 } 287 } 288 289 if (const auto *MD = dyn_cast<CXXMethodDecl>(D)) { 290 if (!MD->isStatic()) { 291 // Precondition: 'this' is always non-null upon entry to the 292 // top-level function. This is our starting assumption for 293 // analyzing an "open" program. 294 const StackFrameContext *SFC = InitLoc->getStackFrame(); 295 if (SFC->getParent() == nullptr) { 296 loc::MemRegionVal L = svalBuilder.getCXXThis(MD, SFC); 297 SVal V = state->getSVal(L); 298 if (Optional<Loc> LV = V.getAs<Loc>()) { 299 state = state->assume(*LV, true); 300 assert(state && "'this' cannot be null"); 301 } 302 } 303 } 304 } 305 306 return state; 307 } 308 309 ProgramStateRef ExprEngine::createTemporaryRegionIfNeeded( 310 ProgramStateRef State, const LocationContext *LC, 311 const Expr *InitWithAdjustments, const Expr *Result, 312 const SubRegion **OutRegionWithAdjustments) { 313 // FIXME: This function is a hack that works around the quirky AST 314 // we're often having with respect to C++ temporaries. If only we modelled 315 // the actual execution order of statements properly in the CFG, 316 // all the hassle with adjustments would not be necessary, 317 // and perhaps the whole function would be removed. 318 SVal InitValWithAdjustments = State->getSVal(InitWithAdjustments, LC); 319 if (!Result) { 320 // If we don't have an explicit result expression, we're in "if needed" 321 // mode. Only create a region if the current value is a NonLoc. 322 if (!InitValWithAdjustments.getAs<NonLoc>()) { 323 if (OutRegionWithAdjustments) 324 *OutRegionWithAdjustments = nullptr; 325 return State; 326 } 327 Result = InitWithAdjustments; 328 } else { 329 // We need to create a region no matter what. Make sure we don't try to 330 // stuff a Loc into a non-pointer temporary region. 331 assert(!InitValWithAdjustments.getAs<Loc>() || 332 Loc::isLocType(Result->getType()) || 333 Result->getType()->isMemberPointerType()); 334 } 335 336 ProgramStateManager &StateMgr = State->getStateManager(); 337 MemRegionManager &MRMgr = StateMgr.getRegionManager(); 338 StoreManager &StoreMgr = StateMgr.getStoreManager(); 339 340 // MaterializeTemporaryExpr may appear out of place, after a few field and 341 // base-class accesses have been made to the object, even though semantically 342 // it is the whole object that gets materialized and lifetime-extended. 343 // 344 // For example: 345 // 346 // `-MaterializeTemporaryExpr 347 // `-MemberExpr 348 // `-CXXTemporaryObjectExpr 349 // 350 // instead of the more natural 351 // 352 // `-MemberExpr 353 // `-MaterializeTemporaryExpr 354 // `-CXXTemporaryObjectExpr 355 // 356 // Use the usual methods for obtaining the expression of the base object, 357 // and record the adjustments that we need to make to obtain the sub-object 358 // that the whole expression 'Ex' refers to. This trick is usual, 359 // in the sense that CodeGen takes a similar route. 360 361 SmallVector<const Expr *, 2> CommaLHSs; 362 SmallVector<SubobjectAdjustment, 2> Adjustments; 363 364 const Expr *Init = InitWithAdjustments->skipRValueSubobjectAdjustments( 365 CommaLHSs, Adjustments); 366 367 // Take the region for Init, i.e. for the whole object. If we do not remember 368 // the region in which the object originally was constructed, come up with 369 // a new temporary region out of thin air and copy the contents of the object 370 // (which are currently present in the Environment, because Init is an rvalue) 371 // into that region. This is not correct, but it is better than nothing. 372 const TypedValueRegion *TR = nullptr; 373 if (const auto *MT = dyn_cast<MaterializeTemporaryExpr>(Result)) { 374 if (Optional<SVal> V = getObjectUnderConstruction(State, MT, LC)) { 375 State = finishObjectConstruction(State, MT, LC); 376 State = State->BindExpr(Result, LC, *V); 377 return State; 378 } else { 379 StorageDuration SD = MT->getStorageDuration(); 380 // If this object is bound to a reference with static storage duration, we 381 // put it in a different region to prevent "address leakage" warnings. 382 if (SD == SD_Static || SD == SD_Thread) { 383 TR = MRMgr.getCXXStaticTempObjectRegion(Init); 384 } else { 385 TR = MRMgr.getCXXTempObjectRegion(Init, LC); 386 } 387 } 388 } else { 389 TR = MRMgr.getCXXTempObjectRegion(Init, LC); 390 } 391 392 SVal Reg = loc::MemRegionVal(TR); 393 SVal BaseReg = Reg; 394 395 // Make the necessary adjustments to obtain the sub-object. 396 for (const SubobjectAdjustment &Adj : llvm::reverse(Adjustments)) { 397 switch (Adj.Kind) { 398 case SubobjectAdjustment::DerivedToBaseAdjustment: 399 Reg = StoreMgr.evalDerivedToBase(Reg, Adj.DerivedToBase.BasePath); 400 break; 401 case SubobjectAdjustment::FieldAdjustment: 402 Reg = StoreMgr.getLValueField(Adj.Field, Reg); 403 break; 404 case SubobjectAdjustment::MemberPointerAdjustment: 405 // FIXME: Unimplemented. 406 State = State->invalidateRegions(Reg, InitWithAdjustments, 407 currBldrCtx->blockCount(), LC, true, 408 nullptr, nullptr, nullptr); 409 return State; 410 } 411 } 412 413 // What remains is to copy the value of the object to the new region. 414 // FIXME: In other words, what we should always do is copy value of the 415 // Init expression (which corresponds to the bigger object) to the whole 416 // temporary region TR. However, this value is often no longer present 417 // in the Environment. If it has disappeared, we instead invalidate TR. 418 // Still, what we can do is assign the value of expression Ex (which 419 // corresponds to the sub-object) to the TR's sub-region Reg. At least, 420 // values inside Reg would be correct. 421 SVal InitVal = State->getSVal(Init, LC); 422 if (InitVal.isUnknown()) { 423 InitVal = getSValBuilder().conjureSymbolVal(Result, LC, Init->getType(), 424 currBldrCtx->blockCount()); 425 State = State->bindLoc(BaseReg.castAs<Loc>(), InitVal, LC, false); 426 427 // Then we'd need to take the value that certainly exists and bind it 428 // over. 429 if (InitValWithAdjustments.isUnknown()) { 430 // Try to recover some path sensitivity in case we couldn't 431 // compute the value. 432 InitValWithAdjustments = getSValBuilder().conjureSymbolVal( 433 Result, LC, InitWithAdjustments->getType(), 434 currBldrCtx->blockCount()); 435 } 436 State = 437 State->bindLoc(Reg.castAs<Loc>(), InitValWithAdjustments, LC, false); 438 } else { 439 State = State->bindLoc(BaseReg.castAs<Loc>(), InitVal, LC, false); 440 } 441 442 // The result expression would now point to the correct sub-region of the 443 // newly created temporary region. Do this last in order to getSVal of Init 444 // correctly in case (Result == Init). 445 if (Result->isGLValue()) { 446 State = State->BindExpr(Result, LC, Reg); 447 } else { 448 State = State->BindExpr(Result, LC, InitValWithAdjustments); 449 } 450 451 // Notify checkers once for two bindLoc()s. 452 State = processRegionChange(State, TR, LC); 453 454 if (OutRegionWithAdjustments) 455 *OutRegionWithAdjustments = cast<SubRegion>(Reg.getAsRegion()); 456 return State; 457 } 458 459 ProgramStateRef 460 ExprEngine::addObjectUnderConstruction(ProgramStateRef State, 461 const ConstructionContextItem &Item, 462 const LocationContext *LC, SVal V) { 463 ConstructedObjectKey Key(Item, LC->getStackFrame()); 464 // FIXME: Currently the state might already contain the marker due to 465 // incorrect handling of temporaries bound to default parameters. 466 assert(!State->get<ObjectsUnderConstruction>(Key) || 467 Key.getItem().getKind() == 468 ConstructionContextItem::TemporaryDestructorKind); 469 return State->set<ObjectsUnderConstruction>(Key, V); 470 } 471 472 Optional<SVal> 473 ExprEngine::getObjectUnderConstruction(ProgramStateRef State, 474 const ConstructionContextItem &Item, 475 const LocationContext *LC) { 476 ConstructedObjectKey Key(Item, LC->getStackFrame()); 477 return Optional<SVal>::create(State->get<ObjectsUnderConstruction>(Key)); 478 } 479 480 ProgramStateRef 481 ExprEngine::finishObjectConstruction(ProgramStateRef State, 482 const ConstructionContextItem &Item, 483 const LocationContext *LC) { 484 ConstructedObjectKey Key(Item, LC->getStackFrame()); 485 assert(State->contains<ObjectsUnderConstruction>(Key)); 486 return State->remove<ObjectsUnderConstruction>(Key); 487 } 488 489 ProgramStateRef ExprEngine::elideDestructor(ProgramStateRef State, 490 const CXXBindTemporaryExpr *BTE, 491 const LocationContext *LC) { 492 ConstructedObjectKey Key({BTE, /*IsElided=*/true}, LC); 493 // FIXME: Currently the state might already contain the marker due to 494 // incorrect handling of temporaries bound to default parameters. 495 return State->set<ObjectsUnderConstruction>(Key, UnknownVal()); 496 } 497 498 ProgramStateRef 499 ExprEngine::cleanupElidedDestructor(ProgramStateRef State, 500 const CXXBindTemporaryExpr *BTE, 501 const LocationContext *LC) { 502 ConstructedObjectKey Key({BTE, /*IsElided=*/true}, LC); 503 assert(State->contains<ObjectsUnderConstruction>(Key)); 504 return State->remove<ObjectsUnderConstruction>(Key); 505 } 506 507 bool ExprEngine::isDestructorElided(ProgramStateRef State, 508 const CXXBindTemporaryExpr *BTE, 509 const LocationContext *LC) { 510 ConstructedObjectKey Key({BTE, /*IsElided=*/true}, LC); 511 return State->contains<ObjectsUnderConstruction>(Key); 512 } 513 514 bool ExprEngine::areAllObjectsFullyConstructed(ProgramStateRef State, 515 const LocationContext *FromLC, 516 const LocationContext *ToLC) { 517 const LocationContext *LC = FromLC; 518 while (LC != ToLC) { 519 assert(LC && "ToLC must be a parent of FromLC!"); 520 for (auto I : State->get<ObjectsUnderConstruction>()) 521 if (I.first.getLocationContext() == LC) 522 return false; 523 524 LC = LC->getParent(); 525 } 526 return true; 527 } 528 529 530 //===----------------------------------------------------------------------===// 531 // Top-level transfer function logic (Dispatcher). 532 //===----------------------------------------------------------------------===// 533 534 /// evalAssume - Called by ConstraintManager. Used to call checker-specific 535 /// logic for handling assumptions on symbolic values. 536 ProgramStateRef ExprEngine::processAssume(ProgramStateRef state, 537 SVal cond, bool assumption) { 538 return getCheckerManager().runCheckersForEvalAssume(state, cond, assumption); 539 } 540 541 ProgramStateRef 542 ExprEngine::processRegionChanges(ProgramStateRef state, 543 const InvalidatedSymbols *invalidated, 544 ArrayRef<const MemRegion *> Explicits, 545 ArrayRef<const MemRegion *> Regions, 546 const LocationContext *LCtx, 547 const CallEvent *Call) { 548 return getCheckerManager().runCheckersForRegionChanges(state, invalidated, 549 Explicits, Regions, 550 LCtx, Call); 551 } 552 553 static void 554 printObjectsUnderConstructionJson(raw_ostream &Out, ProgramStateRef State, 555 const char *NL, const LocationContext *LCtx, 556 unsigned int Space = 0, bool IsDot = false) { 557 PrintingPolicy PP = 558 LCtx->getAnalysisDeclContext()->getASTContext().getPrintingPolicy(); 559 560 ++Space; 561 bool HasItem = false; 562 563 // Store the last key. 564 const ConstructedObjectKey *LastKey = nullptr; 565 for (const auto &I : State->get<ObjectsUnderConstruction>()) { 566 const ConstructedObjectKey &Key = I.first; 567 if (Key.getLocationContext() != LCtx) 568 continue; 569 570 if (!HasItem) { 571 Out << "[" << NL; 572 HasItem = true; 573 } 574 575 LastKey = &Key; 576 } 577 578 for (const auto &I : State->get<ObjectsUnderConstruction>()) { 579 const ConstructedObjectKey &Key = I.first; 580 SVal Value = I.second; 581 if (Key.getLocationContext() != LCtx) 582 continue; 583 584 Indent(Out, Space, IsDot) << "{ "; 585 Key.printJson(Out, nullptr, PP); 586 Out << ", \"value\": \"" << Value << "\" }"; 587 588 if (&Key != LastKey) 589 Out << ','; 590 Out << NL; 591 } 592 593 if (HasItem) 594 Indent(Out, --Space, IsDot) << ']'; // End of "location_context". 595 else { 596 Out << "null "; 597 } 598 } 599 600 void ExprEngine::printJson(raw_ostream &Out, ProgramStateRef State, 601 const LocationContext *LCtx, const char *NL, 602 unsigned int Space, bool IsDot) const { 603 Indent(Out, Space, IsDot) << "\"constructing_objects\": "; 604 605 if (LCtx && !State->get<ObjectsUnderConstruction>().isEmpty()) { 606 ++Space; 607 Out << '[' << NL; 608 LCtx->printJson(Out, NL, Space, IsDot, [&](const LocationContext *LC) { 609 printObjectsUnderConstructionJson(Out, State, NL, LC, Space, IsDot); 610 }); 611 612 --Space; 613 Indent(Out, Space, IsDot) << "]," << NL; // End of "constructing_objects". 614 } else { 615 Out << "null," << NL; 616 } 617 618 getCheckerManager().runCheckersForPrintStateJson(Out, State, NL, Space, 619 IsDot); 620 } 621 622 void ExprEngine::processEndWorklist() { 623 getCheckerManager().runCheckersForEndAnalysis(G, BR, *this); 624 } 625 626 void ExprEngine::processCFGElement(const CFGElement E, ExplodedNode *Pred, 627 unsigned StmtIdx, NodeBuilderContext *Ctx) { 628 PrettyStackTraceLocationContext CrashInfo(Pred->getLocationContext()); 629 currStmtIdx = StmtIdx; 630 currBldrCtx = Ctx; 631 632 switch (E.getKind()) { 633 case CFGElement::Statement: 634 case CFGElement::Constructor: 635 case CFGElement::CXXRecordTypedCall: 636 ProcessStmt(E.castAs<CFGStmt>().getStmt(), Pred); 637 return; 638 case CFGElement::Initializer: 639 ProcessInitializer(E.castAs<CFGInitializer>(), Pred); 640 return; 641 case CFGElement::NewAllocator: 642 ProcessNewAllocator(E.castAs<CFGNewAllocator>().getAllocatorExpr(), 643 Pred); 644 return; 645 case CFGElement::AutomaticObjectDtor: 646 case CFGElement::DeleteDtor: 647 case CFGElement::BaseDtor: 648 case CFGElement::MemberDtor: 649 case CFGElement::TemporaryDtor: 650 ProcessImplicitDtor(E.castAs<CFGImplicitDtor>(), Pred); 651 return; 652 case CFGElement::LoopExit: 653 ProcessLoopExit(E.castAs<CFGLoopExit>().getLoopStmt(), Pred); 654 return; 655 case CFGElement::LifetimeEnds: 656 case CFGElement::ScopeBegin: 657 case CFGElement::ScopeEnd: 658 return; 659 } 660 } 661 662 static bool shouldRemoveDeadBindings(AnalysisManager &AMgr, 663 const Stmt *S, 664 const ExplodedNode *Pred, 665 const LocationContext *LC) { 666 // Are we never purging state values? 