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llvm-project/clang/lib/StaticAnalyzer/Checkers/StdVariantChecker.cpp
NagyDonat e2f1cbae45
[analyzer] Use explicit call description mode (easy cases) (#88879) 
This commit explicitly specifies the matching mode (C library function,
any non-method function, or C++ method) for the `CallDescription`s
constructed in various checkers where this transition was easy and
straightforward.

This change won't cause major functional changes, but isn't NFC because
it ensures that e.g. call descriptions for a non-method function won't
accidentally match a method that has the same name.

Separate commits will perform (or have already performed) this change in
other checkers. My goal is to ensure that the call description mode is
always explicitly specified and eliminate (or strongly restrict) the
vague "may be either a method or a simple function" mode that's the
current default.
2024-04-19 14:22:51 +02:00

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//===- StdVariantChecker.cpp -------------------------------------*- 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
//
//===----------------------------------------------------------------------===//
#include "clang/AST/Type.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/CallDescription.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/CallEvent.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/CheckerContext.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/SVals.h"
#include "llvm/ADT/FoldingSet.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/Casting.h"
#include <optional>
#include <string_view>
#include "TaggedUnionModeling.h"
using namespace clang;
using namespace ento;
using namespace tagged_union_modeling;
REGISTER_MAP_WITH_PROGRAMSTATE(VariantHeldTypeMap, const MemRegion *, QualType)
namespace clang::ento::tagged_union_modeling {
const CXXConstructorDecl *
getConstructorDeclarationForCall(const CallEvent &Call) {
const auto *ConstructorCall = dyn_cast<CXXConstructorCall>(&Call);
if (!ConstructorCall)
return nullptr;
return ConstructorCall->getDecl();
}
bool isCopyConstructorCall(const CallEvent &Call) {
if (const CXXConstructorDecl *ConstructorDecl =
getConstructorDeclarationForCall(Call))
return ConstructorDecl->isCopyConstructor();
return false;
}
bool isCopyAssignmentCall(const CallEvent &Call) {
const Decl *CopyAssignmentDecl = Call.getDecl();
if (const auto *AsMethodDecl =
dyn_cast_or_null<CXXMethodDecl>(CopyAssignmentDecl))
return AsMethodDecl->isCopyAssignmentOperator();
return false;
}
bool isMoveConstructorCall(const CallEvent &Call) {
const CXXConstructorDecl *ConstructorDecl =
getConstructorDeclarationForCall(Call);
if (!ConstructorDecl)
return false;
return ConstructorDecl->isMoveConstructor();
}
bool isMoveAssignmentCall(const CallEvent &Call) {
const Decl *CopyAssignmentDecl = Call.getDecl();
const auto *AsMethodDecl =
dyn_cast_or_null<CXXMethodDecl>(CopyAssignmentDecl);
if (!AsMethodDecl)
return false;
return AsMethodDecl->isMoveAssignmentOperator();
}
bool isStdType(const Type *Type, llvm::StringRef TypeName) {
auto *Decl = Type->getAsRecordDecl();
if (!Decl)
return false;
return (Decl->getName() == TypeName) && Decl->isInStdNamespace();
}
bool isStdVariant(const Type *Type) {
return isStdType(Type, llvm::StringLiteral("variant"));
}
} // end of namespace clang::ento::tagged_union_modeling
static std::optional<ArrayRef<TemplateArgument>>
getTemplateArgsFromVariant(const Type *VariantType) {
const auto *TempSpecType = VariantType->getAs<TemplateSpecializationType>();
if (!TempSpecType)
return {};
return TempSpecType->template_arguments();
}
static std::optional<QualType>
getNthTemplateTypeArgFromVariant(const Type *varType, unsigned i) {
std::optional<ArrayRef<TemplateArgument>> VariantTemplates =
getTemplateArgsFromVariant(varType);
if (!VariantTemplates)
return {};
return (*VariantTemplates)[i].getAsType();
}
static bool isVowel(char a) {
switch (a) {
case 'a':
case 'e':
case 'i':
case 'o':
case 'u':
return true;
default:
return false;
}
}
static llvm::StringRef indefiniteArticleBasedOnVowel(char a) {
if (isVowel(a))
return "an";
return "a";
}
class StdVariantChecker : public Checker<eval::Call, check::RegionChanges> {
// Call descriptors to find relevant calls
CallDescription VariantConstructor{CDM::CXXMethod,
{"std", "variant", "variant"}};
CallDescription VariantAssignmentOperator{CDM::CXXMethod,
{"std", "variant", "operator="}};
CallDescription StdGet{CDM::SimpleFunc, {"std", "get"}, 1, 1};
BugType BadVariantType{this, "BadVariantType", "BadVariantType"};
public:
ProgramStateRef checkRegionChanges(ProgramStateRef State,
const InvalidatedSymbols *,
ArrayRef<const MemRegion *>,
ArrayRef<const MemRegion *> Regions,
const LocationContext *,
const CallEvent *Call) const {
if (!Call)
return State;
return removeInformationStoredForDeadInstances<VariantHeldTypeMap>(
*Call, State, Regions);
