Exemple #1
0
 @Override
 public final List<Unit> getSuccsOf(Unit s) {
   if (this.forwardEdges.containsKey(s)) {
     return new ArrayList<>(this.forwardEdges.get(s));
   } else {
     return Collections.emptyList();
   }
 }
Exemple #2
0
 @Override
 public List<Unit> getPredsOf(Unit unit) {
   if (unit.equals(nIf)) {
     return Collections.emptyList();
   } else if (unit.equals(n1)) {
     return Collections.singletonList(nIf);
   } else if (unit.equals(n2)) {
     return Collections.singletonList(nIf);
   } else {
     throw new RuntimeException("UNEXPECTED CASE");
   }
 }
Exemple #3
0
  public Code(TypeVars tvars) {

    this.j = Jimple.v();

    this.localX = j.newLocal("x", IntType.v());
    this.localY = j.newLocal("y", IntType.v());
    this.localZ = j.newLocal("z", IntType.v());
    this.localO = j.newLocal("o", RefType.v("java.lang.Object"));
    this.localT = j.newLocal("t", RefType.v("TestClass"));
    this.localThis = j.newLocal("this", RefType.v("TestClass"));
    this.varX = Var.fromLocal(localX);
    this.varY = Var.fromLocal(localY);
    this.varZ = Var.fromLocal(localZ);
    this.varO = Var.fromLocal(localO);
    this.varT = Var.fromLocal(localT);
    this.varThis = Var.fromLocal(localThis);
    this.tvarX = tvars.testParam(varX, "");
    this.tvarY = tvars.testParam(varY, "");
    this.tvarZ = tvars.testParam(varZ, "");
    this.tvarO = tvars.testParam(varO, "");
    this.tvarT = tvars.testParam(varT, "");
    this.tvarThis = tvars.testParam(varThis, "");

    this.init =
        Environments.makeEmpty()
            .add(varX, tvarX)
            .add(varY, tvarY)
            .add(varZ, tvarZ)
            .add(varO, tvarO)
            .add(varT, tvarT)
            .add(varThis, tvarThis);

    this.testClass = makeFreshClass("TestClass");

    Map<SootField, TypeDomain.Type<Level>> fieldMap = new HashMap<>();

    this.testLowField_int = new SootField("testLowField", IntType.v(), 0);
    testClass.addField(this.testLowField_int);
    fieldMap.put(testLowField_int, TLOW);
    this.testHighField_int = new SootField("testHighField", IntType.v(), 0);
    testClass.addField(this.testHighField_int);
    fieldMap.put(testHighField_int, THIGH);
    this.testStaticDynField_int = new SootField("testStaticDynField", IntType.v(), Modifier.STATIC);
    testClass.addField(this.testStaticDynField_int);
    fieldMap.put(testStaticDynField_int, DYN);

    // freeze field map
    this.fields = new FieldTable<>(fieldMap);

    Map<SootMethod, Signature<Level>> sigMap = new HashMap<>();
    Symbol.Param<LowHigh.Level> param_x = param(0);
    Symbol.Param<LowHigh.Level> param_y = param(1);

    // Method:
    // int testCallee()
    //    with {} effect {}
    this.testCallee__int =
        new SootMethod("testCallee", Collections.emptyList(), IntType.v(), Modifier.ABSTRACT);
    this.testClass.addMethod(testCallee__int);
    sigMap.put(
        this.testCallee__int,
        makeSignature(
            this.testCallee__int.getParameterCount(),
            Stream.of(leS(Symbol.literal(PUB), ret())).collect(toList()),
            Effects.emptyEffect()));

    // Method:
    // int testCallee_int_int__int (int, int)
    //   with {@param1 <= @ret, @param2 <= @ret} effect {}
    this.testCallee_int_int__int =
        new SootMethod(
            "testCallee", asList(IntType.v(), IntType.v()), IntType.v(), Modifier.ABSTRACT);
    this.testClass.addMethod(testCallee_int_int__int);
    Stream<SigConstraint<Level>> sigCstrs = Stream.of(leS(param_x, ret()), leS(param_y, ret()));
    sigMap.put(
        this.testCallee_int_int__int,
        makeSignature(
            this.testCallee_int_int__int.getParameterCount(),
            sigCstrs.collect(toList()),
            Effects.emptyEffect()));

    // Method:
    // int ignoreSnd(int, int)
    //   with { @param1 <= @ret } effect {}
    this.ignoreSnd_int_int__int =
        new SootMethod(
            "ignoreSnd", asList(IntType.v(), IntType.v()), IntType.v(), Modifier.ABSTRACT);
    this.testClass.addMethod(ignoreSnd_int_int__int);
    sigCstrs = Stream.of(leS(param_x, ret()), leS(param_y, param_y));
    sigMap.put(
        this.ignoreSnd_int_int__int,
        makeSignature(
            this.ignoreSnd_int_int__int.getParameterCount(),
            sigCstrs.collect(toList()),
            Effects.emptyEffect()));

    // Method:
    // int writeToLowReturn0(int)
    //   with { @param0 <= LOW } effect { LOW }
    this.writeToLowReturn0_int__int =
        new SootMethod("writeToLow", singletonList(IntType.v()), IntType.v(), Modifier.ABSTRACT);
    this.testClass.addMethod(this.writeToLowReturn0_int__int);
    sigCstrs = Stream.of((leS(param_x, literal(TLOW))), leS(ret(), ret()));
    sigMap.put(
        this.writeToLowReturn0_int__int,
        makeSignature(
            this.writeToLowReturn0_int__int.getParameterCount(),
            sigCstrs.collect(toList()),
            Effects.makeEffects(TLOW)));

    // Method:
    // int ignore0Low1ReturnHigh(int, int)
    //   with { @param1 <= LOW, HIGH <= ret } effect {}
    this.ignore0Low1ReturnHigh =
        new SootMethod(
            "ignore0Low1ReturnHigh",
            asList(IntType.v(), IntType.v()),
            IntType.v(),
            Modifier.ABSTRACT);
    this.testClass.addMethod(this.ignore0Low1ReturnHigh);
    sigCstrs = Stream.of(leS(param(1), literal(TLOW)), leS(literal(THIGH), ret()));
    sigMap.put(
        this.ignore0Low1ReturnHigh,
        makeSignature(
            this.ignore0Low1ReturnHigh.getParameterCount(),
            sigCstrs.collect(toList()),
            Effects.emptyEffect()));

    // freeze signatures
    this.signatures = makeTable(sigMap);
  }