MemRegion.cpp
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//===- MemRegion.cpp - Abstract memory regions for static analysis --------===//
//
// 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 file defines MemRegion and its subclasses. MemRegion defines a
// partially-typed abstraction of memory useful for path-sensitive dataflow
// analyses.
//
//===----------------------------------------------------------------------===//
#include "clang/StaticAnalyzer/Core/PathSensitive/MemRegion.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/Attr.h"
#include "clang/AST/CharUnits.h"
#include "clang/AST/Decl.h"
#include "clang/AST/DeclCXX.h"
#include "clang/AST/DeclObjC.h"
#include "clang/AST/Expr.h"
#include "clang/AST/PrettyPrinter.h"
#include "clang/AST/RecordLayout.h"
#include "clang/AST/Type.h"
#include "clang/Analysis/AnalysisDeclContext.h"
#include "clang/Analysis/Support/BumpVector.h"
#include "clang/Basic/IdentifierTable.h"
#include "clang/Basic/LLVM.h"
#include "clang/Basic/SourceManager.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/SValBuilder.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/SVals.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/SymbolManager.h"
#include "llvm/ADT/APInt.h"
#include "llvm/ADT/FoldingSet.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/PointerUnion.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/Twine.h"
#include "llvm/Support/Allocator.h"
#include "llvm/Support/Casting.h"
#include "llvm/Support/CheckedArithmetic.h"
#include "llvm/Support/Compiler.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/raw_ostream.h"
#include <cassert>
#include <cstdint>
#include <functional>
#include <iterator>
#include <string>
#include <tuple>
#include <utility>
using namespace clang;
using namespace ento;
#define DEBUG_TYPE "MemRegion"
//===----------------------------------------------------------------------===//
// MemRegion Construction.
//===----------------------------------------------------------------------===//
template <typename RegionTy, typename SuperTy, typename Arg1Ty>
RegionTy* MemRegionManager::getSubRegion(const Arg1Ty arg1,
const SuperTy *superRegion) {
llvm::FoldingSetNodeID ID;
RegionTy::ProfileRegion(ID, arg1, superRegion);
void *InsertPos;
auto *R = cast_or_null<RegionTy>(Regions.FindNodeOrInsertPos(ID, InsertPos));
if (!R) {
R = A.Allocate<RegionTy>();
new (R) RegionTy(arg1, superRegion);
Regions.InsertNode(R, InsertPos);
}
return R;
}
template <typename RegionTy, typename SuperTy, typename Arg1Ty, typename Arg2Ty>
RegionTy* MemRegionManager::getSubRegion(const Arg1Ty arg1, const Arg2Ty arg2,
const SuperTy *superRegion) {
llvm::FoldingSetNodeID ID;
RegionTy::ProfileRegion(ID, arg1, arg2, superRegion);
void *InsertPos;
auto *R = cast_or_null<RegionTy>(Regions.FindNodeOrInsertPos(ID, InsertPos));
if (!R) {
R = A.Allocate<RegionTy>();
new (R) RegionTy(arg1, arg2, superRegion);
Regions.InsertNode(R, InsertPos);
}
return R;
}
template <typename RegionTy, typename SuperTy,
typename Arg1Ty, typename Arg2Ty, typename Arg3Ty>
RegionTy* MemRegionManager::getSubRegion(const Arg1Ty arg1, const Arg2Ty arg2,
const Arg3Ty arg3,
const SuperTy *superRegion) {
llvm::FoldingSetNodeID ID;
RegionTy::ProfileRegion(ID, arg1, arg2, arg3, superRegion);
void *InsertPos;
auto *R = cast_or_null<RegionTy>(Regions.FindNodeOrInsertPos(ID, InsertPos));
if (!R) {
R = A.Allocate<RegionTy>();
new (R) RegionTy(arg1, arg2, arg3, superRegion);
Regions.InsertNode(R, InsertPos);
}
return R;
}
//===----------------------------------------------------------------------===//
// Object destruction.
//===----------------------------------------------------------------------===//
MemRegion::~MemRegion() = default;
// All regions and their data are BumpPtrAllocated. No need to call their
// destructors.
MemRegionManager::~MemRegionManager() = default;
//===----------------------------------------------------------------------===//
// Basic methods.
//===----------------------------------------------------------------------===//
bool SubRegion::isSubRegionOf(const MemRegion* R) const {
const MemRegion* r = this;
do {
if (r == R)
return true;
if (const auto *sr = dyn_cast<SubRegion>(r))
r = sr->getSuperRegion();
else
break;
} while (r != nullptr);
return false;
}
MemRegionManager &SubRegion::getMemRegionManager() const {
const SubRegion* r = this;
do {
const MemRegion *superRegion = r->getSuperRegion();
if (const auto *sr = dyn_cast<SubRegion>(superRegion)) {
r = sr;
continue;
}
return superRegion->getMemRegionManager();
} while (true);
}
const StackFrameContext *VarRegion::getStackFrame() const {
const auto *SSR = dyn_cast<StackSpaceRegion>(getMemorySpace());
return SSR ? SSR->getStackFrame() : nullptr;
}
ObjCIvarRegion::ObjCIvarRegion(const ObjCIvarDecl *ivd, const SubRegion *sReg)
: DeclRegion(sReg, ObjCIvarRegionKind), IVD(ivd) {}
const ObjCIvarDecl *ObjCIvarRegion::getDecl() const { return IVD; }
QualType ObjCIvarRegion::getValueType() const {
return getDecl()->getType();
}
QualType CXXBaseObjectRegion::getValueType() const {
return QualType(getDecl()->getTypeForDecl(), 0);
}
QualType CXXDerivedObjectRegion::getValueType() const {
return QualType(getDecl()->getTypeForDecl(), 0);
}
QualType ParamVarRegion::getValueType() const {
assert(getDecl() &&
"`ParamVarRegion` support functions without `Decl` not implemented"
" yet.");
return getDecl()->getType();
}
const ParmVarDecl *ParamVarRegion::getDecl() const {
const Decl *D = getStackFrame()->getDecl();
if (const auto *FD = dyn_cast<FunctionDecl>(D)) {
assert(Index < FD->param_size());
return FD->parameters()[Index];
} else if (const auto *BD = dyn_cast<BlockDecl>(D)) {
assert(Index < BD->param_size());
return BD->parameters()[Index];
} else if (const auto *MD = dyn_cast<ObjCMethodDecl>(D)) {
assert(Index < MD->param_size());
return MD->parameters()[Index];
} else if (const auto *CD = dyn_cast<CXXConstructorDecl>(D)) {
assert(Index < CD->param_size());
return CD->parameters()[Index];
} else {
llvm_unreachable("Unexpected Decl kind!");
}
}
//===----------------------------------------------------------------------===//
// FoldingSet profiling.
