path: root/lib/StaticAnalyzer/Core/ExprEngineCXX.cpp

//===- ExprEngineCXX.cpp - ExprEngine support for C++ -----------*- 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 the C++ expression evaluation engine.
//
//===----------------------------------------------------------------------===//

#include "clang/StaticAnalyzer/Core/PathSensitive/ExprEngine.h"
#include "clang/AST/DeclCXX.h"
#include "clang/AST/StmtCXX.h"
#include "clang/Basic/PrettyStackTrace.h"
#include "clang/StaticAnalyzer/Core/CheckerManager.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/AnalysisManager.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/CallEvent.h"

using namespace clang;
using namespace ento;

void ExprEngine::CreateCXXTemporaryObject(const MaterializeTemporaryExpr *ME,
                                          ExplodedNode *Pred,
                                          ExplodedNodeSet &Dst) {
  StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx);
  const Expr *tempExpr = ME->GetTemporaryExpr()->IgnoreParens();
  ProgramStateRef state = Pred->getState();
  const LocationContext *LCtx = Pred->getLocationContext();

  SVal V = state->getSVal(tempExpr, LCtx);

  // If the value is already a CXXTempObjectRegion, it is fine as it is.
  // Otherwise, create a new CXXTempObjectRegion, and copy the value into it.
  // This is an optimization for when an rvalue is constructed and then
  // immediately materialized.
  const MemRegion *MR = V.getAsRegion();
  if (const CXXTempObjectRegion *TR =
        dyn_cast_or_null<CXXTempObjectRegion>(MR)) {
    if (getContext().hasSameUnqualifiedType(TR->getValueType(), ME->getType()))
      state = state->BindExpr(ME, LCtx, V);
  }

  if (state == Pred->getState())
    state = createTemporaryRegionIfNeeded(state, LCtx, tempExpr, ME);
  Bldr.generateNode(ME, Pred, state);
}

// FIXME: This is the sort of code that should eventually live in a Core
// checker rather than as a special case in ExprEngine.
void ExprEngine::performTrivialCopy(NodeBuilder &Bldr, ExplodedNode *Pred,
                                    const CallEvent &Call) {
  SVal ThisVal;
  bool AlwaysReturnsLValue;
  if (const CXXConstructorCall *Ctor = dyn_cast<CXXConstructorCall>(&Call)) {
    assert(Ctor->getDecl()->isTrivial());
    assert(Ctor->getDecl()->isCopyOrMoveConstructor());
    ThisVal = Ctor->getCXXThisVal();
    AlwaysReturnsLValue = false;
  } else {
    assert(cast<CXXMethodDecl>(Call.getDecl())->isTrivial());
    assert(cast<CXXMethodDecl>(Call.getDecl())->getOverloadedOperator() ==
           OO_Equal);
    ThisVal = cast<CXXInstanceCall>(Call).getCXXThisVal();
    AlwaysReturnsLValue = true;
  }

  const LocationContext *LCtx = Pred->getLocationContext();

  ExplodedNodeSet Dst;
  Bldr.takeNodes(Pred);

  SVal V = Call.getArgSVal(0);

  // If the value being copied is not unknown, load from its location to get
  // an aggregate rvalue.
  if (Optional<Loc> L = V.getAs<Loc>())
    V = Pred->getState()->getSVal(*L);
  else
    assert(V.isUnknown());

  const Expr *CallExpr = Call.getOriginExpr();
  evalBind(Dst, CallExpr, Pred, ThisVal, V, true);

  PostStmt PS(CallExpr, LCtx);
  for (ExplodedNodeSet::iterator I = Dst.begin(), E = Dst.end();
       I != E; ++I) {
    ProgramStateRef State = (*I)->getState();
    if (AlwaysReturnsLValue)
      State = State->BindExpr(CallExpr, LCtx, ThisVal);
    else
      State = bindReturnValue(Call, LCtx, State);
    Bldr.generateNode(PS, State, *I);
  }
}


/// Returns a region representing the first element of a (possibly
/// multi-dimensional) array.
///
/// On return, \p Ty will be set to the base type of the array.
///
/// If the type is not an array type at all, the original value is returned.
static SVal makeZeroElementRegion(ProgramStateRef State, SVal LValue,
                                  QualType &Ty) {
  SValBuilder &SVB = State->getStateManager().getSValBuilder();
  ASTContext &Ctx = SVB.getContext();

  while (const ArrayType *AT = Ctx.getAsArrayType(Ty)) {
    Ty = AT->getElementType();
    LValue = State->getLValue(Ty, SVB.makeZeroArrayIndex(), LValue);
  }

  return LValue;
}

void ExprEngine::VisitCXXConstructExpr(const CXXConstructExpr *CE,
                                       ExplodedNode *Pred,
                                       ExplodedNodeSet &destNodes) {
  const LocationContext *LCtx = Pred->getLocationContext();
  ProgramStateRef State = Pred->getState();

  const MemRegion *Target = 0;

