1 //===- CallEvent.h - Wrapper for all function and method calls ----*- C++ -*--//
2 //
3 // The LLVM Compiler Infrastructure
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 //
10 /// \file This file defines CallEvent and its subclasses, which represent path-
11 /// sensitive instances of different kinds of function and method calls
12 /// (C, C++, and Objective-C).
13 //
14 //===----------------------------------------------------------------------===//
15
16 #ifndef LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_CALLEVENT_H
17 #define LLVM_CLANG_STATICANALYZER_CORE_PATHSENSITIVE_CALLEVENT_H
18
19 #include "clang/AST/DeclCXX.h"
20 #include "clang/AST/ExprCXX.h"
21 #include "clang/AST/ExprObjC.h"
22 #include "clang/Analysis/AnalysisContext.h"
23 #include "clang/Basic/SourceManager.h"
24 #include "clang/StaticAnalyzer/Core/PathSensitive/ProgramState.h"
25 #include "clang/StaticAnalyzer/Core/PathSensitive/SVals.h"
26 #include "llvm/ADT/PointerIntPair.h"
27
28 namespace clang {
29 class ProgramPoint;
30 class ProgramPointTag;
31
32 namespace ento {
33
34 enum CallEventKind {
35 CE_Function,
36 CE_CXXMember,
37 CE_CXXMemberOperator,
38 CE_CXXDestructor,
39 CE_BEG_CXX_INSTANCE_CALLS = CE_CXXMember,
40 CE_END_CXX_INSTANCE_CALLS = CE_CXXDestructor,
41 CE_CXXConstructor,
42 CE_CXXAllocator,
43 CE_BEG_FUNCTION_CALLS = CE_Function,
44 CE_END_FUNCTION_CALLS = CE_CXXAllocator,
45 CE_Block,
46 CE_ObjCMessage
47 };
48
49 class CallEvent;
50 class CallEventManager;
51
52 template<typename T = CallEvent>
53 class CallEventRef : public IntrusiveRefCntPtr<const T> {
54 public:
CallEventRef(const T * Call)55 CallEventRef(const T *Call) : IntrusiveRefCntPtr<const T>(Call) {}
CallEventRef(const CallEventRef & Orig)56 CallEventRef(const CallEventRef &Orig) : IntrusiveRefCntPtr<const T>(Orig) {}
57
cloneWithState(ProgramStateRef State)58 CallEventRef<T> cloneWithState(ProgramStateRef State) const {
59 return this->get()->template cloneWithState<T>(State);
60 }
61
62 // Allow implicit conversions to a superclass type, since CallEventRef
63 // behaves like a pointer-to-const.
64 template <typename SuperT>
65 operator CallEventRef<SuperT> () const {
66 return this->get();
67 }
68 };
69
70 /// \class RuntimeDefinition
71 /// \brief Defines the runtime definition of the called function.
72 ///
73 /// Encapsulates the information we have about which Decl will be used
74 /// when the call is executed on the given path. When dealing with dynamic
75 /// dispatch, the information is based on DynamicTypeInfo and might not be
76 /// precise.
77 class RuntimeDefinition {
78 /// The Declaration of the function which could be called at runtime.
79 /// NULL if not available.
80 const Decl *D;
81
82 /// The region representing an object (ObjC/C++) on which the method is
83 /// called. With dynamic dispatch, the method definition depends on the
84 /// runtime type of this object. NULL when the DynamicTypeInfo is
85 /// precise.
86 const MemRegion *R;
87
88 public:
RuntimeDefinition()89 RuntimeDefinition(): D(nullptr), R(nullptr) {}
RuntimeDefinition(const Decl * InD)90 RuntimeDefinition(const Decl *InD): D(InD), R(nullptr) {}
RuntimeDefinition(const Decl * InD,const MemRegion * InR)91 RuntimeDefinition(const Decl *InD, const MemRegion *InR): D(InD), R(InR) {}
getDecl()92 const Decl *getDecl() { return D; }
93
94 /// \brief Check if the definition we have is precise.
95 /// If not, it is possible that the call dispatches to another definition at
96 /// execution time.
mayHaveOtherDefinitions()97 bool mayHaveOtherDefinitions() { return R != nullptr; }
98
99 /// When other definitions are possible, returns the region whose runtime type
100 /// determines the method definition.
getDispatchRegion()101 const MemRegion *getDispatchRegion() { return R; }
102 };
103
104 /// \brief Represents an abstract call to a function or method along a
105 /// particular path.
106 ///
107 /// CallEvents are created through the factory methods of CallEventManager.
108 ///
109 /// CallEvents should always be cheap to create and destroy. In order for
110 /// CallEventManager to be able to re-use CallEvent-sized memory blocks,
111 /// subclasses of CallEvent may not add any data members to the base class.
112 /// Use the "Data" and "Location" fields instead.
113 class CallEvent {
114 public:
115 typedef CallEventKind Kind;
116
117 private:
118 ProgramStateRef State;
119 const LocationContext *LCtx;
120 llvm::PointerUnion<const Expr *, const Decl *> Origin;
121
122 void operator=(const CallEvent &) = delete;
123
124 protected:
125 // This is user data for subclasses.
126 const void *Data;
127
128 // This is user data for subclasses.
129 // This should come right before RefCount, so that the two fields can be
130 // packed together on LP64 platforms.
