def fire_lasers(
self,
modules: Optional[List[str]] = None,
transaction_count: Optional[int] = None,
) -> Report:
"""
:param modules: The analysis modules which should be executed
:param transaction_count: The amount of transactions to be executed
:return: The Report class which contains the all the issues/vulnerabilities
"""
all_issues = [] # type: List[Issue]
SolverStatistics().enabled = True
exceptions = []
for contract in self.contracts:
StartTime() # Reinitialize start time for new contracts
try:
sym = SymExecWrapper(
contract,
self.address,
self.strategy,
dynloader=DynLoader(
self.eth,
storage_loading=self.onchain_storage_access,
contract_loading=self.dynld,
),
max_depth=self.max_depth,
execution_timeout=self.execution_timeout,
loop_bound=self.loop_bound,
create_timeout=self.create_timeout,
transaction_count=transaction_count,
modules=modules,
compulsory_statespace=False,
enable_iprof=self.enable_iprof,
disable_dependency_pruning=self.disable_dependency_pruning,
)
issues = fire_lasers(sym, modules)
except KeyboardInterrupt:
log.critical("Keyboard Interrupt")
issues = retrieve_callback_issues(modules)
except Exception:
log.critical(
"Exception occurred, aborting analysis. Please report this issue to the Mythril GitHub page.\n"
+ traceback.format_exc())
issues = retrieve_callback_issues(modules)
exceptions.append(traceback.format_exc())
for issue in issues:
issue.add_code_info(contract)
all_issues += issues
log.info("Solver statistics: \n{}".format(str(SolverStatistics())))
source_data = Source()
source_data.get_source_from_contracts_list(self.contracts)
# Finally, output the results
report = Report(contracts=self.contracts, exceptions=exceptions)
for issue in all_issues:
report.append_issue(issue)
return report
def fire_lasers(self,
contracts=None,
address=None,
modules=None,
verbose_report=False,
max_depth=12):
all_issues = []
if self.dynld and self.eth is None:
self.set_api_rpc_infura()
for contract in (contracts or self.contracts):
sym = SymExecWrapper(
contract,
address,
dynloader=DynLoader(self.eth) if self.dynld else None,
max_depth=max_depth)
issues = fire_lasers(sym, modules)
if type(contract) == SolidityContract:
for issue in issues:
issue.add_code_info(contract)
all_issues += issues
# Finally, output the results
report = Report(verbose_report)
for issue in all_issues:
report.append_issue(issue)
return report
def analyze(self, address):
"""
Analyse a contract using mythril
:param address: Address of contract to analyse
:return: Findings
"""
# The followin code is kinda straight from mythril, thanks ;)
# Setup
code = self.eth.eth_getCode(address)
contract = ETHContract(code, name=address)
sym = SymExecWrapper(contract, address, dynloader=DynLoader(self.eth))
# Starting analysis
logging.debug(
"Firing lasers on contract with address: {}".format(address))
issues = fire_lasers(sym)
logging.debug("Found {} issues using mythril".format(len(issues)))
# Build findings
findings = []
for issue in issues:
findings += [
Finding("Mythril analysis", issue.title, issue.description,
issue.contract, issue.pc, issue.type)
]
return findings
def fire_lasers(
self,
strategy,
contracts=None,
address=None,
modules=None,
verbose_report=False,
max_depth=None,
execution_timeout=None,
):
all_issues = []
for contract in (contracts or self.contracts):
sym = SymExecWrapper(
contract,
address,
strategy,
dynloader=DynLoader(self.eth) if self.dynld else None,
max_depth=max_depth,
execution_timeout=execution_timeout)
issues = fire_lasers(sym, modules)
if type(contract) == SolidityContract:
for issue in issues:
issue.add_code_info(contract)
all_issues += issues
# Finally, output the results
report = Report(verbose_report)
for issue in all_issues:
report.append_issue(issue)
return report
def _generate_report(input_file):
contract = ETHContract(input_file.read_text())
sym = SymExecWrapper(contract, address=(util.get_indexed_address(0)))
issues = fire_lasers(sym)
report = Report()
for issue in issues:
issue.filename = "test-filename.sol"
report.append_issue(issue)
return report, input_file
def test_sym_exec():
contract = SolidityContract(
str(tests.TESTDATA_INPUTS_CONTRACTS / 'calls.sol'))
