RegionStore.cpp

//== RegionStore.cpp - Field-sensitive store model --------------*- C++ -*--==//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines a basic region store model. In this model, we do have field
// sensitivity. But we assume nothing about the heap shape. So recursive data
// structures are largely ignored. Basically we do 1-limiting analysis.
// Parameter pointers are assumed with no aliasing. Pointee objects of
// parameters are created lazily.
//
//===----------------------------------------------------------------------===//
#include "clang/Analysis/PathSensitive/MemRegion.h"
#include "clang/Analysis/PathSensitive/GRState.h"
#include "clang/Analysis/Analyses/LiveVariables.h"

#include "llvm/ADT/ImmutableMap.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/Support/Compiler.h"

using namespace clang;

typedef llvm::ImmutableMap<const MemRegion*, SVal> RegionBindingsTy;

namespace {

class VISIBILITY_HIDDEN RegionStoreManager : public StoreManager {
  RegionBindingsTy::Factory RBFactory;
  GRStateManager& StateMgr;
  MemRegionManager MRMgr;

public:
  RegionStoreManager(GRStateManager& mgr) 
    : StateMgr(mgr), MRMgr(StateMgr.getAllocator()) {}

  virtual ~RegionStoreManager() {}

  MemRegionManager& getRegionManager() { return MRMgr; }

  // FIXME: Is this function necessary?
  SVal GetRegionSVal(Store St, const MemRegion* R) {
    return Retrieve(St, loc::MemRegionVal(R));
  }

  SVal getLValueVar(const GRState* St, const VarDecl* VD);
  
  SVal getLValueIvar(const GRState* St, const ObjCIvarDecl* D, SVal Base);

  SVal getLValueField(const GRState* St, SVal Base, const FieldDecl* D);

  SVal getLValueElement(const GRState* St, SVal Base, SVal Offset);

  SVal ArrayToPointer(SVal Array);

  SVal Retrieve(Store S, Loc L, QualType T = QualType());

  Store Bind(Store St, Loc LV, SVal V);

  Store Remove(Store store, Loc LV) {
    // FIXME: Implement.
    return store;
  }

  Store getInitialStore();

  Store RemoveDeadBindings(Store store, Stmt* Loc, const LiveVariables& Live,
                           llvm::SmallVectorImpl<const MemRegion*>& RegionRoots,
                           LiveSymbolsTy& LSymbols, DeadSymbolsTy& DSymbols) {
    // FIXME: Implement this.
    return store;
  }

  Store AddDecl(Store store, const VarDecl* VD, Expr* Ex, SVal InitVal, 
                unsigned Count);

  Loc getVarLoc(const VarDecl* VD) {
    return loc::MemRegionVal(MRMgr.getVarRegion(VD));
  }

  Loc getElementLoc(const VarDecl* VD, SVal Idx);

  static inline RegionBindingsTy GetRegionBindings(Store store) {
   return RegionBindingsTy(static_cast<const RegionBindingsTy::TreeTy*>(store));
  }

  void print(Store store, std::ostream& Out, const char* nl, const char *sep);

  void iterBindings(Store store, BindingsHandler& f) {
    // FIXME: Implement.
  }
};

} // end anonymous namespace

StoreManager* clang::CreateRegionStoreManager(GRStateManager& StMgr) {
  return new RegionStoreManager(StMgr);
}

Loc RegionStoreManager::getElementLoc(const VarDecl* VD, SVal Idx) {
  MemRegion* R = MRMgr.getVarRegion(VD);
  ElementRegion* ER = MRMgr.getElementRegion(Idx, R);
  return loc::MemRegionVal(ER);
}

SVal RegionStoreManager::getLValueVar(const GRState* St, const VarDecl* VD) {
  return loc::MemRegionVal(MRMgr.getVarRegion(VD));
}
  
SVal RegionStoreManager::getLValueIvar(const GRState* St, const ObjCIvarDecl* D,
                                       SVal Base) {
  return UnknownVal();
}

SVal RegionStoreManager::getLValueField(const GRState* St, SVal Base,
                                        const FieldDecl* D) {
  if (Base.isUnknownOrUndef())
    return Base;

