Examples with InstanceFieldRef soot.jimple.InstanceFieldRef used on opensource projects

Example 1 with InstanceFieldRef

use of soot.jimple.InstanceFieldRef in project robovm by robovm.

the class MethodCompiler method assign.

private void assign(DefinitionStmt stmt) {
    /*
         * leftOp is either a Local, an ArrayRef or a FieldRef
         * rightOp is either a Local, a Ref, or an Expr
         */
    soot.Value rightOp = stmt.getRightOp();
    Value result;
    if (rightOp instanceof Immediate) {
        Immediate immediate = (Immediate) rightOp;
        result = immediate(stmt, immediate);
    } else if (rightOp instanceof ThisRef) {
        result = function.getParameterRef(1);
    } else if (rightOp instanceof ParameterRef) {
        ParameterRef ref = (ParameterRef) rightOp;
        int index = (sootMethod.isStatic() ? 1 : 2) + ref.getIndex();
        Value p = new VariableRef("p" + index, getType(ref.getType()));
        result = widenToI32Value(stmt, p, isUnsigned(ref.getType()));
    } else if (rightOp instanceof CaughtExceptionRef) {
        result = call(stmt, BC_EXCEPTION_CLEAR, env);
    } else if (rightOp instanceof ArrayRef) {
        ArrayRef ref = (ArrayRef) rightOp;
        VariableRef base = (VariableRef) immediate(stmt, (Immediate) ref.getBase());
        if (ref.getType() instanceof NullType) {
            // The base value is always null. Do a null check which will
            // always throw NPE.
            checkNull(stmt, base);
            return;
        } else {
            Value index = immediate(stmt, (Immediate) ref.getIndex());
            checkNull(stmt, base);
            checkBounds(stmt, base, index);
            result = call(stmt, getArrayLoad(ref.getType()), base, index);
            result = widenToI32Value(stmt, result, isUnsigned(ref.getType()));
        }
    } else if (rightOp instanceof InstanceFieldRef) {
        InstanceFieldRef ref = (InstanceFieldRef) rightOp;
        Value base = immediate(stmt, (Immediate) ref.getBase());
        checkNull(stmt, base);
        FunctionRef fn = null;
        if (canAccessDirectly(ref)) {
            fn = new FunctionRef(Symbols.getterSymbol(ref.getFieldRef()), new FunctionType(getType(ref.getType()), ENV_PTR, OBJECT_PTR));
        } else {
            soot.Type runtimeType = ref.getBase().getType();
            String targetClassName = getInternalName(ref.getFieldRef().declaringClass());
            String runtimeClassName = runtimeType == NullType.v() ? targetClassName : getInternalName(runtimeType);
            Trampoline trampoline = new GetField(this.className, targetClassName, ref.getFieldRef().name(), getDescriptor(ref.getFieldRef().type()), runtimeClassName);
            trampolines.add(trampoline);
            fn = trampoline.getFunctionRef();
        }
        result = call(stmt, fn, env, base);
        result = widenToI32Value(stmt, result, isUnsigned(ref.getType()));
    } else if (rightOp instanceof StaticFieldRef) {
        StaticFieldRef ref = (StaticFieldRef) rightOp;
        FunctionRef fn = config.isDebug() ? null : Intrinsics.getIntrinsic(sootMethod, stmt);
        if (fn == null) {
            if (canAccessDirectly(ref)) {
                fn = new FunctionRef(Symbols.getterSymbol(ref.getFieldRef()), new FunctionType(getType(ref.getType()), ENV_PTR));
            } else {
                String targetClassName = getInternalName(ref.getFieldRef().declaringClass());
                Trampoline trampoline = new GetStatic(this.className, targetClassName, ref.getFieldRef().name(), getDescriptor(ref.getFieldRef().type()));
                trampolines.add(trampoline);
                fn = trampoline.getFunctionRef();
            }
        }
        result = call(stmt, fn, env);
        result = widenToI32Value(stmt, result, isUnsigned(ref.getType()));
    } else if (rightOp instanceof Expr) {
        if (rightOp instanceof BinopExpr) {
            BinopExpr expr = (BinopExpr) rightOp;
            Type rightType = getLocalType(expr.getType());
            Variable resultVar = function.newVariable(rightType);
            result = resultVar.ref();
            Value op1 = immediate(stmt, (Immediate) expr.getOp1());
            Value op2 = immediate(stmt, (Immediate) expr.getOp2());
            if (rightOp instanceof AddExpr) {
                if (rightType instanceof IntegerType) {
                    function.add(new Add(resultVar, op1, op2)).attach(stmt);
                } else {
                    function.add(new Fadd(resultVar, op1, op2)).attach(stmt);
                }
            } else if (rightOp instanceof AndExpr) {
                function.add(new And(resultVar, op1, op2)).attach(stmt);
            } else if (rightOp instanceof CmpExpr) {
                Variable t1 = function.newVariable(I1);
                Variable t2 = function.newVariable(I1);
                Variable t3 = function.newVariable(resultVar.getType());
                Variable t4 = function.newVariable(resultVar.getType());
                function.add(new Icmp(t1, Condition.slt, op1, op2)).attach(stmt);
                function.add(new Icmp(t2, Condition.sgt, op1, op2)).attach(stmt);
                function.add(new Zext(t3, new VariableRef(t1), resultVar.getType())).attach(stmt);
                function.add(new Zext(t4, new VariableRef(t2), resultVar.getType())).attach(stmt);