131 SourceLocation Location;
132
133 private:
134 mutable unsigned RefCount;
135
136 template <typename T> friend struct llvm::IntrusiveRefCntPtrInfo;
Retain()137 void Retain() const { ++RefCount; }
138 void Release() const;
139
140 protected:
141 friend class CallEventManager;
142
CallEvent(const Expr * E,ProgramStateRef state,const LocationContext * lctx)143 CallEvent(const Expr *E, ProgramStateRef state, const LocationContext *lctx)
144 : State(state), LCtx(lctx), Origin(E), RefCount(0) {}
145
CallEvent(const Decl * D,ProgramStateRef state,const LocationContext * lctx)146 CallEvent(const Decl *D, ProgramStateRef state, const LocationContext *lctx)
147 : State(state), LCtx(lctx), Origin(D), RefCount(0) {}
148
149 // DO NOT MAKE PUBLIC
CallEvent(const CallEvent & Original)150 CallEvent(const CallEvent &Original)
151 : State(Original.State), LCtx(Original.LCtx), Origin(Original.Origin),
152 Data(Original.Data), Location(Original.Location), RefCount(0) {}
153
154 /// Copies this CallEvent, with vtable intact, into a new block of memory.
155 virtual void cloneTo(void *Dest) const = 0;
156
157 /// \brief Get the value of arbitrary expressions at this point in the path.
getSVal(const Stmt * S)158 SVal getSVal(const Stmt *S) const {
159 return getState()->getSVal(S, getLocationContext());
160 }
161
162
163 typedef SmallVectorImpl<SVal> ValueList;
164
165 /// \brief Used to specify non-argument regions that will be invalidated as a
166 /// result of this call.
getExtraInvalidatedValues(ValueList & Values)167 virtual void getExtraInvalidatedValues(ValueList &Values) const {}
168
169 public:
~CallEvent()170 virtual ~CallEvent() {}
171
172 /// \brief Returns the kind of call this is.
173 virtual Kind getKind() const = 0;
174
175 /// \brief Returns the declaration of the function or method that will be
176 /// called. May be null.
getDecl()177 virtual const Decl *getDecl() const {
178 return Origin.dyn_cast<const Decl *>();
179 }
180
181 /// \brief The state in which the call is being evaluated.
getState()182 const ProgramStateRef &getState() const {
183 return State;
184 }
185
186 /// \brief The context in which the call is being evaluated.
getLocationContext()187 const LocationContext *getLocationContext() const {
188 return LCtx;
189 }
190
191 /// \brief Returns the definition of the function or method that will be
192 /// called.
193 virtual RuntimeDefinition getRuntimeDefinition() const = 0;
194
195 /// \brief Returns the expression whose value will be the result of this call.
196 /// May be null.
getOriginExpr()197 const Expr *getOriginExpr() const {
198 return Origin.dyn_cast<const Expr *>();
199 }
200
201 /// \brief Returns the number of arguments (explicit and implicit).
202 ///
203 /// Note that this may be greater than the number of parameters in the
204 /// callee's declaration, and that it may include arguments not written in
205 /// the source.
206 virtual unsigned getNumArgs() const = 0;
207
208 /// \brief Returns true if the callee is known to be from a system header.
isInSystemHeader()209 bool isInSystemHeader() const {
210 const Decl *D = getDecl();
211 if (!D)
212 return false;
213
214 SourceLocation Loc = D->getLocation();
215 if (Loc.isValid()) {
216 const SourceManager &SM =
217 getState()->getStateManager().getContext().getSourceManager();
218 return SM.isInSystemHeader(D->getLocation());
219 }
220
221 // Special case for implicitly-declared global operator new/delete.
222 // These should be considered system functions.
223 if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(D))
224 return FD->isOverloadedOperator() && FD->isImplicit() && FD->isGlobal();
225
226 return false;
227 }
228
229 /// \brief Returns a source range for the entire call, suitable for
230 /// outputting in diagnostics.
getSourceRange()231 virtual SourceRange getSourceRange() const {
232 return getOriginExpr()->getSourceRange();
233 }
234
235 /// \brief Returns the value of a given argument at the time of the call.
236 virtual SVal getArgSVal(unsigned Index) const;
237
238 /// \brief Returns the expression associated with a given argument.
239 /// May be null if this expression does not appear in the source.
getArgExpr(unsigned Index)240 virtual const Expr *getArgExpr(unsigned Index) const { return nullptr; }
241
242 /// \brief Returns the source range for errors associated with this argument.
243 ///
244 /// May be invalid if the argument is not written in the source.
245 virtual SourceRange getArgSourceRange(unsigned Index) const;
246
247 /// \brief Returns the result type, adjusted for references.
248 QualType getResultType() const;
249
250 /// \brief Returns the return value of the call.
251 ///
252 /// This should only be called if the CallEvent was created using a state in
253 /// which the return value has already been bound to the origin expression.
254 SVal getReturnValue() const;
255
256 /// \brief Returns true if any of the arguments appear to represent callbacks.
257 bool hasNonZeroCallbackArg() const;
258
259 /// \brief Returns true if any of the arguments are known to escape to long-
260 /// term storage, even if this method will not modify them.
261 // NOTE: The exact semantics of this are still being defined!
262 // We don't really want a list of hardcoded exceptions in the long run,
263 // but we don't want duplicated lists of known APIs in the short term either.
argumentsMayEscape()264 virtual bool argumentsMayEscape() const {
265 return hasNonZeroCallbackArg();
266 }
267
268 /// \brief Returns true if the callee is an externally-visible function in the
269 /// top-level namespace, such as \c malloc.
270 ///
271 /// You can use this call to determine that a particular function really is
272 /// a library function and not, say, a C++ member function with the same name.
273 ///
274 /// If a name is provided, the function must additionally match the given
275 /// name.
276 ///
277 /// Note that this deliberately excludes C++ library functions in the \c std
278 /// namespace, but will include C library functions accessed through the
279 /// \c std namespace. This also does not check if the function is declared
280 /// as 'extern "C"', or if it uses C++ name mangling.