sym = SymExecWrapper(contract,
address=(util.get_indexed_address(0)),
strategy="dfs")
issues = fire_lasers(sym)
assert len(issues) != 0
def _generate_report(input_file):
contract = SolidityContract(str(input_file), name=None, solc_args=None)
sym = SymExecWrapper(contract, address=(util.get_indexed_address(0)))
issues = fire_lasers(sym)
report = Report()
for issue in issues:
issue.add_code_info(contract)
report.append_issue(issue)
return report
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
def _generate_report(input_file):
contract = ETHContract(input_file.read_text(), enable_online_lookup=False)
sym = SymExecWrapper(
contract,
address=(util.get_indexed_address(0)),
strategy="dfs",
execution_timeout=30,
)
issues = fire_lasers(sym)
report = Report()
for issue in issues:
issue.filename = "test-filename.sol"
report.append_issue(issue)
return report, input_file
def _generate_report(input_file):
contract = EVMContract(input_file.read_text(), enable_online_lookup=False)
sym = SymExecWrapper(
contract,
address=0xAFFEAFFEAFFEAFFEAFFEAFFEAFFEAFFEAFFEAFFE,
strategy="dfs",
execution_timeout=30,
transaction_count=1,
)
issues = fire_lasers(sym)
report = Report(contracts=[contract])
for issue in issues:
issue.filename = "test-filename.sol"
report.append_issue(issue)
return report, input_file
def fire_lasers(
self,
strategy,
contracts=None,
address=None,
modules=None,
verbose_report=False,
max_depth=None,
execution_timeout=None,
create_timeout=None,
max_transaction_count=None,
):
all_issues = []
for contract in contracts or self.contracts:
sym = SymExecWrapper(
contract,
address,
strategy,
dynloader=DynLoader(
self.eth,
storage_loading=self.onchain_storage_access,
contract_loading=self.dynld,
),
max_depth=max_depth,
execution_timeout=execution_timeout,
create_timeout=create_timeout,
max_transaction_count=max_transaction_count,
)
issues = fire_lasers(sym, modules)
if type(contract) == SolidityContract:
for issue in issues:
issue.add_code_info(contract)
all_issues += issues
# Finally, output the results
report = Report(verbose_report)
for issue in all_issues:
report.append_issue(issue)
return report
def fire_lasers(
self,
strategy,
contracts=None,
address=None,
modules=None,
verbose_report=False,
max_depth=None,
execution_timeout=None,
create_timeout=None,
transaction_count=None,
enable_iprof=False,
):
"""
:param strategy:
:param contracts:
:param address:
:param modules:
:param verbose_report:
:param max_depth:
:param execution_timeout:
:param create_timeout:
:param transaction_count:
:return:
"""
all_issues = []
for contract in contracts or self.contracts:
try:
sym = SymExecWrapper(
contract,
address,
strategy,
dynloader=DynLoader(
self.eth,
storage_loading=self.onchain_storage_access,
contract_loading=self.dynld,
),
max_depth=max_depth,
execution_timeout=execution_timeout,
create_timeout=create_timeout,
transaction_count=transaction_count,
modules=modules,
compulsory_statespace=False,
enable_iprof=enable_iprof,
)
issues = fire_lasers(sym, modules)
except KeyboardInterrupt:
log.critical("Keyboard Interrupt")
issues = retrieve_callback_issues(modules)
except Exception:
log.critical(
"Exception occurred, aborting analysis. Please report this issue to the Mythril GitHub page.\n"
+ traceback.format_exc())
issues = retrieve_callback_issues(modules)
for issue in issues:
issue.add_code_info(contract)
all_issues += issues
source_data = Source()
source_data.get_source_from_contracts_list(self.contracts)
# Finally, output the results
report = Report(verbose_report, source_data)
for issue in all_issues:
report.append_issue(issue)
return report
def analyze_truffle_project(args):
project_root = os.getcwd()
build_dir = os.path.join(project_root, "build", "contracts")
files = os.listdir(build_dir)
for filename in files:
if re.match(r'.*\.json$', filename) and filename != "Migrations.json":
with open(os.path.join(build_dir, filename)) as cf:
contractdata = json.load(cf)
try:
name = contractdata['contractName']
bytecode = contractdata['deployedBytecode']
except:
print(
"Unable to parse contract data. Please use Truffle 4 to compile your project."
