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/myth

461 lines
17 KiB

#!/usr/bin/env python3
"""mythril.py: Bug hunting on the Ethereum blockchain
http://www.github.com/b-mueller/mythril
"""
from mythril.ether import util
from mythril.ether.contractstorage import get_persistent_storage
from mythril.ether.ethcontract import ETHContract
from mythril.ether.soliditycontract import SolidityContract
from mythril.rpc.client import EthJsonRpc
from mythril.ipc.client import EthIpc
from mythril.rpc.exceptions import ConnectionError
from mythril.support import signatures
from mythril.support.truffle import analyze_truffle_project
from mythril.support.loader import DynLoader
from mythril.exceptions import CompilerError, NoContractFoundError
from mythril.analysis.symbolic import SymExecWrapper
from mythril.analysis.callgraph import generate_graph
from mythril.analysis.security import fire_lasers
from mythril.analysis.report import Report
from laser.ethereum import helper
from web3 import Web3
from ethereum import utils
from pathlib import Path
from json.decoder import JSONDecodeError
from solc.exceptions import SolcError
import solc
import logging
import json
import sys
import argparse
import os
import re
def searchCallback(code_hash, code, addresses, balances):
print("Matched contract with code hash " + code_hash)
for i in range(0, len(addresses)):
print("Address: " + addresses[i] + ", balance: " + str(balances[i]))
def exitWithError(format, message):
if (format == 'text' or format == 'markdown'):
print(message)
else:
result = {'success': False, 'error': str(message), 'issues': []}
print(json.dumps(result))
sys.exit()
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)')
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')
inputs = parser.add_argument_group('output formats')
inputs.add_argument('-o', '--outform', choices=['text', 'markdown', 'json'], default='text', help='report output format', metavar='<text/json>')
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('-d', '--disassemble', action='store_true', help='print disassembly')
utilities.add_argument('--xrefs', action='store_true', help='get xrefs from a contract')
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]')
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('--sync-all', action='store_true', help='Also sync contracts with zero balance')
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('--enable-physics', type=bool, default=False, help='enable graph physics simulation')
options.add_argument('-v', type=int, help='log level (0-2)', metavar='LOG_LEVEL')
rpc = parser.add_argument_group('RPC options')
rpc.add_argument('--rpc', help='connect via RPC', metavar='HOST:PORT')
rpc.add_argument('--rpctls', type=bool, default=False, help='RPC connection over TLS')
rpc.add_argument('--ganache', action='store_true', help='Preset: local Ganache')
rpc.add_argument('--infura-mainnet', action='store_true', help='Preset: Infura Node service (Mainnet)')
rpc.add_argument('--infura-rinkeby', action='store_true', help='Preset: Infura Node service (Rinkeby)')
rpc.add_argument('--infura-kovan', action='store_true', help='Preset: Infura Node service (Kovan)')
rpc.add_argument('--infura-ropsten', action='store_true', help='Preset: Infura Node service (Ropsten)')
# 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")
# Initialize data directry and singature 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')
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")
sigs = {}
with open(signatures_file, 'a') as f:
json.dump({}, f)
else:
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.xrefs or args.fire_lasers or args.storage or args.truffle):
parser.print_help()
sys.exit()
if (args.v):
if (0 <= args.v < 3):
logging.basicConfig(level=[logging.NOTSET, logging.INFO, logging.DEBUG][args.v])
elif (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')
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.install_solc('v' + 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))
except SolcError:
exitWithError(args.outform, "There was an error when trying to install the specified solc version")
else:
if not args.solv:
try:
solc_binary = os.environ['SOLC']
except KeyError:
try:
solc_binary = 'solc'
except:
exitWithError('No solidity compiler found, please make sure it is installed or specify it manually.')
