from mythril . mythril import Mythril
from mythril . laser . ethereum . transaction import execute_contract_creation
from mythril . ethereum import util
import mythril . laser . ethereum . svm as svm
from mythril . disassembler . disassembly import Disassembly
from datetime import datetime
from mythril . solidity . soliditycontract import SolidityContract
import tests
from mythril . analysis . security import fire_lasers
from mythril . analysis . symbolic import SymExecWrapper
def test_create ( ) :
contract = SolidityContract (
str ( tests . TESTDATA_INPUTS_CONTRACTS / " calls.sol " ) ,
solc_binary = Mythril . _init_solc_binary ( " 0.5.0 " ) ,
)
laser_evm = svm . LaserEVM ( { } )
laser_evm . time = datetime . now ( )
execute_contract_creation ( laser_evm , contract . creation_code )
resulting_final_state = laser_evm . open_states [ 0 ]
for address , created_account in resulting_final_state . accounts . items ( ) :
created_account_code = created_account . code
actual_code = Disassembly ( contract . code )
for i in range ( len ( created_account_code . instruction_list ) ) :
found_instruction = created_account_code . instruction_list [ i ]
actual_instruction = actual_code . instruction_list [ i ]
assert found_instruction [ " opcode " ] == actual_instruction [ " opcode " ]
def test_sym_exec ( ) :
contract = SolidityContract (
str ( tests . TESTDATA_INPUTS_CONTRACTS / " calls.sol " ) ,
solc_binary = Mythril . _init_solc_binary ( " 0.5.0 " ) ,
)
sym = SymExecWrapper (
contract , address = ( util . get_indexed_address ( 0 ) ) , strategy = " dfs "
)
issues = fire_lasers ( sym )
assert len ( issues ) != 0