281 // FIXME: Add a helper for checking namespaces.
282 // FIXME: Move this down to AnyFunctionCall once checkers have more
283 // precise callbacks.
284 bool isGlobalCFunction(StringRef SpecificName = StringRef()) const;
285
286 /// \brief Returns the name of the callee, if its name is a simple identifier.
287 ///
288 /// Note that this will fail for Objective-C methods, blocks, and C++
289 /// overloaded operators. The former is named by a Selector rather than a
290 /// simple identifier, and the latter two do not have names.
291 // FIXME: Move this down to AnyFunctionCall once checkers have more
292 // precise callbacks.
getCalleeIdentifier()293 const IdentifierInfo *getCalleeIdentifier() const {
294 const NamedDecl *ND = dyn_cast_or_null<NamedDecl>(getDecl());
295 if (!ND)
296 return nullptr;
297 return ND->getIdentifier();
298 }
299
300 /// \brief Returns an appropriate ProgramPoint for this call.
301 ProgramPoint getProgramPoint(bool IsPreVisit = false,
302 const ProgramPointTag *Tag = nullptr) const;
303
304 /// \brief Returns a new state with all argument regions invalidated.
305 ///
306 /// This accepts an alternate state in case some processing has already
307 /// occurred.
308 ProgramStateRef invalidateRegions(unsigned BlockCount,
309 ProgramStateRef Orig = nullptr) const;
310
311 typedef std::pair<Loc, SVal> FrameBindingTy;
312 typedef SmallVectorImpl<FrameBindingTy> BindingsTy;
313
314 /// Populates the given SmallVector with the bindings in the callee's stack
315 /// frame at the start of this call.
316 virtual void getInitialStackFrameContents(const StackFrameContext *CalleeCtx,
317 BindingsTy &Bindings) const = 0;
318
319 /// Returns a copy of this CallEvent, but using the given state.
320 template <typename T>
321 CallEventRef<T> cloneWithState(ProgramStateRef NewState) const;
322
323 /// Returns a copy of this CallEvent, but using the given state.
cloneWithState(ProgramStateRef NewState)324 CallEventRef<> cloneWithState(ProgramStateRef NewState) const {
325 return cloneWithState<CallEvent>(NewState);
326 }
327
328 /// \brief Returns true if this is a statement is a function or method call
329 /// of some kind.
330 static bool isCallStmt(const Stmt *S);
331
332 /// \brief Returns the result type of a function or method declaration.
333 ///
334 /// This will return a null QualType if the result type cannot be determined.
335 static QualType getDeclaredResultType(const Decl *D);
336
337 /// \brief Returns true if the given decl is known to be variadic.
338 ///
339 /// \p D must not be null.
340 static bool isVariadic(const Decl *D);
341
342 // Iterator access to formal parameters and their types.
343 private:
344 typedef std::const_mem_fun_t<QualType, ParmVarDecl> get_type_fun;
345
346 public:
347 /// Return call's formal parameters.
348 ///
349 /// Remember that the number of formal parameters may not match the number
350 /// of arguments for all calls. However, the first parameter will always
351 /// correspond with the argument value returned by \c getArgSVal(0).
352 virtual ArrayRef<ParmVarDecl*> parameters() const = 0;
353
354 typedef llvm::mapped_iterator<ArrayRef<ParmVarDecl*>::iterator, get_type_fun>
355 param_type_iterator;
356
357 /// Returns an iterator over the types of the call's formal parameters.
358 ///
359 /// This uses the callee decl found by default name lookup rather than the
360 /// definition because it represents a public interface, and probably has
361 /// more annotations.
param_type_begin()362 param_type_iterator param_type_begin() const {
363 return llvm::map_iterator(parameters().begin(),
364 get_type_fun(&ParmVarDecl::getType));
365 }
366 /// \sa param_type_begin()
param_type_end()367 param_type_iterator param_type_end() const {
368 return llvm::map_iterator(parameters().end(),
369 get_type_fun(&ParmVarDecl::getType));
370 }
371
372 // For debugging purposes only
373 void dump(raw_ostream &Out) const;
374 void dump() const;
375 };
376
377
378 /// \brief Represents a call to any sort of function that might have a
379 /// FunctionDecl.
380 class AnyFunctionCall : public CallEvent {
381 protected:
AnyFunctionCall(const Expr * E,ProgramStateRef St,const LocationContext * LCtx)382 AnyFunctionCall(const Expr *E, ProgramStateRef St,
383 const LocationContext *LCtx)
384 : CallEvent(E, St, LCtx) {}
AnyFunctionCall(const Decl * D,ProgramStateRef St,const LocationContext * LCtx)385 AnyFunctionCall(const Decl *D, ProgramStateRef St,
386 const LocationContext *LCtx)
387 : CallEvent(D, St, LCtx) {}
AnyFunctionCall(const AnyFunctionCall & Other)388 AnyFunctionCall(const AnyFunctionCall &Other) : CallEvent(Other) {}
389
390 public:
391 // This function is overridden by subclasses, but they must return
392 // a FunctionDecl.
getDecl()393 const FunctionDecl *getDecl() const override {
394 return cast<FunctionDecl>(CallEvent::getDecl());
395 }
396
getRuntimeDefinition()397 RuntimeDefinition getRuntimeDefinition() const override {
398 const FunctionDecl *FD = getDecl();
399 // Note that the AnalysisDeclContext will have the FunctionDecl with
400 // the definition (if one exists).
