Security analysis tool for EVM bytecode. Supports smart contracts built for Ethereum, Hedera, Quorum, Vechain, Roostock, Tron and other EVM-compatible blockchains.
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mythril/tests/native_test.py

106 lines
3.6 KiB

from mythril.solidity.soliditycontract import SolidityContract
from mythril.mythril import Mythril
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 import svm
from tests import *
SHA256_TEST = [(0, False) for _ in range(4)]
RIPEMD160_TEST = [(0, False) for _ in range(2)]
ECRECOVER_TEST = [(0, False) for _ in range(2)]
IDENTITY_TEST = [(0, False) for _ in range(2)]
# These are Random numbers to check whether the 'if condition' is entered or not
# (True means entered)
SHA256_TEST[0] = (hex(5555555555555555), True)
SHA256_TEST[1] = (hex(323232325445454546), True)
SHA256_TEST[2] = (hex(34756834765834658), True)
SHA256_TEST[3] = (hex(8756476956956795876987), True)
RIPEMD160_TEST[0] = (hex(999999999999999999993), True)
RIPEMD160_TEST[1] = (hex(1111111111112), True)
ECRECOVER_TEST[0] = (hex(674837568743979857398564869), True)
ECRECOVER_TEST[1] = (hex(3487683476979311), False)
IDENTITY_TEST[0] = (hex(87426857369875698), True)
IDENTITY_TEST[1] = (hex(476934798798347), False)
def _all_info(laser):
accounts = {}
for address, _account in laser.world_state.accounts.items():
account = _account.as_dict
account["code"] = account["code"].instruction_list
account["balance"] = str(account["balance"])
accounts[address] = account
nodes = {}
for uid, node in laser.nodes.items():
states = []
for state in node.states:
if isinstance(state, MachineState):
states.append(state.as_dict)
elif isinstance(state, GlobalState):
environment = state.environment.as_dict
environment["active_account"] = environment["active_account"].address
states.append(
{
"accounts": state.accounts.keys(),
"environment": environment,
"mstate": state.mstate.as_dict,
}
)
nodes[uid] = {
"uid": node.uid,
"contract_name": node.contract_name,
"start_addr": node.start_addr,
"states": states,
"constraints": node.constraints,
"function_name": node.function_name,
"flags": str(node.flags),
}
edges = [edge.as_dict for edge in laser.edges]
return {
"accounts": accounts,
"nodes": nodes,
"edges": edges,
"total_states": laser.total_states,
"max_depth": laser.max_depth,
}
def _test_natives(laser_info, test_list, test_name):
success = 0
for i, j in test_list:
if (str(i) in laser_info or str(int(i, 16)) in laser_info) == j:
success += 1
else:
print("Failed:", str(int(i, 16)), str(j))
assert success == len(test_list)
class NativeTests(BaseTestCase):
@staticmethod
def runTest():
disassembly = SolidityContract(
"./tests/native_tests.sol", solc_binary=Mythril._init_solc_binary("0.4.24")
).disassembly
account = Account("0x0000000000000000000000000000000000000000", disassembly)
accounts = {account.address: account}
laser = svm.LaserEVM(accounts, max_depth=100, transaction_count=1)
laser.sym_exec(account.address)
laser_info = str(_all_info(laser))
print(laser_info)
_test_natives(laser_info, SHA256_TEST, "SHA256")
_test_natives(laser_info, RIPEMD160_TEST, "RIPEMD160")
_test_natives(laser_info, ECRECOVER_TEST, "ECRECOVER")
_test_natives(laser_info, IDENTITY_TEST, "IDENTITY")