//===----------------------------------------------------------------------===//
void MemSpaceRegion::Profile(llvm::FoldingSetNodeID &ID) const {
ID.AddInteger(static_cast<unsigned>(getKind()));
}
void StackSpaceRegion::Profile(llvm::FoldingSetNodeID &ID) const {
ID.AddInteger(static_cast<unsigned>(getKind()));
ID.AddPointer(getStackFrame());
}
void StaticGlobalSpaceRegion::Profile(llvm::FoldingSetNodeID &ID) const {
ID.AddInteger(static_cast<unsigned>(getKind()));
ID.AddPointer(getCodeRegion());
}
void StringRegion::ProfileRegion(llvm::FoldingSetNodeID &ID,
const StringLiteral *Str,
const MemRegion *superRegion) {
ID.AddInteger(static_cast<unsigned>(StringRegionKind));
ID.AddPointer(Str);
ID.AddPointer(superRegion);
}
void ObjCStringRegion::ProfileRegion(llvm::FoldingSetNodeID &ID,
const ObjCStringLiteral *Str,
const MemRegion *superRegion) {
ID.AddInteger(static_cast<unsigned>(ObjCStringRegionKind));
ID.AddPointer(Str);
ID.AddPointer(superRegion);
}
void AllocaRegion::ProfileRegion(llvm::FoldingSetNodeID& ID,
const Expr *Ex, unsigned cnt,
const MemRegion *superRegion) {
ID.AddInteger(static_cast<unsigned>(AllocaRegionKind));
ID.AddPointer(Ex);
ID.AddInteger(cnt);
ID.AddPointer(superRegion);
}
void AllocaRegion::Profile(llvm::FoldingSetNodeID& ID) const {
ProfileRegion(ID, Ex, Cnt, superRegion);
}
void CompoundLiteralRegion::Profile(llvm::FoldingSetNodeID& ID) const {
CompoundLiteralRegion::ProfileRegion(ID, CL, superRegion);
}
void CompoundLiteralRegion::ProfileRegion(llvm::FoldingSetNodeID& ID,
const CompoundLiteralExpr *CL,
const MemRegion* superRegion) {
ID.AddInteger(static_cast<unsigned>(CompoundLiteralRegionKind));
ID.AddPointer(CL);
ID.AddPointer(superRegion);
}
void CXXThisRegion::ProfileRegion(llvm::FoldingSetNodeID &ID,
const PointerType *PT,
const MemRegion *sRegion) {
ID.AddInteger(static_cast<unsigned>(CXXThisRegionKind));
ID.AddPointer(PT);
ID.AddPointer(sRegion);
}
void CXXThisRegion::Profile(llvm::FoldingSetNodeID &ID) const {
CXXThisRegion::ProfileRegion(ID, ThisPointerTy, superRegion);
}
void FieldRegion::Profile(llvm::FoldingSetNodeID &ID) const {
ProfileRegion(ID, getDecl(), superRegion);
}
void ObjCIvarRegion::ProfileRegion(llvm::FoldingSetNodeID& ID,
const ObjCIvarDecl *ivd,
const MemRegion* superRegion) {
ID.AddInteger(static_cast<unsigned>(ObjCIvarRegionKind));
ID.AddPointer(ivd);
ID.AddPointer(superRegion);
}
void ObjCIvarRegion::Profile(llvm::FoldingSetNodeID &ID) const {
ProfileRegion(ID, getDecl(), superRegion);
}
void NonParamVarRegion::ProfileRegion(llvm::FoldingSetNodeID &ID,
const VarDecl *VD,
const MemRegion *superRegion) {
ID.AddInteger(static_cast<unsigned>(NonParamVarRegionKind));
ID.AddPointer(VD);
ID.AddPointer(superRegion);
}
void NonParamVarRegion::Profile(llvm::FoldingSetNodeID &ID) const {
ProfileRegion(ID, getDecl(), superRegion);
}
void ParamVarRegion::ProfileRegion(llvm::FoldingSetNodeID &ID, const Expr *OE,
unsigned Idx, const MemRegion *SReg) {
ID.AddInteger(static_cast<unsigned>(ParamVarRegionKind));
ID.AddPointer(OE);
ID.AddInteger(Idx);
ID.AddPointer(SReg);
}
void ParamVarRegion::Profile(llvm::FoldingSetNodeID &ID) const {
ProfileRegion(ID, getOriginExpr(), getIndex(), superRegion);
}
void SymbolicRegion::ProfileRegion(llvm::FoldingSetNodeID& ID, SymbolRef sym,
const MemRegion *sreg) {
ID.AddInteger(static_cast<unsigned>(MemRegion::SymbolicRegionKind));
ID.Add(sym);
ID.AddPointer(sreg);
}
void SymbolicRegion::Profile(llvm::FoldingSetNodeID& ID) const {
SymbolicRegion::ProfileRegion(ID, sym, getSuperRegion());
}
void ElementRegion::ProfileRegion(llvm::FoldingSetNodeID& ID,
QualType ElementType, SVal Idx,
const MemRegion* superRegion) {
ID.AddInteger(MemRegion::ElementRegionKind);
ID.Add(ElementType);
ID.AddPointer(superRegion);
Idx.Profile(ID);
}
void ElementRegion::Profile(llvm::FoldingSetNodeID& ID) const {
ElementRegion::ProfileRegion(ID, ElementType, Index, superRegion);
}
void FunctionCodeRegion::ProfileRegion(llvm::FoldingSetNodeID& ID,
const NamedDecl *FD,
const MemRegion*) {
ID.AddInteger(MemRegion::FunctionCodeRegionKind);
ID.AddPointer(FD);
}
void FunctionCodeRegion::Profile(llvm::FoldingSetNodeID& ID) const {
FunctionCodeRegion::ProfileRegion(ID, FD, superRegion);
}
void BlockCodeRegion::ProfileRegion(llvm::FoldingSetNodeID& ID,
const BlockDecl *BD, CanQualType,
const AnalysisDeclContext *AC,
const MemRegion*) {
ID.AddInteger(MemRegion::BlockCodeRegionKind);
ID.AddPointer(BD);
}
void BlockCodeRegion::Profile(llvm::FoldingSetNodeID& ID) const {
BlockCodeRegion::ProfileRegion(ID, BD, locTy, AC, superRegion);
}
void BlockDataRegion::ProfileRegion(llvm::FoldingSetNodeID& ID,
const BlockCodeRegion *BC,
const LocationContext *LC,
unsigned BlkCount,
const MemRegion *sReg) {
ID.AddInteger(MemRegion::BlockDataRegionKind);
ID.AddPointer(BC);
ID.AddPointer(LC);
ID.AddInteger(BlkCount);
ID.AddPointer(sReg);
}
void BlockDataRegion::Profile(llvm::FoldingSetNodeID& ID) const {
BlockDataRegion::ProfileRegion(ID, BC, LC, BlockCount, getSuperRegion());
}
void CXXTempObjectRegion::ProfileRegion(llvm::FoldingSetNodeID &ID,
Expr const *Ex,
const MemRegion *sReg) {
ID.AddPointer(Ex);
ID.AddPointer(sReg);
}
void CXXTempObjectRegion::Profile(llvm::FoldingSetNodeID &ID) const {
ProfileRegion(ID, Ex, getSuperRegion());
}
void CXXBaseObjectRegion::ProfileRegion(llvm::FoldingSetNodeID &ID,
const CXXRecordDecl *RD,
bool IsVirtual,
const MemRegion *SReg) {
ID.AddPointer(RD);
ID.AddBoolean(IsVirtual);
ID.AddPointer(SReg);
}
void CXXBaseObjectRegion::Profile(llvm::FoldingSetNodeID &ID) const {
ProfileRegion(ID, getDecl(), isVirtual(), superRegion);
}
void CXXDerivedObjectRegion::ProfileRegion(llvm::FoldingSetNodeID &ID,
const CXXRecordDecl *RD,
const MemRegion *SReg) {
ID.AddPointer(RD);
ID.AddPointer(SReg);
}
void CXXDerivedObjectRegion::Profile(llvm::FoldingSetNodeID &ID) const {
ProfileRegion(ID, getDecl(), superRegion);
}
//===----------------------------------------------------------------------===//
// Region anchors.
