//== ValistChecker.cpp - stdarg.h macro usage 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 checkers which detect usage of uninitialized va_list values // and va_start calls with no matching va_end. // //===----------------------------------------------------------------------===// #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/CallDescription.h" #include "clang/StaticAnalyzer/Core/PathSensitive/CallEvent.h" #include "clang/StaticAnalyzer/Core/PathSensitive/CheckerContext.h" using namespace clang; using namespace ento; REGISTER_SET_WITH_PROGRAMSTATE(InitializedVALists, const MemRegion *) namespace { typedef SmallVector RegionVector; class ValistChecker : public Checker, check::DeadSymbols> { mutable std::unique_ptr BT_leakedvalist, BT_uninitaccess; struct VAListAccepter { CallDescription Func; int VAListPos; }; static const SmallVector VAListAccepters; static const CallDescription VaStart, VaEnd, VaCopy; public: enum CheckKind { CK_Uninitialized, CK_Unterminated, CK_CopyToSelf, CK_NumCheckKinds }; bool ChecksEnabled[CK_NumCheckKinds] = {false}; CheckerNameRef CheckNames[CK_NumCheckKinds]; void checkPreStmt(const VAArgExpr *VAA, CheckerContext &C) const; void checkPreCall(const CallEvent &Call, CheckerContext &C) const; void checkDeadSymbols(SymbolReaper &SR, CheckerContext &C) const; private: const MemRegion *getVAListAsRegion(SVal SV, const Expr *VAExpr, bool &IsSymbolic, CheckerContext &C) const; const ExplodedNode *getStartCallSite(const ExplodedNode *N, const MemRegion *Reg) const; void reportUninitializedAccess(const MemRegion *VAList, StringRef Msg, CheckerContext &C) const; void reportLeakedVALists(const RegionVector &LeakedVALists, StringRef Msg1, StringRef Msg2, CheckerContext &C, ExplodedNode *N, bool ReportUninit = false) const; void checkVAListStartCall(const CallEvent &Call, CheckerContext &C, bool IsCopy) const; void checkVAListEndCall(const CallEvent &Call, CheckerContext &C) const; class ValistBugVisitor : public BugReporterVisitor { public: ValistBugVisitor(const MemRegion *Reg, bool IsLeak = false) : Reg(Reg), IsLeak(IsLeak) {} void Profile(llvm::FoldingSetNodeID &ID) const override { static int X = 0; ID.AddPointer(&X); ID.AddPointer(Reg); } PathDiagnosticPieceRef getEndPath(BugReporterContext &BRC, const ExplodedNode *EndPathNode, PathSensitiveBugReport &BR) override { if (!IsLeak) return nullptr; PathDiagnosticLocation L = BR.getLocation(); // Do not add the statement itself as a range in case of leak. return std::make_shared(L, BR.getDescription(), false); } PathDiagnosticPieceRef VisitNode(const ExplodedNode *N, BugReporterContext &BRC, PathSensitiveBugReport &BR) override; private: const MemRegion *Reg; bool IsLeak; }; }; const SmallVector ValistChecker::VAListAccepters = {{{CDM::CLibrary, {"vfprintf"}, 3}, 2}, {{CDM::CLibrary, {"vfscanf"}, 3}, 2}, {{CDM::CLibrary, {"vprintf"}, 2}, 1}, {{CDM::CLibrary, {"vscanf"}, 2}, 1}, {{CDM::CLibrary, {"vsnprintf"}, 4}, 3}, {{CDM::CLibrary, {"vsprintf"}, 3}, 2}, {{CDM::CLibrary, {"vsscanf"}, 3}, 2}, {{CDM::CLibrary, {"vfwprintf"}, 3}, 2}, {{CDM::CLibrary, {"vfwscanf"}, 3}, 2}, {{CDM::CLibrary, {"vwprintf"}, 2}, 1}, {{CDM::CLibrary, {"vwscanf"}, 2}, 1}, {{CDM::CLibrary, {"vswprintf"}, 4}, 3}, // vswprintf is the wide version of // vsnprintf, vsprintf has no wide version {{CDM::CLibrary, {"vswscanf"}, 3}, 2}}; const CallDescription ValistChecker::VaStart(CDM::CLibrary, {"__builtin_va_start"}, /*Args=*/2, /*Params=*/1), ValistChecker::VaCopy(CDM::CLibrary, {"__builtin_va_copy"}, 2), ValistChecker::VaEnd(CDM::CLibrary, {"__builtin_va_end"}, 1); } // end anonymous namespace void ValistChecker::checkPreCall(const CallEvent &Call, CheckerContext &C) const { if (VaStart.matches(Call)) checkVAListStartCall(Call, C, false); else if (VaCopy.matches(Call)) checkVAListStartCall(Call, C, true); else if (VaEnd.matches(Call)) checkVAListEndCall(Call, C); else { for (auto FuncInfo : VAListAccepters) { if (!FuncInfo.Func.matches(Call)) continue; bool Symbolic; const MemRegion *VAList = getVAListAsRegion(Call.getArgSVal(FuncInfo.VAListPos), Call.getArgExpr(FuncInfo.VAListPos), Symbolic, C); if (!VAList) return; if (C.getState()->contains(VAList)) return; // We did not see va_start call, but the source of the region is unknown. // Be conservative and assume the best. if (Symbolic) return; SmallString<80> Errmsg("Function '"); Errmsg += FuncInfo.Func.getFunctionName(); Errmsg += "' is called with an uninitialized va_list argument"; reportUninitializedAccess(VAList, Errmsg.c_str(), C); break; } } } const MemRegion *ValistChecker::getVAListAsRegion(SVal SV, const Expr *E, bool &IsSymbolic, CheckerContext &C) const { const MemRegion *Reg = SV.getAsRegion(); if (!Reg) return nullptr; // TODO: In the future this should be abstracted away by the analyzer. bool VaListModelledAsArray = false; if (const auto *Cast = dyn_cast(E)) { QualType Ty = Cast->getType(); VaListModelledAsArray = Ty->isPointerType() && Ty->getPointeeType()->isRecordType(); } if (const auto *DeclReg = Reg->getAs()) { if (isa(DeclReg->getDecl())) Reg = C.getState()->getSVal(SV.castAs()).getAsRegion(); } IsSymbolic = Reg && Reg->getBaseRegion()->getAs(); // Some VarRegion based VA lists reach here as ElementRegions. const auto *EReg = dyn_cast_or_null(Reg); return (EReg && VaListModelledAsArray) ? EReg->getSuperRegion() : Reg; } void ValistChecker::checkPreStmt(const VAArgExpr *VAA, CheckerContext &C) const { ProgramStateRef State = C.getState(); const Expr *VASubExpr = VAA->getSubExpr(); SVal VAListSVal = C.getSVal(VASubExpr); bool Symbolic; const MemRegion *VAList = getVAListAsRegion(VAListSVal, VASubExpr, Symbolic, C); if (!VAList) return; if (Symbolic) return; if (!State->contains(VAList)) reportUninitializedAccess( VAList, "va_arg() is called on an uninitialized va_list", C); } void ValistChecker::checkDeadSymbols(SymbolReaper &SR, CheckerContext &C) const { ProgramStateRef State = C.getState(); InitializedVAListsTy TrackedVALists = State->get(); RegionVector LeakedVALists; for (auto Reg : TrackedVALists) { if (SR.isLiveRegion(Reg)) continue; LeakedVALists.push_back(Reg); State = State->remove(Reg); } if (ExplodedNode *N = C.addTransition(State)) reportLeakedVALists(LeakedVALists, "Initialized va_list", " is leaked", C, N); } // This function traverses the exploded graph backwards and finds the node where // the va_list is initialized. That node is used for uniquing the bug paths. // It is not likely that there are several different va_lists that belongs to // different stack frames, so that case is not yet handled. const ExplodedNode * ValistChecker::getStartCallSite(const ExplodedNode *N, const MemRegion *Reg) const { const LocationContext *LeakContext = N->getLocationContext(); const ExplodedNode *StartCallNode = N; bool FoundInitializedState = false; while (N) { ProgramStateRef State = N->getState(); if (!State->contains(Reg)) { if (FoundInitializedState) break; } else { FoundInitializedState = true; } const LocationContext *NContext = N->getLocationContext(); if (NContext == LeakContext || NContext->isParentOf(LeakContext)) StartCallNode = N; N = N->pred_empty() ? nullptr : *(N->pred_begin()); } return StartCallNode; } void ValistChecker::reportUninitializedAccess(const MemRegion *VAList, StringRef Msg, CheckerContext &C) const { if (!ChecksEnabled[CK_Uninitialized]) return; if (ExplodedNode *N = C.generateErrorNode()) { if (!BT_uninitaccess) BT_uninitaccess.reset(new BugType(CheckNames[CK_Uninitialized], "Uninitialized va_list", categories::MemoryError)); auto R = std::make_unique(*BT_uninitaccess, Msg, N); R->markInteresting(VAList); R->addVisitor(std::make_unique(VAList)); C.emitReport(std::move(R)); } } void ValistChecker::reportLeakedVALists(const RegionVector &LeakedVALists, StringRef Msg1, StringRef Msg2, CheckerContext &C, ExplodedNode *N, bool ReportUninit) const { if (!