}
bool evalCall(const CallEvent &Call, CheckerContext &C) const {
// Check if the call was not made from a system header. If it was then
// we do an early return because it is part of the implementation.
if (Call.isCalledFromSystemHeader())
return false;
if (StdGet.matches(Call))
return handleStdGetCall(Call, C);
// First check if a constructor call is happening. If it is a
// constructor call, check if it is an std::variant constructor call.
bool IsVariantConstructor =
isa<CXXConstructorCall>(Call) && VariantConstructor.matches(Call);
bool IsVariantAssignmentOperatorCall =
isa<CXXMemberOperatorCall>(Call) &&
VariantAssignmentOperator.matches(Call);
if (IsVariantConstructor || IsVariantAssignmentOperatorCall) {
if (Call.getNumArgs() == 0 && IsVariantConstructor) {
handleDefaultConstructor(cast<CXXConstructorCall>(&Call), C);
return true;
}
// FIXME Later this checker should be extended to handle constructors
// with multiple arguments.
if (Call.getNumArgs() != 1)
return false;
SVal ThisSVal;
if (IsVariantConstructor) {
const auto &AsConstructorCall = cast<CXXConstructorCall>(Call);
ThisSVal = AsConstructorCall.getCXXThisVal();
} else if (IsVariantAssignmentOperatorCall) {
const auto &AsMemberOpCall = cast<CXXMemberOperatorCall>(Call);
ThisSVal = AsMemberOpCall.getCXXThisVal();
} else {
return false;
}
handleConstructorAndAssignment<VariantHeldTypeMap>(Call, C, ThisSVal);
return true;
}
return false;
}
private:
// The default constructed std::variant must be handled separately
// by default the std::variant is going to hold a default constructed instance
// of the first type of the possible types
void handleDefaultConstructor(const CXXConstructorCall *ConstructorCall,
CheckerContext &C) const {
SVal ThisSVal = ConstructorCall->getCXXThisVal();
const auto *const ThisMemRegion = ThisSVal.getAsRegion();
if (!ThisMemRegion)
return;
std::optional<QualType> DefaultType = getNthTemplateTypeArgFromVariant(
ThisSVal.getType(C.getASTContext())->getPointeeType().getTypePtr(), 0);
if (!DefaultType)
return;
ProgramStateRef State = ConstructorCall->getState();
State = State->set<VariantHeldTypeMap>(ThisMemRegion, *DefaultType);
C.addTransition(State);
}
bool handleStdGetCall(const CallEvent &Call, CheckerContext &C) const {
ProgramStateRef State = Call.getState();
const auto &ArgType = Call.getArgSVal(0)
.getType(C.getASTContext())
->getPointeeType()
.getTypePtr();
// We have to make sure that the argument is an std::variant.
// There is another std::get with std::pair argument
if (!isStdVariant(ArgType))
return false;
// Get the mem region of the argument std::variant and look up the type
// information that we know about it.
const MemRegion *ArgMemRegion = Call.getArgSVal(0).getAsRegion();
const QualType *StoredType = State->get<VariantHeldTypeMap>(ArgMemRegion);
if (!StoredType)
return false;
const CallExpr *CE = cast<CallExpr>(Call.getOriginExpr());
const FunctionDecl *FD = CE->getDirectCallee();
if (FD->getTemplateSpecializationArgs()->size() < 1)
return false;
const auto &TypeOut = FD->getTemplateSpecializationArgs()->asArray()[0];
// std::get's first template parameter can be the type we want to get
// out of the std::variant or a natural number which is the position of
// the requested type in the argument type list of the std::variant's
// argument.
QualType RetrievedType;
switch (TypeOut.getKind()) {
case TemplateArgument::ArgKind::Type:
RetrievedType = TypeOut.getAsType();
break;
case TemplateArgument::ArgKind::Integral:
// In the natural number case we look up which type corresponds to the
// number.
if (std::optional<QualType> NthTemplate =
getNthTemplateTypeArgFromVariant(
ArgType, TypeOut.getAsIntegral().getSExtValue())) {
RetrievedType = *NthTemplate;
break;
}
[[fallthrough]];
default:
return false;
}
QualType RetrievedCanonicalType = RetrievedType.getCanonicalType();
QualType StoredCanonicalType = StoredType->getCanonicalType();
if (RetrievedCanonicalType == StoredCanonicalType)
return true;
ExplodedNode *ErrNode = C.generateNonFatalErrorNode();
if (!ErrNode)
return false;
llvm::SmallString<128> Str;
llvm::raw_svector_ostream OS(Str);
std::string StoredTypeName = StoredType->getAsString();
std::string RetrievedTypeName = RetrievedType.getAsString();
OS << "std::variant " << ArgMemRegion->getDescriptiveName() << " held "
<< indefiniteArticleBasedOnVowel(StoredTypeName[0]) << " \'"
<< StoredTypeName << "\', not "
<< indefiniteArticleBasedOnVowel(RetrievedTypeName[0]) << " \'"
<< RetrievedTypeName << "\'";
auto R = std::make_unique<PathSensitiveBugReport>(BadVariantType, OS.str(),
ErrNode);
C.emitReport(std::move(R));
return true;
}
};
bool clang::ento::shouldRegisterStdVariantChecker(
clang::ento::CheckerManager const &mgr) {
return true;
}
void clang::ento::registerStdVariantChecker(clang::ento::CheckerManager &mgr) {
mgr.registerChecker<StdVariantChecker>();
}
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