  Loc BaseL = cast<Loc>(Base);
  const MemRegion* BaseR = 0;

  switch (BaseL.getSubKind()) {
  case loc::MemRegionKind:
    BaseR = cast<loc::MemRegionVal>(BaseL).getRegion();
    break;

  case loc::SymbolValKind:
    BaseR = MRMgr.getSymbolicRegion(cast<loc::SymbolVal>(&BaseL)->getSymbol());
    break;
  
  case loc::GotoLabelKind:
  case loc::FuncValKind:
    // These are anormal cases. Flag an undefined value.
    return UndefinedVal();

  case loc::ConcreteIntKind:
  case loc::StringLiteralValKind:
    // While these seem funny, this can happen through casts.
    // FIXME: What we should return is the field offset.  For example,
    //  add the field offset to the integer value.  That way funny things
    //  like this work properly:  &(((struct foo *) 0xa)->f)
    return Base;

  default:
    assert("Unhandled Base.");
    return Base;
  }

  return loc::MemRegionVal(MRMgr.getFieldRegion(D, BaseR));
}

SVal RegionStoreManager::getLValueElement(const GRState* St, 
                                          SVal Base, SVal Offset) {
  if (Base.isUnknownOrUndef())
    return Base;

  loc::MemRegionVal& BaseL = cast<loc::MemRegionVal>(Base);

  // We expect BaseR is an ElementRegion, not a base VarRegion.

  const ElementRegion* ElemR = cast<ElementRegion>(BaseL.getRegion());

  SVal Idx = ElemR->getIndex();

  nonloc::ConcreteInt *CI1, *CI2;

  // Only handle integer indices for now.
  if ((CI1 = dyn_cast<nonloc::ConcreteInt>(&Idx)) &&
      (CI2 = dyn_cast<nonloc::ConcreteInt>(&Offset))) {
    SVal NewIdx = CI1->EvalBinOp(StateMgr.getBasicVals(), BinaryOperator::Add,
                                 *CI2);
    return loc::MemRegionVal(MRMgr.getElementRegion(NewIdx, 
                                                    ElemR->getSuperRegion()));
  }

  return UnknownVal();
}

// Cast 'pointer to array' to 'pointer to the first element of array'.

SVal RegionStoreManager::ArrayToPointer(SVal Array) {
  const MemRegion* ArrayR = cast<loc::MemRegionVal>(&Array)->getRegion();

  const VarDecl* D = cast<VarRegion>(ArrayR)->getDecl();

  if (const ConstantArrayType* CAT = 
      dyn_cast<ConstantArrayType>(D->getType().getTypePtr())) {

    BasicValueFactory& BasicVals = StateMgr.getBasicVals();
    
    nonloc::ConcreteInt Idx(BasicVals.getValue(0, CAT->getSize().getBitWidth(),
                                               false));

    ElementRegion* ER = MRMgr.getElementRegion(Idx, ArrayR);
    
    return loc::MemRegionVal(ER);
  }

  return Array;
}

SVal RegionStoreManager::Retrieve(Store S, Loc L, QualType T) {
  assert(!isa<UnknownVal>(L) && "location unknown");
  assert(!isa<UndefinedVal>(L) && "location undefined");

  switch (L.getSubKind()) {
  case loc::MemRegionKind: {
    const MemRegion* R = cast<loc::MemRegionVal>(L).getRegion();
    assert(R && "bad region");

    RegionBindingsTy B(static_cast<const RegionBindingsTy::TreeTy*>(S));
    RegionBindingsTy::data_type* V = B.lookup(R);
    return V ? *V : UnknownVal();
  }

  case loc::SymbolValKind:
    return UnknownVal();

  case loc::ConcreteIntKind:
    return UndefinedVal(); // As in BasicStoreManager.

  case loc::FuncValKind:
    return L;

  case loc::StringLiteralValKind:
    return UnknownVal();

  default:
    assert(false && "Invalid Location");
    break;
  }
}

Store RegionStoreManager::Bind(Store store, Loc LV, SVal V) {
  assert(LV.getSubKind() == loc::MemRegionKind);

  const MemRegion* R = cast<loc::MemRegionVal>(LV).getRegion();
  
  if (!R)
    return store;

  RegionBindingsTy B = GetRegionBindings(store);
  return V.isUnknown()
         ? RBFactory.Remove(B, R).getRoot()
         : RBFactory.Add(B, R, V).getRoot();
}