                function.add(new Sub(resultVar, new VariableRef(t4), new VariableRef(t3))).attach(stmt);
            } else if (rightOp instanceof DivExpr) {
                if (rightType instanceof IntegerType) {
                    FunctionRef f = rightType == I64 ? LDIV : IDIV;
                    result = call(stmt, f, env, op1, op2);
                } else {
                    // float or double
                    function.add(new Fdiv(resultVar, op1, op2)).attach(stmt);
                }
            } else if (rightOp instanceof MulExpr) {
                if (rightType instanceof IntegerType) {
                    function.add(new Mul(resultVar, op1, op2)).attach(stmt);
                } else {
                    function.add(new Fmul(resultVar, op1, op2)).attach(stmt);
                }
            } else if (rightOp instanceof OrExpr) {
                function.add(new Or(resultVar, op1, op2)).attach(stmt);
            } else if (rightOp instanceof RemExpr) {
                if (rightType instanceof IntegerType) {
                    FunctionRef f = rightType == I64 ? LREM : IREM;
                    result = call(stmt, f, env, op1, op2);
                } else {
                    FunctionRef f = rightType == DOUBLE ? DREM : FREM;
                    result = call(stmt, f, env, op1, op2);
                }
            } else if (rightOp instanceof ShlExpr || rightOp instanceof ShrExpr || rightOp instanceof UshrExpr) {
                IntegerType type = (IntegerType) op1.getType();
                int bits = type.getBits();
                Variable t = function.newVariable(op2.getType());
                function.add(new And(t, op2, new IntegerConstant(bits - 1, (IntegerType) op2.getType()))).attach(stmt);
                Value shift = t.ref();
                if (((IntegerType) shift.getType()).getBits() < bits) {
                    Variable tmp = function.newVariable(type);
                    function.add(new Zext(tmp, shift, type)).attach(stmt);
                    shift = tmp.ref();
                }
                if (rightOp instanceof ShlExpr) {
                    function.add(new Shl(resultVar, op1, shift)).attach(stmt);
                } else if (rightOp instanceof ShrExpr) {
                    function.add(new Ashr(resultVar, op1, shift)).attach(stmt);
                } else {
                    function.add(new Lshr(resultVar, op1, shift)).attach(stmt);
                }
            } else if (rightOp instanceof SubExpr) {
                if (rightType instanceof IntegerType) {
                    function.add(new Sub(resultVar, op1, op2)).attach(stmt);
                } else {
                    function.add(new Fsub(resultVar, op1, op2)).attach(stmt);
                }
            } else if (rightOp instanceof XorExpr) {
                function.add(new Xor(resultVar, op1, op2)).attach(stmt);
            } else if (rightOp instanceof XorExpr) {
                function.add(new Xor(resultVar, op1, op2)).attach(stmt);
            } else if (rightOp instanceof CmplExpr) {
                FunctionRef f = op1.getType() == FLOAT ? FCMPL : DCMPL;
                function.add(new Call(resultVar, f, op1, op2)).attach(stmt);
            } else if (rightOp instanceof CmpgExpr) {
                FunctionRef f = op1.getType() == FLOAT ? FCMPG : DCMPG;
                function.add(new Call(resultVar, f, op1, op2)).attach(stmt);
            } else {
                throw new IllegalArgumentException("Unknown type for rightOp: " + rightOp.getClass());
            }
        } else if (rightOp instanceof CastExpr) {
            Value op = immediate(stmt, (Immediate) ((CastExpr) rightOp).getOp());
            soot.Type sootTargetType = ((CastExpr) rightOp).getCastType();
            soot.Type sootSourceType = ((CastExpr) rightOp).getOp().getType();
            if (sootTargetType instanceof PrimType) {
                Type targetType = getType(sootTargetType);
                Type sourceType = getType(sootSourceType);
                if (targetType instanceof IntegerType && sourceType instanceof IntegerType) {
                    // op is at least I32 and has already been widened if source type had fewer bits then I32
                    IntegerType toType = (IntegerType) targetType;
                    IntegerType fromType = (IntegerType) op.getType();
                    Variable v = function.newVariable(toType);
                    if (fromType.getBits() < toType.getBits()) {
                        // Widening
                        if (isUnsigned(sootSourceType)) {
                            function.add(new Zext(v, op, toType)).attach(stmt);
                        } else {
                            function.add(new Sext(v, op, toType)).attach(stmt);
                        }
                    } else if (fromType.getBits() == toType.getBits()) {
                        function.add(new Bitcast(v, op, toType)).attach(stmt);
                    } else {
                        // Narrow
                        function.add(new Trunc(v, op, toType)).attach(stmt);
                    }
                    result = widenToI32Value(stmt, v.ref(), isUnsigned(sootTargetType));
                } else if (targetType instanceof FloatingPointType && sourceType instanceof IntegerType) {
