import pytest from mock import patch from mythril.disassembler.disassembly import Disassembly from mythril.laser.smt import symbol_factory from mythril.laser.ethereum.state.environment import Environment from mythril.laser.ethereum.state.account import Account from mythril.laser.ethereum.state.machine_state import MachineState from mythril.laser.ethereum.state.global_state import GlobalState from mythril.laser.ethereum.state.world_state import WorldState from mythril.laser.ethereum.instructions import Instruction from mythril.laser.ethereum.transaction.transaction_models import MessageCallTransaction from mythril.laser.ethereum.call import SymbolicCalldata from mythril.laser.ethereum.transaction import TransactionStartSignal from mythril.laser.ethereum.evm_exceptions import WriteProtection def get_global_state(): active_account = Account("0x0", code=Disassembly("60606040")) environment = Environment( active_account, None, SymbolicCalldata("2"), None, None, None, None ) world_state = WorldState() world_state.put_account(active_account) state = GlobalState(world_state, environment, None, MachineState(gas_limit=8000000)) state.transaction_stack.append( (MessageCallTransaction(world_state=world_state, gas_limit=8000000), None) ) return state @patch( "mythril.laser.ethereum.instructions.get_call_parameters", return_value=( "0", Account(code=Disassembly(code="0x00"), address="0x19"), 0, 0, 0, 0, 0, ), ) def test_staticcall(f1): # Arrange state = get_global_state() state.mstate.stack = [10, 10, 10, 10, 10, 10, 10, 10, 0] instruction = Instruction("staticcall", dynamic_loader=None) # Act and Assert with pytest.raises(TransactionStartSignal) as ts: instruction.evaluate(state) assert ts.value.transaction.static assert ts.value.transaction.initial_global_state().environment.static test_data = ( "selfdestruct", "create", "create2", "log0", "log1", "log2", "log3", "log4", "sstore", ) @pytest.mark.parametrize("input", test_data) def test_staticness(input): # Arrange state = get_global_state() state.environment.static = True state.mstate.stack = [] instruction = Instruction(input, dynamic_loader=None) # Act and Assert with pytest.raises(WriteProtection): instruction.evaluate(state) test_data_call = ((0, True), (100, False)) @pytest.mark.parametrize("input, success", test_data_call) @patch("mythril.laser.ethereum.instructions.get_call_parameters") def test_staticness_call_concrete(f1, input, success): # Arrange state = get_global_state() state.environment.static = True state.mstate.stack = [10] * 100 code = Disassembly(code="616263") f1.return_value = ("0", Account(code=code, address="0x19"), 0, input, 0, 0, 0) instruction = Instruction("call", dynamic_loader=None) # Act and Assert if success: with pytest.raises(TransactionStartSignal) as ts: instruction.evaluate(state) assert ts.value.transaction.static else: with pytest.raises(WriteProtection): instruction.evaluate(state) @patch("mythril.laser.ethereum.instructions.get_call_parameters") def test_staticness_call_symbolic(f1): # Arrange state = get_global_state() state.environment.static = True state.mstate.stack = [10] * 100 call_value = symbol_factory.BitVecSym("x", 256) code = Disassembly(code="616263") f1.return_value = ("0", Account(code=code, address="0x19"), 0, call_value, 0, 0, 0) instruction = Instruction("call", dynamic_loader=None) # Act and Assert with pytest.raises(TransactionStartSignal) as ts: instruction.evaluate(state) assert ts.value.transaction.static assert ts.value.global_state.world_state.constraints[-1] == (call_value == 0)