667 if (AMgr.options.AnalysisPurgeOpt == PurgeNone) 668 return false; 669 670 // Is this the beginning of a basic block? 671 if (Pred->getLocation().getAs<BlockEntrance>()) 672 return true; 673 674 // Is this on a non-expression? 675 if (!isa<Expr>(S)) 676 return true; 677 678 // Run before processing a call. 679 if (CallEvent::isCallStmt(S)) 680 return true; 681 682 // Is this an expression that is consumed by another expression? If so, 683 // postpone cleaning out the state. 684 ParentMap &PM = LC->getAnalysisDeclContext()->getParentMap(); 685 return !PM.isConsumedExpr(cast<Expr>(S)); 686 } 687 688 void ExprEngine::removeDead(ExplodedNode *Pred, ExplodedNodeSet &Out, 689 const Stmt *ReferenceStmt, 690 const LocationContext *LC, 691 const Stmt *DiagnosticStmt, 692 ProgramPoint::Kind K) { 693 assert((K == ProgramPoint::PreStmtPurgeDeadSymbolsKind || 694 ReferenceStmt == nullptr || isa<ReturnStmt>(ReferenceStmt)) 695 && "PostStmt is not generally supported by the SymbolReaper yet"); 696 assert(LC && "Must pass the current (or expiring) LocationContext"); 697 698 if (!DiagnosticStmt) { 699 DiagnosticStmt = ReferenceStmt; 700 assert(DiagnosticStmt && "Required for clearing a LocationContext"); 701 } 702 703 NumRemoveDeadBindings++; 704 ProgramStateRef CleanedState = Pred->getState(); 705 706 // LC is the location context being destroyed, but SymbolReaper wants a 707 // location context that is still live. (If this is the top-level stack 708 // frame, this will be null.) 709 if (!ReferenceStmt) { 710 assert(K == ProgramPoint::PostStmtPurgeDeadSymbolsKind && 711 "Use PostStmtPurgeDeadSymbolsKind for clearing a LocationContext"); 712 LC = LC->getParent(); 713 } 714 715 const StackFrameContext *SFC = LC ? LC->getStackFrame() : nullptr; 716 SymbolReaper SymReaper(SFC, ReferenceStmt, SymMgr, getStoreManager()); 717 718 for (auto I : CleanedState->get<ObjectsUnderConstruction>()) { 719 if (SymbolRef Sym = I.second.getAsSymbol()) 720 SymReaper.markLive(Sym); 721 if (const MemRegion *MR = I.second.getAsRegion()) 722 SymReaper.markLive(MR); 723 } 724 725 getCheckerManager().runCheckersForLiveSymbols(CleanedState, SymReaper); 726 727 // Create a state in which dead bindings are removed from the environment 728 // and the store. TODO: The function should just return new env and store, 729 // not a new state. 730 CleanedState = StateMgr.removeDeadBindingsFromEnvironmentAndStore( 731 CleanedState, SFC, SymReaper); 732 733 // Process any special transfer function for dead symbols. 734 // A tag to track convenience transitions, which can be removed at cleanup. 735 static SimpleProgramPointTag cleanupTag(TagProviderName, "Clean Node"); 736 // Call checkers with the non-cleaned state so that they could query the 737 // values of the soon to be dead symbols. 738 ExplodedNodeSet CheckedSet; 739 getCheckerManager().runCheckersForDeadSymbols(CheckedSet, Pred, SymReaper, 740 DiagnosticStmt, *this, K); 741 742 // For each node in CheckedSet, generate CleanedNodes that have the 743 // environment, the store, and the constraints cleaned up but have the 744 // user-supplied states as the predecessors. 745 StmtNodeBuilder Bldr(CheckedSet, Out, *currBldrCtx); 746 for (const auto I : CheckedSet) { 747 ProgramStateRef CheckerState = I->getState(); 748 749 // The constraint manager has not been cleaned up yet, so clean up now. 750 CheckerState = 751 getConstraintManager().removeDeadBindings(CheckerState, SymReaper); 752 753 assert(StateMgr.haveEqualEnvironments(CheckerState, Pred->getState()) && 754 "Checkers are not allowed to modify the Environment as a part of " 755 "checkDeadSymbols processing."); 756 assert(StateMgr.haveEqualStores(CheckerState, Pred->getState()) && 757 "Checkers are not allowed to modify the Store as a part of " 758 "checkDeadSymbols processing."); 759 760 // Create a state based on CleanedState with CheckerState GDM and 761 // generate a transition to that state. 762 ProgramStateRef CleanedCheckerSt = 763 StateMgr.getPersistentStateWithGDM(CleanedState, CheckerState); 764 Bldr.generateNode(DiagnosticStmt, I, CleanedCheckerSt, &cleanupTag, K); 765 } 766 } 767 768 void ExprEngine::ProcessStmt(const Stmt *currStmt, ExplodedNode *Pred) { 769 // Reclaim any unnecessary nodes in the ExplodedGraph. 770 G.reclaimRecentlyAllocatedNodes(); 771 772 PrettyStackTraceLoc CrashInfo(getContext().getSourceManager(), 773 currStmt->getBeginLoc(), 774 "Error evaluating statement"); 775 776 // Remove dead bindings and symbols. 777 ExplodedNodeSet CleanedStates; 778 if (shouldRemoveDeadBindings(AMgr, currStmt, Pred, 779 Pred->getLocationContext())) { 780 removeDead(Pred, CleanedStates, currStmt, 781 Pred->getLocationContext()); 782 } else 783 CleanedStates.Add(Pred); 784 785 // Visit the statement. 786 ExplodedNodeSet Dst; 787 for (const auto I : CleanedStates) { 788 ExplodedNodeSet DstI; 789 // Visit the statement. 790 Visit(currStmt, I, DstI); 791 Dst.insert(DstI); 792 } 793 794 // Enqueue the new nodes onto the work list. 795 Engine.enqueue(Dst, currBldrCtx->getBlock(), currStmtIdx); 796 } 797 798 void ExprEngine::ProcessLoopExit(const Stmt* S, ExplodedNode *Pred) { 799 PrettyStackTraceLoc CrashInfo(getContext().getSourceManager(), 800 S->getBeginLoc(), 801 "Error evaluating end of the loop"); 802 ExplodedNodeSet Dst; 803 Dst.Add(Pred); 804 NodeBuilder Bldr(Pred, Dst, *currBldrCtx); 805 ProgramStateRef NewState = Pred->getState(); 806 807 if(AMgr.options.ShouldUnrollLoops) 808 NewState = processLoopEnd(S, NewState); 809 810 LoopExit PP(S, Pred->getLocationContext()); 811 Bldr.generateNode(PP, NewState, Pred); 812 // Enqueue the new nodes onto the work list. 813 Engine.enqueue(Dst, currBldrCtx->getBlock(), currStmtIdx); 814 } 815 816 void ExprEngine::ProcessInitializer(const CFGInitializer CFGInit, 817 ExplodedNode *Pred) { 818 const CXXCtorInitializer *BMI = CFGInit.getInitializer(); 819 const Expr *Init = BMI->getInit()->IgnoreImplicit(); 820 const LocationContext *LC = Pred->getLocationContext(); 821 822 PrettyStackTraceLoc CrashInfo(getContext().getSourceManager(), 823 BMI->getSourceLocation(), 824 "Error evaluating initializer"); 825 826 // We don't clean up dead bindings here. 827 const auto *stackFrame = cast<StackFrameContext>(Pred->getLocationContext()); 828 const auto *decl = cast<CXXConstructorDecl>(stackFrame->getDecl()); 829 830 ProgramStateRef State = Pred->getState(); 831 SVal thisVal = State->getSVal(svalBuilder.getCXXThis(decl, stackFrame)); 832 833 ExplodedNodeSet Tmp; 834 SVal FieldLoc; 835 836 // Evaluate the initializer, if necessary 837 if (BMI->isAnyMemberInitializer()) { 838 // Constructors build the object directly in the field, 839 // but non-objects must be copied in from the initializer. 840 if (getObjectUnderConstruction(State, BMI, LC)) { 841 // The field was directly constructed, so there is no need to bind. 842 // But we still need to stop tracking the object under construction. 843 State = finishObjectConstruction(State, BMI, LC); 844 NodeBuilder Bldr(Pred, Tmp, *currBldrCtx); 845 PostStore PS(Init, LC, /*Loc*/ nullptr, /*tag*/ nullptr); 846 Bldr.generateNode(PS, State, Pred); 847 } else { 848 const ValueDecl *Field; 849 if (BMI->isIndirectMemberInitializer()) { 850 Field = BMI->getIndirectMember(); 851 FieldLoc = State->getLValue(BMI->getIndirectMember(), thisVal); 852 } else { 853 Field = BMI->getMember(); 854 FieldLoc = State->getLValue(BMI->getMember(), thisVal); 855 } 856 857 SVal InitVal; 858 if (Init->getType()->isArrayType()) { 859 // Handle arrays of trivial type. We can represent this with a 860 // primitive load/copy from the base array region. 861 const ArraySubscriptExpr *ASE; 862 while ((ASE = dyn_cast<ArraySubscriptExpr>(Init))) 863 Init = ASE->getBase()->IgnoreImplicit(); 864 865 SVal LValue = State->getSVal(Init, stackFrame); 866 if (!Field->getType()->isReferenceType()) 867 if (Optional<Loc> LValueLoc = LValue.getAs<Loc>()) 868 InitVal = State->getSVal(*LValueLoc); 869 870 // If we fail to get the value for some reason, use a symbolic value. 871 if (InitVal.isUnknownOrUndef()) { 872 SValBuilder &SVB = getSValBuilder(); 873 InitVal = SVB.conjureSymbolVal(BMI->getInit(), stackFrame, 874 Field->getType(), 875 currBldrCtx->blockCount()); 876 } 877 } else { 878 InitVal = State->getSVal(BMI->getInit(), stackFrame); 879 } 880 881 PostInitializer PP(BMI, FieldLoc.getAsRegion(), stackFrame); 882 evalBind(Tmp, Init, Pred, FieldLoc, InitVal, /*isInit=*/true, &PP); 883 } 884 } else { 885 assert(BMI->isBaseInitializer() || BMI->isDelegatingInitializer()); 886 Tmp.insert(Pred); 887 // We already did all the work when visiting the CXXConstructExpr. 888 } 889 890 // Construct PostInitializer nodes whether the state changed or not, 891 // so that the diagnostics don't get confused. 892 PostInitializer PP(BMI, FieldLoc.getAsRegion(), stackFrame); 893 ExplodedNodeSet Dst; 894 NodeBuilder Bldr(Tmp, Dst, *currBldrCtx); 895 for (const auto I : Tmp) { 896 ProgramStateRef State = I->getState(); 897 Bldr.generateNode(PP, State, I); 898 } 899 900 // Enqueue the new nodes onto the work list. 901 Engine.enqueue(Dst, currBldrCtx->getBlock(), currStmtIdx); 902 } 903 904 void ExprEngine::ProcessImplicitDtor(const CFGImplicitDtor D, 905 ExplodedNode *Pred) { 906 ExplodedNodeSet Dst; 907 switch (D.getKind()) { 908 case CFGElement::AutomaticObjectDtor: 909 ProcessAutomaticObjDtor(D.castAs<CFGAutomaticObjDtor>(), Pred, Dst); 910 break; 911 case CFGElement::BaseDtor: 912 ProcessBaseDtor(D.castAs<CFGBaseDtor>(), Pred, Dst); 913 break; 914 case CFGElement::MemberDtor: 915 ProcessMemberDtor(D.castAs<CFGMemberDtor>(), Pred, Dst); 916 break; 917 case CFGElement::TemporaryDtor: 918 ProcessTemporaryDtor(D.castAs<CFGTemporaryDtor>(), Pred, Dst); 919 break; 920 case CFGElement::DeleteDtor: 921 ProcessDeleteDtor(D.castAs<CFGDeleteDtor>(), Pred, Dst); 922 break; 923 default: 924 llvm_unreachable("Unexpected dtor kind."); 925 } 926 927 // Enqueue the new nodes onto the work list. 928 Engine.enqueue(Dst, currBldrCtx->getBlock(), currStmtIdx); 929 } 930 931 void ExprEngine::ProcessNewAllocator(const CXXNewExpr *NE, 932 ExplodedNode *Pred) { 933 ExplodedNodeSet Dst; 934 AnalysisManager &AMgr = getAnalysisManager(); 935 AnalyzerOptions &Opts = AMgr.options; 936 // TODO: We're not evaluating allocators for all cases just yet as 937 // we're not handling the return value correctly, which causes false 938 // positives when the alpha.cplusplus.NewDeleteLeaks check is on. 939 if (Opts.MayInlineCXXAllocator) 940 VisitCXXNewAllocatorCall(NE, Pred, Dst); 941 else { 942 NodeBuilder Bldr(Pred, Dst, *currBldrCtx); 943 const LocationContext *LCtx = Pred->getLocationContext(); 944 PostImplicitCall PP(NE->getOperatorNew(), NE->getBeginLoc(), LCtx); 945 Bldr.generateNode(PP, Pred->getState(), Pred); 946 } 947 Engine.enqueue(Dst, currBldrCtx->getBlock(), currStmtIdx); 948 } 949 950 void ExprEngine::ProcessAutomaticObjDtor(const CFGAutomaticObjDtor Dtor, 951 ExplodedNode *Pred, 952 ExplodedNodeSet &Dst) { 953 const VarDecl *varDecl = Dtor.getVarDecl(); 954 QualType varType = varDecl->getType(); 955 956 ProgramStateRef state = Pred->getState(); 957 SVal dest = state->getLValue(varDecl, Pred->getLocationContext()); 958 const MemRegion *Region = dest.castAs<loc::MemRegionVal>().getRegion(); 959 960 if (varType->isReferenceType()) { 961 const MemRegion *ValueRegion = state->getSVal(Region).getAsRegion(); 962 if (!ValueRegion) { 963 // FIXME: This should not happen. The language guarantees a presence 964 // of a valid initializer here, so the reference shall not be undefined. 965 // It seems that we're calling destructors over variables that 966 // were not initialized yet. 967 return; 968 } 969 Region = ValueRegion->getBaseRegion(); 970 varType = cast<TypedValueRegion>(Region)->getValueType(); 971 } 972 973 // FIXME: We need to run the same destructor on every element of the array. 974 // This workaround will just run the first destructor (which will still 975 // invalidate the entire array). 976 EvalCallOptions CallOpts; 977 Region = makeZeroElementRegion(state, loc::MemRegionVal(Region), varType, 978 CallOpts.IsArrayCtorOrDtor).getAsRegion(); 979 980 VisitCXXDestructor(varType, Region, Dtor.getTriggerStmt(), 981 /*IsBase=*/false, Pred, Dst, CallOpts); 982 } 983 984 void ExprEngine::ProcessDeleteDtor(const CFGDeleteDtor Dtor, 985 ExplodedNode *Pred, 986 ExplodedNodeSet &Dst) { 987 ProgramStateRef State = Pred->getState(); 988 const LocationContext *LCtx = Pred->getLocationContext(); 989 const CXXDeleteExpr *DE = Dtor.getDeleteExpr(); 990 const Stmt *Arg = DE->getArgument(); 991 QualType DTy = DE->getDestroyedType(); 992 SVal ArgVal = State->getSVal(Arg, LCtx); 993 994 // If the argument to delete is known to be a null value, 995 // don't run destructor. 996 if (State->isNull(ArgVal).isConstrainedTrue()) { 997 QualType BTy = getContext().getBaseElementType(DTy); 998 const CXXRecordDecl *RD = BTy->getAsCXXRecordDecl(); 999 const CXXDestructorDecl *Dtor = RD->getDestructor(); 1000 1001 PostImplicitCall PP(Dtor, DE->getBeginLoc(), LCtx); 1002 NodeBuilder Bldr(Pred, Dst, *currBldrCtx); 1003 Bldr.generateNode(PP, Pred->getState(), Pred); 1004 return; 1005 } 1006 1007 EvalCallOptions CallOpts; 1008 const MemRegion *ArgR = ArgVal.getAsRegion(); 1009 if (DE->isArrayForm()) { 1010 // FIXME: We need to run the same destructor on every element of the array. 1011 // This workaround will just run the first destructor (which will still 1012 // invalidate the entire array). 1013 CallOpts.IsArrayCtorOrDtor = true; 1014 // Yes, it may even be a multi-dimensional array. 