//===----------------------------------------------------------------------===//
void GlobalsSpaceRegion::anchor() {}
void NonStaticGlobalSpaceRegion::anchor() {}
void StackSpaceRegion::anchor() {}
void TypedRegion::anchor() {}
void TypedValueRegion::anchor() {}
void CodeTextRegion::anchor() {}
void SubRegion::anchor() {}
//===----------------------------------------------------------------------===//
// Region pretty-printing.
//===----------------------------------------------------------------------===//
LLVM_DUMP_METHOD void MemRegion::dump() const {
dumpToStream(llvm::errs());
}
std::string MemRegion::getString() const {
std::string s;
llvm::raw_string_ostream os(s);
dumpToStream(os);
return os.str();
}
void MemRegion::dumpToStream(raw_ostream &os) const {
os << "<Unknown Region>";
}
void AllocaRegion::dumpToStream(raw_ostream &os) const {
os << "alloca{S" << Ex->getID(getContext()) << ',' << Cnt << '}';
}
void FunctionCodeRegion::dumpToStream(raw_ostream &os) const {
os << "code{" << getDecl()->getDeclName().getAsString() << '}';
}
void BlockCodeRegion::dumpToStream(raw_ostream &os) const {
os << "block_code{" << static_cast<const void *>(this) << '}';
}
void BlockDataRegion::dumpToStream(raw_ostream &os) const {
os << "block_data{" << BC;
os << "; ";
for (BlockDataRegion::referenced_vars_iterator
I = referenced_vars_begin(),
E = referenced_vars_end(); I != E; ++I)
os << "(" << I.getCapturedRegion() << "<-" <<
I.getOriginalRegion() << ") ";
os << '}';
}
void CompoundLiteralRegion::dumpToStream(raw_ostream &os) const {
// FIXME: More elaborate pretty-printing.
os << "{ S" << CL->getID(getContext()) << " }";
}
void CXXTempObjectRegion::dumpToStream(raw_ostream &os) const {
os << "temp_object{" << getValueType().getAsString() << ", "
<< "S" << Ex->getID(getContext()) << '}';
}
void CXXBaseObjectRegion::dumpToStream(raw_ostream &os) const {
os << "Base{" << superRegion << ',' << getDecl()->getName() << '}';
}
void CXXDerivedObjectRegion::dumpToStream(raw_ostream &os) const {
os << "Derived{" << superRegion << ',' << getDecl()->getName() << '}';
}
void CXXThisRegion::dumpToStream(raw_ostream &os) const {
os << "this";
}
void ElementRegion::dumpToStream(raw_ostream &os) const {
os << "Element{" << superRegion << ','
<< Index << ',' << getElementType().getAsString() << '}';
}
void FieldRegion::dumpToStream(raw_ostream &os) const {
os << superRegion << "." << *getDecl();
}
void ObjCIvarRegion::dumpToStream(raw_ostream &os) const {
os << "Ivar{" << superRegion << ',' << *getDecl() << '}';
}
void StringRegion::dumpToStream(raw_ostream &os) const {
assert(Str != nullptr && "Expecting non-null StringLiteral");
Str->printPretty(os, nullptr, PrintingPolicy(getContext().getLangOpts()));
}
void ObjCStringRegion::dumpToStream(raw_ostream &os) const {
assert(Str != nullptr && "Expecting non-null ObjCStringLiteral");
Str->printPretty(os, nullptr, PrintingPolicy(getContext().getLangOpts()));
}
void SymbolicRegion::dumpToStream(raw_ostream &os) const {
if (isa<HeapSpaceRegion>(getSuperRegion()))
os << "Heap";
os << "SymRegion{" << sym << '}';
}
void NonParamVarRegion::dumpToStream(raw_ostream &os) const {
if (const IdentifierInfo *ID = VD->getIdentifier())
os << ID->getName();
else
os << "NonParamVarRegion{D" << VD->getID() << '}';
}
LLVM_DUMP_METHOD void RegionRawOffset::dump() const {
dumpToStream(llvm::errs());
}
void RegionRawOffset::dumpToStream(raw_ostream &os) const {
os << "raw_offset{" << getRegion() << ',' << getOffset().getQuantity() << '}';
}
void CodeSpaceRegion::dumpToStream(raw_ostream &os) const {
os << "CodeSpaceRegion";
}
void StaticGlobalSpaceRegion::dumpToStream(raw_ostream &os) const {
os << "StaticGlobalsMemSpace{" << CR << '}';
}
void GlobalInternalSpaceRegion::dumpToStream(raw_ostream &os) const {
os << "GlobalInternalSpaceRegion";
}
void GlobalSystemSpaceRegion::dumpToStream(raw_ostream &os) const {
os << "GlobalSystemSpaceRegion";
}
void GlobalImmutableSpaceRegion::dumpToStream(raw_ostream &os) const {
os << "GlobalImmutableSpaceRegion";
}
void HeapSpaceRegion::dumpToStream(raw_ostream &os) const {
os << "HeapSpaceRegion";
}
void UnknownSpaceRegion::dumpToStream(raw_ostream &os) const {
os << "UnknownSpaceRegion";
}
void StackArgumentsSpaceRegion::dumpToStream(raw_ostream &os) const {
os << "StackArgumentsSpaceRegion";
}
void StackLocalsSpaceRegion::dumpToStream(raw_ostream &os) const {
os << "StackLocalsSpaceRegion";
}
void ParamVarRegion::dumpToStream(raw_ostream &os) const {
const ParmVarDecl *PVD = getDecl();
assert(PVD &&
"`ParamVarRegion` support functions without `Decl` not implemented"
" yet.");
if (const IdentifierInfo *ID = PVD->getIdentifier()) {
os << ID->getName();
} else {
os << "ParamVarRegion{P" << PVD->getID() << '}';
}
}
bool MemRegion::canPrintPretty() const {
return canPrintPrettyAsExpr();
}
bool MemRegion::canPrintPrettyAsExpr() const {
return false;
}
void MemRegion::printPretty(raw_ostream &os) const {
assert(canPrintPretty() && "This region cannot be printed pretty.");
os << "'";
printPrettyAsExpr(os);
os << "'";
}
void MemRegion::printPrettyAsExpr(raw_ostream &) const {
llvm_unreachable("This region cannot be printed pretty.");
}
bool NonParamVarRegion::canPrintPrettyAsExpr() const { return true; }
void NonParamVarRegion::printPrettyAsExpr(raw_ostream &os) const {
os << getDecl()->getName();
}
bool ParamVarRegion::canPrintPrettyAsExpr() const { return true; }
void ParamVarRegion::printPrettyAsExpr(raw_ostream &os) const {
assert(getDecl() &&
"`ParamVarRegion` support functions without `Decl` not implemented"
" yet.");
os << getDecl()->getName();
}
bool ObjCIvarRegion::canPrintPrettyAsExpr() const {
return true;
}
void ObjCIvarRegion::printPrettyAsExpr(raw_ostream &os) const {
os << getDecl()->getName();
}
bool FieldRegion::canPrintPretty() const {
return true;
}
bool FieldRegion::canPrintPrettyAsExpr() const {
return superRegion->canPrintPrettyAsExpr();
}
void FieldRegion::printPrettyAsExpr(raw_ostream &os) const {
assert(canPrintPrettyAsExpr());
superRegion->printPrettyAsExpr(os);
os << "." << getDecl()->getName();
}
void FieldRegion::printPretty(raw_ostream &os) const {
if (canPrintPrettyAsExpr()) {
os << "\'";
printPrettyAsExpr(os);
os << "'";
} else {
os << "field " << "\'" << getDecl()->getName() << "'";
}
}
bool CXXBaseObjectRegion::canPrintPrettyAsExpr() const {
return superRegion->canPrintPrettyAsExpr();
}
void CXXBaseObjectRegion::printPrettyAsExpr(raw_ostream &os) const {
superRegion->printPrettyAsExpr(os);
}
bool CXXDerivedObjectRegion::canPrintPrettyAsExpr() const {
return superRegion->canPrintPrettyAsExpr();
}
void CXXDerivedObjectRegion::printPrettyAsExpr(raw_ostream &os) const {
superRegion->printPrettyAsExpr(os);
}
std::string MemRegion::getDescriptiveName(bool UseQuotes) const {
std::string VariableName;
std::string ArrayIndices;
const MemRegion *R = this;
SmallString<50> buf;
llvm::raw_svector_ostream os(buf);
// Obtain array indices to add them to the variable name.