Store RegionStoreManager::getInitialStore() {
  typedef LiveVariables::AnalysisDataTy LVDataTy;
  LVDataTy& D = StateMgr.getLiveVariables().getAnalysisData();

  Store St = RBFactory.GetEmptyMap().getRoot();

  for (LVDataTy::decl_iterator I=D.begin_decl(), E=D.end_decl(); I != E; ++I) {
    NamedDecl* ND = const_cast<NamedDecl*>(I->first);

    if (VarDecl* VD = dyn_cast<VarDecl>(ND)) {
      // Punt on static variables for now.
      if (VD->getStorageClass() == VarDecl::Static)
        continue;

      QualType T = VD->getType();
      // Only handle pointers and integers for now.
      if (Loc::IsLocType(T) || T->isIntegerType()) {
        // Initialize globals and parameters to symbolic values.
        // Initialize local variables to undefined.
        SVal X = (VD->hasGlobalStorage() || isa<ParmVarDecl>(VD) ||
                  isa<ImplicitParamDecl>(VD))
                 ? SVal::GetSymbolValue(StateMgr.getSymbolManager(), VD)
                 : UndefinedVal();

        St = Bind(St, getVarLoc(VD), X);
      }
    }
  }
  return St;
}

Store RegionStoreManager::AddDecl(Store store,
                                  const VarDecl* VD, Expr* Ex,
                                  SVal InitVal, unsigned Count) {
  BasicValueFactory& BasicVals = StateMgr.getBasicVals();
  SymbolManager& SymMgr = StateMgr.getSymbolManager();

  if (VD->hasGlobalStorage()) {
    // Static global variables should not be visited here.
    assert(!(VD->getStorageClass() == VarDecl::Static &&
             VD->isFileVarDecl()));
    // Process static variables.
    if (VD->getStorageClass() == VarDecl::Static) {
      if (!Ex) {
        // Only handle pointer and integer static variables.

        QualType T = VD->getType();

        if (Loc::IsLocType(T))
          store = Bind(store, getVarLoc(VD),
                       loc::ConcreteInt(BasicVals.getValue(0, T)));

        else if (T->isIntegerType())
          store = Bind(store, getVarLoc(VD),
                       loc::ConcreteInt(BasicVals.getValue(0, T)));
        else
          assert("ignore other types of variables");
      } else {
        store = Bind(store, getVarLoc(VD), InitVal);
      }
    }
  } else {
    // Process local variables.

    QualType T = VD->getType();

    if (Loc::IsLocType(T) || T->isIntegerType()) {
      SVal V = Ex ? InitVal : UndefinedVal();
      if (Ex && InitVal.isUnknown()) {
        // "Conjured" symbols.
        SymbolID Sym = SymMgr.getConjuredSymbol(Ex, Count);
        V = Loc::IsLocType(Ex->getType())
          ? cast<SVal>(loc::SymbolVal(Sym))
          : cast<SVal>(nonloc::SymbolVal(Sym));
      }
      store = Bind(store, getVarLoc(VD), V);

    } else if (T->isArrayType()) {
      // Only handle constant size array.
      if (ConstantArrayType* CAT=dyn_cast<ConstantArrayType>(T.getTypePtr())) {

        llvm::APInt Size = CAT->getSize();

        for (llvm::APInt i = llvm::APInt::getNullValue(Size.getBitWidth());
             i != Size; ++i) {
          nonloc::ConcreteInt Idx(BasicVals.getValue(llvm::APSInt(i)));
          store = Bind(store, getElementLoc(VD, Idx), UndefinedVal());
        }
      }
    } else if (T->isStructureType()) {
      // FIXME: Implement struct initialization.
    }
  }
  return store;
}

void RegionStoreManager::print(Store store, std::ostream& Out, 
                               const char* nl, const char *sep) {
  llvm::raw_os_ostream OS(Out);
  RegionBindingsTy B = GetRegionBindings(store);
  OS << "Store:" << nl;

  for (RegionBindingsTy::iterator I = B.begin(), E = B.end(); I != E; ++I) {
    OS << ' '; I.getKey()->print(OS); OS << " : ";
    I.getData().print(OS); OS << nl;
  }
}