1015 while (const auto *AT = getContext().getAsArrayType(DTy)) 1016 DTy = AT->getElementType(); 1017 if (ArgR) 1018 ArgR = getStoreManager().GetElementZeroRegion(cast<SubRegion>(ArgR), DTy); 1019 } 1020 1021 VisitCXXDestructor(DTy, ArgR, DE, /*IsBase=*/false, Pred, Dst, CallOpts); 1022 } 1023 1024 void ExprEngine::ProcessBaseDtor(const CFGBaseDtor D, 1025 ExplodedNode *Pred, ExplodedNodeSet &Dst) { 1026 const LocationContext *LCtx = Pred->getLocationContext(); 1027 1028 const auto *CurDtor = cast<CXXDestructorDecl>(LCtx->getDecl()); 1029 Loc ThisPtr = getSValBuilder().getCXXThis(CurDtor, 1030 LCtx->getStackFrame()); 1031 SVal ThisVal = Pred->getState()->getSVal(ThisPtr); 1032 1033 // Create the base object region. 1034 const CXXBaseSpecifier *Base = D.getBaseSpecifier(); 1035 QualType BaseTy = Base->getType(); 1036 SVal BaseVal = getStoreManager().evalDerivedToBase(ThisVal, BaseTy, 1037 Base->isVirtual()); 1038 1039 EvalCallOptions CallOpts; 1040 VisitCXXDestructor(BaseTy, BaseVal.getAsRegion(), CurDtor->getBody(), 1041 /*IsBase=*/true, Pred, Dst, CallOpts); 1042 } 1043 1044 void ExprEngine::ProcessMemberDtor(const CFGMemberDtor D, 1045 ExplodedNode *Pred, ExplodedNodeSet &Dst) { 1046 const FieldDecl *Member = D.getFieldDecl(); 1047 QualType T = Member->getType(); 1048 ProgramStateRef State = Pred->getState(); 1049 const LocationContext *LCtx = Pred->getLocationContext(); 1050 1051 const auto *CurDtor = cast<CXXDestructorDecl>(LCtx->getDecl()); 1052 Loc ThisStorageLoc = 1053 getSValBuilder().getCXXThis(CurDtor, LCtx->getStackFrame()); 1054 Loc ThisLoc = State->getSVal(ThisStorageLoc).castAs<Loc>(); 1055 SVal FieldVal = State->getLValue(Member, ThisLoc); 1056 1057 // FIXME: We need to run the same destructor on every element of the array. 1058 // This workaround will just run the first destructor (which will still 1059 // invalidate the entire array). 1060 EvalCallOptions CallOpts; 1061 FieldVal = makeZeroElementRegion(State, FieldVal, T, 1062 CallOpts.IsArrayCtorOrDtor); 1063 1064 VisitCXXDestructor(T, FieldVal.getAsRegion(), CurDtor->getBody(), 1065 /*IsBase=*/false, Pred, Dst, CallOpts); 1066 } 1067 1068 void ExprEngine::ProcessTemporaryDtor(const CFGTemporaryDtor D, 1069 ExplodedNode *Pred, 1070 ExplodedNodeSet &Dst) { 1071 const CXXBindTemporaryExpr *BTE = D.getBindTemporaryExpr(); 1072 ProgramStateRef State = Pred->getState(); 1073 const LocationContext *LC = Pred->getLocationContext(); 1074 const MemRegion *MR = nullptr; 1075 1076 if (Optional<SVal> V = 1077 getObjectUnderConstruction(State, D.getBindTemporaryExpr(), 1078 Pred->getLocationContext())) { 1079 // FIXME: Currently we insert temporary destructors for default parameters, 1080 // but we don't insert the constructors, so the entry in 1081 // ObjectsUnderConstruction may be missing. 1082 State = finishObjectConstruction(State, D.getBindTemporaryExpr(), 1083 Pred->getLocationContext()); 1084 MR = V->getAsRegion(); 1085 } 1086 1087 // If copy elision has occurred, and the constructor corresponding to the 1088 // destructor was elided, we need to skip the destructor as well. 1089 if (isDestructorElided(State, BTE, LC)) { 1090 State = cleanupElidedDestructor(State, BTE, LC); 1091 NodeBuilder Bldr(Pred, Dst, *currBldrCtx); 1092 PostImplicitCall PP(D.getDestructorDecl(getContext()), 1093 D.getBindTemporaryExpr()->getBeginLoc(), 1094 Pred->getLocationContext()); 1095 Bldr.generateNode(PP, State, Pred); 1096 return; 1097 } 1098 1099 ExplodedNodeSet CleanDtorState; 1100 StmtNodeBuilder StmtBldr(Pred, CleanDtorState, *currBldrCtx); 1101 StmtBldr.generateNode(D.getBindTemporaryExpr(), Pred, State); 1102 1103 QualType T = D.getBindTemporaryExpr()->getSubExpr()->getType(); 1104 // FIXME: Currently CleanDtorState can be empty here due to temporaries being 1105 // bound to default parameters. 1106 assert(CleanDtorState.size() <= 1); 1107 ExplodedNode *CleanPred = 1108 CleanDtorState.empty() ? Pred : *CleanDtorState.begin(); 1109 1110 EvalCallOptions CallOpts; 1111 CallOpts.IsTemporaryCtorOrDtor = true; 1112 if (!MR) { 1113 // If we have no MR, we still need to unwrap the array to avoid destroying 1114 // the whole array at once. Regardless, we'd eventually need to model array 1115 // destructors properly, element-by-element. 1116 while (const ArrayType *AT = getContext().getAsArrayType(T)) { 1117 T = AT->getElementType(); 1118 CallOpts.IsArrayCtorOrDtor = true; 1119 } 1120 } else { 1121 // We'd eventually need to makeZeroElementRegion() trick here, 1122 // but for now we don't have the respective construction contexts, 1123 // so MR would always be null in this case. Do nothing for now. 1124 } 1125 VisitCXXDestructor(T, MR, D.getBindTemporaryExpr(), 1126 /*IsBase=*/false, CleanPred, Dst, CallOpts); 1127 } 1128 1129 void ExprEngine::processCleanupTemporaryBranch(const CXXBindTemporaryExpr *BTE, 1130 NodeBuilderContext &BldCtx, 1131 ExplodedNode *Pred, 1132 ExplodedNodeSet &Dst, 1133 const CFGBlock *DstT, 1134 const CFGBlock *DstF) { 1135 BranchNodeBuilder TempDtorBuilder(Pred, Dst, BldCtx, DstT, DstF); 1136 ProgramStateRef State = Pred->getState(); 1137 const LocationContext *LC = Pred->getLocationContext(); 1138 if (getObjectUnderConstruction(State, BTE, LC)) { 1139 TempDtorBuilder.markInfeasible(false); 1140 TempDtorBuilder.generateNode(State, true, Pred); 1141 } else { 1142 TempDtorBuilder.markInfeasible(true); 1143 TempDtorBuilder.generateNode(State, false, Pred); 1144 } 1145 } 1146 1147 void ExprEngine::VisitCXXBindTemporaryExpr(const CXXBindTemporaryExpr *BTE, 1148 ExplodedNodeSet &PreVisit, 1149 ExplodedNodeSet &Dst) { 1150 // This is a fallback solution in case we didn't have a construction 1151 // context when we were constructing the temporary. Otherwise the map should 1152 // have been populated there. 1153 if (!getAnalysisManager().options.ShouldIncludeTemporaryDtorsInCFG) { 1154 // In case we don't have temporary destructors in the CFG, do not mark 1155 // the initialization - we would otherwise never clean it up. 1156 Dst = PreVisit; 1157 return; 1158 } 1159 StmtNodeBuilder StmtBldr(PreVisit, Dst, *currBldrCtx); 1160 for (ExplodedNode *Node : PreVisit) { 1161 ProgramStateRef State = Node->getState(); 1162 const LocationContext *LC = Node->getLocationContext(); 1163 if (!getObjectUnderConstruction(State, BTE, LC)) { 1164 // FIXME: Currently the state might also already contain the marker due to 1165 // incorrect handling of temporaries bound to default parameters; for 1166 // those, we currently skip the CXXBindTemporaryExpr but rely on adding 1167 // temporary destructor nodes. 1168 State = addObjectUnderConstruction(State, BTE, LC, UnknownVal()); 1169 } 1170 StmtBldr.generateNode(BTE, Node, State); 1171 } 1172 } 1173 1174 ProgramStateRef ExprEngine::escapeValues(ProgramStateRef State, 1175 ArrayRef<SVal> Vs, 1176 PointerEscapeKind K, 1177 const CallEvent *Call) const { 1178 class CollectReachableSymbolsCallback final : public SymbolVisitor { 1179 InvalidatedSymbols &Symbols; 1180 1181 public: 1182 explicit CollectReachableSymbolsCallback(InvalidatedSymbols &Symbols) 1183 : Symbols(Symbols) {} 1184 1185 const InvalidatedSymbols &getSymbols() const { return Symbols; } 1186 1187 bool VisitSymbol(SymbolRef Sym) override { 1188 Symbols.insert(Sym); 1189 return true; 1190 } 1191 }; 1192 InvalidatedSymbols Symbols; 1193 CollectReachableSymbolsCallback CallBack(Symbols); 1194 for (SVal V : Vs) 1195 State->scanReachableSymbols(V, CallBack); 1196 1197 return getCheckerManager().runCheckersForPointerEscape( 1198 State, CallBack.getSymbols(), Call, K, nullptr); 1199 } 1200 1201 void ExprEngine::Visit(const Stmt *S, ExplodedNode *Pred, 1202 ExplodedNodeSet &DstTop) { 1203 PrettyStackTraceLoc CrashInfo(getContext().getSourceManager(), 1204 S->getBeginLoc(), "Error evaluating statement"); 1205 ExplodedNodeSet Dst; 1206 StmtNodeBuilder Bldr(Pred, DstTop, *currBldrCtx); 1207 1208 assert(!isa<Expr>(S) || S == cast<Expr>(S)->IgnoreParens()); 1209 1210 switch (S->getStmtClass()) { 1211 // C++, OpenMP and ARC stuff we don't support yet. 1212 case Stmt::CXXDependentScopeMemberExprClass: 1213 case Stmt::CXXTryStmtClass: 1214 case Stmt::CXXTypeidExprClass: 1215 case Stmt::CXXUuidofExprClass: 1216 case Stmt::CXXFoldExprClass: 1217 case Stmt::MSPropertyRefExprClass: 1218 case Stmt::MSPropertySubscriptExprClass: 1219 case Stmt::CXXUnresolvedConstructExprClass: 1220 case Stmt::DependentScopeDeclRefExprClass: 1221 case Stmt::ArrayTypeTraitExprClass: 1222 case Stmt::ExpressionTraitExprClass: 1223 case Stmt::UnresolvedLookupExprClass: 1224 case Stmt::UnresolvedMemberExprClass: 1225 case Stmt::TypoExprClass: 1226 case Stmt::RecoveryExprClass: 1227 case Stmt::CXXNoexceptExprClass: 1228 case Stmt::PackExpansionExprClass: 1229 case Stmt::SubstNonTypeTemplateParmPackExprClass: 1230 case Stmt::FunctionParmPackExprClass: 1231 case Stmt::CoroutineBodyStmtClass: 1232 case Stmt::CoawaitExprClass: 1233 case Stmt::DependentCoawaitExprClass: 1234 case Stmt::CoreturnStmtClass: 1235 case Stmt::CoyieldExprClass: 1236 case Stmt::SEHTryStmtClass: 1237 case Stmt::SEHExceptStmtClass: 1238 case Stmt::SEHLeaveStmtClass: 1239 case Stmt::SEHFinallyStmtClass: 1240 case Stmt::OMPCanonicalLoopClass: 1241 case Stmt::OMPParallelDirectiveClass: 1242 case Stmt::OMPSimdDirectiveClass: 1243 case Stmt::OMPForDirectiveClass: 1244 case Stmt::OMPForSimdDirectiveClass: 1245 case Stmt::OMPSectionsDirectiveClass: 1246 case Stmt::OMPSectionDirectiveClass: 1247 case Stmt::OMPSingleDirectiveClass: 1248 case Stmt::OMPMasterDirectiveClass: 1249 case Stmt::OMPCriticalDirectiveClass: 1250 case Stmt::OMPParallelForDirectiveClass: 1251 case Stmt::OMPParallelForSimdDirectiveClass: 1252 case Stmt::OMPParallelSectionsDirectiveClass: 1253 case Stmt::OMPParallelMasterDirectiveClass: 1254 case Stmt::OMPTaskDirectiveClass: 1255 case Stmt::OMPTaskyieldDirectiveClass: 1256 case Stmt::OMPBarrierDirectiveClass: 1257 case Stmt::OMPTaskwaitDirectiveClass: 1258 case Stmt::OMPTaskgroupDirectiveClass: 1259 case Stmt::OMPFlushDirectiveClass: 1260 case Stmt::OMPDepobjDirectiveClass: 1261 case Stmt::OMPScanDirectiveClass: 1262 case Stmt::OMPOrderedDirectiveClass: 1263 case Stmt::OMPAtomicDirectiveClass: 1264 case Stmt::OMPTargetDirectiveClass: 1265 case Stmt::OMPTargetDataDirectiveClass: 1266 case Stmt::OMPTargetEnterDataDirectiveClass: 1267 case Stmt::OMPTargetExitDataDirectiveClass: 1268 case Stmt::OMPTargetParallelDirectiveClass: 1269 case Stmt::OMPTargetParallelForDirectiveClass: 1270 case Stmt::OMPTargetUpdateDirectiveClass: 1271 case Stmt::OMPTeamsDirectiveClass: 1272 case Stmt::OMPCancellationPointDirectiveClass: 1273 case Stmt::OMPCancelDirectiveClass: 1274 case Stmt::OMPTaskLoopDirectiveClass: 1275 case Stmt::OMPTaskLoopSimdDirectiveClass: 1276 case Stmt::OMPMasterTaskLoopDirectiveClass: 1277 case Stmt::OMPMasterTaskLoopSimdDirectiveClass: 1278 case Stmt::OMPParallelMasterTaskLoopDirectiveClass: 1279 case Stmt::OMPParallelMasterTaskLoopSimdDirectiveClass: 1280 case Stmt::OMPDistributeDirectiveClass: 1281 case Stmt::OMPDistributeParallelForDirectiveClass: 1282 case Stmt::OMPDistributeParallelForSimdDirectiveClass: 1283 case Stmt::OMPDistributeSimdDirectiveClass: 1284 case Stmt::OMPTargetParallelForSimdDirectiveClass: 1285 case Stmt::OMPTargetSimdDirectiveClass: 1286 case Stmt::OMPTeamsDistributeDirectiveClass: 1287 case Stmt::OMPTeamsDistributeSimdDirectiveClass: 1288 case Stmt::OMPTeamsDistributeParallelForSimdDirectiveClass: 1289 case Stmt::OMPTeamsDistributeParallelForDirectiveClass: 1290 case Stmt::OMPTargetTeamsDirectiveClass: 1291 case Stmt::OMPTargetTeamsDistributeDirectiveClass: 1292 case Stmt::OMPTargetTeamsDistributeParallelForDirectiveClass: 1293 case Stmt::OMPTargetTeamsDistributeParallelForSimdDirectiveClass: 1294 case Stmt::OMPTargetTeamsDistributeSimdDirectiveClass: 1295 case Stmt::OMPTileDirectiveClass: 1296 case Stmt::OMPInteropDirectiveClass: 1297 case Stmt::OMPDispatchDirectiveClass: 1298 case Stmt::OMPMaskedDirectiveClass: 1299 case Stmt::OMPGenericLoopDirectiveClass: 1300 case Stmt::CapturedStmtClass: 1301 case Stmt::OMPUnrollDirectiveClass: 1302 case Stmt::OMPMetaDirectiveClass: { 1303 const ExplodedNode *node = Bldr.generateSink(S, Pred, Pred->getState()); 1304 Engine.addAbortedBlock(node, currBldrCtx->getBlock()); 1305 break; 1306 } 1307 1308 case Stmt::ParenExprClass: 1309 llvm_unreachable("ParenExprs already handled."); 1310 case Stmt::GenericSelectionExprClass: 1311 llvm_unreachable("GenericSelectionExprs already handled."); 1312 // Cases that should never be evaluated simply because they shouldn't 1313 // appear in the CFG. 1314 case Stmt::BreakStmtClass: 1315 case Stmt::CaseStmtClass: 1316 case Stmt::CompoundStmtClass: 1317 case Stmt::ContinueStmtClass: 1318 case Stmt::CXXForRangeStmtClass: 1319 case Stmt::DefaultStmtClass: 1320 case Stmt::DoStmtClass: 1321 case Stmt::ForStmtClass: 1322 case Stmt::GotoStmtClass: 1323 case Stmt::IfStmtClass: 1324 case Stmt::IndirectGotoStmtClass: 1325 case Stmt::LabelStmtClass: 1326 case Stmt::NoStmtClass: 1327 case Stmt::NullStmtClass: 1328 case Stmt::SwitchStmtClass: 1329 case Stmt::WhileStmtClass: 1330 case Expr::MSDependentExistsStmtClass: 1331 llvm_unreachable("Stmt should not be in analyzer evaluation loop"); 1332 case Stmt::ImplicitValueInitExprClass: 1333 // These nodes are shared in the CFG and would case caching out. 1334 // Moreover, no additional evaluation required for them, the 1335 // analyzer can reconstruct these values from the AST. 1336 llvm_unreachable("Should be pruned from CFG"); 1337 1338 case Stmt::ObjCSubscriptRefExprClass: 1339 case Stmt::ObjCPropertyRefExprClass: 1340 llvm_unreachable("These are handled by PseudoObjectExpr"); 1341 1342 case Stmt::GNUNullExprClass: { 1343 // GNU __null is a pointer-width integer, not an actual pointer. 