)
sys.exit()
if (len(bytecode) < 4):
continue
ethcontract = ETHContract(bytecode, name=name)
address = util.get_indexed_address(0)
sym = SymExecWrapper(ethcontract, address, max_depth=10)
issues = fire_lasers(sym)
if not len(issues):
if (args.outform == 'text' or args.outform == 'markdown'):
print("# Analysis result for " + name +
"\n\nNo issues found.")
else:
result = {
'contract': name,
'result': {
'success': True,
'error': None,
'issues': []
}
}
print(json.dumps(result))
else:
report = Report()
# augment with source code
disassembly = ethcontract.disassembly
source = contractdata['source']
deployedSourceMap = contractdata['deployedSourceMap'].split(
";")
mappings = []
for item in deployedSourceMap:
mapping = item.split(":")
if len(mapping) > 0 and len(mapping[0]) > 0:
offset = int(mapping[0])
if len(mapping) > 1 and len(mapping[1]) > 0:
length = int(mapping[1])
if len(mapping) > 2 and len(mapping[2]) > 0:
idx = int(mapping[2])
lineno = source[0:offset].count('\n') + 1
mappings.append(SourceMapping(idx, offset, length, lineno))
for issue in issues:
index = helper.get_instruction_index(
disassembly.instruction_list, issue.address)
if index:
try:
offset = mappings[index].offset
length = mappings[index].length
issue.filename = filename
issue.code = source[offset:offset + length]
issue.lineno = mappings[index].lineno
except IndexError:
logging.debug("No code mapping at index %d", index)
report.append_issue(issue)
if (args.outform == 'json'):
result = {
'contract': name,
'result': {
'success': True,
'error': None,
'issues': list(map(lambda x: x.as_dict(), issues))
}
}
print(json.dumps(result))
else:
if (args.outform == 'text'):
print("# Analysis result for " + name + ":\n\n" +
report.as_text())
elif (args.outform == 'markdown'):
print(report.as_markdown())
def analyze_truffle_project():
project_root = os.getcwd()
build_dir = os.path.join(project_root, "build", "contracts")
files = os.listdir(build_dir)
for filename in files:
if re.match(r'.*\.json$', filename) and filename != "Migrations.json":
with open(os.path.join(build_dir, filename)) as cf:
contractdata = json.load(cf)
try:
name = contractdata['contractName']
bytecode = contractdata['deployedBytecode']
except:
print("Unable to parse contract data. Please use Truffle 4 to compile your project.")
sys.exit()
if (len(bytecode) < 4):
continue
ethcontract= ETHContract(bytecode, name=name, address = util.get_indexed_address(0))
contracts = [ethcontract]
states = StateSpace(contracts, max_depth = 10)
report = fire_lasers(states)
# augment with source code
disassembly = ethcontract.get_disassembly()
source = contractdata['source']
deployedSourceMap = contractdata['deployedSourceMap'].split(";")
mappings = []
i = 0
while(i < len(deployedSourceMap)):
m = re.search(r"^(\d+):*(\d+)", deployedSourceMap[i])
if (m):
offset = m.group(1)
length = m.group(2)
else:
m = re.search(r"^:(\d+)", deployedSourceMap[i])
if m:
length = m.group(1)
mappings.append((int(offset), int(length)))
i += 1
for key, issue in report.issues.items():
index = helper.get_instruction_index(disassembly.instruction_list, issue.pc)
if index:
issue.code_start = mappings[index][0]
issue.code_length = mappings[index][1]
issue.code = source[mappings[index][0]: mappings[index][0] + mappings[index][1]]
if len(report.issues):
print("Analysis result for " + name + ":\n" + report.as_text())
else:
print("Analysis result for " + name + ": No issues found.")