  // FIXME: Handle arrays, which run the same constructor for every element.
  // For now, we just run the first constructor (which should still invalidate
  // the entire array).

  switch (CE->getConstructionKind()) {
  case CXXConstructExpr::CK_Complete: {
    // See if we're constructing an existing region by looking at the next
    // element in the CFG.
    const CFGBlock *B = currBldrCtx->getBlock();
    if (currStmtIdx + 1 < B->size()) {
      CFGElement Next = (*B)[currStmtIdx+1];

      // Is this a constructor for a local variable?
      if (Optional<CFGStmt> StmtElem = Next.getAs<CFGStmt>()) {
        if (const DeclStmt *DS = dyn_cast<DeclStmt>(StmtElem->getStmt())) {
          if (const VarDecl *Var = dyn_cast<VarDecl>(DS->getSingleDecl())) {
            if (Var->getInit()->IgnoreImplicit() == CE) {
              SVal LValue = State->getLValue(Var, LCtx);
              QualType Ty = Var->getType();
              LValue = makeZeroElementRegion(State, LValue, Ty);
              Target = LValue.getAsRegion();
            }
          }
        }
      }
      
      // Is this a constructor for a member?
      if (Optional<CFGInitializer> InitElem = Next.getAs<CFGInitializer>()) {
        const CXXCtorInitializer *Init = InitElem->getInitializer();
        assert(Init->isAnyMemberInitializer());

        const CXXMethodDecl *CurCtor = cast<CXXMethodDecl>(LCtx->getDecl());
        Loc ThisPtr = getSValBuilder().getCXXThis(CurCtor,
                                                  LCtx->getCurrentStackFrame());
        SVal ThisVal = State->getSVal(ThisPtr);

        const ValueDecl *Field;
        SVal FieldVal;
        if (Init->isIndirectMemberInitializer()) {
          Field = Init->getIndirectMember();
          FieldVal = State->getLValue(Init->getIndirectMember(), ThisVal);
        } else {
          Field = Init->getMember();
          FieldVal = State->getLValue(Init->getMember(), ThisVal);
        }

        QualType Ty = Field->getType();
        FieldVal = makeZeroElementRegion(State, FieldVal, Ty);
        Target = FieldVal.getAsRegion();
      }

      // FIXME: This will eventually need to handle new-expressions as well.
    }

    // If we couldn't find an existing region to construct into, assume we're
    // constructing a temporary.
    if (!Target) {
      MemRegionManager &MRMgr = getSValBuilder().getRegionManager();
      Target = MRMgr.getCXXTempObjectRegion(CE, LCtx);
    }

    break;
  }
  case CXXConstructExpr::CK_NonVirtualBase:
  case CXXConstructExpr::CK_VirtualBase:
  case CXXConstructExpr::CK_Delegating: {
    const CXXMethodDecl *CurCtor = cast<CXXMethodDecl>(LCtx->getDecl());
    Loc ThisPtr = getSValBuilder().getCXXThis(CurCtor,
                                              LCtx->getCurrentStackFrame());
    SVal ThisVal = State->getSVal(ThisPtr);

    if (CE->getConstructionKind() == CXXConstructExpr::CK_Delegating) {
      Target = ThisVal.getAsRegion();
    } else {
      // Cast to the base type.
      bool IsVirtual =
        (CE->getConstructionKind() == CXXConstructExpr::CK_VirtualBase);
      SVal BaseVal = getStoreManager().evalDerivedToBase(ThisVal, CE->getType(),
                                                         IsVirtual);
      Target = BaseVal.getAsRegion();
    }
    break;
  }
  }

  CallEventManager &CEMgr = getStateManager().getCallEventManager();
  CallEventRef<CXXConstructorCall> Call =
    CEMgr.getCXXConstructorCall(CE, Target, State, LCtx);

  ExplodedNodeSet DstPreVisit;
  getCheckerManager().runCheckersForPreStmt(DstPreVisit, Pred, CE, *this);
  ExplodedNodeSet DstPreCall;
  getCheckerManager().runCheckersForPreCall(DstPreCall, DstPreVisit,
                                            *Call, *this);

  ExplodedNodeSet DstEvaluated;
  StmtNodeBuilder Bldr(DstPreCall, DstEvaluated, *currBldrCtx);

  bool IsArray = isa<ElementRegion>(Target);
  if (CE->getConstructor()->isTrivial() &&
      CE->getConstructor()->isCopyOrMoveConstructor() &&
      !IsArray) {
    // FIXME: Handle other kinds of trivial constructors as well.
    for (ExplodedNodeSet::iterator I = DstPreCall.begin(), E = DstPreCall.end();
         I != E; ++I)
      performTrivialCopy(Bldr, *I, *Call);