const ElementRegion *ER = nullptr;
while ((ER = R->getAs<ElementRegion>())) {
// Index is a ConcreteInt.
if (auto CI = ER->getIndex().getAs<nonloc::ConcreteInt>()) {
llvm::SmallString<2> Idx;
CI->getValue().toString(Idx);
ArrayIndices = (llvm::Twine("[") + Idx.str() + "]" + ArrayIndices).str();
}
// If not a ConcreteInt, try to obtain the variable
// name by calling 'getDescriptiveName' recursively.
else {
std::string Idx = ER->getDescriptiveName(false);
if (!Idx.empty()) {
ArrayIndices = (llvm::Twine("[") + Idx + "]" + ArrayIndices).str();
}
}
R = ER->getSuperRegion();
}
// Get variable name.
if (R && R->canPrintPrettyAsExpr()) {
R->printPrettyAsExpr(os);
if (UseQuotes)
return (llvm::Twine("'") + os.str() + ArrayIndices + "'").str();
else
return (llvm::Twine(os.str()) + ArrayIndices).str();
}
return VariableName;
}
SourceRange MemRegion::sourceRange() const {
const auto *const VR = dyn_cast<VarRegion>(this->getBaseRegion());
const auto *const FR = dyn_cast<FieldRegion>(this);
// Check for more specific regions first.
// FieldRegion
if (FR) {
return FR->getDecl()->getSourceRange();
}
// VarRegion
else if (VR) {
return VR->getDecl()->getSourceRange();
}
// Return invalid source range (can be checked by client).
else
return {};
}
//===----------------------------------------------------------------------===//
// MemRegionManager methods.
//===----------------------------------------------------------------------===//
static DefinedOrUnknownSVal getTypeSize(QualType Ty, ASTContext &Ctx,
SValBuilder &SVB) {
CharUnits Size = Ctx.getTypeSizeInChars(Ty);
QualType SizeTy = SVB.getArrayIndexType();
return SVB.makeIntVal(Size.getQuantity(), SizeTy);
}
DefinedOrUnknownSVal MemRegionManager::getStaticSize(const MemRegion *MR,
SValBuilder &SVB) const {
const auto *SR = cast<SubRegion>(MR);
SymbolManager &SymMgr = SVB.getSymbolManager();
switch (SR->getKind()) {
case MemRegion::AllocaRegionKind:
case MemRegion::SymbolicRegionKind:
return nonloc::SymbolVal(SymMgr.getExtentSymbol(SR));
case MemRegion::StringRegionKind:
return SVB.makeIntVal(
cast<StringRegion>(SR)->getStringLiteral()->getByteLength() + 1,
SVB.getArrayIndexType());
case MemRegion::CompoundLiteralRegionKind:
case MemRegion::CXXBaseObjectRegionKind:
case MemRegion::CXXDerivedObjectRegionKind:
case MemRegion::CXXTempObjectRegionKind:
case MemRegion::CXXThisRegionKind:
case MemRegion::ObjCIvarRegionKind:
case MemRegion::NonParamVarRegionKind:
case MemRegion::ParamVarRegionKind:
case MemRegion::ElementRegionKind:
case MemRegion::ObjCStringRegionKind: {
QualType Ty = cast<TypedValueRegion>(SR)->getDesugaredValueType(Ctx);
if (isa<VariableArrayType>(Ty))
return nonloc::SymbolVal(SymMgr.getExtentSymbol(SR));
if (Ty->isIncompleteType())
return UnknownVal();
return getTypeSize(Ty, Ctx, SVB);
}
case MemRegion::FieldRegionKind: {
// Force callers to deal with bitfields explicitly.
if (cast<FieldRegion>(SR)->getDecl()->isBitField())
return UnknownVal();
QualType Ty = cast<TypedValueRegion>(SR)->getDesugaredValueType(Ctx);
DefinedOrUnknownSVal Size = getTypeSize(Ty, Ctx, SVB);
// A zero-length array at the end of a struct often stands for dynamically
// allocated extra memory.
if (Size.isZeroConstant()) {
if (isa<ConstantArrayType>(Ty))
return UnknownVal();
}
return Size;
}
// FIXME: The following are being used in 'SimpleSValBuilder' and in
// 'ArrayBoundChecker::checkLocation' because there is no symbol to
// represent the regions more appropriately.
case MemRegion::BlockDataRegionKind:
case MemRegion::BlockCodeRegionKind:
case MemRegion::FunctionCodeRegionKind:
return nonloc::SymbolVal(SymMgr.getExtentSymbol(SR));
default:
llvm_unreachable("Unhandled region");
}
}
template <typename REG>
const REG *MemRegionManager::LazyAllocate(REG*& region) {
if (!region) {
region = A.Allocate<REG>();
new (region) REG(*this);
}
return region;
}
template <typename REG, typename ARG>
const REG *MemRegionManager::LazyAllocate(REG*& region, ARG a) {
if (!region) {
region = A.Allocate<REG>();
new (region) REG(this, a);
}
return region;
}
const StackLocalsSpaceRegion*
MemRegionManager::getStackLocalsRegion(const StackFrameContext *STC) {
assert(STC);
StackLocalsSpaceRegion *&R = StackLocalsSpaceRegions[STC];
if (R)
return R;
R = A.Allocate<StackLocalsSpaceRegion>();
new (R) StackLocalsSpaceRegion(*this, STC);
return R;
}
const StackArgumentsSpaceRegion *
MemRegionManager::getStackArgumentsRegion(const StackFrameContext *STC) {
assert(STC);
StackArgumentsSpaceRegion *&R = StackArgumentsSpaceRegions[STC];
if (R)
return R;
R = A.Allocate<StackArgumentsSpaceRegion>();
new (R) StackArgumentsSpaceRegion(*this, STC);
return R;
}
const GlobalsSpaceRegion
*MemRegionManager::getGlobalsRegion(MemRegion::Kind K,
const CodeTextRegion *CR) {
if (!CR) {
if (K == MemRegion::GlobalSystemSpaceRegionKind)
return LazyAllocate(SystemGlobals);
if (K == MemRegion::GlobalImmutableSpaceRegionKind)
return LazyAllocate(ImmutableGlobals);
assert(K == MemRegion::GlobalInternalSpaceRegionKind);
return LazyAllocate(InternalGlobals);
}
assert(K == MemRegion::StaticGlobalSpaceRegionKind);
StaticGlobalSpaceRegion *&R = StaticsGlobalSpaceRegions[CR];
if (R)
return R;
R = A.Allocate<StaticGlobalSpaceRegion>();
new (R) StaticGlobalSpaceRegion(*this, CR);
return R;
}
const HeapSpaceRegion *MemRegionManager::getHeapRegion() {
return LazyAllocate(heap);
}
const UnknownSpaceRegion *MemRegionManager::getUnknownRegion() {
return LazyAllocate(unknown);
}
const CodeSpaceRegion *MemRegionManager::getCodeRegion() {
return LazyAllocate(code);
}
//===----------------------------------------------------------------------===//
// Constructing regions.