# Establish RPC/IPC connection if necessary
if (args.address or len(args.solidity_file) or args.init_db):
if args.infura_mainnet:
eth = EthJsonRpc('mainnet.infura.io', 443, True)
elif args.infura_rinkeby:
eth = EthJsonRpc('rinkeby.infura.io', 443, True)
elif args.infura_kovan:
eth = EthJsonRpc('kovan.infura.io', 443, True)
elif args.infura_ropsten:
eth = EthJsonRpc('ropsten.infura.io', 443, True)
elif args.ganache:
eth = EthJsonRpc('localhost', 7545, False)
elif args.rpc:
try:
host, port = args.rpc.split(":")
except ValueError:
exitWithError(args.outform, "Invalid RPC argument, use HOST:PORT")
tls = args.rpctls
eth = EthJsonRpc(host, int(port), tls)
else:
eth = EthIpc()
# Database search ops
if args.search or args.init_db:
contract_storage = get_persistent_storage(mythril_dir)
if (args.search):
try:
contract_storage.search(args.search, searchCallback)
except SyntaxError:
exitWithError(args.outform, "Syntax error in search expression.")
elif (args.init_db):
try:
contract_storage.initialize(eth, args.sync_all)
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 = []
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)
if (code == "0x"):
exitWithError(args.outform, "Received an empty response from eth_getCode. Check the contract address and verify that you are on the correct chain.")
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))
contracts.append(ETHContract(code, name=args.address))
# Compile Solidity source file(s)
elif (len(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 = file.replace("~", str(Path.home())) # Expand user path
try:
signatures.add_signatures_from_file(file, sigs) # Parse file for new function signatures
contract = SolidityContract(file, contract_name, solc_args=args.solc_args)
logging.info("Analyzing contract %s:%s" % (file, contract.name))
contracts.append(contract)
except CompilerError as e:
exitWithError(args.outform, e)
except NoContractFoundError:
logging.info("The file " + file + " does not contain a compilable contract.")
except FileNotFoundError:
exitWithError(args.outform, "Input file not found: " + file)
# 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 = 0
length = 1
array = 0
try:
params = (args.storage).split(",")
if len(params) >= 1 and len(params) <= 3:
position = int(params[0])
if len(params) >= 2 and len(params) <= 3:
length = int(params[1])
if len(params) == 3:
if re.match("array", params[2]):
array = 1
if len(params) >= 4:
exitWithError(args.outform, "Invalid number of parameters.")
except ValueError:
exitWithError(args.outform, "Invalid storage index. Please provide a numeric value.")
if array:
position_formated = str(position).zfill(64)
position = int(Web3.sha3(position_formated), 16)
try:
if length == 1:
print("{}: ".format(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.xrefs):
print("\n".join(contracts[0].get_xrefs()))
elif (args.graph) or (args.fire_lasers):
if not len(contracts):
exitWithError(args.outform, "input files do not contain any valid contracts")
if (args.graph):
# try:
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)
# except:
# exitWithError(args.outform, "Symbolic execution error: " + str(e))
if args.enable_physics is not None:
physics = True
html = generate_graph(sym, args.enable_physics)
try:
with open(args.graph, "w") as f:
f.write(html)
except Exception as e:
exitWithError(args.outform, "Error saving graph: " + str(e))
else:
_issues = []
report = Report()
for contract in contracts:
# try:
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)
# except Exception as e:
# exitWithError(args.outform, "Symbolic exection error: " + str(e))
issues = fire_lasers(sym)
if len(issues):
# Append source code info for SolidityContract
if (type(contract) == SolidityContract):
disassembly = contract.get_disassembly()
for issue in issues:
if (issue.pc):
index = helper.get_instruction_index(disassembly.instruction_list, issue.pc)
solidity_file = contract.solidity_files[contract.mappings[index].solidity_file_idx]
issue.filename = solidity_file.filename
offset = contract.mappings[index].offset
length = contract.mappings[index].length
issue.code = solidity_file.data[offset:offset + length]
issue.lineno = contract.mappings[index].lineno
for issue in issues:
report.append_issue(issue) # For text and markdown output
_issues.append(issue.as_dict()) # List of dicts for JSON output
# Finally, output the results
if (len(_issues)):
if (args.outform == 'json'):
result = {'success': True, 'error': None, 'issues': _issues}
print(json.dumps(result))
else:
if (args.outform == 'text'):
print(report.as_text())
elif (args.outform == 'markdown'):
print(report.as_markdown())
else:
if (args.outform == 'text' or args.outform == 'markdown'):
print("The analysis was completed successfully. No issues were detected.")
else:
result = {'success': True, 'error': None, 'issues': []}
print(json.dumps(result))
else:
parser.print_help()