  } else {
    for (ExplodedNodeSet::iterator I = DstPreCall.begin(), E = DstPreCall.end();
         I != E; ++I)
      defaultEvalCall(Bldr, *I, *Call);
  }

  ExplodedNodeSet DstPostCall;
  getCheckerManager().runCheckersForPostCall(DstPostCall, DstEvaluated,
                                             *Call, *this);
  getCheckerManager().runCheckersForPostStmt(destNodes, DstPostCall, CE, *this);
}

void ExprEngine::VisitCXXDestructor(QualType ObjectType,
                                    const MemRegion *Dest,
                                    const Stmt *S,
                                    bool IsBaseDtor,
                                    ExplodedNode *Pred, 
                                    ExplodedNodeSet &Dst) {
  const LocationContext *LCtx = Pred->getLocationContext();
  ProgramStateRef State = Pred->getState();

  // FIXME: We need to run the same destructor on every element of the array.
  // This workaround will just run the first destructor (which will still
  // invalidate the entire array).
  SVal DestVal = loc::MemRegionVal(Dest);
  DestVal = makeZeroElementRegion(State, DestVal, ObjectType);
  Dest = DestVal.getAsRegion();

  const CXXRecordDecl *RecordDecl = ObjectType->getAsCXXRecordDecl();
  assert(RecordDecl && "Only CXXRecordDecls should have destructors");
  const CXXDestructorDecl *DtorDecl = RecordDecl->getDestructor();

  CallEventManager &CEMgr = getStateManager().getCallEventManager();
  CallEventRef<CXXDestructorCall> Call =
    CEMgr.getCXXDestructorCall(DtorDecl, S, Dest, IsBaseDtor, State, LCtx);

  PrettyStackTraceLoc CrashInfo(getContext().getSourceManager(),
                                Call->getSourceRange().getBegin(),
                                "Error evaluating destructor");

  ExplodedNodeSet DstPreCall;
  getCheckerManager().runCheckersForPreCall(DstPreCall, Pred,
                                            *Call, *this);

  ExplodedNodeSet DstInvalidated;
  StmtNodeBuilder Bldr(DstPreCall, DstInvalidated, *currBldrCtx);
  for (ExplodedNodeSet::iterator I = DstPreCall.begin(), E = DstPreCall.end();
       I != E; ++I)
    defaultEvalCall(Bldr, *I, *Call);

  ExplodedNodeSet DstPostCall;
  getCheckerManager().runCheckersForPostCall(Dst, DstInvalidated,
                                             *Call, *this);
}

void ExprEngine::VisitCXXNewExpr(const CXXNewExpr *CNE, ExplodedNode *Pred,
                                   ExplodedNodeSet &Dst) {
  // FIXME: Much of this should eventually migrate to CXXAllocatorCall.
  // Also, we need to decide how allocators actually work -- they're not
  // really part of the CXXNewExpr because they happen BEFORE the
  // CXXConstructExpr subexpression. See PR12014 for some discussion.
  
  unsigned blockCount = currBldrCtx->blockCount();
  const LocationContext *LCtx = Pred->getLocationContext();
  DefinedOrUnknownSVal symVal = UnknownVal();
  FunctionDecl *FD = CNE->getOperatorNew();

  bool IsStandardGlobalOpNewFunction = false;
  if (FD && !isa<CXXMethodDecl>(FD) && !FD->isVariadic()) {
    if (FD->getNumParams() == 2) {
      QualType T = FD->getParamDecl(1)->getType();
      if (const IdentifierInfo *II = T.getBaseTypeIdentifier())
        // NoThrow placement new behaves as a standard new.
        IsStandardGlobalOpNewFunction = II->getName().equals("nothrow_t");
    }
    else
      // Placement forms are considered non-standard.
      IsStandardGlobalOpNewFunction = (FD->getNumParams() == 1);
  }

  // We assume all standard global 'operator new' functions allocate memory in 
  // heap. We realize this is an approximation that might not correctly model 
  // a custom global allocator.
  if (IsStandardGlobalOpNewFunction)
    symVal = svalBuilder.getConjuredHeapSymbolVal(CNE, LCtx, blockCount);
  else
    symVal = svalBuilder.conjureSymbolVal(0, CNE, LCtx, CNE->getType(), 
                                          blockCount);

  ProgramStateRef State = Pred->getState();
  CallEventManager &CEMgr = getStateManager().getCallEventManager();
  CallEventRef<CXXAllocatorCall> Call =
    CEMgr.getCXXAllocatorCall(CNE, State, LCtx);