//===----------------------------------------------------------------------===//
const StringRegion *MemRegionManager::getStringRegion(const StringLiteral *Str){
return getSubRegion<StringRegion>(
Str, cast<GlobalInternalSpaceRegion>(getGlobalsRegion()));
}
const ObjCStringRegion *
MemRegionManager::getObjCStringRegion(const ObjCStringLiteral *Str){
return getSubRegion<ObjCStringRegion>(
Str, cast<GlobalInternalSpaceRegion>(getGlobalsRegion()));
}
/// Look through a chain of LocationContexts to either find the
/// StackFrameContext that matches a DeclContext, or find a VarRegion
/// for a variable captured by a block.
static llvm::PointerUnion<const StackFrameContext *, const VarRegion *>
getStackOrCaptureRegionForDeclContext(const LocationContext *LC,
const DeclContext *DC,
const VarDecl *VD) {
while (LC) {
if (const auto *SFC = dyn_cast<StackFrameContext>(LC)) {
if (cast<DeclContext>(SFC->getDecl()) == DC)
return SFC;
}
if (const auto *BC = dyn_cast<BlockInvocationContext>(LC)) {
const auto *BR = static_cast<const BlockDataRegion *>(BC->getData());
// FIXME: This can be made more efficient.
for (BlockDataRegion::referenced_vars_iterator
I = BR->referenced_vars_begin(),
E = BR->referenced_vars_end(); I != E; ++I) {
const TypedValueRegion *OrigR = I.getOriginalRegion();
if (const auto *VR = dyn_cast<VarRegion>(OrigR)) {
if (VR->getDecl() == VD)
return cast<VarRegion>(I.getCapturedRegion());
}
}
}
LC = LC->getParent();
}
return (const StackFrameContext *)nullptr;
}
const VarRegion *MemRegionManager::getVarRegion(const VarDecl *D,
const LocationContext *LC) {
const auto *PVD = dyn_cast<ParmVarDecl>(D);
if (PVD) {
unsigned Index = PVD->getFunctionScopeIndex();
const StackFrameContext *SFC = LC->getStackFrame();
const Stmt *CallSite = SFC->getCallSite();
if (CallSite) {
const Decl *D = SFC->getDecl();
if (const auto *FD = dyn_cast<FunctionDecl>(D)) {
if (Index < FD->param_size() && FD->parameters()[Index] == PVD)
return getSubRegion<ParamVarRegion>(cast<Expr>(CallSite), Index,
getStackArgumentsRegion(SFC));
} else if (const auto *BD = dyn_cast<BlockDecl>(D)) {
if (Index < BD->param_size() && BD->parameters()[Index] == PVD)
return getSubRegion<ParamVarRegion>(cast<Expr>(CallSite), Index,
getStackArgumentsRegion(SFC));
} else {
return getSubRegion<ParamVarRegion>(cast<Expr>(CallSite), Index,
getStackArgumentsRegion(SFC));
}
}
}
D = D->getCanonicalDecl();
const MemRegion *sReg = nullptr;
if (D->hasGlobalStorage() && !D->isStaticLocal()) {
// First handle the globals defined in system headers.
if (Ctx.getSourceManager().isInSystemHeader(D->getLocation())) {
// Whitelist the system globals which often DO GET modified, assume the
// rest are immutable.
if (D->getName().find("errno") != StringRef::npos)
sReg = getGlobalsRegion(MemRegion::GlobalSystemSpaceRegionKind);
else
sReg = getGlobalsRegion(MemRegion::GlobalImmutableSpaceRegionKind);
// Treat other globals as GlobalInternal unless they are constants.
} else {
QualType GQT = D->getType();
const Type *GT = GQT.getTypePtrOrNull();
// TODO: We could walk the complex types here and see if everything is
// constified.
if (GT && GQT.isConstQualified() && GT->isArithmeticType())
sReg = getGlobalsRegion(MemRegion::GlobalImmutableSpaceRegionKind);
else
sReg = getGlobalsRegion();
}
// Finally handle static locals.
} else {
// FIXME: Once we implement scope handling, we will need to properly lookup
// 'D' to the proper LocationContext.
const DeclContext *DC = D->getDeclContext();
llvm::PointerUnion<const StackFrameContext *, const VarRegion *> V =
getStackOrCaptureRegionForDeclContext(LC, DC, D);
if (V.is<const VarRegion*>())
return V.get<const VarRegion*>();
const auto *STC = V.get<const StackFrameContext *>();
if (!STC) {
// FIXME: Assign a more sensible memory space to static locals
// we see from within blocks that we analyze as top-level declarations.
sReg = getUnknownRegion();
} else {
if (D->hasLocalStorage()) {
sReg = isa<ParmVarDecl>(D) || isa<ImplicitParamDecl>(D)
? static_cast<const MemRegion*>(getStackArgumentsRegion(STC))
: static_cast<const MemRegion*>(getStackLocalsRegion(STC));
}
else {
assert(D->isStaticLocal());
const Decl *STCD = STC->getDecl();
if (isa<FunctionDecl>(STCD) || isa<ObjCMethodDecl>(STCD))
sReg = getGlobalsRegion(MemRegion::StaticGlobalSpaceRegionKind,
getFunctionCodeRegion(cast<NamedDecl>(STCD)));
else if (const auto *BD = dyn_cast<BlockDecl>(STCD)) {
// FIXME: The fallback type here is totally bogus -- though it should
// never be queried, it will prevent uniquing with the real
// BlockCodeRegion. Ideally we'd fix the AST so that we always had a
// signature.
QualType T;
if (const TypeSourceInfo *TSI = BD->getSignatureAsWritten())
T = TSI->getType();
if (T.isNull())
T = getContext().VoidTy;
if (!T->getAs<FunctionType>())
T = getContext().getFunctionNoProtoType(T);
T = getContext().getBlockPointerType(T);
const BlockCodeRegion *BTR =
getBlockCodeRegion(BD, Ctx.getCanonicalType(T),
STC->getAnalysisDeclContext());
sReg = getGlobalsRegion(MemRegion::StaticGlobalSpaceRegionKind,
BTR);
}
else {
sReg = getGlobalsRegion();
}
}
}
}
return getSubRegion<NonParamVarRegion>(D, sReg);
}
const NonParamVarRegion *
MemRegionManager::getNonParamVarRegion(const VarDecl *D,
const MemRegion *superR) {
D = D->getCanonicalDecl();
return getSubRegion<NonParamVarRegion>(D, superR);
}
const ParamVarRegion *
MemRegionManager::getParamVarRegion(const Expr *OriginExpr, unsigned Index,
const LocationContext *LC) {
const StackFrameContext *SFC = LC->getStackFrame();
assert(SFC);
return getSubRegion<ParamVarRegion>(OriginExpr, Index,
getStackArgumentsRegion(SFC));
}
const BlockDataRegion *
MemRegionManager::getBlockDataRegion(const BlockCodeRegion *BC,
const LocationContext *LC,
unsigned blockCount) {
const MemSpaceRegion *sReg = nullptr;
const BlockDecl *BD = BC->getDecl();
if (!BD->hasCaptures()) {
// This handles 'static' blocks.
sReg = getGlobalsRegion(MemRegion::GlobalImmutableSpaceRegionKind);
}
else {
if (LC) {
// FIXME: Once we implement scope handling, we want the parent region
// to be the scope.
const StackFrameContext *STC = LC->getStackFrame();
assert(STC);
sReg = getStackLocalsRegion(STC);
}
else {
// We allow 'LC' to be NULL for cases where want BlockDataRegions
// without context-sensitivity.