                    // we always to a signed conversion since if op is char it has already been zero extended to I32
                    Variable v = function.newVariable(targetType);
                    function.add(new Sitofp(v, op, targetType)).attach(stmt);
                    result = v.ref();
                } else if (targetType instanceof FloatingPointType && sourceType instanceof FloatingPointType) {
                    Variable v = function.newVariable(targetType);
                    if (targetType == FLOAT && sourceType == DOUBLE) {
                        function.add(new Fptrunc(v, op, targetType)).attach(stmt);
                    } else if (targetType == DOUBLE && sourceType == FLOAT) {
                        function.add(new Fpext(v, op, targetType)).attach(stmt);
                    } else {
                        function.add(new Bitcast(v, op, targetType)).attach(stmt);
                    }
                    result = v.ref();
                } else {
                    // F2I, F2L, D2I, D2L
                    FunctionRef f = null;
                    if (targetType == I32 && sourceType == FLOAT) {
                        f = F2I;
                    } else if (targetType == I64 && sourceType == FLOAT) {
                        f = F2L;
                    } else if (targetType == I32 && sourceType == DOUBLE) {
                        f = D2I;
                    } else if (targetType == I64 && sourceType == DOUBLE) {
                        f = D2L;
                    } else {
                        throw new IllegalArgumentException();
                    }
                    Variable v = function.newVariable(targetType);
                    function.add(new Call(v, f, op)).attach(stmt);
                    result = v.ref();
                }
            } else {
                if (sootTargetType instanceof soot.ArrayType && ((soot.ArrayType) sootTargetType).getElementType() instanceof PrimType) {
                    soot.Type primType = ((soot.ArrayType) sootTargetType).getElementType();
                    GlobalRef arrayClassPtr = new GlobalRef("array_" + getDescriptor(primType), CLASS_PTR);
                    Variable arrayClass = function.newVariable(CLASS_PTR);
                    function.add(new Load(arrayClass, arrayClassPtr)).attach(stmt);
                    result = call(stmt, CHECKCAST_PRIM_ARRAY, env, arrayClass.ref(), op);
                } else {
                    String targetClassName = getInternalName(sootTargetType);
                    Trampoline trampoline = new Checkcast(this.className, targetClassName);
                    trampolines.add(trampoline);
                    result = call(stmt, trampoline.getFunctionRef(), env, op);
                }
            }
        } else if (rightOp instanceof InstanceOfExpr) {
            Value op = immediate(stmt, (Immediate) ((InstanceOfExpr) rightOp).getOp());
            soot.Type checkType = ((InstanceOfExpr) rightOp).getCheckType();
            if (checkType instanceof soot.ArrayType && ((soot.ArrayType) checkType).getElementType() instanceof PrimType) {
                soot.Type primType = ((soot.ArrayType) checkType).getElementType();
                GlobalRef arrayClassPtr = new GlobalRef("array_" + getDescriptor(primType), CLASS_PTR);
                Variable arrayClass = function.newVariable(CLASS_PTR);
                function.add(new Load(arrayClass, arrayClassPtr)).attach(stmt);
                result = call(stmt, INSTANCEOF_PRIM_ARRAY, env, arrayClass.ref(), op);
            } else {
                String targetClassName = getInternalName(checkType);
                Trampoline trampoline = new Instanceof(this.className, targetClassName);
                trampolines.add(trampoline);
                result = call(stmt, trampoline.getFunctionRef(), env, op);
            }
        } else if (rightOp instanceof NewExpr) {
            String targetClassName = getInternalName(((NewExpr) rightOp).getBaseType());
            FunctionRef fn = null;
            if (targetClassName.equals(this.className)) {
                fn = FunctionBuilder.allocator(sootMethod.getDeclaringClass()).ref();
            } else {
                Trampoline trampoline = new New(this.className, targetClassName);
                trampolines.add(trampoline);
                fn = trampoline.getFunctionRef();
            }
            result = call(stmt, fn, env);
        } else if (rightOp instanceof NewArrayExpr) {
            NewArrayExpr expr = (NewArrayExpr) rightOp;
            Value size = immediate(stmt, (Immediate) expr.getSize());
            if (expr.getBaseType() instanceof PrimType) {
                result = call(stmt, getNewArray(expr.getBaseType()), env, size);
            } else {
                String targetClassName = getInternalName(expr.getType());
                Trampoline trampoline = new Anewarray(this.className, targetClassName);
                trampolines.add(trampoline);
                result = call(stmt, trampoline.getFunctionRef(), env, size);
            }
        } else if (rightOp instanceof NewMultiArrayExpr) {
            NewMultiArrayExpr expr = (NewMultiArrayExpr) rightOp;
            if (expr.getBaseType().numDimensions == 1 && expr.getBaseType().getElementType() instanceof PrimType) {
                Value size = immediate(stmt, (Immediate) expr.getSize(0));