401 if (FD) {
402 AnalysisDeclContext *AD =
403 getLocationContext()->getAnalysisDeclContext()->
404 getManager()->getContext(FD);
405 if (AD->getBody())
406 return RuntimeDefinition(AD->getDecl());
407 }
408
409 return RuntimeDefinition();
410 }
411
412 bool argumentsMayEscape() const override;
413
414 void getInitialStackFrameContents(const StackFrameContext *CalleeCtx,
415 BindingsTy &Bindings) const override;
416
417 ArrayRef<ParmVarDecl *> parameters() const override;
418
classof(const CallEvent * CA)419 static bool classof(const CallEvent *CA) {
420 return CA->getKind() >= CE_BEG_FUNCTION_CALLS &&
421 CA->getKind() <= CE_END_FUNCTION_CALLS;
422 }
423 };
424
425 /// \brief Represents a C function or static C++ member function call.
426 ///
427 /// Example: \c fun()
428 class SimpleFunctionCall : public AnyFunctionCall {
429 friend class CallEventManager;
430
431 protected:
SimpleFunctionCall(const CallExpr * CE,ProgramStateRef St,const LocationContext * LCtx)432 SimpleFunctionCall(const CallExpr *CE, ProgramStateRef St,
433 const LocationContext *LCtx)
434 : AnyFunctionCall(CE, St, LCtx) {}
SimpleFunctionCall(const SimpleFunctionCall & Other)435 SimpleFunctionCall(const SimpleFunctionCall &Other)
436 : AnyFunctionCall(Other) {}
cloneTo(void * Dest)437 void cloneTo(void *Dest) const override {
438 new (Dest) SimpleFunctionCall(*this);
439 }
440
441 public:
getOriginExpr()442 virtual const CallExpr *getOriginExpr() const {
443 return cast<CallExpr>(AnyFunctionCall::getOriginExpr());
444 }
445
446 const FunctionDecl *getDecl() const override;
447
getNumArgs()448 unsigned getNumArgs() const override { return getOriginExpr()->getNumArgs(); }
449
getArgExpr(unsigned Index)450 const Expr *getArgExpr(unsigned Index) const override {
451 return getOriginExpr()->getArg(Index);
452 }
453
getKind()454 Kind getKind() const override { return CE_Function; }
455
classof(const CallEvent * CA)456 static bool classof(const CallEvent *CA) {
457 return CA->getKind() == CE_Function;
458 }
459 };
460
461 /// \brief Represents a call to a block.
462 ///
463 /// Example: <tt>^{ /* ... */ }()</tt>
464 class BlockCall : public CallEvent {
465 friend class CallEventManager;
466
467 protected:
BlockCall(const CallExpr * CE,ProgramStateRef St,const LocationContext * LCtx)468 BlockCall(const CallExpr *CE, ProgramStateRef St,
469 const LocationContext *LCtx)
470 : CallEvent(CE, St, LCtx) {}
471
BlockCall(const BlockCall & Other)472 BlockCall(const BlockCall &Other) : CallEvent(Other) {}
cloneTo(void * Dest)473 void cloneTo(void *Dest) const override { new (Dest) BlockCall(*this); }
474
475 void getExtraInvalidatedValues(ValueList &Values) const override;
476
477 public:
getOriginExpr()478 virtual const CallExpr *getOriginExpr() const {
479 return cast<CallExpr>(CallEvent::getOriginExpr());
480 }
481
getNumArgs()482 unsigned getNumArgs() const override { return getOriginExpr()->getNumArgs(); }
483
getArgExpr(unsigned Index)484 const Expr *getArgExpr(unsigned Index) const override {
485 return getOriginExpr()->getArg(Index);
486 }
487
488 /// \brief Returns the region associated with this instance of the block.
489 ///
490 /// This may be NULL if the block's origin is unknown.
491 const BlockDataRegion *getBlockRegion() const;
492
getDecl()493 const BlockDecl *getDecl() const override {
494 const BlockDataRegion *BR = getBlockRegion();
495 if (!BR)
496 return nullptr;
497 return BR->getDecl();
498 }
499
getRuntimeDefinition()500 RuntimeDefinition getRuntimeDefinition() const override {
501 return RuntimeDefinition(getDecl());
502 }
503
argumentsMayEscape()504 bool argumentsMayEscape() const override {
505 return true;
506 }
507
508 void getInitialStackFrameContents(const StackFrameContext *CalleeCtx,
509 BindingsTy &Bindings) const override;
510
511 ArrayRef<ParmVarDecl*> parameters() const override;
512
getKind()513 Kind getKind() const override { return CE_Block; }
514
classof(const CallEvent * CA)515 static bool classof(const CallEvent *CA) {
516 return CA->getKind() == CE_Block;
517 }
518 };
519
520 /// \brief Represents a non-static C++ member function call, no matter how
521 /// it is written.
522 class CXXInstanceCall : public AnyFunctionCall {
523 protected:
524 void getExtraInvalidatedValues(ValueList &Values) const override;
525
CXXInstanceCall(const CallExpr * CE,ProgramStateRef St,const LocationContext * LCtx)526 CXXInstanceCall(const CallExpr *CE, ProgramStateRef St,
527 const LocationContext *LCtx)
528 : AnyFunctionCall(CE, St, LCtx) {}
CXXInstanceCall(const FunctionDecl * D,ProgramStateRef St,const LocationContext * LCtx)529 CXXInstanceCall(const FunctionDecl *D, ProgramStateRef St,
530 const LocationContext *LCtx)
531 : AnyFunctionCall(D, St, LCtx) {}
532
533
CXXInstanceCall(const CXXInstanceCall & Other)534 CXXInstanceCall(const CXXInstanceCall &Other) : AnyFunctionCall(Other) {}
535
536 public:
537 /// \brief Returns the expression representing the implicit 'this' object.
getCXXThisExpr()538 virtual const Expr *getCXXThisExpr() const { return nullptr; }
539
540 /// \brief Returns the value of the implicit 'this' object.