sReg = getUnknownRegion();
}
}
return getSubRegion<BlockDataRegion>(BC, LC, blockCount, sReg);
}
const CXXTempObjectRegion *
MemRegionManager::getCXXStaticTempObjectRegion(const Expr *Ex) {
return getSubRegion<CXXTempObjectRegion>(
Ex, getGlobalsRegion(MemRegion::GlobalInternalSpaceRegionKind, nullptr));
}
const CompoundLiteralRegion*
MemRegionManager::getCompoundLiteralRegion(const CompoundLiteralExpr *CL,
const LocationContext *LC) {
const MemSpaceRegion *sReg = nullptr;
if (CL->isFileScope())
sReg = getGlobalsRegion();
else {
const StackFrameContext *STC = LC->getStackFrame();
assert(STC);
sReg = getStackLocalsRegion(STC);
}
return getSubRegion<CompoundLiteralRegion>(CL, sReg);
}
const ElementRegion*
MemRegionManager::getElementRegion(QualType elementType, NonLoc Idx,
const SubRegion* superRegion,
ASTContext &Ctx){
QualType T = Ctx.getCanonicalType(elementType).getUnqualifiedType();
llvm::FoldingSetNodeID ID;
ElementRegion::ProfileRegion(ID, T, Idx, superRegion);
void *InsertPos;
MemRegion* data = Regions.FindNodeOrInsertPos(ID, InsertPos);
auto *R = cast_or_null<ElementRegion>(data);
if (!R) {
R = A.Allocate<ElementRegion>();
new (R) ElementRegion(T, Idx, superRegion);
Regions.InsertNode(R, InsertPos);
}
return R;
}
const FunctionCodeRegion *
MemRegionManager::getFunctionCodeRegion(const NamedDecl *FD) {
// To think: should we canonicalize the declaration here?
return getSubRegion<FunctionCodeRegion>(FD, getCodeRegion());
}
const BlockCodeRegion *
MemRegionManager::getBlockCodeRegion(const BlockDecl *BD, CanQualType locTy,
AnalysisDeclContext *AC) {
return getSubRegion<BlockCodeRegion>(BD, locTy, AC, getCodeRegion());
}
/// getSymbolicRegion - Retrieve or create a "symbolic" memory region.
const SymbolicRegion *MemRegionManager::getSymbolicRegion(SymbolRef sym) {
return getSubRegion<SymbolicRegion>(sym, getUnknownRegion());
}
const SymbolicRegion *MemRegionManager::getSymbolicHeapRegion(SymbolRef Sym) {
return getSubRegion<SymbolicRegion>(Sym, getHeapRegion());
}
const FieldRegion*
MemRegionManager::getFieldRegion(const FieldDecl *d,
const SubRegion* superRegion){
return getSubRegion<FieldRegion>(d, superRegion);
}
const ObjCIvarRegion*
MemRegionManager::getObjCIvarRegion(const ObjCIvarDecl *d,
const SubRegion* superRegion) {
return getSubRegion<ObjCIvarRegion>(d, superRegion);
}
const CXXTempObjectRegion*
MemRegionManager::getCXXTempObjectRegion(Expr const *E,
LocationContext const *LC) {
const StackFrameContext *SFC = LC->getStackFrame();
assert(SFC);
return getSubRegion<CXXTempObjectRegion>(E, getStackLocalsRegion(SFC));
}
/// Checks whether \p BaseClass is a valid virtual or direct non-virtual base
/// class of the type of \p Super.
static bool isValidBaseClass(const CXXRecordDecl *BaseClass,
const TypedValueRegion *Super,
bool IsVirtual) {
BaseClass = BaseClass->getCanonicalDecl();
const CXXRecordDecl *Class = Super->getValueType()->getAsCXXRecordDecl();
if (!Class)
return true;
if (IsVirtual)
return Class->isVirtuallyDerivedFrom(BaseClass);
for (const auto &I : Class->bases()) {
if (I.getType()->getAsCXXRecordDecl()->getCanonicalDecl() == BaseClass)
return true;
}
return false;
}
const CXXBaseObjectRegion *
MemRegionManager::getCXXBaseObjectRegion(const CXXRecordDecl *RD,
const SubRegion *Super,
bool IsVirtual) {
if (isa<TypedValueRegion>(Super)) {
assert(isValidBaseClass(RD, cast<TypedValueRegion>(Super), IsVirtual));
(void)&isValidBaseClass;
if (IsVirtual) {
// Virtual base regions should not be layered, since the layout rules
// are different.
while (const auto *Base = dyn_cast<CXXBaseObjectRegion>(Super))
Super = cast<SubRegion>(Base->getSuperRegion());
assert(Super && !isa<MemSpaceRegion>(Super));
}
}
return getSubRegion<CXXBaseObjectRegion>(RD, IsVirtual, Super);
}
const CXXDerivedObjectRegion *
MemRegionManager::getCXXDerivedObjectRegion(const CXXRecordDecl *RD,
const SubRegion *Super) {
return getSubRegion<CXXDerivedObjectRegion>(RD, Super);
}
const CXXThisRegion*
MemRegionManager::getCXXThisRegion(QualType thisPointerTy,
const LocationContext *LC) {
const auto *PT = thisPointerTy->getAs<PointerType>();
assert(PT);
// Inside the body of the operator() of a lambda a this expr might refer to an
// object in one of the parent location contexts.
const auto *D = dyn_cast<CXXMethodDecl>(LC->getDecl());
// FIXME: when operator() of lambda is analyzed as a top level function and
// 'this' refers to a this to the enclosing scope, there is no right region to
// return.
while (!LC->inTopFrame() && (!D || D->isStatic() ||
PT != D->getThisType()->getAs<PointerType>())) {
LC = LC->getParent();
D = dyn_cast<CXXMethodDecl>(LC->getDecl());
}
const StackFrameContext *STC = LC->getStackFrame();
assert(STC);
return getSubRegion<CXXThisRegion>(PT, getStackArgumentsRegion(STC));
}
const AllocaRegion*
MemRegionManager::getAllocaRegion(const Expr *E, unsigned cnt,
const LocationContext *LC) {
const StackFrameContext *STC = LC->getStackFrame();
assert(STC);
return getSubRegion<AllocaRegion>(E, cnt, getStackLocalsRegion(STC));
}
const MemSpaceRegion *MemRegion::getMemorySpace() const {
const MemRegion *R = this;
const auto *SR = dyn_cast<SubRegion>(this);
while (SR) {
R = SR->getSuperRegion();
SR = dyn_cast<SubRegion>(R);
}
return dyn_cast<MemSpaceRegion>(R);
}
bool MemRegion::hasStackStorage() const {
return isa<StackSpaceRegion>(getMemorySpace());
}
bool MemRegion::hasStackNonParametersStorage() const {
return isa<StackLocalsSpaceRegion>(getMemorySpace());
}
bool MemRegion::hasStackParametersStorage() const {
return isa<StackArgumentsSpaceRegion>(getMemorySpace());
}
bool MemRegion::hasGlobalsOrParametersStorage() const {
const MemSpaceRegion *MS = getMemorySpace();
return isa<StackArgumentsSpaceRegion>(MS) ||
isa<GlobalsSpaceRegion>(MS);
}
// getBaseRegion strips away all elements and fields, and get the base region
// of them.
const MemRegion *MemRegion::getBaseRegion() const {
const MemRegion *R = this;
while (true) {
switch (R->getKind()) {
case MemRegion::ElementRegionKind:
case MemRegion::FieldRegionKind:
case MemRegion::ObjCIvarRegionKind:
case MemRegion::CXXBaseObjectRegionKind:
case MemRegion::CXXDerivedObjectRegionKind:
R = cast<SubRegion>(R)->getSuperRegion();
continue;
default:
break;
}
break;
}
return R;
}
// getgetMostDerivedObjectRegion gets the region of the root class of a C++
// class hierarchy.
const MemRegion *MemRegion::getMostDerivedObjectRegion() const {
const MemRegion *R = this;
while (const auto *BR = dyn_cast<CXXBaseObjectRegion>(R))
R = BR->getSuperRegion();
return R;
}
bool MemRegion::isSubRegionOf(const MemRegion *) const {
return false;
}
//===----------------------------------------------------------------------===//
// View handling.