def main():
parser = argparse.ArgumentParser(
description='Security analysis of Ethereum smart contracts')
parser.add_argument("solidity_file", nargs='*')
commands = parser.add_argument_group('commands')
commands.add_argument('-g',
'--graph',
help='generate a control flow graph',
metavar='OUTPUT_FILE')
commands.add_argument(
'-x',
'--fire-lasers',
action='store_true',
help='detect vulnerabilities, use with -c, -a or solidity file(s)')
commands.add_argument(
'-t',
'--truffle',
action='store_true',
help='analyze a truffle project (run from project dir)')
commands.add_argument('-d',
'--disassemble',
action='store_true',
help='print disassembly')
commands.add_argument('-j',
'--statespace-json',
help='dumps the statespace json',
metavar='OUTPUT_FILE')
inputs = parser.add_argument_group('input arguments')
inputs.add_argument('-c',
'--code',
help='hex-encoded bytecode string ("6060604052...")',
metavar='BYTECODE')
inputs.add_argument('-a',
'--address',
help='pull contract from the blockchain',
metavar='CONTRACT_ADDRESS')
inputs.add_argument('-l',
'--dynld',
action='store_true',
help='auto-load dependencies from the blockchain')
outputs = parser.add_argument_group('output formats')
outputs.add_argument('-o',
'--outform',
choices=['text', 'markdown', 'json'],
default='text',
help='report output format',
metavar='<text/json>')
outputs.add_argument('--verbose-report',
action='store_true',
help='Include debugging information in report')
database = parser.add_argument_group('local contracts database')
database.add_argument('--init-db',
action='store_true',
help='initialize the contract database')
database.add_argument('-s',
'--search',
help='search the contract database',
metavar='EXPRESSION')
utilities = parser.add_argument_group('utilities')
utilities.add_argument('--hash',
help='calculate function signature hash',
metavar='SIGNATURE')
utilities.add_argument(
'--storage',
help='read state variables from storage index, use with -a',
metavar='INDEX,NUM_SLOTS,[array] / mapping,INDEX,[KEY1, KEY2...]')
utilities.add_argument(
'--solv',
help=
'specify solidity compiler version. If not present, will try to install it (Experimental)',
metavar='SOLV')
options = parser.add_argument_group('options')
options.add_argument(
'-m',
'--modules',
help='Comma-separated list of security analysis modules',
metavar='MODULES')
options.add_argument('--max-depth',
type=int,
default=12,
help='Maximum recursion depth for symbolic execution')
options.add_argument('--solc-args', help='Extra arguments for solc')
options.add_argument('--phrack',
action='store_true',
help='Phrack-style call graph')
options.add_argument('--enable-physics',
action='store_true',
help='enable graph physics simulation')
options.add_argument('-v',
type=int,
help='log level (0-2)',
metavar='LOG_LEVEL')
options.add_argument('--leveldb',
help='enable direct leveldb access operations',
metavar='LEVELDB_PATH')
rpc = parser.add_argument_group('RPC options')
rpc.add_argument('-i',
action='store_true',
help='Preset: Infura Node service (Mainnet)')
rpc.add_argument('--rpc',
help='custom RPC settings',
metavar='HOST:PORT / ganache / infura-[network_name]')
rpc.add_argument('--rpctls',
type=bool,
default=False,
help='RPC connection over TLS')
rpc.add_argument('--ipc',
action='store_true',
help='Connect via local IPC')
# Get config values
args = parser.parse_args()
try:
mythril_dir = os.environ['MYTHRIL_DIR']
except KeyError:
mythril_dir = os.path.join(os.path.expanduser('~'), ".mythril")
# Detect unsupported combinations of command line args
if args.dynld and not args.address:
exitWithError(
args.outform,
"Dynamic loader can be used in on-chain analysis mode only (-a).")