(ChecksEnabled[CK_Unterminated] || (ChecksEnabled[CK_Uninitialized] && ReportUninit))) return; for (auto Reg : LeakedVALists) { if (!BT_leakedvalist) { // FIXME: maybe creating a new check name for this type of bug is a better // solution. BT_leakedvalist.reset( new BugType(CheckNames[CK_Unterminated].getName().empty() ? CheckNames[CK_Uninitialized] : CheckNames[CK_Unterminated], "Leaked va_list", categories::MemoryError, /*SuppressOnSink=*/true)); } const ExplodedNode *StartNode = getStartCallSite(N, Reg); PathDiagnosticLocation LocUsedForUniqueing; if (const Stmt *StartCallStmt = StartNode->getStmtForDiagnostics()) LocUsedForUniqueing = PathDiagnosticLocation::createBegin( StartCallStmt, C.getSourceManager(), StartNode->getLocationContext()); SmallString<100> Buf; llvm::raw_svector_ostream OS(Buf); OS << Msg1; std::string VariableName = Reg->getDescriptiveName(); if (!VariableName.empty()) OS << " " << VariableName; OS << Msg2; auto R = std::make_unique( *BT_leakedvalist, OS.str(), N, LocUsedForUniqueing, StartNode->getLocationContext()->getDecl()); R->markInteresting(Reg); R->addVisitor(std::make_unique(Reg, true)); C.emitReport(std::move(R)); } } void ValistChecker::checkVAListStartCall(const CallEvent &Call, CheckerContext &C, bool IsCopy) const { bool Symbolic; const MemRegion *VAList = getVAListAsRegion(Call.getArgSVal(0), Call.getArgExpr(0), Symbolic, C); if (!VAList) return; ProgramStateRef State = C.getState(); if (IsCopy) { const MemRegion *Arg2 = getVAListAsRegion(Call.getArgSVal(1), Call.getArgExpr(1), Symbolic, C); if (Arg2) { if (ChecksEnabled[CK_CopyToSelf] && VAList == Arg2) { RegionVector LeakedVALists{VAList}; if (ExplodedNode *N = C.addTransition(State)) reportLeakedVALists(LeakedVALists, "va_list", " is copied onto itself", C, N, true); return; } else if (!State->contains(Arg2) && !Symbolic) { if (State->contains(VAList)) { State = State->remove(VAList); RegionVector LeakedVALists{VAList}; if (ExplodedNode *N = C.addTransition(State)) reportLeakedVALists(LeakedVALists, "Initialized va_list", " is overwritten by an uninitialized one", C, N, true); } else { reportUninitializedAccess(Arg2, "Uninitialized va_list is copied", C); } return; } } } if (State->contains(VAList)) { RegionVector LeakedVALists{VAList}; if (ExplodedNode *N = C.addTransition(State)) reportLeakedVALists(LeakedVALists, "Initialized va_list", " is initialized again", C, N); return; } State = State->add(VAList); C.addTransition(State); } void ValistChecker::checkVAListEndCall(const CallEvent &Call, CheckerContext &C) const { bool Symbolic; const MemRegion *VAList = getVAListAsRegion(Call.getArgSVal(0), Call.getArgExpr(0), Symbolic, C); if (!VAList) return; // We did not see va_start call, but the source of the region is unknown. // Be conservative and assume the best. if (Symbolic) return; if (!C.getState()->contains(VAList)) { reportUninitializedAccess( VAList, "va_end() is called on an uninitialized va_list", C); return; } ProgramStateRef State = C.getState(); State = State->remove(VAList); C.addTransition(State); } PathDiagnosticPieceRef ValistChecker::ValistBugVisitor::VisitNode( const ExplodedNode *N, BugReporterContext &BRC, PathSensitiveBugReport &) { ProgramStateRef State = N->getState(); ProgramStateRef StatePrev = N->getFirstPred()->getState(); const Stmt *S = N->getStmtForDiagnostics(); if (!S) return nullptr; StringRef Msg; if (State->contains(Reg) && !StatePrev->contains(Reg)) Msg = "Initialized va_list"; else if (!State->contains(Reg) && StatePrev->contains(Reg)) Msg = "Ended va_list"; if (Msg.empty()) return nullptr; PathDiagnosticLocation Pos(S, BRC.getSourceManager(), N->getLocationContext()); return std::make_shared(Pos, Msg, true); } void ento::registerValistBase(CheckerManager &mgr) { mgr.registerChecker(); } bool ento::shouldRegisterValistBase(const CheckerManager &mgr) { return true; } #define REGISTER_CHECKER(name) \ void ento::register##name##Checker(CheckerManager &mgr) { \ ValistChecker *checker = mgr.getChecker(); \ checker->ChecksEnabled[ValistChecker::CK_##name] = true; \ checker->CheckNames[ValistChecker::CK_##name] = \ mgr.getCurrentCheckerName(); \ } \ \ bool ento::shouldRegister##name##Checker(const CheckerManager &mgr) { \ return true; \ } REGISTER_CHECKER(Uninitialized) REGISTER_CHECKER(Unterminated) REGISTER_CHECKER(CopyToSelf)