541 virtual SVal getCXXThisVal() const;
542
543 const FunctionDecl *getDecl() const override;
544
545 RuntimeDefinition getRuntimeDefinition() const override;
546
547 void getInitialStackFrameContents(const StackFrameContext *CalleeCtx,
548 BindingsTy &Bindings) const override;
549
classof(const CallEvent * CA)550 static bool classof(const CallEvent *CA) {
551 return CA->getKind() >= CE_BEG_CXX_INSTANCE_CALLS &&
552 CA->getKind() <= CE_END_CXX_INSTANCE_CALLS;
553 }
554 };
555
556 /// \brief Represents a non-static C++ member function call.
557 ///
558 /// Example: \c obj.fun()
559 class CXXMemberCall : public CXXInstanceCall {
560 friend class CallEventManager;
561
562 protected:
CXXMemberCall(const CXXMemberCallExpr * CE,ProgramStateRef St,const LocationContext * LCtx)563 CXXMemberCall(const CXXMemberCallExpr *CE, ProgramStateRef St,
564 const LocationContext *LCtx)
565 : CXXInstanceCall(CE, St, LCtx) {}
566
CXXMemberCall(const CXXMemberCall & Other)567 CXXMemberCall(const CXXMemberCall &Other) : CXXInstanceCall(Other) {}
cloneTo(void * Dest)568 void cloneTo(void *Dest) const override { new (Dest) CXXMemberCall(*this); }
569
570 public:
getOriginExpr()571 virtual const CXXMemberCallExpr *getOriginExpr() const {
572 return cast<CXXMemberCallExpr>(CXXInstanceCall::getOriginExpr());
573 }
574
getNumArgs()575 unsigned getNumArgs() const override {
576 if (const CallExpr *CE = getOriginExpr())
577 return CE->getNumArgs();
578 return 0;
579 }
580
getArgExpr(unsigned Index)581 const Expr *getArgExpr(unsigned Index) const override {
582 return getOriginExpr()->getArg(Index);
583 }
584
585 const Expr *getCXXThisExpr() const override;
586
587 RuntimeDefinition getRuntimeDefinition() const override;
588
getKind()589 Kind getKind() const override { return CE_CXXMember; }
590
classof(const CallEvent * CA)591 static bool classof(const CallEvent *CA) {
592 return CA->getKind() == CE_CXXMember;
593 }
594 };
595
596 /// \brief Represents a C++ overloaded operator call where the operator is
597 /// implemented as a non-static member function.
598 ///
599 /// Example: <tt>iter + 1</tt>
600 class CXXMemberOperatorCall : public CXXInstanceCall {
601 friend class CallEventManager;
602
603 protected:
CXXMemberOperatorCall(const CXXOperatorCallExpr * CE,ProgramStateRef St,const LocationContext * LCtx)604 CXXMemberOperatorCall(const CXXOperatorCallExpr *CE, ProgramStateRef St,
605 const LocationContext *LCtx)
606 : CXXInstanceCall(CE, St, LCtx) {}
607
CXXMemberOperatorCall(const CXXMemberOperatorCall & Other)608 CXXMemberOperatorCall(const CXXMemberOperatorCall &Other)
609 : CXXInstanceCall(Other) {}
cloneTo(void * Dest)610 void cloneTo(void *Dest) const override {
611 new (Dest) CXXMemberOperatorCall(*this);
612 }
613
614 public:
getOriginExpr()615 virtual const CXXOperatorCallExpr *getOriginExpr() const {
616 return cast<CXXOperatorCallExpr>(CXXInstanceCall::getOriginExpr());
617 }
618
getNumArgs()619 unsigned getNumArgs() const override {
620 return getOriginExpr()->getNumArgs() - 1;
621 }
getArgExpr(unsigned Index)622 const Expr *getArgExpr(unsigned Index) const override {
623 return getOriginExpr()->getArg(Index + 1);
624 }
625
626 const Expr *getCXXThisExpr() const override;
627
getKind()628 Kind getKind() const override { return CE_CXXMemberOperator; }
629
classof(const CallEvent * CA)630 static bool classof(const CallEvent *CA) {
631 return CA->getKind() == CE_CXXMemberOperator;
632 }
633 };
634
635 /// \brief Represents an implicit call to a C++ destructor.
636 ///
637 /// This can occur at the end of a scope (for automatic objects), at the end
638 /// of a full-expression (for temporaries), or as part of a delete.
639 class CXXDestructorCall : public CXXInstanceCall {
640 friend class CallEventManager;
641
642 protected:
643 typedef llvm::PointerIntPair<const MemRegion *, 1, bool> DtorDataTy;
644
645 /// Creates an implicit destructor.
646 ///
647 /// \param DD The destructor that will be called.
648 /// \param Trigger The statement whose completion causes this destructor call.
649 /// \param Target The object region to be destructed.
650 /// \param St The path-sensitive state at this point in the program.
651 /// \param LCtx The location context at this point in the program.
