//===--- NonNullParamChecker.cpp - Undefined arguments checker -*- C++ -*--===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This defines NonNullParamChecker, which checks for arguments expected not to // be null due to: // - the corresponding parameters being declared to have nonnull attribute // - the corresponding parameters being references; since the call would form // a reference to a null pointer // //===----------------------------------------------------------------------===// #include "clang/AST/Attr.h" #include "clang/Analysis/AnyCall.h" #include "clang/StaticAnalyzer/Checkers/BuiltinCheckerRegistration.h" #include "clang/StaticAnalyzer/Core/BugReporter/BugType.h" #include "clang/StaticAnalyzer/Core/Checker.h" #include "clang/StaticAnalyzer/Core/CheckerManager.h" #include "clang/StaticAnalyzer/Core/PathSensitive/CallEvent.h" #include "clang/StaticAnalyzer/Core/PathSensitive/CheckerContext.h" #include "llvm/ADT/StringExtras.h" using namespace clang; using namespace ento; namespace { class NonNullParamChecker : public Checker> { mutable std::unique_ptr BTAttrNonNull; mutable std::unique_ptr BTNullRefArg; public: void checkPreCall(const CallEvent &Call, CheckerContext &C) const; void checkBeginFunction(CheckerContext &C) const; std::unique_ptr genReportNullAttrNonNull(const ExplodedNode *ErrorN, const Expr *ArgE, unsigned IdxOfArg) const; std::unique_ptr genReportReferenceToNullPointer(const ExplodedNode *ErrorN, const Expr *ArgE) const; }; template void setBitsAccordingToFunctionAttributes(const CallType &Call, llvm::SmallBitVector &AttrNonNull) { const Decl *FD = Call.getDecl(); for (const auto *NonNull : FD->specific_attrs()) { if (!NonNull->args_size()) { // Lack of attribute parameters means that all of the parameters are // implicitly marked as non-null. AttrNonNull.set(); break; } for (const ParamIdx &Idx : NonNull->args()) { // 'nonnull' attribute's parameters are 1-based and should be adjusted to // match actual AST parameter/argument indices. unsigned IdxAST = Idx.getASTIndex(); if (IdxAST >= AttrNonNull.size()) continue; AttrNonNull.set(IdxAST); } } } template void setBitsAccordingToParameterAttributes(const CallType &Call, llvm::SmallBitVector &AttrNonNull) { for (const ParmVarDecl *Parameter : Call.parameters()) { unsigned ParameterIndex = Parameter->getFunctionScopeIndex(); if (ParameterIndex == AttrNonNull.size()) break; if (Parameter->hasAttr()) AttrNonNull.set(ParameterIndex); } } template llvm::SmallBitVector getNonNullAttrsImpl(const CallType &Call, unsigned ExpectedSize) { llvm::SmallBitVector AttrNonNull(ExpectedSize); setBitsAccordingToFunctionAttributes(Call, AttrNonNull); setBitsAccordingToParameterAttributes(Call, AttrNonNull); return AttrNonNull; } /// \return Bitvector marking non-null attributes. llvm::SmallBitVector getNonNullAttrs(const CallEvent &Call) { return getNonNullAttrsImpl(Call, Call.getNumArgs()); } /// \return Bitvector marking non-null attributes. llvm::SmallBitVector getNonNullAttrs(const AnyCall &Call) { return getNonNullAttrsImpl(Call, Call.param_size()); } } // end anonymous namespace void NonNullParamChecker::checkPreCall(const CallEvent &Call, CheckerContext &C) const { if (!Call.getDecl()) return; llvm::SmallBitVector AttrNonNull = getNonNullAttrs(Call); unsigned NumArgs = Call.getNumArgs(); ProgramStateRef state = C.getState(); ArrayRef parms = Call.parameters(); for (unsigned idx = 0; idx < NumArgs; ++idx) { // For vararg functions, a corresponding parameter decl may not exist. bool HasParam = idx < parms.size(); // Check if the parameter is a reference. We want to report when reference // to a null pointer is passed as a parameter. bool HasRefTypeParam = HasParam ? parms[idx]->getType()->isReferenceType() : false; bool ExpectedToBeNonNull = AttrNonNull.test(idx); if (!ExpectedToBeNonNull && !HasRefTypeParam) continue; // If the value is unknown or undefined, we can't perform this check. const Expr *ArgE = Call.getArgExpr(idx); SVal V = Call.getArgSVal(idx); auto DV = V.getAs(); if (!DV) continue; assert(!HasRefTypeParam || DV->getAs()); // Process the case when the argument is not a location. if (ExpectedToBeNonNull && !DV->getAs()) { // If the argument is a union type, we want to handle a potential // transparent_union GCC extension. if (!ArgE) continue; QualType T = ArgE->getType(); const RecordType *UT = T->getAsUnionType(); if (!UT || !UT->getDecl()->hasAttr()) continue; auto CSV = DV->getAs(); // FIXME: Handle LazyCompoundVals? if (!CSV) continue; V = *(CSV->begin()); DV = V.getAs(); assert(++CSV->begin() == CSV->end()); // FIXME: Handle (some_union){ some_other_union_val }, which turns into // a LazyCompoundVal inside a CompoundVal. if (!V.getAs()) continue; // Retrieve the corresponding