# Initialize data directory and signature database
if not os.path.exists(mythril_dir):
logging.info("Creating mythril data directory")
os.mkdir(mythril_dir)
# If no function signature file exists, create it. Function signatures from Solidity source code are added automatically.
signatures_file = os.path.join(mythril_dir, 'signatures.json')
sigs = {}
if not os.path.exists(signatures_file):
logging.info(
"No signature database found. Creating empty database: " +
signatures_file + "\n" +
"Consider replacing it with the pre-initialized database at https://raw.githubusercontent.com/ConsenSys/mythril/master/signatures.json"
)
with open(signatures_file, 'a') as f:
json.dump({}, f)
with open(signatures_file) as f:
try:
sigs = json.load(f)
except JSONDecodeError as e:
exitWithError(
args.outform, "Invalid JSON in signatures file " +
signatures_file + "\n" + str(e))
# Parse cmdline args
if not (args.search or args.init_db or args.hash or args.disassemble
or args.graph or args.fire_lasers or args.storage or args.truffle
or args.statespace_json):
parser.print_help()
sys.exit()
if args.v:
if 0 <= args.v < 3:
logging.basicConfig(
level=[logging.NOTSET, logging.INFO, logging.DEBUG][args.v])
else:
exitWithError(
args.outform,
"Invalid -v value, you can find valid values in usage")
if args.hash:
print("0x" + utils.sha3(args.hash)[:4].hex())
sys.exit()
if args.truffle:
try:
analyze_truffle_project(args)
except FileNotFoundError:
print(
"Build directory not found. Make sure that you start the analysis from the project root, and that 'truffle compile' has executed successfully."
)
sys.exit()
# Figure out solc binary and version
# Only proper versions are supported. No nightlies, commits etc (such as available in remix)
if args.solv:
version = args.solv
# tried converting input to semver, seemed not necessary so just slicing for now
if version == str(solc.main.get_solc_version())[:6]:
logging.info('Given version matches installed version')
try:
solc_binary = os.environ['SOLC']
except KeyError:
solc_binary = 'solc'
else:
if util.solc_exists(version):
logging.info('Given version is already installed')
else:
try:
solc.install_solc('v' + version)
except SolcError:
exitWithError(
args.outform,
"There was an error when trying to install the specified solc version"
)
solc_binary = os.path.join(os.environ['HOME'],
".py-solc/solc-v" + version, "bin/solc")
logging.info("Setting the compiler to " + str(solc_binary))
else:
try:
solc_binary = os.environ['SOLC']
except KeyError:
solc_binary = 'solc'
# Open LevelDB if specified
if args.leveldb:
ethDB = EthLevelDB(args.leveldb)
eth = ethDB
# Establish RPC/IPC connection if necessary
if (args.address or args.init_db) and not args.leveldb:
if args.i:
eth = EthJsonRpc('mainnet.infura.io', 443, True)
logging.info("Using INFURA for RPC queries")
elif args.rpc:
if args.rpc == 'ganache':
rpcconfig = ('localhost', 7545, False)
else:
m = re.match(r'infura-(.*)', args.rpc)
if m and m.group(1) in [
'mainnet', 'rinkeby', 'kovan', 'ropsten'
]:
rpcconfig = (m.group(1) + '.infura.io', 443, True)
else:
try:
host, port = args.rpc.split(":")
rpcconfig = (host, int(port), args.rpctls)
except ValueError:
exitWithError(
args.outform,
"Invalid RPC argument, use 'ganache', 'infura-[network]' or 'HOST:PORT'"
)
if (rpcconfig):
eth = EthJsonRpc(rpcconfig[0], int(rpcconfig[1]), rpcconfig[2])
logging.info("Using RPC settings: %s" % str(rpcconfig))
else:
exitWithError(args.outform,
"Invalid RPC settings, check help for details.")
