forked from OSchip/llvm-project
347 lines
12 KiB
C++
347 lines
12 KiB
C++
//===--- CallAndMessageChecker.cpp ------------------------------*- C++ -*--==//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This defines CallAndMessageChecker, a builtin checker that checks for various
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// errors of call and objc message expressions.
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//
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//===----------------------------------------------------------------------===//
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#include "GRExprEngineInternalChecks.h"
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#include "clang/AST/ParentMap.h"
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#include "clang/Basic/TargetInfo.h"
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#include "clang/Checker/BugReporter/BugType.h"
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#include "clang/Checker/PathSensitive/CheckerVisitor.h"
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using namespace clang;
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namespace {
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class CallAndMessageChecker
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: public CheckerVisitor<CallAndMessageChecker> {
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BugType *BT_call_null;
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BugType *BT_call_undef;
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BugType *BT_call_arg;
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BugType *BT_msg_undef;
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BugType *BT_msg_arg;
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BugType *BT_msg_ret;
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public:
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CallAndMessageChecker() :
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BT_call_null(0), BT_call_undef(0), BT_call_arg(0),
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BT_msg_undef(0), BT_msg_arg(0), BT_msg_ret(0) {}
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static void *getTag() {
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static int x = 0;
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return &x;
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}
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void PreVisitCallExpr(CheckerContext &C, const CallExpr *CE);
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void PreVisitObjCMessageExpr(CheckerContext &C, const ObjCMessageExpr *ME);
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bool EvalNilReceiver(CheckerContext &C, const ObjCMessageExpr *ME);
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private:
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bool PreVisitProcessArg(CheckerContext &C, const Expr *Ex,
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const char *BT_desc, BugType *&BT);
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void EmitBadCall(BugType *BT, CheckerContext &C, const CallExpr *CE);
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void EmitNilReceiverBug(CheckerContext &C, const ObjCMessageExpr *ME,
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ExplodedNode *N);
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void HandleNilReceiver(CheckerContext &C, const GRState *state,
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const ObjCMessageExpr *ME);
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void LazyInit_BT(const char *desc, BugType *&BT) {
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if (!BT)
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BT = new BuiltinBug(desc);
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}
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};
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} // end anonymous namespace
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void clang::RegisterCallAndMessageChecker(GRExprEngine &Eng) {
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Eng.registerCheck(new CallAndMessageChecker());
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}
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void CallAndMessageChecker::EmitBadCall(BugType *BT, CheckerContext &C,
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const CallExpr *CE) {
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ExplodedNode *N = C.GenerateSink();
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if (!N)
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return;
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EnhancedBugReport *R = new EnhancedBugReport(*BT, BT->getName(), N);
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R->addVisitorCreator(bugreporter::registerTrackNullOrUndefValue,
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bugreporter::GetCalleeExpr(N));
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C.EmitReport(R);
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}
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bool CallAndMessageChecker::PreVisitProcessArg(CheckerContext &C,
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const Expr *Ex,
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const char *BT_desc,
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BugType *&BT) {
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const SVal &V = C.getState()->getSVal(Ex);
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if (V.isUndef()) {
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if (ExplodedNode *N = C.GenerateSink()) {
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LazyInit_BT(BT_desc, BT);
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// Generate a report for this bug.
