from mythril.laser.smt import Solver, symbol_factory, bitvec import z3 import pytest import operator @pytest.mark.parametrize( "operation,expected", [ (operator.add, z3.unsat), (operator.sub, z3.unsat), (operator.and_, z3.sat), (operator.or_, z3.sat), (operator.xor, z3.unsat), ], ) def test_bitvecfunc_arithmetic(operation, expected): # Arrange s = Solver() input_ = symbol_factory.BitVecVal(1, 8) bvf = symbol_factory.BitVecFuncSym("bvf", "sha3", 256, input_=input_) x = symbol_factory.BitVecSym("x", 256) y = symbol_factory.BitVecSym("y", 256) # Act s.add(x != y) s.add(operation(bvf, x) == operation(y, bvf)) # Assert assert s.check() == expected @pytest.mark.parametrize( "operation,expected", [ (operator.eq, z3.sat), (operator.ne, z3.unsat), (operator.lt, z3.unsat), (operator.le, z3.sat), (operator.gt, z3.unsat), (operator.ge, z3.sat), (bitvec.UGT, z3.unsat), (bitvec.UGE, z3.sat), (bitvec.ULT, z3.unsat), (bitvec.ULE, z3.sat), ], ) def test_bitvecfunc_bitvecfunc_comparison(operation, expected): # Arrange s = Solver() input1 = symbol_factory.BitVecSym("input1", 256) input2 = symbol_factory.BitVecSym("input2", 256) bvf1 = symbol_factory.BitVecFuncSym("bvf1", "sha3", 256, input_=input1) bvf2 = symbol_factory.BitVecFuncSym("bvf2", "sha3", 256, input_=input2) # Act s.add(operation(bvf1, bvf2)) s.add(input1 == input2) # Assert assert s.check() == expected def test_bitvecfunc_bitvecfuncval_comparison(): # Arrange s = Solver() input1 = symbol_factory.BitVecSym("input1", 256) input2 = symbol_factory.BitVecVal(1337, 256) bvf1 = symbol_factory.BitVecFuncSym("bvf1", "sha3", 256, input_=input1) bvf2 = symbol_factory.BitVecFuncVal(12345678910, "sha3", 256, input_=input2) # Act s.add(bvf1 == bvf2) # Assert assert s.check() == z3.sat assert s.model().eval(input2.raw) == 1337