1344 ProgramStateRef state = Pred->getState(); 1345 state = state->BindExpr(S, Pred->getLocationContext(), 1346 svalBuilder.makeIntValWithPtrWidth(0, false)); 1347 Bldr.generateNode(S, Pred, state); 1348 break; 1349 } 1350 1351 case Stmt::ObjCAtSynchronizedStmtClass: 1352 Bldr.takeNodes(Pred); 1353 VisitObjCAtSynchronizedStmt(cast<ObjCAtSynchronizedStmt>(S), Pred, Dst); 1354 Bldr.addNodes(Dst); 1355 break; 1356 1357 case Expr::ConstantExprClass: 1358 case Stmt::ExprWithCleanupsClass: 1359 // Handled due to fully linearised CFG. 1360 break; 1361 1362 case Stmt::CXXBindTemporaryExprClass: { 1363 Bldr.takeNodes(Pred); 1364 ExplodedNodeSet PreVisit; 1365 getCheckerManager().runCheckersForPreStmt(PreVisit, Pred, S, *this); 1366 ExplodedNodeSet Next; 1367 VisitCXXBindTemporaryExpr(cast<CXXBindTemporaryExpr>(S), PreVisit, Next); 1368 getCheckerManager().runCheckersForPostStmt(Dst, Next, S, *this); 1369 Bldr.addNodes(Dst); 1370 break; 1371 } 1372 1373 // Cases not handled yet; but will handle some day. 1374 case Stmt::DesignatedInitExprClass: 1375 case Stmt::DesignatedInitUpdateExprClass: 1376 case Stmt::ArrayInitLoopExprClass: 1377 case Stmt::ArrayInitIndexExprClass: 1378 case Stmt::ExtVectorElementExprClass: 1379 case Stmt::ImaginaryLiteralClass: 1380 case Stmt::ObjCAtCatchStmtClass: 1381 case Stmt::ObjCAtFinallyStmtClass: 1382 case Stmt::ObjCAtTryStmtClass: 1383 case Stmt::ObjCAutoreleasePoolStmtClass: 1384 case Stmt::ObjCEncodeExprClass: 1385 case Stmt::ObjCIsaExprClass: 1386 case Stmt::ObjCProtocolExprClass: 1387 case Stmt::ObjCSelectorExprClass: 1388 case Stmt::ParenListExprClass: 1389 case Stmt::ShuffleVectorExprClass: 1390 case Stmt::ConvertVectorExprClass: 1391 case Stmt::VAArgExprClass: 1392 case Stmt::CUDAKernelCallExprClass: 1393 case Stmt::OpaqueValueExprClass: 1394 case Stmt::AsTypeExprClass: 1395 case Stmt::ConceptSpecializationExprClass: 1396 case Stmt::CXXRewrittenBinaryOperatorClass: 1397 case Stmt::RequiresExprClass: 1398 // Fall through. 1399 1400 // Cases we intentionally don't evaluate, since they don't need 1401 // to be explicitly evaluated. 1402 case Stmt::PredefinedExprClass: 1403 case Stmt::AddrLabelExprClass: 1404 case Stmt::AttributedStmtClass: 1405 case Stmt::IntegerLiteralClass: 1406 case Stmt::FixedPointLiteralClass: 1407 case Stmt::CharacterLiteralClass: 1408 case Stmt::CXXScalarValueInitExprClass: 1409 case Stmt::CXXBoolLiteralExprClass: 1410 case Stmt::ObjCBoolLiteralExprClass: 1411 case Stmt::ObjCAvailabilityCheckExprClass: 1412 case Stmt::FloatingLiteralClass: 1413 case Stmt::NoInitExprClass: 1414 case Stmt::SizeOfPackExprClass: 1415 case Stmt::StringLiteralClass: 1416 case Stmt::SourceLocExprClass: 1417 case Stmt::ObjCStringLiteralClass: 1418 case Stmt::CXXPseudoDestructorExprClass: 1419 case Stmt::SubstNonTypeTemplateParmExprClass: 1420 case Stmt::CXXNullPtrLiteralExprClass: 1421 case Stmt::OMPArraySectionExprClass: 1422 case Stmt::OMPArrayShapingExprClass: 1423 case Stmt::OMPIteratorExprClass: 1424 case Stmt::SYCLUniqueStableNameExprClass: 1425 case Stmt::TypeTraitExprClass: { 1426 Bldr.takeNodes(Pred); 1427 ExplodedNodeSet preVisit; 1428 getCheckerManager().runCheckersForPreStmt(preVisit, Pred, S, *this); 1429 getCheckerManager().runCheckersForPostStmt(Dst, preVisit, S, *this); 1430 Bldr.addNodes(Dst); 1431 break; 1432 } 1433 1434 case Stmt::CXXDefaultArgExprClass: 1435 case Stmt::CXXDefaultInitExprClass: { 1436 Bldr.takeNodes(Pred); 1437 ExplodedNodeSet PreVisit; 1438 getCheckerManager().runCheckersForPreStmt(PreVisit, Pred, S, *this); 1439 1440 ExplodedNodeSet Tmp; 1441 StmtNodeBuilder Bldr2(PreVisit, Tmp, *currBldrCtx); 1442 1443 const Expr *ArgE; 1444 if (const auto *DefE = dyn_cast<CXXDefaultArgExpr>(S)) 1445 ArgE = DefE->getExpr(); 1446 else if (const auto *DefE = dyn_cast<CXXDefaultInitExpr>(S)) 1447 ArgE = DefE->getExpr(); 1448 else 1449 llvm_unreachable("unknown constant wrapper kind"); 1450 1451 bool IsTemporary = false; 1452 if (const auto *MTE = dyn_cast<MaterializeTemporaryExpr>(ArgE)) { 1453 ArgE = MTE->getSubExpr(); 1454 IsTemporary = true; 1455 } 1456 1457 Optional<SVal> ConstantVal = svalBuilder.getConstantVal(ArgE); 1458 if (!ConstantVal) 1459 ConstantVal = UnknownVal(); 1460 1461 const LocationContext *LCtx = Pred->getLocationContext(); 1462 for (const auto I : PreVisit) { 1463 ProgramStateRef State = I->getState(); 1464 State = State->BindExpr(S, LCtx, *ConstantVal); 1465 if (IsTemporary) 1466 State = createTemporaryRegionIfNeeded(State, LCtx, 1467 cast<Expr>(S), 1468 cast<Expr>(S)); 1469 Bldr2.generateNode(S, I, State); 1470 } 1471 1472 getCheckerManager().runCheckersForPostStmt(Dst, Tmp, S, *this); 1473 Bldr.addNodes(Dst); 1474 break; 1475 } 1476 1477 // Cases we evaluate as opaque expressions, conjuring a symbol. 1478 case Stmt::CXXStdInitializerListExprClass: 1479 case Expr::ObjCArrayLiteralClass: 1480 case Expr::ObjCDictionaryLiteralClass: 1481 case Expr::ObjCBoxedExprClass: { 1482 Bldr.takeNodes(Pred); 1483 1484 ExplodedNodeSet preVisit; 1485 getCheckerManager().runCheckersForPreStmt(preVisit, Pred, S, *this); 1486 1487 ExplodedNodeSet Tmp; 1488 StmtNodeBuilder Bldr2(preVisit, Tmp, *currBldrCtx); 1489 1490 const auto *Ex = cast<Expr>(S); 1491 QualType resultType = Ex->getType(); 1492 1493 for (const auto N : preVisit) { 1494 const LocationContext *LCtx = N->getLocationContext(); 1495 SVal result = svalBuilder.conjureSymbolVal(nullptr, Ex, LCtx, 1496 resultType, 1497 currBldrCtx->blockCount()); 1498 ProgramStateRef State = N->getState()->BindExpr(Ex, LCtx, result); 1499 1500 // Escape pointers passed into the list, unless it's an ObjC boxed 1501 // expression which is not a boxable C structure. 1502 if (!(isa<ObjCBoxedExpr>(Ex) && 1503 !cast<ObjCBoxedExpr>(Ex)->getSubExpr() 1504 ->getType()->isRecordType())) 1505 for (auto Child : Ex->children()) { 1506 assert(Child); 1507 SVal Val = State->getSVal(Child, LCtx); 1508 State = escapeValues(State, Val, PSK_EscapeOther); 1509 } 1510 1511 Bldr2.generateNode(S, N, State); 1512 } 1513 1514 getCheckerManager().runCheckersForPostStmt(Dst, Tmp, S, *this); 1515 Bldr.addNodes(Dst); 1516 break; 1517 } 1518 1519 case Stmt::ArraySubscriptExprClass: 1520 Bldr.takeNodes(Pred); 1521 VisitArraySubscriptExpr(cast<ArraySubscriptExpr>(S), Pred, Dst); 1522 Bldr.addNodes(Dst); 1523 break; 1524 1525 case Stmt::MatrixSubscriptExprClass: 1526 llvm_unreachable("Support for MatrixSubscriptExpr is not implemented."); 1527 break; 1528 1529 case Stmt::GCCAsmStmtClass: 1530 Bldr.takeNodes(Pred); 1531 VisitGCCAsmStmt(cast<GCCAsmStmt>(S), Pred, Dst); 1532 Bldr.addNodes(Dst); 1533 break; 1534 1535 case Stmt::MSAsmStmtClass: 1536 Bldr.takeNodes(Pred); 1537 VisitMSAsmStmt(cast<MSAsmStmt>(S), Pred, Dst); 1538 Bldr.addNodes(Dst); 1539 break; 1540 1541 case Stmt::BlockExprClass: 1542 Bldr.takeNodes(Pred); 1543 VisitBlockExpr(cast<BlockExpr>(S), Pred, Dst); 1544 Bldr.addNodes(Dst); 1545 break; 1546 1547 case Stmt::LambdaExprClass: 1548 if (AMgr.options.ShouldInlineLambdas) { 1549 Bldr.takeNodes(Pred); 1550 VisitLambdaExpr(cast<LambdaExpr>(S), Pred, Dst); 1551 Bldr.addNodes(Dst); 1552 } else { 1553 const ExplodedNode *node = Bldr.generateSink(S, Pred, Pred->getState()); 1554 Engine.addAbortedBlock(node, currBldrCtx->getBlock()); 1555 } 1556 break; 1557 1558 case Stmt::BinaryOperatorClass: { 1559 const auto *B = cast<BinaryOperator>(S); 1560 if (B->isLogicalOp()) { 1561 Bldr.takeNodes(Pred); 1562 VisitLogicalExpr(B, Pred, Dst); 1563 Bldr.addNodes(Dst); 1564 break; 1565 } 1566 else if (B->getOpcode() == BO_Comma) { 1567 ProgramStateRef state = Pred->getState(); 1568 Bldr.generateNode(B, Pred, 1569 state->BindExpr(B, Pred->getLocationContext(), 1570 state->getSVal(B->getRHS(), 1571 Pred->getLocationContext()))); 1572 break; 1573 } 1574 1575 Bldr.takeNodes(Pred); 1576 1577 if (AMgr.options.ShouldEagerlyAssume && 1578 (B->isRelationalOp() || B->isEqualityOp())) { 1579 ExplodedNodeSet Tmp; 1580 VisitBinaryOperator(cast<BinaryOperator>(S), Pred, Tmp); 1581 evalEagerlyAssumeBinOpBifurcation(Dst, Tmp, cast<Expr>(S)); 1582 } 1583 else 1584 VisitBinaryOperator(cast<BinaryOperator>(S), Pred, Dst); 1585 1586 Bldr.addNodes(Dst); 1587 break; 1588 } 1589 1590 case Stmt::CXXOperatorCallExprClass: { 1591 const auto *OCE = cast<CXXOperatorCallExpr>(S); 1592 1593 // For instance method operators, make sure the 'this' argument has a 1594 // valid region. 1595 const Decl *Callee = OCE->getCalleeDecl(); 1596 if (const auto *MD = dyn_cast_or_null<CXXMethodDecl>(Callee)) { 1597 if (MD->isInstance()) { 1598 ProgramStateRef State = Pred->getState(); 1599 const LocationContext *LCtx = Pred->getLocationContext(); 1600 ProgramStateRef NewState = 1601 createTemporaryRegionIfNeeded(State, LCtx, OCE->getArg(0)); 1602 if (NewState != State) { 1603 Pred = Bldr.generateNode(OCE, Pred, NewState, /*tag=*/nullptr, 1604 ProgramPoint::PreStmtKind); 1605 // Did we cache out? 1606 if (!Pred) 1607 break; 1608 } 1609 } 1610 } 1611 // FALLTHROUGH 1612 LLVM_FALLTHROUGH; 1613 } 1614 1615 case Stmt::CallExprClass: 1616 case Stmt::CXXMemberCallExprClass: 1617 case Stmt::UserDefinedLiteralClass: 1618 Bldr.takeNodes(Pred); 1619 VisitCallExpr(cast<CallExpr>(S), Pred, Dst); 1620 Bldr.addNodes(Dst); 1621 break; 1622 1623 case Stmt::CXXCatchStmtClass: 1624 Bldr.takeNodes(Pred); 1625 VisitCXXCatchStmt(cast<CXXCatchStmt>(S), Pred, Dst); 1626 Bldr.addNodes(Dst); 1627 break; 1628 1629 case Stmt::CXXTemporaryObjectExprClass: 1630 case Stmt::CXXConstructExprClass: 1631 Bldr.takeNodes(Pred); 1632 VisitCXXConstructExpr(cast<CXXConstructExpr>(S), Pred, Dst); 1633 Bldr.addNodes(Dst); 1634 break; 1635 1636 case Stmt::CXXInheritedCtorInitExprClass: 1637 Bldr.takeNodes(Pred); 1638 VisitCXXInheritedCtorInitExpr(cast<CXXInheritedCtorInitExpr>(S), Pred, 1639 Dst); 1640 Bldr.addNodes(Dst); 1641 break; 1642 1643 case Stmt::CXXNewExprClass: { 1644 Bldr.takeNodes(Pred); 1645 1646 ExplodedNodeSet PreVisit; 1647 getCheckerManager().runCheckersForPreStmt(PreVisit, Pred, S, *this); 1648 1649 ExplodedNodeSet PostVisit; 1650 for (const auto i : PreVisit) 1651 VisitCXXNewExpr(cast<CXXNewExpr>(S), i, PostVisit); 1652 1653 getCheckerManager().runCheckersForPostStmt(Dst, PostVisit, S, *this); 1654 Bldr.addNodes(Dst); 1655 break; 1656 } 1657 1658 case Stmt::CXXDeleteExprClass: { 1659 Bldr.takeNodes(Pred); 1660 ExplodedNodeSet PreVisit; 1661 const auto *CDE = cast<CXXDeleteExpr>(S); 1662 getCheckerManager().runCheckersForPreStmt(PreVisit, Pred, S, *this); 1663 ExplodedNodeSet PostVisit; 1664 getCheckerManager().runCheckersForPostStmt(PostVisit, PreVisit, S, *this); 1665 1666 for (const auto i : PostVisit) 1667 VisitCXXDeleteExpr(CDE, i, Dst); 1668 1669 Bldr.addNodes(Dst); 1670 break; 1671 } 1672 // FIXME: ChooseExpr is really a constant. We need to fix 1673 // the CFG do not model them as explicit control-flow. 1674 1675 case Stmt::ChooseExprClass: { // __builtin_choose_expr 1676 Bldr.takeNodes(Pred); 1677 const auto *C = cast<ChooseExpr>(S); 1678 VisitGuardedExpr(C, C->getLHS(), C->getRHS(), Pred, Dst); 1679 Bldr.addNodes(Dst); 1680 break; 1681 } 1682 1683 case Stmt::CompoundAssignOperatorClass: 1684 Bldr.takeNodes(Pred); 1685 VisitBinaryOperator(cast<BinaryOperator>(S), Pred, Dst); 1686 Bldr.addNodes(Dst); 1687 break; 1688 1689 case Stmt::CompoundLiteralExprClass: 1690 Bldr.takeNodes(Pred); 1691 VisitCompoundLiteralExpr(cast<CompoundLiteralExpr>(S), Pred, Dst); 1692 Bldr.addNodes(Dst); 1693 break; 1694 1695 case Stmt::BinaryConditionalOperatorClass: 1696 case Stmt::ConditionalOperatorClass: { // '?' operator 1697 Bldr.takeNodes(Pred); 1698 const auto *C = cast<AbstractConditionalOperator>(S); 1699 VisitGuardedExpr(C, C->getTrueExpr(), C->getFalseExpr(), Pred, Dst); 1700 Bldr.addNodes(Dst); 1701 break; 1702 } 1703 1704 case Stmt::CXXThisExprClass: 1705 Bldr.takeNodes(Pred); 1706 VisitCXXThisExpr(cast<CXXThisExpr>(S), Pred, Dst); 1707 Bldr.addNodes(Dst); 1708 break; 1709 1710 case Stmt::DeclRefExprClass: { 1711 Bldr.takeNodes(Pred); 1712 const auto *DE = cast<DeclRefExpr>(S); 1713 VisitCommonDeclRefExpr(DE, DE->getDecl(), Pred, Dst); 1714 Bldr.addNodes(Dst); 1715 break; 1716 } 1717 1718 case Stmt::DeclStmtClass: 1719 Bldr.takeNodes(Pred); 1720 VisitDeclStmt(cast<DeclStmt>(S), Pred, Dst); 1721 Bldr.addNodes(Dst); 1722 break; 1723 1724 case Stmt::ImplicitCastExprClass: 1725 case Stmt::CStyleCastExprClass: 1726 case Stmt::CXXStaticCastExprClass: 1727 case Stmt::CXXDynamicCastExprClass: 1728 case Stmt::CXXReinterpretCastExprClass: 1729 case Stmt::CXXConstCastExprClass: 1730 case Stmt::CXXFunctionalCastExprClass: 1731 case Stmt::BuiltinBitCastExprClass: 1732 case Stmt::ObjCBridgedCastExprClass: 1733 case Stmt::CXXAddrspaceCastExprClass: { 1734 Bldr.takeNodes(Pred); 1735 const auto *C = cast<CastExpr>(S); 1736 ExplodedNodeSet dstExpr; 1737 VisitCast(C, C->getSubExpr(), Pred, dstExpr); 1738 1739 // Handle the postvisit checks. 1740 getCheckerManager().runCheckersForPostStmt(Dst, dstExpr, C, *this); 1741 Bldr.addNodes(Dst); 1742 break; 1743 } 1744 1745 case Expr::MaterializeTemporaryExprClass: { 1746 Bldr.takeNodes(Pred); 1747 const auto *MTE = cast<MaterializeTemporaryExpr>(S); 1748 ExplodedNodeSet dstPrevisit; 1749 getCheckerManager().runCheckersForPreStmt(dstPrevisit, Pred, MTE, *this); 1750 ExplodedNodeSet dstExpr; 1751 for (const auto i : dstPrevisit) 1752 CreateCXXTemporaryObject(MTE, i, dstExpr); 1753 getCheckerManager().runCheckersForPostStmt(Dst, dstExpr, MTE, *this); 1754 Bldr.addNodes(Dst); 1755 break; 1756 } 1757 1758 case Stmt::InitListExprClass: 1759 Bldr.takeNodes(Pred); 1760 VisitInitListExpr(cast<InitListExpr>(S), Pred, Dst); 1761 Bldr.addNodes(Dst); 1762 break; 1763 1764 case Stmt::MemberExprClass: 1765 Bldr.takeNodes(Pred); 1766 VisitMemberExpr(cast<MemberExpr>(S), Pred, Dst); 1767 Bldr.addNodes(Dst); 1768 break; 1769 1770 case Stmt::AtomicExprClass: 1771 Bldr.takeNodes(Pred); 1772 VisitAtomicExpr(cast<AtomicExpr>(S), Pred, Dst); 1773 Bldr.addNodes(Dst); 1774 break; 1775 1776 case Stmt::ObjCIvarRefExprClass: 1777 Bldr.takeNodes(Pred); 1778 VisitLvalObjCIvarRefExpr(cast<ObjCIvarRefExpr>(S), Pred, Dst); 1779 Bldr.addNodes(Dst); 1780 break; 1781 1782 case Stmt::ObjCForCollectionStmtClass: 1783 Bldr.takeNodes(Pred); 1784 VisitObjCForCollectionStmt(cast<ObjCForCollectionStmt>(S), Pred, Dst); 1785 Bldr.addNodes(Dst); 1786 break; 1787 1788 case Stmt::ObjCMessageExprClass: 1789 Bldr.takeNodes(Pred); 1790 VisitObjCMessage(cast<ObjCMessageExpr>(S), Pred, Dst); 1791 Bldr.addNodes(Dst); 1792 break; 1793 1794 case Stmt::ObjCAtThrowStmtClass: 1795 case Stmt::CXXThrowExprClass: 1796 // FIXME: This is not complete. We basically treat @throw as 1797 // an abort. 