CXXDestructorCall(const CXXDestructorDecl * DD,const Stmt * Trigger,const MemRegion * Target,bool IsBaseDestructor,ProgramStateRef St,const LocationContext * LCtx)652 CXXDestructorCall(const CXXDestructorDecl *DD, const Stmt *Trigger,
653 const MemRegion *Target, bool IsBaseDestructor,
654 ProgramStateRef St, const LocationContext *LCtx)
655 : CXXInstanceCall(DD, St, LCtx) {
656 Data = DtorDataTy(Target, IsBaseDestructor).getOpaqueValue();
657 Location = Trigger->getLocEnd();
658 }
659
CXXDestructorCall(const CXXDestructorCall & Other)660 CXXDestructorCall(const CXXDestructorCall &Other) : CXXInstanceCall(Other) {}
cloneTo(void * Dest)661 void cloneTo(void *Dest) const override {new (Dest) CXXDestructorCall(*this);}
662
663 public:
getSourceRange()664 SourceRange getSourceRange() const override { return Location; }
getNumArgs()665 unsigned getNumArgs() const override { return 0; }
666
667 RuntimeDefinition getRuntimeDefinition() const override;
668
669 /// \brief Returns the value of the implicit 'this' object.
670 SVal getCXXThisVal() const override;
671
672 /// Returns true if this is a call to a base class destructor.
isBaseDestructor()673 bool isBaseDestructor() const {
674 return DtorDataTy::getFromOpaqueValue(Data).getInt();
675 }
676
getKind()677 Kind getKind() const override { return CE_CXXDestructor; }
678
classof(const CallEvent * CA)679 static bool classof(const CallEvent *CA) {
680 return CA->getKind() == CE_CXXDestructor;
681 }
682 };
683
684 /// \brief Represents a call to a C++ constructor.
685 ///
686 /// Example: \c T(1)
687 class CXXConstructorCall : public AnyFunctionCall {
688 friend class CallEventManager;
689
690 protected:
691 /// Creates a constructor call.
692 ///
693 /// \param CE The constructor expression as written in the source.
694 /// \param Target The region where the object should be constructed. If NULL,
695 /// a new symbolic region will be used.
696 /// \param St The path-sensitive state at this point in the program.
697 /// \param LCtx The location context at this point in the program.
CXXConstructorCall(const CXXConstructExpr * CE,const MemRegion * Target,ProgramStateRef St,const LocationContext * LCtx)698 CXXConstructorCall(const CXXConstructExpr *CE, const MemRegion *Target,
699 ProgramStateRef St, const LocationContext *LCtx)
700 : AnyFunctionCall(CE, St, LCtx) {
701 Data = Target;
702 }
703
CXXConstructorCall(const CXXConstructorCall & Other)704 CXXConstructorCall(const CXXConstructorCall &Other) : AnyFunctionCall(Other){}
cloneTo(void * Dest)705 void cloneTo(void *Dest) const override { new (Dest) CXXConstructorCall(*this); }
706
707 void getExtraInvalidatedValues(ValueList &Values) const override;
708
709 public:
getOriginExpr()710 virtual const CXXConstructExpr *getOriginExpr() const {
711 return cast<CXXConstructExpr>(AnyFunctionCall::getOriginExpr());
712 }
713
getDecl()714 const CXXConstructorDecl *getDecl() const override {
715 return getOriginExpr()->getConstructor();
716 }
717
getNumArgs()718 unsigned getNumArgs() const override { return getOriginExpr()->getNumArgs(); }
719
getArgExpr(unsigned Index)720 const Expr *getArgExpr(unsigned Index) const override {
721 return getOriginExpr()->getArg(Index);
722 }
723
724 /// \brief Returns the value of the implicit 'this' object.
725 SVal getCXXThisVal() const;
726
727 void getInitialStackFrameContents(const StackFrameContext *CalleeCtx,
728 BindingsTy &Bindings) const override;
729
getKind()730 Kind getKind() const override { return CE_CXXConstructor; }
731
classof(const CallEvent * CA)732 static bool classof(const CallEvent *CA) {
733 return CA->getKind() == CE_CXXConstructor;
734 }
735 };
736
737 /// \brief Represents the memory allocation call in a C++ new-expression.
738 ///
739 /// This is a call to "operator new".
740 class CXXAllocatorCall : public AnyFunctionCall {
741 friend class CallEventManager;
742
743 protected:
CXXAllocatorCall(const CXXNewExpr * E,ProgramStateRef St,const LocationContext * LCtx)744 CXXAllocatorCall(const CXXNewExpr *E, ProgramStateRef St,
745 const LocationContext *LCtx)
746 : AnyFunctionCall(E, St, LCtx) {}
747
CXXAllocatorCall(const CXXAllocatorCall & Other)748 CXXAllocatorCall(const CXXAllocatorCall &Other) : AnyFunctionCall(Other) {}
cloneTo(void * Dest)749 void cloneTo(void *Dest) const override { new (Dest) CXXAllocatorCall(*this); }
750
751 public:
getOriginExpr()752 virtual const CXXNewExpr *getOriginExpr() const {
753 return cast<CXXNewExpr>(AnyFunctionCall::getOriginExpr());
754 }
755
getDecl()756 const FunctionDecl *getDecl() const override {
757 return getOriginExpr()->getOperatorNew();
758 }
759
getNumArgs()760 unsigned getNumArgs() const override {
761 return getOriginExpr()->getNumPlacementArgs() + 1;
762 }
763
getArgExpr(unsigned Index)764 const Expr *getArgExpr(unsigned Index) const override {
765 // The first argument of an allocator call is the size of the allocation.
766 if (Index == 0)
767 return nullptr;
768 return getOriginExpr()->getPlacementArg(Index - 1);
769 }
770
getKind()771 Kind getKind() const override { return CE_CXXAllocator; }
772
classof(const CallEvent * CE)773 static bool classof(const CallEvent *CE) {
774 return CE->getKind() == CE_CXXAllocator;
775 }
776 };
777
778 /// \brief Represents the ways an Objective-C message send can occur.
779 //
780 // Note to maintainers: OCM_Message should always be last, since it does not
781 // need to fit in the Data field's low bits.