                result = call(stmt, getNewArray(expr.getBaseType().getElementType()), env, size);
            } else {
                for (int i = 0; i < expr.getSizeCount(); i++) {
                    Value size = immediate(stmt, (Immediate) expr.getSize(i));
                    Variable ptr = function.newVariable(new PointerType(I32));
                    function.add(new Getelementptr(ptr, dims.ref(), 0, i)).attach(stmt);
                    function.add(new Store(size, ptr.ref())).attach(stmt);
                }
                Variable dimsI32 = function.newVariable(new PointerType(I32));
                function.add(new Bitcast(dimsI32, dims.ref(), dimsI32.getType())).attach(stmt);
                String targetClassName = getInternalName(expr.getType());
                Trampoline trampoline = new Multianewarray(this.className, targetClassName);
                trampolines.add(trampoline);
                result = call(stmt, trampoline.getFunctionRef(), env, new IntegerConstant(expr.getSizeCount()), dimsI32.ref());
            }
        } else if (rightOp instanceof InvokeExpr) {
            result = invokeExpr(stmt, (InvokeExpr) rightOp);
        } else if (rightOp instanceof LengthExpr) {
            Value op = immediate(stmt, (Immediate) ((LengthExpr) rightOp).getOp());
            checkNull(stmt, op);
            Variable v = function.newVariable(I32);
            function.add(new Call(v, ARRAY_LENGTH, op)).attach(stmt);
            result = v.ref();
        } else if (rightOp instanceof NegExpr) {
            NegExpr expr = (NegExpr) rightOp;
            Value op = immediate(stmt, (Immediate) expr.getOp());
            Type rightType = op.getType();
            Variable v = function.newVariable(op.getType());
            if (rightType instanceof IntegerType) {
                function.add(new Sub(v, new IntegerConstant(0, (IntegerType) rightType), op)).attach(stmt);
            } else {
                function.add(new Fmul(v, new FloatingPointConstant(-1.0, (FloatingPointType) rightType), op)).attach(stmt);
            }
            result = v.ref();
        } else {
            throw new IllegalArgumentException("Unknown type for rightOp: " + rightOp.getClass());
        }
    } else {
        throw new IllegalArgumentException("Unknown type for rightOp: " + rightOp.getClass());
    }
    soot.Value leftOp = stmt.getLeftOp();
    if (leftOp instanceof Local) {
        Local local = (Local) leftOp;
        VariableRef v = new VariableRef(local.getName(), new PointerType(getLocalType(leftOp.getType())));
        function.add(new Store(result, v, !sootMethod.getActiveBody().getTraps().isEmpty())).attach(stmt);
    } else {
        Type leftType = getType(leftOp.getType());
        Value narrowedResult = narrowFromI32Value(stmt, leftType, result);
        if (leftOp instanceof ArrayRef) {
            ArrayRef ref = (ArrayRef) leftOp;
            VariableRef base = (VariableRef) immediate(stmt, (Immediate) ref.getBase());
            Value index = immediate(stmt, (Immediate) ref.getIndex());
            checkNull(stmt, base);
            checkBounds(stmt, base, index);
            if (leftOp.getType() instanceof RefLikeType) {
                call(stmt, BC_SET_OBJECT_ARRAY_ELEMENT, env, base, index, narrowedResult);
            } else {
                call(stmt, getArrayStore(leftOp.getType()), base, index, narrowedResult);
            }
        } else if (leftOp instanceof InstanceFieldRef) {
            InstanceFieldRef ref = (InstanceFieldRef) leftOp;
            Value base = immediate(stmt, (Immediate) ref.getBase());
            checkNull(stmt, base);
            FunctionRef fn = null;
            if (canAccessDirectly(ref)) {
                fn = new FunctionRef(Symbols.setterSymbol(ref.getFieldRef()), new FunctionType(VOID, ENV_PTR, OBJECT_PTR, getType(ref.getType())));
            } else {
                soot.Type runtimeType = ref.getBase().getType();
                String targetClassName = getInternalName(ref.getFieldRef().declaringClass());
                String runtimeClassName = runtimeType == NullType.v() ? targetClassName : getInternalName(runtimeType);
                Trampoline trampoline = new PutField(this.className, targetClassName, ref.getFieldRef().name(), getDescriptor(ref.getFieldRef().type()), runtimeClassName);
                trampolines.add(trampoline);
                fn = trampoline.getFunctionRef();
            }
            call(stmt, fn, env, base, narrowedResult);
        } else if (leftOp instanceof StaticFieldRef) {
            StaticFieldRef ref = (StaticFieldRef) leftOp;
            FunctionRef fn = null;
            if (canAccessDirectly(ref)) {
                fn = new FunctionRef(Symbols.setterSymbol(ref.getFieldRef()), new FunctionType(VOID, ENV_PTR, getType(ref.getType())));
            } else {
                String targetClassName = getInternalName(ref.getFieldRef().declaringClass());
                Trampoline trampoline = new PutStatic(this.className, targetClassName, ref.getFieldRef().name(), getDescriptor(ref.getFieldRef().type()));
                trampolines.add(trampoline);
                fn = trampoline.getFunctionRef();
            }
            call(stmt, fn, env, narrowedResult);
        } else {
            throw new IllegalArgumentException("Unknown type for leftOp: " + leftOp.getClass());
        }
    }
}