1798 Bldr.generateSink(S, Pred, Pred->getState()); 1799 break; 1800 1801 case Stmt::ReturnStmtClass: 1802 Bldr.takeNodes(Pred); 1803 VisitReturnStmt(cast<ReturnStmt>(S), Pred, Dst); 1804 Bldr.addNodes(Dst); 1805 break; 1806 1807 case Stmt::OffsetOfExprClass: { 1808 Bldr.takeNodes(Pred); 1809 ExplodedNodeSet PreVisit; 1810 getCheckerManager().runCheckersForPreStmt(PreVisit, Pred, S, *this); 1811 1812 ExplodedNodeSet PostVisit; 1813 for (const auto Node : PreVisit) 1814 VisitOffsetOfExpr(cast<OffsetOfExpr>(S), Node, PostVisit); 1815 1816 getCheckerManager().runCheckersForPostStmt(Dst, PostVisit, S, *this); 1817 Bldr.addNodes(Dst); 1818 break; 1819 } 1820 1821 case Stmt::UnaryExprOrTypeTraitExprClass: 1822 Bldr.takeNodes(Pred); 1823 VisitUnaryExprOrTypeTraitExpr(cast<UnaryExprOrTypeTraitExpr>(S), 1824 Pred, Dst); 1825 Bldr.addNodes(Dst); 1826 break; 1827 1828 case Stmt::StmtExprClass: { 1829 const auto *SE = cast<StmtExpr>(S); 1830 1831 if (SE->getSubStmt()->body_empty()) { 1832 // Empty statement expression. 1833 assert(SE->getType() == getContext().VoidTy 1834 && "Empty statement expression must have void type."); 1835 break; 1836 } 1837 1838 if (const auto *LastExpr = 1839 dyn_cast<Expr>(*SE->getSubStmt()->body_rbegin())) { 1840 ProgramStateRef state = Pred->getState(); 1841 Bldr.generateNode(SE, Pred, 1842 state->BindExpr(SE, Pred->getLocationContext(), 1843 state->getSVal(LastExpr, 1844 Pred->getLocationContext()))); 1845 } 1846 break; 1847 } 1848 1849 case Stmt::UnaryOperatorClass: { 1850 Bldr.takeNodes(Pred); 1851 const auto *U = cast<UnaryOperator>(S); 1852 if (AMgr.options.ShouldEagerlyAssume && (U->getOpcode() == UO_LNot)) { 1853 ExplodedNodeSet Tmp; 1854 VisitUnaryOperator(U, Pred, Tmp); 1855 evalEagerlyAssumeBinOpBifurcation(Dst, Tmp, U); 1856 } 1857 else 1858 VisitUnaryOperator(U, Pred, Dst); 1859 Bldr.addNodes(Dst); 1860 break; 1861 } 1862 1863 case Stmt::PseudoObjectExprClass: { 1864 Bldr.takeNodes(Pred); 1865 ProgramStateRef state = Pred->getState(); 1866 const auto *PE = cast<PseudoObjectExpr>(S); 1867 if (const Expr *Result = PE->getResultExpr()) { 1868 SVal V = state->getSVal(Result, Pred->getLocationContext()); 1869 Bldr.generateNode(S, Pred, 1870 state->BindExpr(S, Pred->getLocationContext(), V)); 1871 } 1872 else 1873 Bldr.generateNode(S, Pred, 1874 state->BindExpr(S, Pred->getLocationContext(), 1875 UnknownVal())); 1876 1877 Bldr.addNodes(Dst); 1878 break; 1879 } 1880 1881 case Expr::ObjCIndirectCopyRestoreExprClass: { 1882 // ObjCIndirectCopyRestoreExpr implies passing a temporary for 1883 // correctness of lifetime management. Due to limited analysis 1884 // of ARC, this is implemented as direct arg passing. 1885 Bldr.takeNodes(Pred); 1886 ProgramStateRef state = Pred->getState(); 1887 const auto *OIE = cast<ObjCIndirectCopyRestoreExpr>(S); 1888 const Expr *E = OIE->getSubExpr(); 1889 SVal V = state->getSVal(E, Pred->getLocationContext()); 1890 Bldr.generateNode(S, Pred, 1891 state->BindExpr(S, Pred->getLocationContext(), V)); 1892 Bldr.addNodes(Dst); 1893 break; 1894 } 1895 } 1896 } 1897 1898 bool ExprEngine::replayWithoutInlining(ExplodedNode *N, 1899 const LocationContext *CalleeLC) { 1900 const StackFrameContext *CalleeSF = CalleeLC->getStackFrame(); 1901 const StackFrameContext *CallerSF = CalleeSF->getParent()->getStackFrame(); 1902 assert(CalleeSF && CallerSF); 1903 ExplodedNode *BeforeProcessingCall = nullptr; 1904 const Stmt *CE = CalleeSF->getCallSite(); 1905 1906 // Find the first node before we started processing the call expression. 1907 while (N) { 1908 ProgramPoint L = N->getLocation(); 1909 BeforeProcessingCall = N; 1910 N = N->pred_empty() ? nullptr : *(N->pred_begin()); 1911 1912 // Skip the nodes corresponding to the inlined code. 1913 if (L.getStackFrame() != CallerSF) 1914 continue; 1915 // We reached the caller. Find the node right before we started 1916 // processing the call. 1917 if (L.isPurgeKind()) 1918 continue; 1919 if (L.getAs<PreImplicitCall>()) 1920 continue; 1921 if (L.getAs<CallEnter>()) 1922 continue; 1923 if (Optional<StmtPoint> SP = L.getAs<StmtPoint>()) 1924 if (SP->getStmt() == CE) 1925 continue; 1926 break; 1927 } 1928 1929 if (!BeforeProcessingCall) 1930 return false; 1931 1932 // TODO: Clean up the unneeded nodes. 1933 1934 // Build an Epsilon node from which we will restart the analyzes. 1935 // Note that CE is permitted to be NULL! 1936 ProgramPoint NewNodeLoc = 1937 EpsilonPoint(BeforeProcessingCall->getLocationContext(), CE); 1938 // Add the special flag to GDM to signal retrying with no inlining. 1939 // Note, changing the state ensures that we are not going to cache out. 1940 ProgramStateRef NewNodeState = BeforeProcessingCall->getState(); 1941 NewNodeState = 1942 NewNodeState->set<ReplayWithoutInlining>(const_cast<Stmt *>(CE)); 1943 1944 // Make the new node a successor of BeforeProcessingCall. 1945 bool IsNew = false; 1946 ExplodedNode *NewNode = G.getNode(NewNodeLoc, NewNodeState, false, &IsNew); 1947 // We cached out at this point. Caching out is common due to us backtracking 1948 // from the inlined function, which might spawn several paths. 1949 if (!IsNew) 1950 return true; 1951 1952 NewNode->addPredecessor(BeforeProcessingCall, G); 1953 1954 // Add the new node to the work list. 1955 Engine.enqueueStmtNode(NewNode, CalleeSF->getCallSiteBlock(), 1956 CalleeSF->getIndex()); 1957 NumTimesRetriedWithoutInlining++; 1958 return true; 1959 } 1960 1961 /// Block entrance. (Update counters). 1962 void ExprEngine::processCFGBlockEntrance(const BlockEdge &L, 1963 NodeBuilderWithSinks &nodeBuilder, 1964 ExplodedNode *Pred) { 1965 PrettyStackTraceLocationContext CrashInfo(Pred->getLocationContext()); 1966 // If we reach a loop which has a known bound (and meets 1967 // other constraints) then consider completely unrolling it. 1968 if(AMgr.options.ShouldUnrollLoops) { 1969 unsigned maxBlockVisitOnPath = AMgr.options.maxBlockVisitOnPath; 1970 const Stmt *Term = nodeBuilder.getContext().getBlock()->getTerminatorStmt(); 1971 if (Term) { 1972 ProgramStateRef NewState = updateLoopStack(Term, AMgr.getASTContext(), 1973 Pred, maxBlockVisitOnPath); 1974 if (NewState != Pred->getState()) { 1975 ExplodedNode *UpdatedNode = nodeBuilder.generateNode(NewState, Pred); 1976 if (!UpdatedNode) 1977 return; 1978 Pred = UpdatedNode; 1979 } 1980 } 1981 // Is we are inside an unrolled loop then no need the check the counters. 1982 if(isUnrolledState(Pred->getState())) 1983 return; 1984 } 1985 1986 // If this block is terminated by a loop and it has already been visited the 1987 // maximum number of times, widen the loop. 1988 unsigned int BlockCount = nodeBuilder.getContext().blockCount(); 1989 if (BlockCount == AMgr.options.maxBlockVisitOnPath - 1 && 1990 AMgr.options.ShouldWidenLoops) { 1991 const Stmt *Term = nodeBuilder.getContext().getBlock()->getTerminatorStmt(); 1992 if (!isa_and_nonnull<ForStmt, WhileStmt, DoStmt>(Term)) 1993 return; 1994 // Widen. 1995 const LocationContext *LCtx = Pred->getLocationContext(); 1996 ProgramStateRef WidenedState = 1997 getWidenedLoopState(Pred->getState(), LCtx, BlockCount, Term); 1998 nodeBuilder.generateNode(WidenedState, Pred); 1999 return; 2000 } 2001 2002 // FIXME: Refactor this into a checker. 2003 if (BlockCount >= AMgr.options.maxBlockVisitOnPath) { 2004 static SimpleProgramPointTag tag(TagProviderName, "Block count exceeded"); 2005 const ExplodedNode *Sink = 2006 nodeBuilder.generateSink(Pred->getState(), Pred, &tag); 2007 2008 // Check if we stopped at the top level function or not. 2009 // Root node should have the location context of the top most function. 2010 const LocationContext *CalleeLC = Pred->getLocation().getLocationContext(); 2011 const LocationContext *CalleeSF = CalleeLC->getStackFrame(); 2012 const LocationContext *RootLC = 2013 (*G.roots_begin())->getLocation().getLocationContext(); 2014 if (RootLC->getStackFrame() != CalleeSF) { 2015 Engine.FunctionSummaries->markReachedMaxBlockCount(CalleeSF->getDecl()); 2016 2017 // Re-run the call evaluation without inlining it, by storing the 2018 // no-inlining policy in the state and enqueuing the new work item on 2019 // the list. Replay should almost never fail. Use the stats to catch it 2020 // if it does. 2021 if ((!AMgr.options.NoRetryExhausted && 2022 replayWithoutInlining(Pred, CalleeLC))) 2023 return; 2024 NumMaxBlockCountReachedInInlined++; 2025 } else 2026 NumMaxBlockCountReached++; 2027 2028 // Make sink nodes as exhausted(for stats) only if retry failed. 2029 Engine.blocksExhausted.push_back(std::make_pair(L, Sink)); 2030 } 2031 } 2032 2033 //===----------------------------------------------------------------------===// 2034 // Branch processing. 2035 //===----------------------------------------------------------------------===// 2036 2037 /// RecoverCastedSymbol - A helper function for ProcessBranch that is used 2038 /// to try to recover some path-sensitivity for casts of symbolic 2039 /// integers that promote their values (which are currently not tracked well). 2040 /// This function returns the SVal bound to Condition->IgnoreCasts if all the 2041 // cast(s) did was sign-extend the original value. 2042 static SVal RecoverCastedSymbol(ProgramStateRef state, 2043 const Stmt *Condition, 2044 const LocationContext *LCtx, 2045 ASTContext &Ctx) { 2046 2047 const auto *Ex = dyn_cast<Expr>(Condition); 2048 if (!Ex) 2049 return UnknownVal(); 2050 2051 uint64_t bits = 0; 2052 bool bitsInit = false; 2053 2054 while (const auto *CE = dyn_cast<CastExpr>(Ex)) { 2055 QualType T = CE->getType(); 2056 2057 if (!T->isIntegralOrEnumerationType()) 2058 return UnknownVal(); 2059 2060 uint64_t newBits = Ctx.getTypeSize(T); 2061 if (!bitsInit || newBits < bits) { 2062 bitsInit = true; 2063 bits = newBits; 2064 } 2065 2066 Ex = CE->getSubExpr(); 2067 } 2068 2069 // We reached a non-cast. Is it a symbolic value? 2070 QualType T = Ex->getType(); 2071 2072 if (!bitsInit || !T->isIntegralOrEnumerationType() || 2073 Ctx.getTypeSize(T) > bits) 2074 return UnknownVal(); 2075 2076 return state->getSVal(Ex, LCtx); 2077 } 2078 2079 #ifndef NDEBUG 2080 static const Stmt *getRightmostLeaf(const Stmt *Condition) { 2081 while (Condition) { 2082 const auto *BO = dyn_cast<BinaryOperator>(Condition); 2083 if (!BO || !BO->isLogicalOp()) { 2084 return Condition; 2085 } 2086 Condition = BO->getRHS()->IgnoreParens(); 2087 } 2088 return nullptr; 2089 } 2090 #endif 2091 2092 // Returns the condition the branch at the end of 'B' depends on and whose value 2093 // has been evaluated within 'B'. 2094 // In most cases, the terminator condition of 'B' will be evaluated fully in 2095 // the last statement of 'B'; in those cases, the resolved condition is the 2096 // given 'Condition'. 2097 // If the condition of the branch is a logical binary operator tree, the CFG is 2098 // optimized: in that case, we know that the expression formed by all but the 2099 // rightmost leaf of the logical binary operator tree must be true, and thus 2100 // the branch condition is at this point equivalent to the truth value of that 2101 // rightmost leaf; the CFG block thus only evaluates this rightmost leaf 2102 // expression in its final statement. As the full condition in that case was 2103 // not evaluated, and is thus not in the SVal cache, we need to use that leaf 2104 // expression to evaluate the truth value of the condition in the current state 2105 // space. 2106 static const Stmt *ResolveCondition(const Stmt *Condition, 2107 const CFGBlock *B) { 2108 if (const auto *Ex = dyn_cast<Expr>(Condition)) 2109 Condition = Ex->IgnoreParens(); 2110 2111 const auto *BO = dyn_cast<BinaryOperator>(Condition); 2112 if (!BO || !BO->isLogicalOp()) 2113 return Condition; 2114 2115 assert(B->getTerminator().isStmtBranch() && 2116 "Other kinds of branches are handled separately!"); 2117 2118 // For logical operations, we still have the case where some branches 2119 // use the traditional "merge" approach and others sink the branch 2120 // directly into the basic blocks representing the logical operation. 2121 // We need to distinguish between those two cases here. 2122 2123 // The invariants are still shifting, but it is possible that the 2124 // last element in a CFGBlock is not a CFGStmt. Look for the last 2125 // CFGStmt as the value of the condition. 