//===----------------------------------------------------------------------===//
const MemRegion *MemRegion::StripCasts(bool StripBaseAndDerivedCasts) const {
const MemRegion *R = this;
while (true) {
switch (R->getKind()) {
case ElementRegionKind: {
const auto *ER = cast<ElementRegion>(R);
if (!ER->getIndex().isZeroConstant())
return R;
R = ER->getSuperRegion();
break;
}
case CXXBaseObjectRegionKind:
case CXXDerivedObjectRegionKind:
if (!StripBaseAndDerivedCasts)
return R;
R = cast<TypedValueRegion>(R)->getSuperRegion();
break;
default:
return R;
}
}
}
const SymbolicRegion *MemRegion::getSymbolicBase() const {
const auto *SubR = dyn_cast<SubRegion>(this);
while (SubR) {
if (const auto *SymR = dyn_cast<SymbolicRegion>(SubR))
return SymR;
SubR = dyn_cast<SubRegion>(SubR->getSuperRegion());
}
return nullptr;
}
RegionRawOffset ElementRegion::getAsArrayOffset() const {
int64_t offset = 0;
const ElementRegion *ER = this;
const MemRegion *superR = nullptr;
ASTContext &C = getContext();
// FIXME: Handle multi-dimensional arrays.
while (ER) {
superR = ER->getSuperRegion();
// FIXME: generalize to symbolic offsets.
SVal index = ER->getIndex();
if (auto CI = index.getAs<nonloc::ConcreteInt>()) {
// Update the offset.
int64_t i = CI->getValue().getSExtValue();
if (i != 0) {
QualType elemType = ER->getElementType();
// If we are pointing to an incomplete type, go no further.
if (elemType->isIncompleteType()) {
superR = ER;
break;
}
int64_t size = C.getTypeSizeInChars(elemType).getQuantity();
if (auto NewOffset = llvm::checkedMulAdd(i, size, offset)) {
offset = *NewOffset;
} else {
LLVM_DEBUG(llvm::dbgs() << "MemRegion::getAsArrayOffset: "
<< "offset overflowing, returning unknown\n");
return nullptr;
}
}
// Go to the next ElementRegion (if any).
ER = dyn_cast<ElementRegion>(superR);
continue;
}
return nullptr;
}
assert(superR && "super region cannot be NULL");
return RegionRawOffset(superR, CharUnits::fromQuantity(offset));
}
/// Returns true if \p Base is an immediate base class of \p Child
static bool isImmediateBase(const CXXRecordDecl *Child,
const CXXRecordDecl *Base) {
assert(Child && "Child must not be null");
// Note that we do NOT canonicalize the base class here, because
// ASTRecordLayout doesn't either. If that leads us down the wrong path,
// so be it; at least we won't crash.
for (const auto &I : Child->bases()) {
if (I.getType()->getAsCXXRecordDecl() == Base)
return true;
}
return false;
}
static RegionOffset calculateOffset(const MemRegion *R) {
const MemRegion *SymbolicOffsetBase = nullptr;
int64_t Offset = 0;
while (true) {
switch (R->getKind()) {
case MemRegion::CodeSpaceRegionKind:
case MemRegion::StackLocalsSpaceRegionKind:
case MemRegion::StackArgumentsSpaceRegionKind:
case MemRegion::HeapSpaceRegionKind:
case MemRegion::UnknownSpaceRegionKind:
case MemRegion::StaticGlobalSpaceRegionKind:
case MemRegion::GlobalInternalSpaceRegionKind:
case MemRegion::GlobalSystemSpaceRegionKind:
case MemRegion::GlobalImmutableSpaceRegionKind:
// Stores can bind directly to a region space to set a default value.
assert(Offset == 0 && !SymbolicOffsetBase);
goto Finish;
case MemRegion::FunctionCodeRegionKind:
case MemRegion::BlockCodeRegionKind:
case MemRegion::BlockDataRegionKind:
// These will never have bindings, but may end up having values requested
// if the user does some strange casting.
if (Offset != 0)
SymbolicOffsetBase = R;
goto Finish;
case MemRegion::SymbolicRegionKind:
case MemRegion::AllocaRegionKind:
case MemRegion::CompoundLiteralRegionKind:
case MemRegion::CXXThisRegionKind:
case MemRegion::StringRegionKind:
case MemRegion::ObjCStringRegionKind:
case MemRegion::NonParamVarRegionKind:
case MemRegion::ParamVarRegionKind:
case MemRegion::CXXTempObjectRegionKind:
// Usual base regions.
goto Finish;
case MemRegion::ObjCIvarRegionKind:
// This is a little strange, but it's a compromise between
// ObjCIvarRegions having unknown compile-time offsets (when using the
// non-fragile runtime) and yet still being distinct, non-overlapping
// regions. Thus we treat them as "like" base regions for the purposes
// of computing offsets.
goto Finish;
case MemRegion::CXXBaseObjectRegionKind: {
const auto *BOR = cast<CXXBaseObjectRegion>(R);
R = BOR->getSuperRegion();
QualType Ty;
bool RootIsSymbolic = false;
if (const auto *TVR = dyn_cast<TypedValueRegion>(R)) {
Ty = TVR->getDesugaredValueType(R->getContext());
} else if (const auto *SR = dyn_cast<SymbolicRegion>(R)) {
// If our base region is symbolic, we don't know what type it really is.
// Pretend the type of the symbol is the true dynamic type.
// (This will at least be self-consistent for the life of the symbol.)
Ty = SR->getSymbol()->getType()->getPointeeType();
RootIsSymbolic = true;
}
const CXXRecordDecl *Child = Ty->getAsCXXRecordDecl();
if (!Child) {
// We cannot compute the offset of the base class.
SymbolicOffsetBase = R;
} else {
if (RootIsSymbolic) {
// Base layers on symbolic regions may not be type-correct.
// Double-check the inheritance here, and revert to a symbolic offset
// if it's invalid (e.g. due to a reinterpret_cast).
if (BOR->isVirtual()) {
if (!Child->isVirtuallyDerivedFrom(BOR->getDecl()))
SymbolicOffsetBase = R;
} else {
if (!isImmediateBase(Child, BOR->getDecl()))
SymbolicOffsetBase = R;
}
}
}
// Don't bother calculating precise offsets if we already have a
// symbolic offset somewhere in the chain.
if (SymbolicOffsetBase)
continue;
CharUnits BaseOffset;
const ASTRecordLayout &Layout = R->getContext().getASTRecordLayout(Child);
if (BOR->isVirtual())
BaseOffset = Layout.getVBaseClassOffset(BOR->getDecl());
else
BaseOffset = Layout.getBaseClassOffset(BOR->getDecl());
// The base offset is in chars, not in bits.