Example 2 with InstanceFieldRef

use of soot.jimple.InstanceFieldRef in project soot by Sable.

the class AsmMethodSource method convertGetFieldInsn.

private void convertGetFieldInsn(FieldInsnNode insn) {
    StackFrame frame = getFrame(insn);
    Operand[] out = frame.out();
    Operand opr;
    Type type;
    if (out == null) {
        SootClass declClass = Scene.v().getSootClass(AsmUtil.toQualifiedName(insn.owner));
        type = AsmUtil.toJimpleType(insn.desc);
        Value val;
        SootFieldRef ref;
        if (insn.getOpcode() == GETSTATIC) {
            ref = Scene.v().makeFieldRef(declClass, insn.name, type, true);
            val = Jimple.v().newStaticFieldRef(ref);
        } else {
            Operand base = popLocal();
            ref = Scene.v().makeFieldRef(declClass, insn.name, type, false);
            InstanceFieldRef ifr = Jimple.v().newInstanceFieldRef(base.stackOrValue(), ref);
            val = ifr;
            base.addBox(ifr.getBaseBox());
            frame.in(base);
            frame.boxes(ifr.getBaseBox());
        }
        opr = new Operand(insn, val);
        frame.out(opr);
    } else {
        opr = out[0];
        type = opr.<FieldRef>value().getFieldRef().type();
        if (insn.getOpcode() == GETFIELD)
            frame.mergeIn(pop());
    }
    push(type, opr);
}

Example 3 with InstanceFieldRef

use of soot.jimple.InstanceFieldRef in project soot by Sable.

the class MethodNodeFactory method handleStmt.

/**
 * Adds the edges required for this statement to the graph.
 */
public final void handleStmt(Stmt s) {
    // We only consider reflective class creation when it is enabled
    if (s.containsInvokeExpr()) {
        if (!pag.getCGOpts().types_for_invoke())
            return;
        InvokeExpr iexpr = s.getInvokeExpr();
        if (iexpr instanceof VirtualInvokeExpr) {
            if (!isReflectionNewInstance(iexpr))
                return;
        } else if (!(iexpr instanceof StaticInvokeExpr))
            return;
    }
    s.apply(new AbstractStmtSwitch() {

        @Override
        public final void caseAssignStmt(AssignStmt as) {
            Value l = as.getLeftOp();
            Value r = as.getRightOp();
            if (!(l.getType() instanceof RefLikeType))
                return;
            assert r.getType() instanceof RefLikeType : "Type mismatch in assignment " + as + " in method " + method.getSignature();
            l.apply(MethodNodeFactory.this);
            Node dest = getNode();
            r.apply(MethodNodeFactory.this);
            Node src = getNode();
            if (l instanceof InstanceFieldRef) {
                ((InstanceFieldRef) l).getBase().apply(MethodNodeFactory.this);
                pag.addDereference((VarNode) getNode());
            }
            if (r instanceof InstanceFieldRef) {
                ((InstanceFieldRef) r).getBase().apply(MethodNodeFactory.this);
                pag.addDereference((VarNode) getNode());
            } else if (r instanceof StaticFieldRef) {
                StaticFieldRef sfr = (StaticFieldRef) r;
                SootFieldRef s = sfr.getFieldRef();
                if (pag.getOpts().empties_as_allocs()) {
                    if (s.declaringClass().getName().equals("java.util.Collections")) {
                        if (s.name().equals("EMPTY_SET")) {
                            src = pag.makeAllocNode(RefType.v("java.util.HashSet"), RefType.v("java.util.HashSet"), method);
                        } else if (s.name().equals("EMPTY_MAP")) {
                            src = pag.makeAllocNode(RefType.v("java.util.HashMap"), RefType.v("java.util.HashMap"), method);
                        } else if (s.name().equals("EMPTY_LIST")) {
                            src = pag.makeAllocNode(RefType.v("java.util.LinkedList"), RefType.v("java.util.LinkedList"), method);
                        }
                    } else if (s.declaringClass().getName().equals("java.util.Hashtable")) {
                        if (s.name().equals("emptyIterator")) {
                            src = pag.makeAllocNode(RefType.v("java.util.Hashtable$EmptyIterator"), RefType.v("java.util.Hashtable$EmptyIterator"), method);
                        } else if (s.name().equals("emptyEnumerator")) {
                            src = pag.makeAllocNode(RefType.v("java.util.Hashtable$EmptyEnumerator"), RefType.v("java.util.Hashtable$EmptyEnumerator"), method);
                        }
                    }
                }
            }
            mpag.addInternalEdge(src, dest);
        }

