def test_arithmetic_simplify(self): cs = ConstraintSet() arr = cs.new_array(name="MEM") a = cs.new_bitvec(32, name="VARA") b = cs.new_bitvec(32, name="VARB") c = a * 2 + b self.assertEqual(translate_to_smtlib(c), "(bvadd (bvmul VARA #x00000002) VARB)") self.assertEqual( translate_to_smtlib((c + 4) - 4), "(bvsub (bvadd (bvadd (bvmul VARA #x00000002) VARB) #x00000004) #x00000004)", ) d = c + 4 s = arithmetic_simplify(d - c) self.assertIsInstance(s, Constant) self.assertEqual(s.value, 4) # size = arithmetic_simplify(size cs2 = ConstraintSet() exp = cs2.new_bitvec(32) exp |= 0 exp &= 1 exp |= 0 self.assertEqual(get_depth(exp), 4) self.assertEqual( translate_to_smtlib(exp), "(bvor (bvand (bvor BIVEC #x00000000) #x00000001) #x00000000)" ) exp = arithmetic_simplify(exp) self.assertTrue(get_depth(exp) < 4) self.assertEqual(translate_to_smtlib(exp), "(bvand BIVEC #x00000001)")
def test_visitors(self): solver = Z3Solver.instance() cs = ConstraintSet() arr = cs.new_array(name="MEM") a = cs.new_bitvec(32, name="VAR") self.assertEqual(get_depth(a), 1) cond = Operators.AND(a < 200, a > 100) arr[0] = ord("a") arr[1] = ord("b") self.assertEqual(get_depth(cond), 3) self.assertEqual(get_depth(arr[a + 1]), 4) self.assertEqual( translate_to_smtlib(arr[a + 1]), "(select (store (store MEM #x00000000 #x61) #x00000001 #x62) (bvadd VAR #x00000001))", ) arr[3] = arr[a + 1] aux = arr[a + Operators.ZEXTEND(arr[a], 32)] self.assertEqual(get_depth(aux), 9) self.maxDiff = 1500 self.assertEqual( translate_to_smtlib(aux), "(select (store (store (store MEM #x00000000 #x61) #x00000001 #x62) #x00000003 (select (store (store MEM #x00000000 #x61) #x00000001 #x62) (bvadd VAR #x00000001))) (bvadd VAR ((_ zero_extend 24) (select (store (store (store MEM #x00000000 #x61) #x00000001 #x62) #x00000003 (select (store (store MEM #x00000000 #x61) #x00000001 #x62) (bvadd VAR #x00000001))) VAR))))", ) values = arr[0:2] self.assertEqual(len(values), 2) self.assertItemsEqual(solver.get_all_values(cs, values[0]), [ord("a")]) self.assertItemsEqual(solver.get_all_values(cs, values[1]), [ord("b")]) arr[1:3] = "cd" values = arr[0:3] self.assertEqual(len(values), 3) self.assertItemsEqual(solver.get_all_values(cs, values[0]), [ord("a")]) self.assertItemsEqual(solver.get_all_values(cs, values[1]), [ord("c")]) self.assertItemsEqual(solver.get_all_values(cs, values[2]), [ord("d")]) self.assertEqual( pretty_print(aux, depth=2), "ArraySelect\n ArrayStore\n ...\n BitVecAdd\n ...\n") self.assertEqual(pretty_print(Operators.EXTRACT(a, 0, 8), depth=1), "BitVecExtract{0:7}\n ...\n") self.assertEqual(pretty_print(a, depth=2), "VAR\n") x = BitVecConstant(32, 100, taint=("important", )) y = BitVecConstant(32, 200, taint=("stuff", )) z = constant_folder(x + y) self.assertItemsEqual(z.taint, ("important", "stuff")) self.assertEqual(z.value, 300) self.assertRaises(Exception, translate_to_smtlib, 1) self.assertEqual( translate_to_smtlib(simplify(Operators.ZEXTEND(a, 32))), "VAR") self.assertEqual( translate_to_smtlib( simplify(Operators.EXTRACT(Operators.EXTRACT(a, 0, 8), 0, 8))), "((_ extract 7 0) VAR)", )