2126 CFGBlock::const_reverse_iterator I = B->rbegin(), E = B->rend(); 2127 for (; I != E; ++I) { 2128 CFGElement Elem = *I; 2129 Optional<CFGStmt> CS = Elem.getAs<CFGStmt>(); 2130 if (!CS) 2131 continue; 2132 const Stmt *LastStmt = CS->getStmt(); 2133 assert(LastStmt == Condition || LastStmt == getRightmostLeaf(Condition)); 2134 return LastStmt; 2135 } 2136 llvm_unreachable("could not resolve condition"); 2137 } 2138 2139 using ObjCForLctxPair = 2140 std::pair<const ObjCForCollectionStmt *, const LocationContext *>; 2141 2142 REGISTER_MAP_WITH_PROGRAMSTATE(ObjCForHasMoreIterations, ObjCForLctxPair, bool) 2143 2144 ProgramStateRef ExprEngine::setWhetherHasMoreIteration( 2145 ProgramStateRef State, const ObjCForCollectionStmt *O, 2146 const LocationContext *LC, bool HasMoreIteraton) { 2147 assert(!State->contains<ObjCForHasMoreIterations>({O, LC})); 2148 return State->set<ObjCForHasMoreIterations>({O, LC}, HasMoreIteraton); 2149 } 2150 2151 ProgramStateRef 2152 ExprEngine::removeIterationState(ProgramStateRef State, 2153 const ObjCForCollectionStmt *O, 2154 const LocationContext *LC) { 2155 assert(State->contains<ObjCForHasMoreIterations>({O, LC})); 2156 return State->remove<ObjCForHasMoreIterations>({O, LC}); 2157 } 2158 2159 bool ExprEngine::hasMoreIteration(ProgramStateRef State, 2160 const ObjCForCollectionStmt *O, 2161 const LocationContext *LC) { 2162 assert(State->contains<ObjCForHasMoreIterations>({O, LC})); 2163 return *State->get<ObjCForHasMoreIterations>({O, LC}); 2164 } 2165 2166 /// Split the state on whether there are any more iterations left for this loop. 2167 /// Returns a (HasMoreIteration, HasNoMoreIteration) pair, or None when the 2168 /// acquisition of the loop condition value failed. 2169 static Optional<std::pair<ProgramStateRef, ProgramStateRef>> 2170 assumeCondition(const Stmt *Condition, ExplodedNode *N) { 2171 ProgramStateRef State = N->getState(); 2172 if (const auto *ObjCFor = dyn_cast<ObjCForCollectionStmt>(Condition)) { 2173 bool HasMoreIteraton = 2174 ExprEngine::hasMoreIteration(State, ObjCFor, N->getLocationContext()); 2175 // Checkers have already ran on branch conditions, so the current 2176 // information as to whether the loop has more iteration becomes outdated 2177 // after this point. 2178 State = ExprEngine::removeIterationState(State, ObjCFor, 2179 N->getLocationContext()); 2180 if (HasMoreIteraton) 2181 return std::pair<ProgramStateRef, ProgramStateRef>{State, nullptr}; 2182 else 2183 return std::pair<ProgramStateRef, ProgramStateRef>{nullptr, State}; 2184 } 2185 SVal X = State->getSVal(Condition, N->getLocationContext()); 2186 2187 if (X.isUnknownOrUndef()) { 2188 // Give it a chance to recover from unknown. 2189 if (const auto *Ex = dyn_cast<Expr>(Condition)) { 2190 if (Ex->getType()->isIntegralOrEnumerationType()) { 2191 // Try to recover some path-sensitivity. Right now casts of symbolic 2192 // integers that promote their values are currently not tracked well. 2193 // If 'Condition' is such an expression, try and recover the 2194 // underlying value and use that instead. 2195 SVal recovered = 2196 RecoverCastedSymbol(State, Condition, N->getLocationContext(), 2197 N->getState()->getStateManager().getContext()); 2198 2199 if (!recovered.isUnknown()) { 2200 X = recovered; 2201 } 2202 } 2203 } 2204 } 2205 2206 // If the condition is still unknown, give up. 2207 if (X.isUnknownOrUndef()) 2208 return None; 2209 2210 DefinedSVal V = X.castAs<DefinedSVal>(); 2211 2212 ProgramStateRef StTrue, StFalse; 2213 return State->assume(V); 2214 } 2215 2216 void ExprEngine::processBranch(const Stmt *Condition, 2217 NodeBuilderContext& BldCtx, 2218 ExplodedNode *Pred, 2219 ExplodedNodeSet &Dst, 2220 const CFGBlock *DstT, 2221 const CFGBlock *DstF) { 2222 assert((!Condition || !isa<CXXBindTemporaryExpr>(Condition)) && 2223 "CXXBindTemporaryExprs are handled by processBindTemporary."); 2224 const LocationContext *LCtx = Pred->getLocationContext(); 2225 PrettyStackTraceLocationContext StackCrashInfo(LCtx); 2226 currBldrCtx = &BldCtx; 2227 2228 // Check for NULL conditions; e.g. "for(;;)" 2229 if (!Condition) { 2230 BranchNodeBuilder NullCondBldr(Pred, Dst, BldCtx, DstT, DstF); 2231 NullCondBldr.markInfeasible(false); 2232 NullCondBldr.generateNode(Pred->getState(), true, Pred); 2233 return; 2234 } 2235 2236 if (const auto *Ex = dyn_cast<Expr>(Condition)) 2237 Condition = Ex->IgnoreParens(); 2238 2239 Condition = ResolveCondition(Condition, BldCtx.getBlock()); 2240 PrettyStackTraceLoc CrashInfo(getContext().getSourceManager(), 2241 Condition->getBeginLoc(), 2242 "Error evaluating branch"); 2243 2244 ExplodedNodeSet CheckersOutSet; 2245 getCheckerManager().runCheckersForBranchCondition(Condition, CheckersOutSet, 2246 Pred, *this); 2247 // We generated only sinks. 2248 if (CheckersOutSet.empty()) 2249 return; 2250 2251 BranchNodeBuilder builder(CheckersOutSet, Dst, BldCtx, DstT, DstF); 2252 for (ExplodedNode *PredN : CheckersOutSet) { 2253 if (PredN->isSink()) 2254 continue; 2255 2256 ProgramStateRef PrevState = PredN->getState(); 2257 2258 ProgramStateRef StTrue, StFalse; 2259 if (const auto KnownCondValueAssumption = assumeCondition(Condition, PredN)) 2260 std::tie(StTrue, StFalse) = *KnownCondValueAssumption; 2261 else { 2262 assert(!isa<ObjCForCollectionStmt>(Condition)); 2263 builder.generateNode(PrevState, true, PredN); 2264 builder.generateNode(PrevState, false, PredN); 2265 continue; 2266 } 2267 if (StTrue && StFalse) 2268 assert(!isa<ObjCForCollectionStmt>(Condition)); 2269 2270 // Process the true branch. 2271 if (builder.isFeasible(true)) { 2272 if (StTrue) 2273 builder.generateNode(StTrue, true, PredN); 2274 else 2275 builder.markInfeasible(true); 2276 } 2277 2278 // Process the false branch. 2279 if (builder.isFeasible(false)) { 2280 if (StFalse) 2281 builder.generateNode(StFalse, false, PredN); 2282 else 2283 builder.markInfeasible(false); 2284 } 2285 } 2286 currBldrCtx = nullptr; 2287 } 2288 2289 /// The GDM component containing the set of global variables which have been 2290 /// previously initialized with explicit initializers. 2291 REGISTER_TRAIT_WITH_PROGRAMSTATE(InitializedGlobalsSet, 2292 llvm::ImmutableSet<const VarDecl *>) 2293 2294 void ExprEngine::processStaticInitializer(const DeclStmt *DS, 2295 NodeBuilderContext &BuilderCtx, 2296 ExplodedNode *Pred, 2297 ExplodedNodeSet &Dst, 2298 const CFGBlock *DstT, 2299 const CFGBlock *DstF) { 2300 PrettyStackTraceLocationContext CrashInfo(Pred->getLocationContext()); 2301 currBldrCtx = &BuilderCtx; 2302 2303 const auto *VD = cast<VarDecl>(DS->getSingleDecl()); 2304 ProgramStateRef state = Pred->getState(); 2305 bool initHasRun = state->contains<InitializedGlobalsSet>(VD); 2306 BranchNodeBuilder builder(Pred, Dst, BuilderCtx, DstT, DstF); 2307 2308 if (!initHasRun) { 2309 state = state->add<InitializedGlobalsSet>(VD); 2310 } 2311 2312 builder.generateNode(state, initHasRun, Pred); 2313 builder.markInfeasible(!initHasRun); 2314 2315 currBldrCtx = nullptr; 2316 } 2317 2318 /// processIndirectGoto - Called by CoreEngine. Used to generate successor 2319 /// nodes by processing the 'effects' of a computed goto jump. 2320 void ExprEngine::processIndirectGoto(IndirectGotoNodeBuilder &builder) { 2321 ProgramStateRef state = builder.getState(); 2322 SVal V = state->getSVal(builder.getTarget(), builder.getLocationContext()); 2323 2324 // Three possibilities: 2325 // 2326 // (1) We know the computed label. 2327 // (2) The label is NULL (or some other constant), or Undefined. 2328 // (3) We have no clue about the label. Dispatch to all targets. 2329 // 2330 2331 using iterator = IndirectGotoNodeBuilder::iterator; 2332 2333 if (Optional<loc::GotoLabel> LV = V.getAs<loc::GotoLabel>()) { 2334 const LabelDecl *L = LV->getLabel(); 2335 2336 for (iterator I = builder.begin(), E = builder.end(); I != E; ++I) { 2337 if (I.getLabel() == L) { 2338 builder.generateNode(I, state); 2339 return; 2340 } 2341 } 2342 2343 llvm_unreachable("No block with label."); 2344 } 2345 2346 if (V.getAs<loc::ConcreteInt>() || V.getAs<UndefinedVal>()) { 2347 // Dispatch to the first target and mark it as a sink. 2348 //ExplodedNode* N = builder.generateNode(builder.begin(), state, true); 2349 // FIXME: add checker visit. 2350 // UndefBranches.insert(N); 2351 return; 2352 } 2353 2354 // This is really a catch-all. We don't support symbolics yet. 2355 // FIXME: Implement dispatch for symbolic pointers. 2356 2357 for (iterator I = builder.begin(), E = builder.end(); I != E; ++I) 2358 builder.generateNode(I, state); 2359 } 2360 2361 void ExprEngine::processBeginOfFunction(NodeBuilderContext &BC, 2362 ExplodedNode *Pred, 2363 ExplodedNodeSet &Dst, 2364 const BlockEdge &L) { 2365 SaveAndRestore<const NodeBuilderContext *> NodeContextRAII(currBldrCtx, &BC); 2366 getCheckerManager().runCheckersForBeginFunction(Dst, L, Pred, *this); 2367 } 2368 2369 /// ProcessEndPath - Called by CoreEngine. Used to generate end-of-path 2370 /// nodes when the control reaches the end of a function. 2371 void ExprEngine::processEndOfFunction(NodeBuilderContext& BC, 2372 ExplodedNode *Pred, 2373 const ReturnStmt *RS) { 2374 ProgramStateRef State = Pred->getState(); 2375 2376 if (!Pred->getStackFrame()->inTopFrame()) 2377 State = finishArgumentConstruction( 2378 State, *getStateManager().getCallEventManager().getCaller( 2379 Pred->getStackFrame(), Pred->getState())); 2380 2381 // FIXME: We currently cannot assert that temporaries are clear, because 2382 // lifetime extended temporaries are not always modelled correctly. In some 2383 // cases when we materialize the temporary, we do 2384 // createTemporaryRegionIfNeeded(), and the region changes, and also the 2385 // respective destructor becomes automatic from temporary. So for now clean up 2386 // the state manually before asserting. Ideally, this braced block of code 2387 // should go away. 2388 { 2389 const LocationContext *FromLC = Pred->getLocationContext(); 2390 const LocationContext *ToLC = FromLC->getStackFrame()->getParent(); 2391 const LocationContext *LC = FromLC; 2392 while (LC != ToLC) { 2393 assert(LC && "ToLC must be a parent of FromLC!"); 2394 for (auto I : State->get<ObjectsUnderConstruction>()) 2395 if (I.first.getLocationContext() == LC) { 2396 // The comment above only pardons us for not cleaning up a 2397 // temporary destructor. If any other statements are found here, 2398 // it must be a separate problem. 2399 assert(I.first.getItem().getKind() == 2400 ConstructionContextItem::TemporaryDestructorKind || 2401 I.first.getItem().getKind() == 2402 ConstructionContextItem::ElidedDestructorKind); 2403 State = State->remove<ObjectsUnderConstruction>(I.first); 2404 } 2405 LC = LC->getParent(); 2406 } 2407 } 2408 2409 // Perform the transition with cleanups. 2410 if (State != Pred->getState()) { 2411 ExplodedNodeSet PostCleanup; 2412 NodeBuilder Bldr(Pred, PostCleanup, BC); 2413 Pred = Bldr.generateNode(Pred->getLocation(), State, Pred); 2414 if (!Pred) { 2415 // The node with clean temporaries already exists. We might have reached 2416 // it on a path on which we initialize different temporaries. 2417 return; 2418 } 2419 } 2420 2421 assert(areAllObjectsFullyConstructed(Pred->getState(), 2422 Pred->getLocationContext(), 2423 Pred->getStackFrame()->getParent())); 2424 2425 PrettyStackTraceLocationContext CrashInfo(Pred->getLocationContext()); 2426 2427 ExplodedNodeSet Dst; 2428 if (Pred->getLocationContext()->inTopFrame()) { 2429 // Remove dead symbols. 2430 ExplodedNodeSet AfterRemovedDead; 2431 removeDeadOnEndOfFunction(BC, Pred, AfterRemovedDead); 2432 2433 // Notify checkers. 2434 for (const auto I : AfterRemovedDead) 2435 getCheckerManager().runCheckersForEndFunction(BC, Dst, I, *this, RS); 2436 } else { 2437 getCheckerManager().runCheckersForEndFunction(BC, Dst, Pred, *this, RS); 2438 } 2439 2440 Engine.enqueueEndOfFunction(Dst, RS); 2441 } 2442 2443 /// ProcessSwitch - Called by CoreEngine. Used to generate successor 2444 /// nodes by processing the 'effects' of a switch statement. 2445 void ExprEngine::processSwitch(SwitchNodeBuilder& builder) { 2446 using iterator = SwitchNodeBuilder::iterator; 2447 2448 ProgramStateRef state = builder.getState(); 2449 const Expr *CondE = builder.getCondition(); 2450 SVal CondV_untested = state->getSVal(CondE, builder.getLocationContext()); 2451 2452 if (CondV_untested.isUndef()) { 2453 //ExplodedNode* N = builder.generateDefaultCaseNode(state, true); 2454 // FIXME: add checker 2455 //UndefBranches.insert(N); 2456 2457 return; 2458 } 2459 DefinedOrUnknownSVal CondV = CondV_untested.castAs<DefinedOrUnknownSVal>(); 2460 2461 ProgramStateRef DefaultSt = state; 2462 2463 iterator I = builder.begin(), EI = builder.end(); 2464 bool defaultIsFeasible = I == EI; 2465 2466 for ( ; I != EI; ++I) { 2467 // Successor may be pruned out during CFG construction. 2468 if (!I.getBlock()) 2469 continue; 2470 2471 const CaseStmt *Case = I.getCase(); 2472 2473 // Evaluate the LHS of the case value. 2474 llvm::APSInt V1 = Case->getLHS()->EvaluateKnownConstInt(getContext()); 2475 assert(V1.getBitWidth() == getContext().getIntWidth(CondE->getType())); 2476 2477 // Get the RHS of the case, if it exists. 2478 llvm::APSInt V2; 2479 if (const Expr *E = Case->getRHS()) 2480 V2 = E->EvaluateKnownConstInt(getContext()); 2481 else 2482 V2 = V1; 2483 2484 ProgramStateRef StateCase; 2485 if (Optional<NonLoc> NL = CondV.getAs<NonLoc>()) 2486 std::tie(StateCase, DefaultSt) = 2487 DefaultSt->assumeInclusiveRange(*NL, V1, V2); 2488 else // UnknownVal 2489 StateCase = DefaultSt; 2490 2491 if (StateCase) 2492 builder.generateCaseStmtNode(I, StateCase); 2493 2494 // Now "assume" that the case doesn't match. Add this state 2495 // to the default state (if it is feasible). 2496 if (DefaultSt) 2497 defaultIsFeasible = true; 2498 else { 2499 defaultIsFeasible = false; 2500 break; 2501 } 2502 } 2503 2504 if (!defaultIsFeasible) 2505 return; 2506 2507 // If we have switch(enum value), the default branch is not 2508 // feasible if all of the enum constants not covered by 'case:' statements 2509 // are not feasible values for the switch condition. 2510 // 2511 // Note that this isn't as accurate as it could be. Even if there isn't 2512 // a case for a particular enum value as long as that enum value isn't 2513 // feasible then it shouldn't be considered for making 'default:' reachable. 2514 const SwitchStmt *SS = builder.getSwitch(); 2515 const Expr *CondExpr = SS->getCond()->IgnoreParenImpCasts(); 2516 if (CondExpr->getType()->getAs<EnumType>()) { 2517 if (SS->isAllEnumCasesCovered()) 2518 return; 2519 } 2520 2521 builder.generateDefaultCaseNode(DefaultSt); 2522 } 2523 2524 //===----------------------------------------------------------------------===// 2525 // Transfer functions: Loads and stores. 