elif args.ipc:
try:
eth = EthIpc()
except Exception as e:
exitWithError(
args.outform,
"IPC initialization failed. Please verify that your local Ethereum node is running, or use the -i flag to connect to INFURA. \n"
+ str(e))
else: # Default configuration if neither RPC or IPC are set
eth = EthJsonRpc('localhost', 8545)
logging.info("Using default RPC settings: http://localhost:8545")
# Database search ops
if args.search or args.init_db:
contract_storage, _ = get_persistent_storage(mythril_dir)
if args.search:
try:
if not args.leveldb:
contract_storage.search(args.search, searchCallback)
else:
ethDB.search(args.search, searchCallback)
except SyntaxError:
exitWithError(args.outform,
"Syntax error in search expression.")
elif args.init_db:
try:
contract_storage.initialize(eth)
except FileNotFoundError as e:
exitWithError(args.outform,
"Error syncing database over IPC: " + str(e))
except ConnectionError as e:
exitWithError(
args.outform,
"Could not connect to RPC server. Make sure that your node is running and that RPC parameters are set correctly."
)
sys.exit()
# Load / compile input contracts
contracts = []
address = None
if args.code:
address = util.get_indexed_address(0)
contracts.append(ETHContract(args.code, name="MAIN"))
# Get bytecode from a contract address
elif args.address:
address = args.address
if not re.match(r'0x[a-fA-F0-9]{40}', args.address):
exitWithError(
args.outform,
"Invalid contract address. Expected format is '0x...'.")
try:
code = eth.eth_getCode(args.address)
except FileNotFoundError as e:
exitWithError(args.outform, "IPC error: " + str(e))
except ConnectionError as e:
exitWithError(
args.outform,
"Could not connect to RPC server. Make sure that your node is running and that RPC parameters are set correctly."
)
except Exception as e:
exitWithError(args.outform, "IPC / RPC error: " + str(e))
else:
if code == "0x" or code == "0x0":
exitWithError(
args.outform,
"Received an empty response from eth_getCode. Check the contract address and verify that you are on the correct chain."
)
else:
contracts.append(ETHContract(code, name=args.address))
# Compile Solidity source file(s)
elif args.solidity_file:
address = util.get_indexed_address(0)
if args.graph and len(args.solidity_file) > 1:
exitWithError(
args.outform,
"Cannot generate call graphs from multiple input files. Please do it one at a time."
)
for file in args.solidity_file:
if ":" in file:
file, contract_name = file.split(":")
else:
contract_name = None
file = os.path.expanduser(file)
try:
signatures.add_signatures_from_file(file, sigs)
contract = SolidityContract(file,
contract_name,
solc_args=args.solc_args)
logging.info("Analyzing contract %s:%s" %
(file, contract.name))
except FileNotFoundError:
exitWithError(args.outform, "Input file not found: " + file)
except CompilerError as e:
exitWithError(args.outform, e)
except NoContractFoundError:
logging.info("The file " + file +
" does not contain a compilable contract.")
else:
contracts.append(contract)
# Save updated function signatures
with open(signatures_file, 'w') as f:
json.dump(sigs, f)
else:
exitWithError(
args.outform,
"No input bytecode. Please provide EVM code via -c BYTECODE, -a ADDRESS, or -i SOLIDITY_FILES"
)
# Commands
if args.storage:
if not args.address:
exitWithError(
args.outform,
"To read storage, provide the address of a deployed contract with the -a option."
)
else:
(position, length, mappings) = (0, 1, [])
try:
params = args.storage.split(",")
if params[0] == "mapping":
if len(params) < 3:
exitWithError(args.outform,
"Invalid number of parameters.")
position = int(params[1])
position_formatted = utils.zpad(
utils.int_to_big_endian(position), 32)
for i in range(2, len(params)):
key = bytes(params[i], 'utf8')
key_formatted = utils.rzpad(key, 32)
mappings.append(
int.from_bytes(utils.sha3(key_formatted +
position_formatted),
byteorder='big'))
length = len(mappings)
if length == 1:
position = mappings[0]
else:
if len(params) >= 4:
exitWithError(args.outform,
"Invalid number of parameters.")