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EnhancedBugReport *R = new EnhancedBugReport(*BT, BT->getName(), N);
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R->addRange(Ex->getSourceRange());
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R->addVisitorCreator(bugreporter::registerTrackNullOrUndefValue, Ex);
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C.EmitReport(R);
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}
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return true;
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}
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if (const nonloc::LazyCompoundVal *LV =
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dyn_cast<nonloc::LazyCompoundVal>(&V)) {
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class FindUninitializedField {
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public:
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llvm::SmallVector<const FieldDecl *, 10> FieldChain;
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private:
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ASTContext &C;
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StoreManager &StoreMgr;
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MemRegionManager &MrMgr;
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Store store;
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public:
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FindUninitializedField(ASTContext &c, StoreManager &storeMgr,
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MemRegionManager &mrMgr, Store s)
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: C(c), StoreMgr(storeMgr), MrMgr(mrMgr), store(s) {}
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bool Find(const TypedRegion *R) {
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QualType T = R->getValueType();
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if (const RecordType *RT = T->getAsStructureType()) {
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const RecordDecl *RD = RT->getDecl()->getDefinition();
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assert(RD && "Referred record has no definition");
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for (RecordDecl::field_iterator I =
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RD->field_begin(), E = RD->field_end(); I!=E; ++I) {
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const FieldRegion *FR = MrMgr.getFieldRegion(*I, R);
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FieldChain.push_back(*I);
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T = (*I)->getType();
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if (T->getAsStructureType()) {
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if (Find(FR))
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return true;
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}
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else {
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const SVal &V = StoreMgr.Retrieve(store, loc::MemRegionVal(FR));
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if (V.isUndef())
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return true;
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}
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FieldChain.pop_back();
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}
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}
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return false;
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}
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};
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const LazyCompoundValData *D = LV->getCVData();
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FindUninitializedField F(C.getASTContext(),
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C.getState()->getStateManager().getStoreManager(),
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C.getValueManager().getRegionManager(),
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D->getStore());
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if (F.Find(D->getRegion())) {
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if (ExplodedNode *N = C.GenerateSink()) {
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LazyInit_BT(BT_desc, BT);
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llvm::SmallString<512> Str;
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llvm::raw_svector_ostream os(Str);
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os << "Passed-by-value struct argument contains uninitialized data";
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if (F.FieldChain.size() == 1)
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os << " (e.g., field: '" << F.FieldChain[0] << "')";
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else {
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os << " (e.g., via the field chain: '";
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bool first = true;
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for (llvm::SmallVectorImpl<const FieldDecl *>::iterator
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DI = F.FieldChain.begin(), DE = F.FieldChain.end(); DI!=DE;++DI){
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if (first)
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first = false;
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else
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os << '.';
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os << *DI;
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}
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os << "')";
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}
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// Generate a report for this bug.
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EnhancedBugReport *R = new EnhancedBugReport(*BT, os.str(), N);
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R->addRange(Ex->getSourceRange());
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// FIXME: enhance track back for uninitialized value for arbitrary
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// memregions
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C.EmitReport(R);
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}
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return true;
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}
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}
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return false;
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}
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void CallAndMessageChecker::PreVisitCallExpr(CheckerContext &C,
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const CallExpr *CE){
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const Expr *Callee = CE->getCallee()->IgnoreParens();
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SVal L = C.getState()->getSVal(Callee);
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if (L.isUndef()) {
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if (!BT_call_undef)
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BT_call_undef =
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new BuiltinBug("Called function pointer is an undefined pointer value");
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EmitBadCall(BT_call_undef, C, CE);
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return;
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}
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if (isa<loc::ConcreteInt>(L)) {
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if (!BT_call_null)
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BT_call_null =
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new BuiltinBug("Called function pointer is null (null dereference)");
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EmitBadCall(BT_call_null, C, CE);
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}
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for (CallExpr::const_arg_iterator I = CE->arg_begin(), E = CE->arg_end();
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I != E; ++I)
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if (PreVisitProcessArg(C, *I,
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"Pass-by-value argument in function call is"
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" undefined", BT_call_arg))
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return;
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}
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void CallAndMessageChecker::PreVisitObjCMessageExpr(CheckerContext &C,
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const ObjCMessageExpr *ME) {
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const GRState *state = C.getState();
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// FIXME: Handle 'super'?
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if (const Expr *receiver = ME->getInstanceReceiver())
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if (state->getSVal(receiver).isUndef()) {
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if (ExplodedNode *N = C.GenerateSink()) {
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if (!BT_msg_undef)
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BT_msg_undef =
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new BuiltinBug("Receiver in message expression is a garbage value");
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EnhancedBugReport *R =
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new EnhancedBugReport(*BT_msg_undef, BT_msg_undef->getName(), N);
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R->addRange(receiver->getSourceRange());
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R->addVisitorCreator(bugreporter::registerTrackNullOrUndefValue,
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receiver);
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C.EmitReport(R);
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}
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return;
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}
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// Check for any arguments that are uninitialized/undefined.