expression. if (const auto *CE = dyn_cast(ArgE)) if (const auto *IE = dyn_cast(CE->getInitializer())) ArgE = dyn_cast(*(IE->begin())); } ConstraintManager &CM = C.getConstraintManager(); ProgramStateRef stateNotNull, stateNull; std::tie(stateNotNull, stateNull) = CM.assumeDual(state, *DV); // Generate an error node. Check for a null node in case // we cache out. if (stateNull && !stateNotNull) { if (ExplodedNode *errorNode = C.generateErrorNode(stateNull)) { std::unique_ptr R; if (ExpectedToBeNonNull) R = genReportNullAttrNonNull(errorNode, ArgE, idx + 1); else if (HasRefTypeParam) R = genReportReferenceToNullPointer(errorNode, ArgE); // Highlight the range of the argument that was null. R->addRange(Call.getArgSourceRange(idx)); // Emit the bug report. C.emitReport(std::move(R)); } // Always return. Either we cached out or we just emitted an error. return; } if (stateNull) { if (ExplodedNode *N = C.generateSink(stateNull, C.getPredecessor())) { ImplicitNullDerefEvent event = { V, false, N, &C.getBugReporter(), /*IsDirectDereference=*/HasRefTypeParam}; dispatchEvent(event); } } // If a pointer value passed the check we should assume that it is // indeed not null from this point forward. state = stateNotNull; } // If we reach here all of the arguments passed the nonnull check. // If 'state' has been updated generated a new node. C.addTransition(state); } /// We want to trust developer annotations and consider all 'nonnull' parameters /// as non-null indeed. Each marked parameter will get a corresponding /// constraint. /// /// This approach will not only help us to get rid of some false positives, but /// remove duplicates and shorten warning traces as well. /// /// \code /// void foo(int *x) [[gnu::nonnull]] { /// // . . . /// *x = 42; // we don't want to consider this as an error... /// // . . . /// } /// /// foo(nullptr); // ...and report here instead /// \endcode void NonNullParamChecker::checkBeginFunction(CheckerContext &Context) const { // Planned assumption makes sense only for top-level functions. // Inlined functions will get similar constraints as part of 'checkPreCall'. if (!Context.inTopFrame()) return; const LocationContext *LocContext = Context.getLocationContext(); const Decl *FD = LocContext->getDecl(); // AnyCall helps us here to avoid checking for FunctionDecl and ObjCMethodDecl // separately and aggregates interfaces of these classes. auto AbstractCall = AnyCall::forDecl(FD); if (!AbstractCall) return; ProgramStateRef State = Context.getState(); llvm::SmallBitVector ParameterNonNullMarks = getNonNullAttrs(*AbstractCall); for (const ParmVarDecl *Parameter : AbstractCall->parameters()) { // 1. Check parameter if it is annotated as non-null if (!ParameterNonNullMarks.test(Parameter->getFunctionScopeIndex())) continue; // 2. Check that parameter is a pointer. // Nonnull attribute can be applied to non-pointers (by default // __attribute__(nonnull) implies "all parameters"). if (!Parameter->getType()->isPointerType()) continue; Loc ParameterLoc = State->getLValue(Parameter, LocContext); // We never consider top-level function parameters undefined. auto StoredVal = State->getSVal(ParameterLoc).castAs(); // 3. Assume that it is indeed non-null if (ProgramStateRef NewState = State->assume(StoredVal, true)) { State = NewState; } } Context.addTransition(State); } std::unique_ptr NonNullParamChecker::genReportNullAttrNonNull(const ExplodedNode *ErrorNode, const Expr *ArgE, unsigned IdxOfArg) const { // Lazily allocate the BugType object if it hasn't already been // created. Ownership is transferred to the BugReporter object once // the BugReport is passed to 'EmitWarning'. if (!BTAttrNonNull) BTAttrNonNull.reset(new BugType( this, "Argument with 'nonnull' attribute passed null", "API")); llvm::SmallString<256> SBuf; llvm::raw_svector_ostream OS(SBuf); OS << "Null pointer passed to " << IdxOfArg << llvm::getOrdinalSuffix(IdxOfArg) << " parameter expecting 'nonnull'"; auto R = std::make_unique(*BTAttrNonNull, SBuf, ErrorNode); if (ArgE) bugreporter::trackExpressionValue(ErrorNode, ArgE, *R); return R; } std::unique_ptr NonNullParamChecker::genReportReferenceToNullPointer( const ExplodedNode *ErrorNode, const Expr *ArgE) const { if (!BTNullRefArg) BTNullRefArg.reset(new BuiltinBug(this, "Dereference of null pointer")); auto R = std::make_unique( *BTNullRefArg, "Forming reference to null pointer", ErrorNode); if (ArgE) { const Expr *ArgEDeref = bugreporter::getDerefExpr(ArgE); if (!ArgEDeref) ArgEDeref = ArgE; bugreporter::trackExpressionValue(ErrorNode, ArgEDeref, *R); } return R; } void ento::registerNonNullParamChecker(CheckerManager &mgr) { mgr.registerChecker(); } bool ento::shouldRegisterNonNullParamChecker(const CheckerManager &mgr) { return true; }