if len(params) >= 1:
position = int(params[0])
if len(params) >= 2:
length = int(params[1])
if len(params) == 3 and params[2] == "array":
position_formatted = utils.zpad(
utils.int_to_big_endian(position), 32)
position = int.from_bytes(
utils.sha3(position_formatted), byteorder='big')
except ValueError:
exitWithError(
args.outform,
"Invalid storage index. Please provide a numeric value.")
try:
if length == 1:
print("{}: {}".format(
position, eth.eth_getStorageAt(args.address,
position)))
else:
if len(mappings) > 0:
for i in range(0, len(mappings)):
position = mappings[i]
print("{}: {}".format(
hex(position),
eth.eth_getStorageAt(args.address, position)))
else:
for i in range(position, position + length):
print("{}: {}".format(
hex(i), eth.eth_getStorageAt(args.address, i)))
except FileNotFoundError as e:
exitWithError(args.outform, "IPC error: " + str(e))
except ConnectionError as e:
exitWithError(
args.outform,
"Could not connect to RPC server. Make sure that your node is running and that RPC parameters are set correctly."
)
elif args.disassemble:
easm_text = contracts[0].get_easm()
sys.stdout.write(easm_text)
elif args.graph or args.fire_lasers:
if not contracts:
exitWithError(args.outform,
"input files do not contain any valid contracts")
if args.graph:
if args.dynld:
sym = SymExecWrapper(contracts[0],
address,
dynloader=DynLoader(eth),
max_depth=args.max_depth)
else:
sym = SymExecWrapper(contracts[0],
address,
max_depth=args.max_depth)
html = generate_graph(sym,
physics=args.enable_physics,
phrackify=args.phrack)
try:
with open(args.graph, "w") as f:
f.write(html)
except Exception as e:
exitWithError(args.outform, "Error saving graph: " + str(e))
else:
all_issues = []
for contract in contracts:
if args.dynld:
sym = SymExecWrapper(contract,
address,
dynloader=DynLoader(eth),
max_depth=args.max_depth)
else:
sym = SymExecWrapper(contract,
address,
max_depth=args.max_depth)
if args.modules:
issues = fire_lasers(sym, args.modules.split(","))
else:
issues = fire_lasers(sym)
if type(contract) == SolidityContract:
for issue in issues:
issue.add_code_info(contract)
all_issues += issues
# Finally, output the results
report = Report(args.verbose_report)
for issue in all_issues:
report.append_issue(issue)
outputs = {
'json':
report.as_json(),
'text':
report.as_text() or
"The analysis was completed successfully. No issues were detected.",
'markdown':
report.as_markdown() or
"The analysis was completed successfully. No issues were detected."
}
print(outputs[args.outform])
elif args.statespace_json:
if not contracts:
exitWithError(args.outform,
"input files do not contain any valid contracts")
if args.dynld:
sym = SymExecWrapper(contracts[0],
address,
dynloader=DynLoader(eth),
max_depth=args.max_depth)
else:
sym = SymExecWrapper(contracts[0],
address,
max_depth=args.max_depth)
try:
with open(args.statespace_json, "w") as f:
json.dump(get_serializable_statespace(sym), f)
except Exception as e:
exitWithError(args.outform, "Error saving json: " + str(e))
else:
parser.print_help()
def analyze_truffle_project(args):
project_root = os.getcwd()
build_dir = os.path.join(project_root, "build", "contracts")
files = os.listdir(build_dir)
for filename in files:
if re.match(r'.*\.json$', filename) and filename != "Migrations.json":
with open(os.path.join(build_dir, filename)) as cf:
contractdata = json.load(cf)
try:
name = contractdata['contractName']
bytecode = contractdata['deployedBytecode']
except:
print(
"Unable to parse contract data. Please use Truffle 4 to compile your project."