        @Override
        public final void caseReturnStmt(ReturnStmt rs) {
            if (!(rs.getOp().getType() instanceof RefLikeType))
                return;
            rs.getOp().apply(MethodNodeFactory.this);
            Node retNode = getNode();
            mpag.addInternalEdge(retNode, caseRet());
        }

        @Override
        public final void caseIdentityStmt(IdentityStmt is) {
            if (!(is.getLeftOp().getType() instanceof RefLikeType))
                return;
            Value leftOp = is.getLeftOp();
            Value rightOp = is.getRightOp();
            leftOp.apply(MethodNodeFactory.this);
            Node dest = getNode();
            rightOp.apply(MethodNodeFactory.this);
            Node src = getNode();
            mpag.addInternalEdge(src, dest);
            // in case library mode is activated add allocations to any
            // possible type of this local and
            // parameters of accessible methods
            int libOption = pag.getCGOpts().library();
            if (libOption != CGOptions.library_disabled && (accessibilityOracle.isAccessible(method))) {
                if (rightOp instanceof IdentityRef) {
                    Type rt = rightOp.getType();
                    rt.apply(new SparkLibraryHelper(pag, src, method));
                }
            }
        }

        @Override
        public final void caseThrowStmt(ThrowStmt ts) {
            ts.getOp().apply(MethodNodeFactory.this);
            mpag.addOutEdge(getNode(), pag.nodeFactory().caseThrow());
        }
    });
}

Example 4 with InstanceFieldRef

use of soot.jimple.InstanceFieldRef in project soot by Sable.

the class ConstraintCollector method caseAssignStmt.