2526 //===----------------------------------------------------------------------===// 2527 2528 void ExprEngine::VisitCommonDeclRefExpr(const Expr *Ex, const NamedDecl *D, 2529 ExplodedNode *Pred, 2530 ExplodedNodeSet &Dst) { 2531 StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx); 2532 2533 ProgramStateRef state = Pred->getState(); 2534 const LocationContext *LCtx = Pred->getLocationContext(); 2535 2536 if (const auto *VD = dyn_cast<VarDecl>(D)) { 2537 // C permits "extern void v", and if you cast the address to a valid type, 2538 // you can even do things with it. We simply pretend 2539 assert(Ex->isGLValue() || VD->getType()->isVoidType()); 2540 const LocationContext *LocCtxt = Pred->getLocationContext(); 2541 const Decl *D = LocCtxt->getDecl(); 2542 const auto *MD = dyn_cast_or_null<CXXMethodDecl>(D); 2543 const auto *DeclRefEx = dyn_cast<DeclRefExpr>(Ex); 2544 Optional<std::pair<SVal, QualType>> VInfo; 2545 2546 if (AMgr.options.ShouldInlineLambdas && DeclRefEx && 2547 DeclRefEx->refersToEnclosingVariableOrCapture() && MD && 2548 MD->getParent()->isLambda()) { 2549 // Lookup the field of the lambda. 2550 const CXXRecordDecl *CXXRec = MD->getParent(); 2551 llvm::DenseMap<const VarDecl *, FieldDecl *> LambdaCaptureFields; 2552 FieldDecl *LambdaThisCaptureField; 2553 CXXRec->getCaptureFields(LambdaCaptureFields, LambdaThisCaptureField); 2554 2555 // Sema follows a sequence of complex rules to determine whether the 2556 // variable should be captured. 2557 if (const FieldDecl *FD = LambdaCaptureFields[VD]) { 2558 Loc CXXThis = 2559 svalBuilder.getCXXThis(MD, LocCtxt->getStackFrame()); 2560 SVal CXXThisVal = state->getSVal(CXXThis); 2561 VInfo = std::make_pair(state->getLValue(FD, CXXThisVal), FD->getType()); 2562 } 2563 } 2564 2565 if (!VInfo) 2566 VInfo = std::make_pair(state->getLValue(VD, LocCtxt), VD->getType()); 2567 2568 SVal V = VInfo->first; 2569 bool IsReference = VInfo->second->isReferenceType(); 2570 2571 // For references, the 'lvalue' is the pointer address stored in the 2572 // reference region. 2573 if (IsReference) { 2574 if (const MemRegion *R = V.getAsRegion()) 2575 V = state->getSVal(R); 2576 else 2577 V = UnknownVal(); 2578 } 2579 2580 Bldr.generateNode(Ex, Pred, state->BindExpr(Ex, LCtx, V), nullptr, 2581 ProgramPoint::PostLValueKind); 2582 return; 2583 } 2584 if (const auto *ED = dyn_cast<EnumConstantDecl>(D)) { 2585 assert(!Ex->isGLValue()); 2586 SVal V = svalBuilder.makeIntVal(ED->getInitVal()); 2587 Bldr.generateNode(Ex, Pred, state->BindExpr(Ex, LCtx, V)); 2588 return; 2589 } 2590 if (const auto *FD = dyn_cast<FunctionDecl>(D)) { 2591 SVal V = svalBuilder.getFunctionPointer(FD); 2592 Bldr.generateNode(Ex, Pred, state->BindExpr(Ex, LCtx, V), nullptr, 2593 ProgramPoint::PostLValueKind); 2594 return; 2595 } 2596 if (isa<FieldDecl, IndirectFieldDecl>(D)) { 2597 // Delegate all work related to pointer to members to the surrounding 2598 // operator&. 2599 return; 2600 } 2601 if (isa<BindingDecl>(D)) { 2602 // FIXME: proper support for bound declarations. 2603 // For now, let's just prevent crashing. 2604 return; 2605 } 2606 2607 llvm_unreachable("Support for this Decl not implemented."); 2608 } 2609 2610 /// VisitArraySubscriptExpr - Transfer function for array accesses 2611 void ExprEngine::VisitArraySubscriptExpr(const ArraySubscriptExpr *A, 2612 ExplodedNode *Pred, 2613 ExplodedNodeSet &Dst){ 2614 const Expr *Base = A->getBase()->IgnoreParens(); 2615 const Expr *Idx = A->getIdx()->IgnoreParens(); 2616 2617 ExplodedNodeSet CheckerPreStmt; 2618 getCheckerManager().runCheckersForPreStmt(CheckerPreStmt, Pred, A, *this); 2619 2620 ExplodedNodeSet EvalSet; 2621 StmtNodeBuilder Bldr(CheckerPreStmt, EvalSet, *currBldrCtx); 2622 2623 bool IsVectorType = A->getBase()->getType()->isVectorType(); 2624 2625 // The "like" case is for situations where C standard prohibits the type to 2626 // be an lvalue, e.g. taking the address of a subscript of an expression of 2627 // type "void *". 2628 bool IsGLValueLike = A->isGLValue() || 2629 (A->getType().isCForbiddenLValueType() && !AMgr.getLangOpts().CPlusPlus); 2630 2631 for (auto *Node : CheckerPreStmt) { 2632 const LocationContext *LCtx = Node->getLocationContext(); 2633 ProgramStateRef state = Node->getState(); 2634 2635 if (IsGLValueLike) { 2636 QualType T = A->getType(); 2637 2638 // One of the forbidden LValue types! We still need to have sensible 2639 // symbolic locations to represent this stuff. Note that arithmetic on 2640 // void pointers is a GCC extension. 2641 if (T->isVoidType()) 2642 T = getContext().CharTy; 2643 2644 SVal V = state->getLValue(T, 2645 state->getSVal(Idx, LCtx), 2646 state->getSVal(Base, LCtx)); 2647 Bldr.generateNode(A, Node, state->BindExpr(A, LCtx, V), nullptr, 2648 ProgramPoint::PostLValueKind); 2649 } else if (IsVectorType) { 2650 // FIXME: non-glvalue vector reads are not modelled. 2651 Bldr.generateNode(A, Node, state, nullptr); 2652 } else { 2653 llvm_unreachable("Array subscript should be an lValue when not \ 2654 a vector and not a forbidden lvalue type"); 2655 } 2656 } 2657 2658 getCheckerManager().runCheckersForPostStmt(Dst, EvalSet, A, *this); 2659 } 2660 2661 /// VisitMemberExpr - Transfer function for member expressions. 2662 void ExprEngine::VisitMemberExpr(const MemberExpr *M, ExplodedNode *Pred, 2663 ExplodedNodeSet &Dst) { 2664 // FIXME: Prechecks eventually go in ::Visit(). 2665 ExplodedNodeSet CheckedSet; 2666 getCheckerManager().runCheckersForPreStmt(CheckedSet, Pred, M, *this); 2667 2668 ExplodedNodeSet EvalSet; 2669 ValueDecl *Member = M->getMemberDecl(); 2670 2671 // Handle static member variables and enum constants accessed via 2672 // member syntax. 2673 if (isa<VarDecl, EnumConstantDecl>(Member)) { 2674 for (const auto I : CheckedSet) 2675 VisitCommonDeclRefExpr(M, Member, I, EvalSet); 2676 } else { 2677 StmtNodeBuilder Bldr(CheckedSet, EvalSet, *currBldrCtx); 2678 ExplodedNodeSet Tmp; 2679 2680 for (const auto I : CheckedSet) { 2681 ProgramStateRef state = I->getState(); 2682 const LocationContext *LCtx = I->getLocationContext(); 2683 Expr *BaseExpr = M->getBase(); 2684 2685 // Handle C++ method calls. 2686 if (const auto *MD = dyn_cast<CXXMethodDecl>(Member)) { 2687 if (MD->isInstance()) 2688 state = createTemporaryRegionIfNeeded(state, LCtx, BaseExpr); 2689 2690 SVal MDVal = svalBuilder.getFunctionPointer(MD); 2691 state = state->BindExpr(M, LCtx, MDVal); 2692 2693 Bldr.generateNode(M, I, state); 2694 continue; 2695 } 2696 2697 // Handle regular struct fields / member variables. 2698 const SubRegion *MR = nullptr; 2699 state = createTemporaryRegionIfNeeded(state, LCtx, BaseExpr, 2700 /*Result=*/nullptr, 2701 /*OutRegionWithAdjustments=*/&MR); 2702 SVal baseExprVal = 2703 MR ? loc::MemRegionVal(MR) : state->getSVal(BaseExpr, LCtx); 2704 2705 const auto *field = cast<FieldDecl>(Member); 2706 SVal L = state->getLValue(field, baseExprVal); 2707 2708 if (M->isGLValue() || M->getType()->isArrayType()) { 2709 // We special-case rvalues of array type because the analyzer cannot 2710 // reason about them, since we expect all regions to be wrapped in Locs. 2711 // We instead treat these as lvalues and assume that they will decay to 2712 // pointers as soon as they are used. 2713 if (!M->isGLValue()) { 2714 assert(M->getType()->isArrayType()); 2715 const auto *PE = 2716 dyn_cast<ImplicitCastExpr>(I->getParentMap().getParentIgnoreParens(M)); 2717 if (!PE || PE->getCastKind() != CK_ArrayToPointerDecay) { 2718 llvm_unreachable("should always be wrapped in ArrayToPointerDecay"); 2719 } 2720 } 2721 2722 if (field->getType()->isReferenceType()) { 2723 if (const MemRegion *R = L.getAsRegion()) 2724 L = state->getSVal(R); 2725 else 2726 L = UnknownVal(); 2727 } 2728 2729 Bldr.generateNode(M, I, state->BindExpr(M, LCtx, L), nullptr, 2730 ProgramPoint::PostLValueKind); 2731 } else { 2732 Bldr.takeNodes(I); 2733 evalLoad(Tmp, M, M, I, state, L); 2734 Bldr.addNodes(Tmp); 2735 } 2736 } 2737 } 2738 2739 getCheckerManager().runCheckersForPostStmt(Dst, EvalSet, M, *this); 2740 } 2741 2742 void ExprEngine::VisitAtomicExpr(const AtomicExpr *AE, ExplodedNode *Pred, 2743 ExplodedNodeSet &Dst) { 2744 ExplodedNodeSet AfterPreSet; 2745 getCheckerManager().runCheckersForPreStmt(AfterPreSet, Pred, AE, *this); 2746 2747 // For now, treat all the arguments to C11 atomics as escaping. 2748 // FIXME: Ideally we should model the behavior of the atomics precisely here. 2749 2750 ExplodedNodeSet AfterInvalidateSet; 2751 StmtNodeBuilder Bldr(AfterPreSet, AfterInvalidateSet, *currBldrCtx); 2752 2753 for (const auto I : AfterPreSet) { 2754 ProgramStateRef State = I->getState(); 2755 const LocationContext *LCtx = I->getLocationContext(); 2756 2757 SmallVector<SVal, 8> ValuesToInvalidate; 2758 for (unsigned SI = 0, Count = AE->getNumSubExprs(); SI != Count; SI++) { 2759 const Expr *SubExpr = AE->getSubExprs()[SI]; 2760 SVal SubExprVal = State->getSVal(SubExpr, LCtx); 2761 ValuesToInvalidate.push_back(SubExprVal); 2762 } 2763 2764 State = State->invalidateRegions(ValuesToInvalidate, AE, 2765 currBldrCtx->blockCount(), 2766 LCtx, 2767 /*CausedByPointerEscape*/true, 2768 /*Symbols=*/nullptr); 2769 2770 SVal ResultVal = UnknownVal(); 2771 State = State->BindExpr(AE, LCtx, ResultVal); 2772 Bldr.generateNode(AE, I, State, nullptr, 2773 ProgramPoint::PostStmtKind); 2774 } 2775 2776 getCheckerManager().runCheckersForPostStmt(Dst, AfterInvalidateSet, AE, *this); 2777 } 2778 2779 // A value escapes in four possible cases: 2780 // (1) We are binding to something that is not a memory region. 2781 // (2) We are binding to a MemRegion that does not have stack storage. 2782 // (3) We are binding to a top-level parameter region with a non-trivial 2783 // destructor. We won't see the destructor during analysis, but it's there. 2784 // (4) We are binding to a MemRegion with stack storage that the store 2785 // does not understand. 2786 ProgramStateRef ExprEngine::processPointerEscapedOnBind( 2787 ProgramStateRef State, ArrayRef<std::pair<SVal, SVal>> LocAndVals, 2788 const LocationContext *LCtx, PointerEscapeKind Kind, 2789 const CallEvent *Call) { 2790 SmallVector<SVal, 8> Escaped; 2791 for (const std::pair<SVal, SVal> &LocAndVal : LocAndVals) { 2792 // Cases (1) and (2). 2793 const MemRegion *MR = LocAndVal.first.getAsRegion(); 2794 if (!MR || !MR->hasStackStorage()) { 2795 Escaped.push_back(LocAndVal.second); 2796 continue; 2797 } 2798 2799 // Case (3). 2800 if (const auto *VR = dyn_cast<VarRegion>(MR->getBaseRegion())) 2801 if (VR->hasStackParametersStorage() && VR->getStackFrame()->inTopFrame()) 2802 if (const auto *RD = VR->getValueType()->getAsCXXRecordDecl()) 2803 if (!RD->hasTrivialDestructor()) { 2804 Escaped.push_back(LocAndVal.second); 2805 continue; 2806 } 2807 2808 // Case (4): in order to test that, generate a new state with the binding 2809 // added. If it is the same state, then it escapes (since the store cannot 2810 // represent the binding). 2811 // Do this only if we know that the store is not supposed to generate the 2812 // same state. 2813 SVal StoredVal = State->getSVal(MR); 2814 if (StoredVal != LocAndVal.second) 2815 if (State == 2816 (State->bindLoc(loc::MemRegionVal(MR), LocAndVal.second, LCtx))) 2817 Escaped.push_back(LocAndVal.second); 2818 } 2819 2820 if (Escaped.empty()) 2821 return State; 2822 2823 return escapeValues(State, Escaped, Kind, Call); 2824 } 2825 2826 ProgramStateRef 2827 ExprEngine::processPointerEscapedOnBind(ProgramStateRef State, SVal Loc, 2828 SVal Val, const LocationContext *LCtx) { 2829 std::pair<SVal, SVal> LocAndVal(Loc, Val); 2830 return processPointerEscapedOnBind(State, LocAndVal, LCtx, PSK_EscapeOnBind, 2831 nullptr); 2832 } 2833 2834 ProgramStateRef 2835 ExprEngine::notifyCheckersOfPointerEscape(ProgramStateRef State, 2836 const InvalidatedSymbols *Invalidated, 2837 ArrayRef<const MemRegion *> ExplicitRegions, 2838 const CallEvent *Call, 2839 RegionAndSymbolInvalidationTraits &ITraits) { 2840 if (!Invalidated || Invalidated->empty()) 2841 return State; 2842 2843 if (!Call) 2844 return getCheckerManager().runCheckersForPointerEscape(State, 2845 *Invalidated, 2846 nullptr, 2847 PSK_EscapeOther, 2848 &ITraits); 2849 2850 // If the symbols were invalidated by a call, we want to find out which ones 2851 // were invalidated directly due to being arguments to the call. 2852 InvalidatedSymbols SymbolsDirectlyInvalidated; 2853 for (const auto I : ExplicitRegions) { 2854 if (const SymbolicRegion *R = I->StripCasts()->getAs<SymbolicRegion>()) 2855 SymbolsDirectlyInvalidated.insert(R->getSymbol()); 2856 } 2857 2858 InvalidatedSymbols SymbolsIndirectlyInvalidated; 2859 for (const auto &sym : *Invalidated) { 2860 if (SymbolsDirectlyInvalidated.count(sym)) 2861 continue; 2862 SymbolsIndirectlyInvalidated.insert(sym); 2863 } 2864 2865 if (!SymbolsDirectlyInvalidated.empty()) 2866 State = getCheckerManager().runCheckersForPointerEscape(State, 2867 SymbolsDirectlyInvalidated, Call, PSK_DirectEscapeOnCall, &ITraits); 2868 2869 // Notify about the symbols that get indirectly invalidated by the call. 2870 if (!SymbolsIndirectlyInvalidated.empty()) 2871 State = getCheckerManager().runCheckersForPointerEscape(State, 2872 SymbolsIndirectlyInvalidated, Call, PSK_IndirectEscapeOnCall, &ITraits); 2873 2874 return State; 2875 } 2876 2877 /// evalBind - Handle the semantics of binding a value to a specific location. 2878 /// This method is used by evalStore and (soon) VisitDeclStmt, and others. 