)
sys.exit()
if (len(bytecode) < 4):
continue
ethcontract = ETHContract(bytecode,
name=name,
address=util.get_indexed_address(0))
states = StateSpace([ethcontract], max_depth=10)
issues = fire_lasers(states)
if not len(issues):
if (args.outform == 'text' or args.outform == 'markdown'):
print("Analysis result for " + name + ": No issues found.")
else:
result = {
'contract': name,
'result': {
'success': True,
'error': None,
'issues': []
}
}
print(json.dumps(result))
else:
report = Report()
# augment with source code
disassembly = ethcontract.get_disassembly()
source = contractdata['source']
deployedSourceMap = contractdata['deployedSourceMap'].split(
";")
mappings = []
i = 0
for item in deployedSourceMap:
mapping = item.split(":")
if len(mapping) > 0 and len(mapping[0]) > 0:
offset = int(mapping[0])
if len(mapping) > 1 and len(mapping[1]) > 0:
length = int(mapping[1])
mappings.append((int(offset), int(length)))
for issue in issues:
index = helper.get_instruction_index(
disassembly.instruction_list, issue.pc)
if index:
issue.code_start = mappings[index][0]
issue.code_length = mappings[index][1]
issue.code = source[
mappings[index][0]:mappings[index][0] +
mappings[index][1]]
report.append_issue(issue)
if (args.outform == 'json'):
result = {
'contract': name,
'result': {
'success': True,
'error': None,
'issues': list(map(lambda x: x.as_dict(), issues))
}
}
print(json.dumps(result))
else:
if (args.outform == 'text'):
print("Analysis result for " + name + ":\n" +
report.as_text())
elif (args.outform == 'markdown'):
print("Analysis result for " + name + ":\n" +
report.as_markdown())
def analyze_truffle_project(sigs, args):
project_root = os.getcwd()
build_dir = os.path.join(project_root, "build", "contracts")
files = os.listdir(build_dir)
for filename in files:
if re.match(r".*\.json$", filename) and filename != "Migrations.json":
with open(os.path.join(build_dir, filename)) as cf:
contractdata = json.load(cf)
try:
name = contractdata["contractName"]
bytecode = contractdata["deployedBytecode"]
filename = PurePath(contractdata["sourcePath"]).name
except KeyError:
print(
"Unable to parse contract data. Please use Truffle 4 to compile your project."
)
sys.exit()
if len(bytecode) < 4:
continue
get_sigs_from_truffle(sigs, contractdata)
ethcontract = ETHContract(bytecode, name=name)
address = util.get_indexed_address(0)
sym = SymExecWrapper(
ethcontract,
address,
args.strategy,
max_depth=args.max_depth,
create_timeout=args.create_timeout,
execution_timeout=args.execution_timeout,
max_transaction_count=args.max_transaction_count,
)
issues = fire_lasers(sym)
if not len(issues):
if args.outform == "text" or args.outform == "markdown":
print("# Analysis result for " + name +
"\n\nNo issues found.")
else:
result = {
"contract": name,
"result": {
"success": True,
"error": None,
"issues": []
},
}
print(json.dumps(result))
else:
report = Report()
# augment with source code
deployed_disassembly = ethcontract.disassembly
constructor_disassembly = ethcontract.creation_disassembly
source = contractdata["source"]
deployed_source_map = contractdata["deployedSourceMap"].split(
";")
source_map = contractdata["sourceMap"].split(";")
deployed_mappings = get_mappings(source, deployed_source_map)
constructor_mappings = get_mappings(source, source_map)
for issue in issues:
if issue.function == "constructor":
mappings = constructor_mappings
disassembly = constructor_disassembly
else:
mappings = deployed_mappings
disassembly = deployed_disassembly
index = get_instruction_index(disassembly.instruction_list,
issue.address)
if index:
try:
offset = mappings[index].offset
length = mappings[index].length
issue.filename = filename
issue.code = source.encode("utf-8")[offset:offset +
length].decode(
"utf-8")
issue.lineno = mappings[index].lineno
except IndexError:
logging.debug("No code mapping at index %d", index)
report.append_issue(issue)
if args.outform == "json":
result = {
"contract": name,
"result": {
"success": True,
"error": None,
"issues": list(map(lambda x: x.as_dict, issues)),
},
}
print(json.dumps(result))
else:
if args.outform == "text":
print("# Analysis result for " + name + ":\n\n" +
report.as_text())
elif args.outform == "markdown":
print(report.as_markdown())