782 enum ObjCMessageKind {
783 OCM_PropertyAccess,
784 OCM_Subscript,
785 OCM_Message
786 };
787
788 /// \brief Represents any expression that calls an Objective-C method.
789 ///
790 /// This includes all of the kinds listed in ObjCMessageKind.
791 class ObjCMethodCall : public CallEvent {
792 friend class CallEventManager;
793
794 const PseudoObjectExpr *getContainingPseudoObjectExpr() const;
795
796 protected:
ObjCMethodCall(const ObjCMessageExpr * Msg,ProgramStateRef St,const LocationContext * LCtx)797 ObjCMethodCall(const ObjCMessageExpr *Msg, ProgramStateRef St,
798 const LocationContext *LCtx)
799 : CallEvent(Msg, St, LCtx) {
800 Data = nullptr;
801 }
802
ObjCMethodCall(const ObjCMethodCall & Other)803 ObjCMethodCall(const ObjCMethodCall &Other) : CallEvent(Other) {}
cloneTo(void * Dest)804 void cloneTo(void *Dest) const override { new (Dest) ObjCMethodCall(*this); }
805
806 void getExtraInvalidatedValues(ValueList &Values) const override;
807
808 /// Check if the selector may have multiple definitions (may have overrides).
809 virtual bool canBeOverridenInSubclass(ObjCInterfaceDecl *IDecl,
810 Selector Sel) const;
811
812 public:
getOriginExpr()813 virtual const ObjCMessageExpr *getOriginExpr() const {
814 return cast<ObjCMessageExpr>(CallEvent::getOriginExpr());
815 }
getDecl()816 const ObjCMethodDecl *getDecl() const override {
817 return getOriginExpr()->getMethodDecl();
818 }
getNumArgs()819 unsigned getNumArgs() const override {
820 return getOriginExpr()->getNumArgs();
821 }
getArgExpr(unsigned Index)822 const Expr *getArgExpr(unsigned Index) const override {
823 return getOriginExpr()->getArg(Index);
824 }
825
isInstanceMessage()826 bool isInstanceMessage() const {
827 return getOriginExpr()->isInstanceMessage();
828 }
getMethodFamily()829 ObjCMethodFamily getMethodFamily() const {
830 return getOriginExpr()->getMethodFamily();
831 }
getSelector()832 Selector getSelector() const {
833 return getOriginExpr()->getSelector();
834 }
835
836 SourceRange getSourceRange() const override;
837
838 /// \brief Returns the value of the receiver at the time of this call.
839 SVal getReceiverSVal() const;
840
841 /// \brief Return the value of 'self' if available.
842 SVal getSelfSVal() const;
843
844 /// \brief Get the interface for the receiver.
845 ///
846 /// This works whether this is an instance message or a class message.
847 /// However, it currently just uses the static type of the receiver.
getReceiverInterface()848 const ObjCInterfaceDecl *getReceiverInterface() const {
849 return getOriginExpr()->getReceiverInterface();
850 }
851
852 /// \brief Checks if the receiver refers to 'self' or 'super'.
853 bool isReceiverSelfOrSuper() const;
854
855 /// Returns how the message was written in the source (property access,
856 /// subscript, or explicit message send).
857 ObjCMessageKind getMessageKind() const;
858
859 /// Returns true if this property access or subscript is a setter (has the
860 /// form of an assignment).
isSetter()861 bool isSetter() const {
862 switch (getMessageKind()) {
863 case OCM_Message:
864 llvm_unreachable("This is not a pseudo-object access!");
865 case OCM_PropertyAccess:
866 return getNumArgs() > 0;
867 case OCM_Subscript:
868 return getNumArgs() > 1;
869 }
870 llvm_unreachable("Unknown message kind");
871 }
872
873 RuntimeDefinition getRuntimeDefinition() const override;
874
875 bool argumentsMayEscape() const override;
876
877 void getInitialStackFrameContents(const StackFrameContext *CalleeCtx,
878 BindingsTy &Bindings) const override;
879
880 ArrayRef<ParmVarDecl*> parameters() const override;
881
getKind()882 Kind getKind() const override { return CE_ObjCMessage; }
883
classof(const CallEvent * CA)884 static bool classof(const CallEvent *CA) {
885 return CA->getKind() == CE_ObjCMessage;
886 }
887 };
888
889
890 /// \brief Manages the lifetime of CallEvent objects.
891 ///
892 /// CallEventManager provides a way to create arbitrary CallEvents "on the
893 /// stack" as if they were value objects by keeping a cache of CallEvent-sized
894 /// memory blocks. The CallEvents created by CallEventManager are only valid
895 /// for the lifetime of the OwnedCallEvent that holds them; right now these
896 /// objects cannot be copied and ownership cannot be transferred.
897 class CallEventManager {
898 friend class CallEvent;
899
900 llvm::BumpPtrAllocator &Alloc;
901 SmallVector<void *, 8> Cache;
902 typedef SimpleFunctionCall CallEventTemplateTy;
903
reclaim(const void * Memory)904 void reclaim(const void *Memory) {
905 Cache.push_back(const_cast<void *>(Memory));
906 }
907
908 /// Returns memory that can be initialized as a CallEvent.