public void caseAssignStmt(AssignStmt stmt) {
    Value l = stmt.getLeftOp();
    Value r = stmt.getRightOp();
    TypeVariable left = null;
    TypeVariable right = null;
    if (l instanceof ArrayRef) {
        ArrayRef ref = (ArrayRef) l;
        Value base = ref.getBase();
        Value index = ref.getIndex();
        TypeVariable baseType = resolver.typeVariable((Local) base);
        baseType.makeElement();
        left = baseType.element();
        if (index instanceof Local) {
            if (uses) {
                resolver.typeVariable((Local) index).addParent(resolver.typeVariable(IntType.v()));
            }
        }
    } else if (l instanceof Local) {
        left = resolver.typeVariable((Local) l);
    } else if (l instanceof InstanceFieldRef) {
        InstanceFieldRef ref = (InstanceFieldRef) l;
        if (uses) {
            TypeVariable baseType = resolver.typeVariable((Local) ref.getBase());
            baseType.addParent(resolver.typeVariable(ref.getField().getDeclaringClass()));
            left = resolver.typeVariable(ref.getField().getType());
        }
    } else if (l instanceof StaticFieldRef) {
        if (uses) {
            StaticFieldRef ref = (StaticFieldRef) l;
            left = resolver.typeVariable(ref.getField().getType());
        }
    } else {
        throw new RuntimeException("Unhandled assignment left hand side type: " + l.getClass());
    }
    if (r instanceof ArrayRef) {
        ArrayRef ref = (ArrayRef) r;
        Value base = ref.getBase();
        Value index = ref.getIndex();
        TypeVariable baseType = resolver.typeVariable((Local) base);
        baseType.makeElement();
        right = baseType.element();
        if (index instanceof Local) {
            if (uses) {
                resolver.typeVariable((Local) index).addParent(resolver.typeVariable(IntType.v()));
            }
        }
    } else if (r instanceof DoubleConstant) {
        right = resolver.typeVariable(DoubleType.v());
    } else if (r instanceof FloatConstant) {
        right = resolver.typeVariable(FloatType.v());
    } else if (r instanceof IntConstant) {
        right = resolver.typeVariable(IntType.v());
    } else if (r instanceof LongConstant) {
        right = resolver.typeVariable(LongType.v());
    } else if (r instanceof NullConstant) {
        right = resolver.typeVariable(NullType.v());
    } else if (r instanceof StringConstant) {
        right = resolver.typeVariable(RefType.v("java.lang.String"));
    } else if (r instanceof ClassConstant) {
        right = resolver.typeVariable(RefType.v("java.lang.Class"));
    } else if (r instanceof BinopExpr) {
        // ******** BINOP EXPR ********
        BinopExpr be = (BinopExpr) r;
        Value lv = be.getOp1();
        Value rv = be.getOp2();
        TypeVariable lop;
        TypeVariable rop;
        // ******** LEFT ********
        if (lv instanceof Local) {
            lop = resolver.typeVariable((Local) lv);
        } else if (lv instanceof DoubleConstant) {
            lop = resolver.typeVariable(DoubleType.v());
        } else if (lv instanceof FloatConstant) {
            lop = resolver.typeVariable(FloatType.v());
        } else if (lv instanceof IntConstant) {
            lop = resolver.typeVariable(IntType.v());
        } else if (lv instanceof LongConstant) {
            lop = resolver.typeVariable(LongType.v());
        } else if (lv instanceof NullConstant) {
            lop = resolver.typeVariable(NullType.v());
        } else if (lv instanceof StringConstant) {
            lop = resolver.typeVariable(RefType.v("java.lang.String"));
        } else if (lv instanceof ClassConstant) {
            lop = resolver.typeVariable(RefType.v("java.lang.Class"));
        } else {
            throw new RuntimeException("Unhandled binary expression left operand type: " + lv.getClass());
        }
        // ******** RIGHT ********
        if (rv instanceof Local) {
            rop = resolver.typeVariable((Local) rv);
        } else if (rv instanceof DoubleConstant) {
            rop = resolver.typeVariable(DoubleType.v());
        } else if (rv instanceof FloatConstant) {
            rop = resolver.typeVariable(FloatType.v());
        } else if (rv instanceof IntConstant) {
            rop = resolver.typeVariable(IntType.v());
        } else if (rv instanceof LongConstant) {
            rop = resolver.typeVariable(LongType.v());
        } else if (rv instanceof NullConstant) {
            rop = resolver.typeVariable(NullType.v());
        } else if (rv instanceof StringConstant) {
            rop = resolver.typeVariable(RefType.v("java.lang.String"));
        } else if (rv instanceof ClassConstant) {
            rop = resolver.typeVariable(RefType.v("java.lang.Class"));
        } else {
            throw new RuntimeException("Unhandled binary expression right operand type: " + rv.getClass());
        }
        if ((be instanceof AddExpr) || (be instanceof SubExpr) || (be instanceof MulExpr) || (be instanceof DivExpr) || (be instanceof RemExpr) || (be instanceof AndExpr) || (be instanceof OrExpr) || (be instanceof XorExpr)) {
            if (uses) {
                TypeVariable common = resolver.typeVariable();
                rop.addParent(common);
                lop.addParent(common);
            }
            if (left != null) {
                rop.addParent(left);
                lop.addParent(left);
            }
        } else if ((be instanceof ShlExpr) || (be instanceof ShrExpr) || (be instanceof UshrExpr)) {
            if (uses) {
                rop.addParent(resolver.typeVariable(IntType.v()));
            }
            right = lop;
        } else if ((be instanceof CmpExpr) || (be instanceof CmpgExpr) || (be instanceof CmplExpr) || (be instanceof EqExpr) || (be instanceof GeExpr) || (be instanceof GtExpr) || (be instanceof LeExpr) || (be instanceof LtExpr) || (be instanceof NeExpr)) {
            if (uses) {
                TypeVariable common = resolver.typeVariable();
                rop.addParent(common);
                lop.addParent(common);
            }
            right = resolver.typeVariable(IntType.v());
        } else {
            throw new RuntimeException("Unhandled binary expression type: " + be.getClass());
        }
    } else if (r instanceof CastExpr) {
        CastExpr ce = (CastExpr) r;
        right = resolver.typeVariable(ce.getCastType());
    } else if (r instanceof InstanceOfExpr) {
        right = resolver.typeVariable(IntType.v());
    } else if (r instanceof InvokeExpr) {
        InvokeExpr ie = (InvokeExpr) r;
        handleInvokeExpr(ie);
        right = resolver.typeVariable(ie.getMethodRef().returnType());
    } else if (r instanceof NewArrayExpr) {
        NewArrayExpr nae = (NewArrayExpr) r;
        Type baseType = nae.getBaseType();
        if (baseType instanceof ArrayType) {
            right = resolver.typeVariable(ArrayType.v(((ArrayType) baseType).baseType, ((ArrayType) baseType).numDimensions + 1));
        } else {
            right = resolver.typeVariable(ArrayType.v(baseType, 1));
        }
        if (uses) {
            Value size = nae.getSize();
            if (size instanceof Local) {
                TypeVariable var = resolver.typeVariable((Local) size);
                var.addParent(resolver.typeVariable(IntType.v()));
            }
        }
    } else if (r instanceof NewExpr) {
        NewExpr na = (NewExpr) r;
        right = resolver.typeVariable(na.getBaseType());
    } else if (r instanceof NewMultiArrayExpr) {
        NewMultiArrayExpr nmae = (NewMultiArrayExpr) r;
        right = resolver.typeVariable(nmae.getBaseType());
        if (uses) {
            for (int i = 0; i < nmae.getSizeCount(); i++) {
                Value size = nmae.getSize(i);
                if (size instanceof Local) {
                    TypeVariable var = resolver.typeVariable((Local) size);
                    var.addParent(resolver.typeVariable(IntType.v()));
                }
            }
        }
    } else if (r instanceof LengthExpr) {
        LengthExpr le = (LengthExpr) r;
        if (uses) {
            if (le.getOp() instanceof Local) {
                resolver.typeVariable((Local) le.getOp()).makeElement();
            }
        }
        right = resolver.typeVariable(IntType.v());
    } else if (r instanceof NegExpr) {
        NegExpr ne = (NegExpr) r;
        if (ne.getOp() instanceof Local) {
            right = resolver.typeVariable((Local) ne.getOp());
        } else if (ne.getOp() instanceof DoubleConstant) {
            right = resolver.typeVariable(DoubleType.v());
        } else if (ne.getOp() instanceof FloatConstant) {
            right = resolver.typeVariable(FloatType.v());
        } else if (ne.getOp() instanceof IntConstant) {
            right = resolver.typeVariable(IntType.v());
        } else if (ne.getOp() instanceof LongConstant) {
            right = resolver.typeVariable(LongType.v());
        } else {
            throw new RuntimeException("Unhandled neg expression operand type: " + ne.getOp().getClass());
        }
    } else if (r instanceof Local) {
        right = resolver.typeVariable((Local) r);
    } else if (r instanceof InstanceFieldRef) {
        InstanceFieldRef ref = (InstanceFieldRef) r;
        if (uses) {
            TypeVariable baseType = resolver.typeVariable((Local) ref.getBase());
            baseType.addParent(resolver.typeVariable(ref.getField().getDeclaringClass()));
        }
        right = resolver.typeVariable(ref.getField().getType());
    } else if (r instanceof StaticFieldRef) {
        StaticFieldRef ref = (StaticFieldRef) r;
        right = resolver.typeVariable(ref.getField().getType());
    } else {
        throw new RuntimeException("Unhandled assignment right hand side type: " + r.getClass());
    }
    if (left != null && right != null) {
        right.addParent(left);
    }
}