  // Invalidate placement args.
  // FIXME: Once we figure out how we want allocators to work,
  // we should be using the usual pre-/(default-)eval-/post-call checks here.
  State = Call->invalidateRegions(blockCount);
  if (!State)
    return;

  // If we're compiling with exceptions enabled, and this allocation function
  // is not declared as non-throwing, failures /must/ be signalled by
  // exceptions, and thus the return value will never be NULL.
  // C++11 [basic.stc.dynamic.allocation]p3.
  if (FD && getContext().getLangOpts().CXXExceptions) {
    QualType Ty = FD->getType();
    if (const FunctionProtoType *ProtoType = Ty->getAs<FunctionProtoType>())
      if (!ProtoType->isNothrow(getContext()))
        State = State->assume(symVal, true);
  }

  StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx);

  if (CNE->isArray()) {
    // FIXME: allocating an array requires simulating the constructors.
    // For now, just return a symbolicated region.
    const MemRegion *NewReg = symVal.castAs<loc::MemRegionVal>().getRegion();
    QualType ObjTy = CNE->getType()->getAs<PointerType>()->getPointeeType();
    const ElementRegion *EleReg =
      getStoreManager().GetElementZeroRegion(NewReg, ObjTy);
    State = State->BindExpr(CNE, Pred->getLocationContext(),
                            loc::MemRegionVal(EleReg));
    Bldr.generateNode(CNE, Pred, State);
    return;
  }

  // FIXME: Once we have proper support for CXXConstructExprs inside
  // CXXNewExpr, we need to make sure that the constructed object is not
  // immediately invalidated here. (The placement call should happen before
  // the constructor call anyway.)
  SVal Result = symVal;
  if (FD && FD->isReservedGlobalPlacementOperator()) {
    // Non-array placement new should always return the placement location.
    SVal PlacementLoc = State->getSVal(CNE->getPlacementArg(0), LCtx);
    Result = svalBuilder.evalCast(PlacementLoc, CNE->getType(),
                                  CNE->getPlacementArg(0)->getType());
  }

  // Bind the address of the object, then check to see if we cached out.
  State = State->BindExpr(CNE, LCtx, Result);
  ExplodedNode *NewN = Bldr.generateNode(CNE, Pred, State);
  if (!NewN)
    return;

  // If the type is not a record, we won't have a CXXConstructExpr as an
  // initializer. Copy the value over.
  if (const Expr *Init = CNE->getInitializer()) {
    if (!isa<CXXConstructExpr>(Init)) {
      assert(Bldr.getResults().size() == 1);
      Bldr.takeNodes(NewN);

      assert(!CNE->getType()->getPointeeCXXRecordDecl());
      evalBind(Dst, CNE, NewN, Result, State->getSVal(Init, LCtx),
               /*FirstInit=*/IsStandardGlobalOpNewFunction);
    }
  }
}

void ExprEngine::VisitCXXDeleteExpr(const CXXDeleteExpr *CDE, 
                                    ExplodedNode *Pred, ExplodedNodeSet &Dst) {
  StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx);
  ProgramStateRef state = Pred->getState();
  Bldr.generateNode(CDE, Pred, state);
}

void ExprEngine::VisitCXXCatchStmt(const CXXCatchStmt *CS,
                                   ExplodedNode *Pred,
                                   ExplodedNodeSet &Dst) {
  const VarDecl *VD = CS->getExceptionDecl();
  if (!VD) {
    Dst.Add(Pred);
    return;
  }

  const LocationContext *LCtx = Pred->getLocationContext();
  SVal V = svalBuilder.conjureSymbolVal(CS, LCtx, VD->getType(),
                                        currBldrCtx->blockCount());
  ProgramStateRef state = Pred->getState();
  state = state->bindLoc(state->getLValue(VD, LCtx), V);

  StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx);
  Bldr.generateNode(CS, Pred, state);
}

void ExprEngine::VisitCXXThisExpr(const CXXThisExpr *TE, ExplodedNode *Pred,
                                    ExplodedNodeSet &Dst) {
  StmtNodeBuilder Bldr(Pred, Dst, *currBldrCtx);

  // Get the this object region from StoreManager.
  const LocationContext *LCtx = Pred->getLocationContext();
  const MemRegion *R =
    svalBuilder.getRegionManager().getCXXThisRegion(
                                  getContext().getCanonicalType(TE->getType()),
                                                    LCtx);

  ProgramStateRef state = Pred->getState();
  SVal V = state->getSVal(loc::MemRegionVal(R));
  Bldr.generateNode(TE, Pred, state->BindExpr(TE, LCtx, V));
}