allocate()909 void *allocate() {
910 if (Cache.empty())
911 return Alloc.Allocate<CallEventTemplateTy>();
912 else
913 return Cache.pop_back_val();
914 }
915
916 template <typename T, typename Arg>
create(Arg A,ProgramStateRef St,const LocationContext * LCtx)917 T *create(Arg A, ProgramStateRef St, const LocationContext *LCtx) {
918 static_assert(sizeof(T) == sizeof(CallEventTemplateTy),
919 "CallEvent subclasses are not all the same size");
920 return new (allocate()) T(A, St, LCtx);
921 }
922
923 template <typename T, typename Arg1, typename Arg2>
create(Arg1 A1,Arg2 A2,ProgramStateRef St,const LocationContext * LCtx)924 T *create(Arg1 A1, Arg2 A2, ProgramStateRef St, const LocationContext *LCtx) {
925 static_assert(sizeof(T) == sizeof(CallEventTemplateTy),
926 "CallEvent subclasses are not all the same size");
927 return new (allocate()) T(A1, A2, St, LCtx);
928 }
929
930 template <typename T, typename Arg1, typename Arg2, typename Arg3>
create(Arg1 A1,Arg2 A2,Arg3 A3,ProgramStateRef St,const LocationContext * LCtx)931 T *create(Arg1 A1, Arg2 A2, Arg3 A3, ProgramStateRef St,
932 const LocationContext *LCtx) {
933 static_assert(sizeof(T) == sizeof(CallEventTemplateTy),
934 "CallEvent subclasses are not all the same size");
935 return new (allocate()) T(A1, A2, A3, St, LCtx);
936 }
937
938 template <typename T, typename Arg1, typename Arg2, typename Arg3,
939 typename Arg4>
create(Arg1 A1,Arg2 A2,Arg3 A3,Arg4 A4,ProgramStateRef St,const LocationContext * LCtx)940 T *create(Arg1 A1, Arg2 A2, Arg3 A3, Arg4 A4, ProgramStateRef St,
941 const LocationContext *LCtx) {
942 static_assert(sizeof(T) == sizeof(CallEventTemplateTy),
943 "CallEvent subclasses are not all the same size");
944 return new (allocate()) T(A1, A2, A3, A4, St, LCtx);
945 }
946
947 public:
CallEventManager(llvm::BumpPtrAllocator & alloc)948 CallEventManager(llvm::BumpPtrAllocator &alloc) : Alloc(alloc) {}
949
950
951 CallEventRef<>
952 getCaller(const StackFrameContext *CalleeCtx, ProgramStateRef State);
953
954
955 CallEventRef<>
956 getSimpleCall(const CallExpr *E, ProgramStateRef State,
957 const LocationContext *LCtx);
958
959 CallEventRef<ObjCMethodCall>
getObjCMethodCall(const ObjCMessageExpr * E,ProgramStateRef State,const LocationContext * LCtx)960 getObjCMethodCall(const ObjCMessageExpr *E, ProgramStateRef State,
961 const LocationContext *LCtx) {
962 return create<ObjCMethodCall>(E, State, LCtx);
963 }
964
965 CallEventRef<CXXConstructorCall>
getCXXConstructorCall(const CXXConstructExpr * E,const MemRegion * Target,ProgramStateRef State,const LocationContext * LCtx)966 getCXXConstructorCall(const CXXConstructExpr *E, const MemRegion *Target,
967 ProgramStateRef State, const LocationContext *LCtx) {
968 return create<CXXConstructorCall>(E, Target, State, LCtx);
969 }
970
971 CallEventRef<CXXDestructorCall>
getCXXDestructorCall(const CXXDestructorDecl * DD,const Stmt * Trigger,const MemRegion * Target,bool IsBase,ProgramStateRef State,const LocationContext * LCtx)972 getCXXDestructorCall(const CXXDestructorDecl *DD, const Stmt *Trigger,
973 const MemRegion *Target, bool IsBase,
974 ProgramStateRef State, const LocationContext *LCtx) {
975 return create<CXXDestructorCall>(DD, Trigger, Target, IsBase, State, LCtx);
976 }
977
978 CallEventRef<CXXAllocatorCall>
getCXXAllocatorCall(const CXXNewExpr * E,ProgramStateRef State,const LocationContext * LCtx)979 getCXXAllocatorCall(const CXXNewExpr *E, ProgramStateRef State,
980 const LocationContext *LCtx) {
981 return create<CXXAllocatorCall>(E, State, LCtx);
982 }
983 };
984
985
986 template <typename T>
cloneWithState(ProgramStateRef NewState)987 CallEventRef<T> CallEvent::cloneWithState(ProgramStateRef NewState) const {
988 assert(isa<T>(*this) && "Cloning to unrelated type");
989 static_assert(sizeof(T) == sizeof(CallEvent),
990 "Subclasses may not add fields");
991
992 if (NewState == State)
993 return cast<T>(this);
994
995 CallEventManager &Mgr = State->getStateManager().getCallEventManager();
996 T *Copy = static_cast<T *>(Mgr.allocate());
997 cloneTo(Copy);
998 assert(Copy->getKind() == this->getKind() && "Bad copy");
999
1000 Copy->State = NewState;
1001 return Copy;
1002 }
1003
Release()1004 inline void CallEvent::Release() const {
1005 assert(RefCount > 0 && "Reference count is already zero.");
1006 --RefCount;
1007
1008 if (RefCount > 0)
1009 return;
1010
1011 CallEventManager &Mgr = State->getStateManager().getCallEventManager();
1012 Mgr.reclaim(this);
1013
1014 this->~CallEvent();
1015 }
1016
1017 } // end namespace ento
1018 } // end namespace clang
1019
1020 namespace llvm {
1021 // Support isa<>, cast<>, and dyn_cast<> for CallEventRef.
1022 template<class T> struct simplify_type< clang::ento::CallEventRef<T> > {
1023 typedef const T *SimpleType;
1024
1025 static SimpleType
1026 getSimplifiedValue(clang::ento::CallEventRef<T> Val) {
1027 return Val.get();
1028 }
1029 };
1030 }
1031
1032 #endif
1033