Offset += BaseOffset.getQuantity() * R->getContext().getCharWidth();
break;
}
case MemRegion::CXXDerivedObjectRegionKind: {
// TODO: Store the base type in the CXXDerivedObjectRegion and use it.
goto Finish;
}
case MemRegion::ElementRegionKind: {
const auto *ER = cast<ElementRegion>(R);
R = ER->getSuperRegion();
QualType EleTy = ER->getValueType();
if (EleTy->isIncompleteType()) {
// We cannot compute the offset of the base class.
SymbolicOffsetBase = R;
continue;
}
SVal Index = ER->getIndex();
if (Optional<nonloc::ConcreteInt> CI =
Index.getAs<nonloc::ConcreteInt>()) {
// Don't bother calculating precise offsets if we already have a
// symbolic offset somewhere in the chain.
if (SymbolicOffsetBase)
continue;
int64_t i = CI->getValue().getSExtValue();
// This type size is in bits.
Offset += i * R->getContext().getTypeSize(EleTy);
} else {
// We cannot compute offset for non-concrete index.
SymbolicOffsetBase = R;
}
break;
}
case MemRegion::FieldRegionKind: {
const auto *FR = cast<FieldRegion>(R);
R = FR->getSuperRegion();
assert(R);
const RecordDecl *RD = FR->getDecl()->getParent();
if (RD->isUnion() || !RD->isCompleteDefinition()) {
// We cannot compute offset for incomplete type.
// For unions, we could treat everything as offset 0, but we'd rather
// treat each field as a symbolic offset so they aren't stored on top
// of each other, since we depend on things in typed regions actually
// matching their types.
SymbolicOffsetBase = R;
}
// Don't bother calculating precise offsets if we already have a
// symbolic offset somewhere in the chain.
if (SymbolicOffsetBase)
continue;
// Get the field number.
unsigned idx = 0;
for (RecordDecl::field_iterator FI = RD->field_begin(),
FE = RD->field_end(); FI != FE; ++FI, ++idx) {
if (FR->getDecl() == *FI)
break;
}
const ASTRecordLayout &Layout = R->getContext().getASTRecordLayout(RD);
// This is offset in bits.
Offset += Layout.getFieldOffset(idx);
break;
}
}
}
Finish:
if (SymbolicOffsetBase)
return RegionOffset(SymbolicOffsetBase, RegionOffset::Symbolic);
return RegionOffset(R, Offset);
}
RegionOffset MemRegion::getAsOffset() const {
if (!cachedOffset)
cachedOffset = calculateOffset(this);
return *cachedOffset;
}
//===----------------------------------------------------------------------===//
// BlockDataRegion
//===----------------------------------------------------------------------===//
std::pair<const VarRegion *, const VarRegion *>
BlockDataRegion::getCaptureRegions(const VarDecl *VD) {
MemRegionManager &MemMgr = getMemRegionManager();
const VarRegion *VR = nullptr;
const VarRegion *OriginalVR = nullptr;
if (!VD->hasAttr<BlocksAttr>() && VD->hasLocalStorage()) {
VR = MemMgr.getNonParamVarRegion(VD, this);
OriginalVR = MemMgr.getVarRegion(VD, LC);
}
else {
if (LC) {
VR = MemMgr.getVarRegion(VD, LC);
OriginalVR = VR;
}
else {
VR = MemMgr.getNonParamVarRegion(VD, MemMgr.getUnknownRegion());
OriginalVR = MemMgr.getVarRegion(VD, LC);
}
}
return std::make_pair(VR, OriginalVR);
}
void BlockDataRegion::LazyInitializeReferencedVars() {
if (ReferencedVars)
return;
AnalysisDeclContext *AC = getCodeRegion()->getAnalysisDeclContext();
const auto &ReferencedBlockVars = AC->getReferencedBlockVars(BC->getDecl());
auto NumBlockVars =
std::distance(ReferencedBlockVars.begin(), ReferencedBlockVars.end());
if (NumBlockVars == 0) {
ReferencedVars = (void*) 0x1;
return;
}
MemRegionManager &MemMgr = getMemRegionManager();
llvm::BumpPtrAllocator &A = MemMgr.getAllocator();
BumpVectorContext BC(A);
using VarVec = BumpVector<const MemRegion *>;
auto *BV = A.Allocate<VarVec>();
new (BV) VarVec(BC, NumBlockVars);
auto *BVOriginal = A.Allocate<VarVec>();
new (BVOriginal) VarVec(BC, NumBlockVars);
for (const auto *VD : ReferencedBlockVars) {
const VarRegion *VR = nullptr;
const VarRegion *OriginalVR = nullptr;
std::tie(VR, OriginalVR) = getCaptureRegions(VD);
assert(VR);
assert(OriginalVR);
BV->push_back(VR, BC);
BVOriginal->push_back(OriginalVR, BC);
}
ReferencedVars = BV;
OriginalVars = BVOriginal;
}
BlockDataRegion::referenced_vars_iterator
BlockDataRegion::referenced_vars_begin() const {
const_cast<BlockDataRegion*>(this)->LazyInitializeReferencedVars();
auto *Vec = static_cast<BumpVector<const MemRegion *> *>(ReferencedVars);
if (Vec == (void*) 0x1)
return BlockDataRegion::referenced_vars_iterator(nullptr, nullptr);
auto *VecOriginal =
static_cast<BumpVector<const MemRegion *> *>(OriginalVars);
return BlockDataRegion::referenced_vars_iterator(Vec->begin(),
VecOriginal->begin());
}
BlockDataRegion::referenced_vars_iterator
BlockDataRegion::referenced_vars_end() const {
const_cast<BlockDataRegion*>(this)->LazyInitializeReferencedVars();
auto *Vec = static_cast<BumpVector<const MemRegion *> *>(ReferencedVars);
if (Vec == (void*) 0x1)
return BlockDataRegion::referenced_vars_iterator(nullptr, nullptr);
auto *VecOriginal =
static_cast<BumpVector<const MemRegion *> *>(OriginalVars);
return BlockDataRegion::referenced_vars_iterator(Vec->end(),
VecOriginal->end());
}
const VarRegion *BlockDataRegion::getOriginalRegion(const VarRegion *R) const {
for (referenced_vars_iterator I = referenced_vars_begin(),
E = referenced_vars_end();
I != E; ++I) {
if (I.getCapturedRegion() == R)
return I.getOriginalRegion();
}
return nullptr;
}
//===----------------------------------------------------------------------===//
// RegionAndSymbolInvalidationTraits
//===----------------------------------------------------------------------===//
void RegionAndSymbolInvalidationTraits::setTrait(SymbolRef Sym,
InvalidationKinds IK) {
SymTraitsMap[Sym] |= IK;
}
void RegionAndSymbolInvalidationTraits::setTrait(const MemRegion *MR,
InvalidationKinds IK) {
assert(MR);
if (const auto *SR = dyn_cast<SymbolicRegion>(MR))
setTrait(SR->getSymbol(), IK);
else
MRTraitsMap[MR] |= IK;
}
bool RegionAndSymbolInvalidationTraits::hasTrait(SymbolRef Sym,
InvalidationKinds IK) const {
const_symbol_iterator I = SymTraitsMap.find(Sym);
if (I != SymTraitsMap.end())
return I->second & IK;
return false;
}
bool RegionAndSymbolInvalidationTraits::hasTrait(const MemRegion *MR,
InvalidationKinds IK) const {
if (!MR)
return false;
if (const auto *SR = dyn_cast<SymbolicRegion>(MR))
return hasTrait(SR->getSymbol(), IK);
const_region_iterator I = MRTraitsMap.find(MR);
if (I != MRTraitsMap.end())
return I->second & IK;
return false;
}