public static int getSymbolicIntegerValue(MJIEnv env, int objRef, int v) {
    Object[] attrs = env.getArgAttributes();

    IntegerExpression sym_arg = (IntegerExpression) attrs[0];
    if (sym_arg != null) return env.newString(sym_arg.toString());
    else return env.newString(Integer.toString(v));
  }
Пример #2
0
Файл: IOR.java Проект: null3/jpf
  @Override
  public Instruction execute(ThreadInfo th) {
    StackFrame sf = th.getModifiableTopFrame();
    IntegerExpression sym_v1 = (IntegerExpression) sf.getOperandAttr(0);
    IntegerExpression sym_v2 = (IntegerExpression) sf.getOperandAttr(1);

    if (sym_v1 == null && sym_v2 == null)
      return super.execute(th); // we'll still do the concrete execution
    else {
      int v1 = sf.pop();
      int v2 = sf.pop();
      sf.push(0, false); // for symbolic expressions, the concrete value does not matter

      IntegerExpression result = null;
      if (sym_v1 != null) {
        if (sym_v2 != null) result = sym_v1._or(sym_v2);
        else // v2 is concrete
        result = sym_v1._or(v2);
      } else if (sym_v2 != null) result = sym_v2._or(v1);
      sf.setOperandAttr(result);

      // System.out.println("Execute IADD: "+result);

      return getNext(th);
    }
  }
Пример #3
0
  @Override
  public Instruction execute(ThreadInfo th) {
    StackFrame sf = th.getModifiableTopFrame();
    IntegerExpression sym_v1 = (IntegerExpression) sf.getOperandAttr(0);
    IntegerExpression sym_v2 = (IntegerExpression) sf.getOperandAttr(1);
    int v1, v2;

    if (sym_v1 == null && sym_v2 == null)
      return super.execute(th); // we'll still do the concrete execution

    // result is symbolic

    if (sym_v1 == null && sym_v2 != null) {
      v1 = sf.pop();
      v2 = sf.pop();
      if (v1 == 0) return th.createAndThrowException("java.lang.ArithmeticException", "div by 0");
      sf.push(0, false);
      IntegerExpression result = sym_v2._div(v1);
      sf.setOperandAttr(result);
      return getNext(th);
    }

    // div by zero check affects path condition
    // sym_v1 is non-null and should be checked against zero

    ChoiceGenerator<?> cg;
    boolean condition;

    if (!th.isFirstStepInsn()) { // first time around
      cg = new PCChoiceGenerator(2);
      ((PCChoiceGenerator) cg).setOffset(this.position);
      ((PCChoiceGenerator) cg).setMethodName(this.getMethodInfo().getFullName());
      th.getVM().setNextChoiceGenerator(cg);
      return this;
    } else { // this is what really returns results
      cg = th.getVM().getChoiceGenerator();
      assert (cg instanceof PCChoiceGenerator) : "expected PCChoiceGenerator, got: " + cg;
      condition = (Integer) cg.getNextChoice() == 0 ? false : true;
    }

    v1 = sf.pop();
    v2 = sf.pop();
    sf.push(0, false);

    PathCondition pc;
    ChoiceGenerator<?> prev_cg = cg.getPreviousChoiceGeneratorOfType(PCChoiceGenerator.class);

    if (prev_cg == null) pc = new PathCondition();
    else pc = ((PCChoiceGenerator) prev_cg).getCurrentPC();

    assert pc != null;

    if (condition) { // check div by zero
      pc._addDet(Comparator.EQ, sym_v1, 0);
      if (pc.simplify()) { // satisfiable
        ((PCChoiceGenerator) cg).setCurrentPC(pc);

        return th.createAndThrowException("java.lang.ArithmeticException", "div by 0");
      } else {
        th.getVM().getSystemState().setIgnored(true);
        return getNext(th);
      }
    } else {
      pc._addDet(Comparator.NE, sym_v1, 0);
      if (pc.simplify()) { // satisfiable
        ((PCChoiceGenerator) cg).setCurrentPC(pc);

        // set the result
        IntegerExpression result;
        if (sym_v2 != null) result = sym_v2._div(sym_v1);
        else result = sym_v1._div_reverse(v2);

        sf = th.getModifiableTopFrame();
        sf.setOperandAttr(result);
        return getNext(th);

      } else {
        th.getVM().getSystemState().setIgnored(true);
        return getNext(th);
      }
    }
  }