2879 void ExprEngine::evalBind(ExplodedNodeSet &Dst, const Stmt *StoreE, 2880 ExplodedNode *Pred, 2881 SVal location, SVal Val, 2882 bool atDeclInit, const ProgramPoint *PP) { 2883 const LocationContext *LC = Pred->getLocationContext(); 2884 PostStmt PS(StoreE, LC); 2885 if (!PP) 2886 PP = &PS; 2887 2888 // Do a previsit of the bind. 2889 ExplodedNodeSet CheckedSet; 2890 getCheckerManager().runCheckersForBind(CheckedSet, Pred, location, Val, 2891 StoreE, *this, *PP); 2892 2893 StmtNodeBuilder Bldr(CheckedSet, Dst, *currBldrCtx); 2894 2895 // If the location is not a 'Loc', it will already be handled by 2896 // the checkers. There is nothing left to do. 2897 if (!location.getAs<Loc>()) { 2898 const ProgramPoint L = PostStore(StoreE, LC, /*Loc*/nullptr, 2899 /*tag*/nullptr); 2900 ProgramStateRef state = Pred->getState(); 2901 state = processPointerEscapedOnBind(state, location, Val, LC); 2902 Bldr.generateNode(L, state, Pred); 2903 return; 2904 } 2905 2906 for (const auto PredI : CheckedSet) { 2907 ProgramStateRef state = PredI->getState(); 2908 2909 state = processPointerEscapedOnBind(state, location, Val, LC); 2910 2911 // When binding the value, pass on the hint that this is a initialization. 2912 // For initializations, we do not need to inform clients of region 2913 // changes. 2914 state = state->bindLoc(location.castAs<Loc>(), 2915 Val, LC, /* notifyChanges = */ !atDeclInit); 2916 2917 const MemRegion *LocReg = nullptr; 2918 if (Optional<loc::MemRegionVal> LocRegVal = 2919 location.getAs<loc::MemRegionVal>()) { 2920 LocReg = LocRegVal->getRegion(); 2921 } 2922 2923 const ProgramPoint L = PostStore(StoreE, LC, LocReg, nullptr); 2924 Bldr.generateNode(L, state, PredI); 2925 } 2926 } 2927 2928 /// evalStore - Handle the semantics of a store via an assignment. 2929 /// @param Dst The node set to store generated state nodes 2930 /// @param AssignE The assignment expression if the store happens in an 2931 /// assignment. 2932 /// @param LocationE The location expression that is stored to. 2933 /// @param state The current simulation state 2934 /// @param location The location to store the value 2935 /// @param Val The value to be stored 2936 void ExprEngine::evalStore(ExplodedNodeSet &Dst, const Expr *AssignE, 2937 const Expr *LocationE, 2938 ExplodedNode *Pred, 2939 ProgramStateRef state, SVal location, SVal Val, 2940 const ProgramPointTag *tag) { 2941 // Proceed with the store. We use AssignE as the anchor for the PostStore 2942 // ProgramPoint if it is non-NULL, and LocationE otherwise. 2943 const Expr *StoreE = AssignE ? AssignE : LocationE; 2944 2945 // Evaluate the location (checks for bad dereferences). 2946 ExplodedNodeSet Tmp; 2947 evalLocation(Tmp, AssignE, LocationE, Pred, state, location, false); 2948 2949 if (Tmp.empty()) 2950 return; 2951 2952 if (location.isUndef()) 2953 return; 2954 2955 for (const auto I : Tmp) 2956 evalBind(Dst, StoreE, I, location, Val, false); 2957 } 2958 2959 void ExprEngine::evalLoad(ExplodedNodeSet &Dst, 2960 const Expr *NodeEx, 2961 const Expr *BoundEx, 2962 ExplodedNode *Pred, 2963 ProgramStateRef state, 2964 SVal location, 2965 const ProgramPointTag *tag, 2966 QualType LoadTy) { 2967 assert(!location.getAs<NonLoc>() && "location cannot be a NonLoc."); 2968 assert(NodeEx); 2969 assert(BoundEx); 2970 // Evaluate the location (checks for bad dereferences). 2971 ExplodedNodeSet Tmp; 2972 evalLocation(Tmp, NodeEx, BoundEx, Pred, state, location, true); 2973 if (Tmp.empty()) 2974 return; 2975 2976 StmtNodeBuilder Bldr(Tmp, Dst, *currBldrCtx); 2977 if (location.isUndef()) 2978 return; 2979 2980 // Proceed with the load. 2981 for (const auto I : Tmp) { 2982 state = I->getState(); 2983 const LocationContext *LCtx = I->getLocationContext(); 2984 2985 SVal V = UnknownVal(); 2986 if (location.isValid()) { 2987 if (LoadTy.isNull()) 2988 LoadTy = BoundEx->getType(); 2989 V = state->getSVal(location.castAs<Loc>(), LoadTy); 2990 } 2991 2992 Bldr.generateNode(NodeEx, I, state->BindExpr(BoundEx, LCtx, V), tag, 2993 ProgramPoint::PostLoadKind); 2994 } 2995 } 2996 2997 void ExprEngine::evalLocation(ExplodedNodeSet &Dst, 2998 const Stmt *NodeEx, 2999 const Stmt *BoundEx, 3000 ExplodedNode *Pred, 3001 ProgramStateRef state, 3002 SVal location, 3003 bool isLoad) { 3004 StmtNodeBuilder BldrTop(Pred, Dst, *currBldrCtx); 3005 // Early checks for performance reason. 3006 if (location.isUnknown()) { 3007 return; 3008 } 3009 3010 ExplodedNodeSet Src; 3011 BldrTop.takeNodes(Pred); 3012 StmtNodeBuilder Bldr(Pred, Src, *currBldrCtx); 3013 if (Pred->getState() != state) { 3014 // Associate this new state with an ExplodedNode. 3015 // FIXME: If I pass null tag, the graph is incorrect, e.g for 3016 // int *p; 3017 // p = 0; 3018 // *p = 0xDEADBEEF; 3019 // "p = 0" is not noted as "Null pointer value stored to 'p'" but 3020 // instead "int *p" is noted as 3021 // "Variable 'p' initialized to a null pointer value" 3022 3023 static SimpleProgramPointTag tag(TagProviderName, "Location"); 3024 Bldr.generateNode(NodeEx, Pred, state, &tag); 3025 } 3026 ExplodedNodeSet Tmp; 3027 getCheckerManager().runCheckersForLocation(Tmp, Src, location, isLoad, 3028 NodeEx, BoundEx, *this); 3029 BldrTop.addNodes(Tmp); 3030 } 3031 3032 std::pair<const ProgramPointTag *, const ProgramPointTag*> 3033 ExprEngine::geteagerlyAssumeBinOpBifurcationTags() { 3034 static SimpleProgramPointTag 3035 eagerlyAssumeBinOpBifurcationTrue(TagProviderName, 3036 "Eagerly Assume True"), 3037 eagerlyAssumeBinOpBifurcationFalse(TagProviderName, 3038 "Eagerly Assume False"); 3039 return std::make_pair(&eagerlyAssumeBinOpBifurcationTrue, 3040 &eagerlyAssumeBinOpBifurcationFalse); 3041 } 3042 3043 void ExprEngine::evalEagerlyAssumeBinOpBifurcation(ExplodedNodeSet &Dst, 3044 ExplodedNodeSet &Src, 3045 const Expr *Ex) { 3046 StmtNodeBuilder Bldr(Src, Dst, *currBldrCtx); 3047 3048 for (const auto Pred : Src) { 3049 // Test if the previous node was as the same expression. This can happen 3050 // when the expression fails to evaluate to anything meaningful and 3051 // (as an optimization) we don't generate a node. 3052 ProgramPoint P = Pred->getLocation(); 3053 if (!P.getAs<PostStmt>() || P.castAs<PostStmt>().getStmt() != Ex) { 3054 continue; 3055 } 3056 3057 ProgramStateRef state = Pred->getState(); 3058 SVal V = state->getSVal(Ex, Pred->getLocationContext()); 3059 Optional<nonloc::SymbolVal> SEV = V.getAs<nonloc::SymbolVal>(); 3060 if (SEV && SEV->isExpression()) { 3061 const std::pair<const ProgramPointTag *, const ProgramPointTag*> &tags = 3062 geteagerlyAssumeBinOpBifurcationTags(); 3063 3064 ProgramStateRef StateTrue, StateFalse; 3065 std::tie(StateTrue, StateFalse) = state->assume(*SEV); 3066 3067 // First assume that the condition is true. 3068 if (StateTrue) { 3069 SVal Val = svalBuilder.makeIntVal(1U, Ex->getType()); 3070 StateTrue = StateTrue->BindExpr(Ex, Pred->getLocationContext(), Val); 3071 Bldr.generateNode(Ex, Pred, StateTrue, tags.first); 3072 } 3073 3074 // Next, assume that the condition is false. 3075 if (StateFalse) { 3076 SVal Val = svalBuilder.makeIntVal(0U, Ex->getType()); 3077 StateFalse = StateFalse->BindExpr(Ex, Pred->getLocationContext(), Val); 3078 Bldr.generateNode(Ex, Pred, StateFalse, tags.second); 3079 } 3080 } 3081 } 3082 } 3083 3084 void ExprEngine::VisitGCCAsmStmt(const GCCAsmStmt *A, ExplodedNode *Pred, 3085 ExplodedNodeSet &Dst) { 3086 StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx); 3087 // We have processed both the inputs and the outputs. All of the outputs 3088 // should evaluate to Locs. Nuke all of their values. 3089 3090 // FIXME: Some day in the future it would be nice to allow a "plug-in" 3091 // which interprets the inline asm and stores proper results in the 3092 // outputs. 3093 3094 ProgramStateRef state = Pred->getState(); 3095 3096 for (const Expr *O : A->outputs()) { 3097 SVal X = state->getSVal(O, Pred->getLocationContext()); 3098 assert(!X.getAs<NonLoc>()); // Should be an Lval, or unknown, undef. 3099 3100 if (Optional<Loc> LV = X.getAs<Loc>()) 3101 state = state->bindLoc(*LV, UnknownVal(), Pred->getLocationContext()); 3102 } 3103 3104 Bldr.generateNode(A, Pred, state); 3105 } 3106 3107 void ExprEngine::VisitMSAsmStmt(const MSAsmStmt *A, ExplodedNode *Pred, 3108 ExplodedNodeSet &Dst) { 3109 StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx); 3110 Bldr.generateNode(A, Pred, Pred->getState()); 3111 } 3112 3113 //===----------------------------------------------------------------------===// 3114 // Visualization. 3115 //===----------------------------------------------------------------------===// 3116 3117 #ifndef NDEBUG 3118 namespace llvm { 3119 3120 template<> 3121 struct DOTGraphTraits<ExplodedGraph*> : public DefaultDOTGraphTraits { 3122 DOTGraphTraits (bool isSimple = false) : DefaultDOTGraphTraits(isSimple) {} 3123 3124 static bool nodeHasBugReport(const ExplodedNode *N) { 3125 BugReporter &BR = static_cast<ExprEngine &>( 3126 N->getState()->getStateManager().getOwningEngine()).getBugReporter(); 3127 3128 const auto EQClasses = 3129 llvm::make_range(BR.EQClasses_begin(), BR.EQClasses_end()); 3130 3131 for (const auto &EQ : EQClasses) { 3132 for (const auto &I : EQ.getReports()) { 3133 const auto *PR = dyn_cast<PathSensitiveBugReport>(I.get()); 3134 if (!PR) 3135 continue; 3136 const ExplodedNode *EN = PR->getErrorNode(); 3137 if (EN->getState() == N->getState() && 3138 EN->getLocation() == N->getLocation()) 3139 return true; 3140 } 3141 } 3142 return false; 3143 } 3144 3145 /// \p PreCallback: callback before break. 3146 /// \p PostCallback: callback after break. 3147 /// \p Stop: stop iteration if returns @c true 3148 /// \return Whether @c Stop ever returned @c true. 3149 static bool traverseHiddenNodes( 3150 const ExplodedNode *N, 3151 llvm::function_ref<void(const ExplodedNode *)> PreCallback, 3152 llvm::function_ref<void(const ExplodedNode *)> PostCallback, 3153 llvm::function_ref<bool(const ExplodedNode *)> Stop) { 3154 while (true) { 3155 PreCallback(N); 3156 if (Stop(N)) 3157 return true; 3158 3159 if (N->succ_size() != 1 || !isNodeHidden(N->getFirstSucc(), nullptr)) 3160 break; 3161 PostCallback(N); 3162 3163 N = N->getFirstSucc(); 3164 } 3165 return false; 3166 } 3167 3168 static bool isNodeHidden(const ExplodedNode *N, const ExplodedGraph *G) { 3169 return N->isTrivial(); 3170 } 3171 3172 static std::string getNodeLabel(const ExplodedNode *N, ExplodedGraph *G){ 3173 std::string Buf; 3174 llvm::raw_string_ostream Out(Buf); 3175 3176 const bool IsDot = true; 3177 const unsigned int Space = 1; 3178 ProgramStateRef State = N->getState(); 3179 3180 Out << "{ \"state_id\": " << State->getID() 3181 << ",\\l"; 3182 3183 Indent(Out, Space, IsDot) << "\"program_points\": [\\l"; 3184 3185 // Dump program point for all the previously skipped nodes. 3186 traverseHiddenNodes( 3187 N, 3188 [&](const ExplodedNode *OtherNode) { 3189 Indent(Out, Space + 1, IsDot) << "{ "; 3190 OtherNode->getLocation().printJson(Out, /*NL=*/"\\l"); 3191 Out << ", \"tag\": "; 3192 if (const ProgramPointTag *Tag = OtherNode->getLocation().getTag()) 3193 Out << '\"' << Tag->getTagDescription() << "\""; 3194 else 3195 Out << "null"; 3196 Out << ", \"node_id\": " << OtherNode->getID() << 3197 ", \"is_sink\": " << OtherNode->isSink() << 3198 ", \"has_report\": " << nodeHasBugReport(OtherNode) << " }"; 3199 }, 3200 // Adds a comma and a new-line between each program point. 3201 [&](const ExplodedNode *) { Out << ",\\l"; }, 3202 [&](const ExplodedNode *) { return false; }); 3203 3204 Out << "\\l"; // Adds a new-line to the last program point. 3205 Indent(Out, Space, IsDot) << "],\\l"; 3206 3207 State->printDOT(Out, N->getLocationContext(), Space); 3208 3209 Out << "\\l}\\l"; 3210 return Out.str(); 3211 } 3212 }; 3213 3214 } // namespace llvm 3215 #endif 3216 3217 void ExprEngine::ViewGraph(bool trim) { 3218 #ifndef NDEBUG 3219 std::string Filename = DumpGraph(trim); 3220 llvm::DisplayGraph(Filename, false, llvm::GraphProgram::DOT); 3221 #else 3222 llvm::errs() << "Warning: viewing graph requires assertions" << "\n"; 3223 #endif 3224 } 3225 3226 3227 void ExprEngine::ViewGraph(ArrayRef<const ExplodedNode*> Nodes) { 3228 #ifndef NDEBUG 3229 std::string Filename = DumpGraph(Nodes); 3230 llvm::DisplayGraph(Filename, false, llvm::GraphProgram::DOT); 3231 #else 3232 llvm::errs() << "Warning: viewing graph requires assertions" << "\n"; 3233 #endif 3234 } 3235 3236 std::string ExprEngine::DumpGraph(bool trim, StringRef Filename) { 3237 #ifndef NDEBUG 3238 if (trim) { 3239 std::vector<const ExplodedNode *> Src; 3240 3241 // Iterate through the reports and get their nodes. 3242 for (BugReporter::EQClasses_iterator 3243 EI = BR.EQClasses_begin(), EE = BR.EQClasses_end(); EI != EE; ++EI) { 3244 const auto *R = 3245 dyn_cast<PathSensitiveBugReport>(EI->getReports()[0].get()); 3246 if (!R) 3247 continue; 3248 const auto *N = const_cast<ExplodedNode *>(R->getErrorNode()); 3249 Src.push_back(N); 3250 } 3251 return DumpGraph(Src, Filename); 3252 } else { 3253 return llvm::WriteGraph(&G, "ExprEngine", /*ShortNames=*/false, 3254 /*Title=*/"Exploded Graph", 3255 /*Filename=*/std::string(Filename)); 3256 } 3257 #else 3258 llvm::errs() << "Warning: dumping graph requires assertions" << "\n"; 3259 return ""; 3260 #endif 3261 } 3262 3263 std::string ExprEngine::DumpGraph(ArrayRef<const ExplodedNode*> Nodes, 3264 StringRef Filename) { 3265 #ifndef NDEBUG 3266 std::unique_ptr<ExplodedGraph> TrimmedG(G.trim(Nodes)); 3267 3268 if (!TrimmedG.get()) { 3269 llvm::errs() << "warning: Trimmed ExplodedGraph is empty.\n"; 3270 return ""; 3271 } else { 3272 return llvm::WriteGraph(TrimmedG.get(), "TrimmedExprEngine", 3273 /*ShortNames=*/false, 3274 /*Title=*/"Trimmed Exploded Graph", 3275 /*Filename=*/std::string(Filename)); 3276 } 3277 #else 3278 llvm::errs() << "Warning: dumping graph requires assertions" << "\n"; 3279 return ""; 3280 #endif 3281 } 3282 3283 void *ProgramStateTrait<ReplayWithoutInlining>::GDMIndex() { 3284 static int index = 0; 3285 return &index; 3286 } 3287 3288 void ExprEngine::anchor() { } 3289