import binascii import json from datetime import datetime from pathlib import Path import pytest from mythril.disassembler.disassembly import Disassembly from mythril.laser.ethereum.state.account import Account from mythril.laser.ethereum.state.world_state import WorldState from mythril.laser.ethereum.svm import LaserEVM from mythril.laser.ethereum.time_handler import time_handler from mythril.laser.ethereum.transaction.concolic import execute_message_call from mythril.laser.smt import Expression, symbol_factory from mythril.support.support_args import args evm_test_dir = Path(__file__).parent / "VMTests" test_types = [ "vmArithmeticTest", "vmBitwiseLogicOperation", "vmEnvironmentalInfo", "vmPushDupSwapTest", "vmTests", "vmSha3Test", "vmSystemOperations", "vmRandomTest", "vmIOandFlowOperations", ] tests_with_gas_support = ["gas0", "gas1"] tests_with_block_number_support = [ "BlockNumberDynamicJumpi0", "BlockNumberDynamicJumpi1", "BlockNumberDynamicJump0_jumpdest2", "DynamicJumpPathologicalTest0", "BlockNumberDynamicJumpifInsidePushWithJumpDest", "BlockNumberDynamicJumpiAfterStop", "BlockNumberDynamicJumpifInsidePushWithoutJumpDest", "BlockNumberDynamicJump0_jumpdest0", "BlockNumberDynamicJumpi1_jumpdest", "BlockNumberDynamicJumpiOutsideBoundary", "DynamicJumpJD_DependsOnJumps1", ] tests_with_log_support = ["log1MemExp"] tests_not_relevent = [ "loop_stacklimit_1020", # We won't be looping till 1020 as we have a max_depth "loop_stacklimit_1021", ] tests_to_resolve = ["jumpTo1InstructionafterJump", "sstore_load_2", "jumpi_at_the_end"] ignored_test_names = ( tests_with_gas_support + tests_with_log_support + tests_with_block_number_support + tests_with_block_number_support + tests_not_relevent + tests_to_resolve ) def load_test_data(designations): """ :param designations: :return: """ return_data = [] for designation in designations: for file_reference in (evm_test_dir / designation).iterdir(): with file_reference.open() as file: top_level = json.load(file) for test_name, data in top_level.items(): pre_condition = data["pre"] action = data["exec"] gas_before = int(action["gas"], 16) gas_after = data.get("gas") gas_used = ( gas_before - int(gas_after, 16) if gas_after is not None else None ) post_condition = data.get("post", {}) environment = data.get("env") return_data.append( ( test_name, environment, pre_condition, action, gas_used, post_condition, ) ) return return_data @pytest.mark.parametrize( "test_name, environment, pre_condition, action, gas_used, post_condition", load_test_data(test_types), ) def test_vmtest( test_name: str, environment: dict, pre_condition: dict, action: dict, gas_used: int, post_condition: dict, ) -> None: # Arrange if test_name in ignored_test_names: return world_state = WorldState() args.unconstrained_storage = False args.pruning_factor = 1 for address, details in pre_condition.items(): account = Account(address, concrete_storage=True) account.code = Disassembly(details["code"][2:]) account.nonce = int(details["nonce"], 16) for key, value in details["storage"].items(): key_bitvec = symbol_factory.BitVecVal(int(key, 16), 256) account.storage[key_bitvec] = symbol_factory.BitVecVal(int(value, 16), 256) world_state.put_account(account) account.set_balance(int(details["balance"], 16)) time_handler.start_execution(10000) laser_evm = LaserEVM() laser_evm.open_states = [world_state] # Act laser_evm.time = datetime.now() final_states = execute_message_call( laser_evm, callee_address=symbol_factory.BitVecVal(int(action["address"], 16), 256), caller_address=symbol_factory.BitVecVal(int(action["caller"], 16), 256), origin_address=symbol_factory.BitVecVal(int(action["origin"], 16), 256), code=action["code"][2:], gas_limit=int(action["gas"], 16), data=binascii.a2b_hex(action["data"][2:]), gas_price=int(action["gasPrice"], 16), value=int(action["value"], 16), track_gas=True, ) # Assert if gas_used is not None and gas_used < int(environment["currentGasLimit"], 16): # avoid gas usage larger than block gas limit # this currently exceeds our estimations gas_min_max = [ (s.mstate.min_gas_used, s.mstate.max_gas_used) for s in final_states ] gas_ranges = [g[0] <= gas_used for g in gas_min_max] assert all(map(lambda g: g[0] <= g[1], gas_min_max)) assert any(gas_ranges) if post_condition == {}: # no more work to do if error happens or out of gas assert len(laser_evm.open_states) == 0 else: assert len(laser_evm.open_states) == 1 world_state = laser_evm.open_states[0] for address, details in post_condition.items(): account = world_state[symbol_factory.BitVecVal(int(address, 16), 256)] assert account.nonce == int(details["nonce"], 16) assert account.code.bytecode == details["code"][2:] for index, value in details["storage"].items(): expected = int(value, 16) actual = account.storage[symbol_factory.BitVecVal(int(index, 16), 256)] if isinstance(actual, Expression): actual = actual.value actual = 1 if actual is True else 0 if actual is False else actual else: if isinstance(actual, bytes): actual = int(binascii.b2a_hex(actual), 16) elif isinstance(actual, str): actual = int(actual, 16) assert actual == expected