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for (ObjCMessageExpr::const_arg_iterator I = ME->arg_begin(),
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E = ME->arg_end(); I != E; ++I)
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if (PreVisitProcessArg(C, *I,
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"Pass-by-value argument in message expression "
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"is undefined", BT_msg_arg))
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return;
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}
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bool CallAndMessageChecker::EvalNilReceiver(CheckerContext &C,
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const ObjCMessageExpr *ME) {
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HandleNilReceiver(C, C.getState(), ME);
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return true; // Nil receiver is not handled elsewhere.
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}
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void CallAndMessageChecker::EmitNilReceiverBug(CheckerContext &C,
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const ObjCMessageExpr *ME,
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ExplodedNode *N) {
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if (!BT_msg_ret)
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BT_msg_ret =
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new BuiltinBug("Receiver in message expression is "
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"'nil' and returns a garbage value");
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llvm::SmallString<200> buf;
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llvm::raw_svector_ostream os(buf);
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os << "The receiver of message '" << ME->getSelector().getAsString()
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<< "' is nil and returns a value of type '"
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<< ME->getType().getAsString() << "' that will be garbage";
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EnhancedBugReport *report = new EnhancedBugReport(*BT_msg_ret, os.str(), N);
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if (const Expr *receiver = ME->getInstanceReceiver()) {
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report->addRange(receiver->getSourceRange());
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report->addVisitorCreator(bugreporter::registerTrackNullOrUndefValue,
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receiver);
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}
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C.EmitReport(report);
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}
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static bool SupportsNilWithFloatRet(const llvm::Triple &triple) {
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return triple.getVendor() == llvm::Triple::Apple &&
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triple.getDarwinMajorNumber() >= 9;
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}
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void CallAndMessageChecker::HandleNilReceiver(CheckerContext &C,
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const GRState *state,
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const ObjCMessageExpr *ME) {
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// Check the return type of the message expression. A message to nil will
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// return different values depending on the return type and the architecture.
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QualType RetTy = ME->getType();
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ASTContext &Ctx = C.getASTContext();
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CanQualType CanRetTy = Ctx.getCanonicalType(RetTy);
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if (CanRetTy->isStructureOrClassType()) {
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// FIXME: At some point we shouldn't rely on isConsumedExpr(), but instead
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// have the "use of undefined value" be smarter about where the
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// undefined value came from.
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if (C.getPredecessor()->getParentMap().isConsumedExpr(ME)) {
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if (ExplodedNode* N = C.GenerateSink(state))
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EmitNilReceiverBug(C, ME, N);
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return;
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}
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// The result is not consumed by a surrounding expression. Just propagate
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// the current state.
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C.addTransition(state);
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return;
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}
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// Other cases: check if the return type is smaller than void*.
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if (CanRetTy != Ctx.VoidTy &&
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C.getPredecessor()->getParentMap().isConsumedExpr(ME)) {
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// Compute: sizeof(void *) and sizeof(return type)
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const uint64_t voidPtrSize = Ctx.getTypeSize(Ctx.VoidPtrTy);
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const uint64_t returnTypeSize = Ctx.getTypeSize(CanRetTy);
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if (voidPtrSize < returnTypeSize &&
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!(SupportsNilWithFloatRet(Ctx.Target.getTriple()) &&
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(Ctx.FloatTy == CanRetTy ||
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Ctx.DoubleTy == CanRetTy ||
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Ctx.LongDoubleTy == CanRetTy ||
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Ctx.LongLongTy == CanRetTy))) {
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if (ExplodedNode* N = C.GenerateSink(state))
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EmitNilReceiverBug(C, ME, N);
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return;
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}
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// Handle the safe cases where the return value is 0 if the
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// receiver is nil.
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//
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// FIXME: For now take the conservative approach that we only
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// return null values if we *know* that the receiver is nil.
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// This is because we can have surprises like:
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//
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// ... = [[NSScreens screens] objectAtIndex:0];
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//
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// What can happen is that [... screens] could return nil, but
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// it most likely isn't nil. We should assume the semantics
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// of this case unless we have *a lot* more knowledge.
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//
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SVal V = C.getValueManager().makeZeroVal(ME->getType());
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C.GenerateNode(state->BindExpr(ME, V));
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return;
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}
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C.addTransition(state);
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}
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