Example 5 with InstanceFieldRef

use of soot.jimple.InstanceFieldRef in project soot by Sable.

the class TypeAssigner method replaceNullType.

/**
 * Replace statements using locals with null_type type and that would
 * throw a NullPointerException at runtime by a set of instructions
 * throwing a NullPointerException.
 *
 * This is done to remove locals with null_type type.
 *
 * @param b
 */
private void replaceNullType(Body b) {
    List<Local> localsToRemove = new ArrayList<Local>();
    boolean hasNullType = false;
    // check if any local has null_type
    for (Local l : b.getLocals()) {
        if (l.getType() instanceof NullType) {
            localsToRemove.add(l);
            hasNullType = true;
        }
    }
    // No local with null_type
    if (!hasNullType)
        return;
    // force to propagate null constants
    Map<String, String> opts = PhaseOptions.v().getPhaseOptions("jop.cpf");
    if (!opts.containsKey("enabled") || !opts.get("enabled").equals("true")) {
        logger.warn("Cannot run TypeAssigner.replaceNullType(Body). Try to enable jop.cfg.");
        return;
    }
    ConstantPropagatorAndFolder.v().transform(b);
    List<Unit> unitToReplaceByException = new ArrayList<Unit>();
    for (Unit u : b.getUnits()) {
        for (ValueBox vb : u.getUseBoxes()) {
            if (vb.getValue() instanceof Local && ((Local) vb.getValue()).getType() instanceof NullType) {
                Local l = (Local) vb.getValue();
                Stmt s = (Stmt) u;
                boolean replace = false;
                if (s.containsArrayRef()) {
                    ArrayRef r = s.getArrayRef();
                    if (r.getBase() == l) {
                        replace = true;
                    }
                } else if (s.containsFieldRef()) {
                    FieldRef r = s.getFieldRef();
                    if (r instanceof InstanceFieldRef) {
                        InstanceFieldRef ir = (InstanceFieldRef) r;
                        if (ir.getBase() == l) {
                            replace = true;
                        }
                    }
                } else if (s.containsInvokeExpr()) {
                    InvokeExpr ie = s.getInvokeExpr();
                    if (ie instanceof InstanceInvokeExpr) {
                        InstanceInvokeExpr iie = (InstanceInvokeExpr) ie;
                        if (iie.getBase() == l) {
                            replace = true;
                        }
                    }
                }
                if (replace) {
                    unitToReplaceByException.add(u);
                }
            }
        }
    }
    for (Unit u : unitToReplaceByException) {
        soot.dexpler.Util.addExceptionAfterUnit(b, "java.lang.NullPointerException", u, "This statement would have triggered an Exception: " + u);
        b.getUnits().remove(u);
    }
    // should be done on a separate phase
    DeadAssignmentEliminator.v().transform(b);
    UnusedLocalEliminator.v().transform(b);
}