#!/usr/bin/env python3 # # mmgen = Multi-Mode GENerator, command-line Bitcoin cold storage solution # Copyright (C)2013-2023 The MMGen Project # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """ test/gentest.py: Cryptocoin key/address generation tests for the MMGen suite """ import sys,os,time try: from include import test_init except ImportError: from test.include import test_init # Import these _after_ local path's been added to sys.path from mmgen.cfg import gc,Config from mmgen.color import green,red,purple from mmgen.util import msg,ymsg,capfirst,is_int,die results_file = 'gentest.out.json' rounds = 100 opts_data = { 'text': { 'desc': 'Test key/address generation of the MMGen suite in various ways', 'usage':'[options] ', 'options': """ -h, --help Print this help message --, --longhelp Print help message for long options (common options) -a, --all-coins Test all coins supported by specified external tool -k, --use-internal-keccak-module Force use of the internal keccak module -q, --quiet Produce quieter output -s, --save-results Save output of external tool in Compare test to {rf!r} -t, --type=t Specify address type (e.g. 'compressed','segwit', 'zcash_z','bech32') -v, --verbose Produce more verbose output """, 'notes': """ TEST TYPES: Compare: {prog} A:B (compare address generators A and B) Speed: {prog} A (test speed of generator A) Dump: {prog} A (compare generator A to wallet dump) where: A and B are keygen backend numbers ('1' being the default); or B is the name of an external tool (see below) or 'ext'. If B is 'ext', the external tool will be chosen automatically. For the Compare test, A may be 'all' to test all backends for the current coin/address type combination. EXAMPLES: Compare addresses generated by 'libsecp256k1' and 'python-ecdsa' backends, with 100 random rounds plus private-key edge cases: $ {prog} 1:2 100 Compare Segwit addresses from default 'libsecp256k1' backend to 'pycoin' library for all supported coins, 100 rounds + edge cases: $ {prog} --all-coins --type=segwit 1:pycoin 100 Compare addresses from 'python-ecdsa' backend to output of 'keyconv' tool for all supported coins, 100 rounds + edge cases: $ {prog} --all-coins --type=compressed 2:keyconv 100 Compare bech32 addrs from 'libsecp256k1' backend to Bitcoin Core wallet dump: $ {prog} --type=bech32 1 bech32wallet.dump Compare addresses from Monero 'ed25519ll' backend to output of default external tool, 10 rounds + edge cases: $ {prog} --coin=xmr 3:ext 10 Test the speed of default Monero 'nacl' backend, 10,000 rounds: $ test/gentest.py --coin=xmr 1 10000 Same for Zcash: $ test/gentest.py --coin=zec --type=zcash_z 1 10000 Test all configured Monero backends against the 'monero-python' library, 3 rounds + edge cases: $ test/gentest.py --coin=xmr all:monero-python 3 Test 'nacl' and 'ed25519ll_djbec' backends against each other, 10,000 rounds + edge cases: $ test/gentest.py --coin=xmr 1:2 10000 SUPPORTED EXTERNAL TOOLS: + ethkey (for ETH,ETC) https://github.com/openethereum/openethereum (build with 'cargo build -p ethkey-cli --release') + zcash-mini (for Zcash-Z addresses and view keys) https://github.com/FiloSottile/zcash-mini + monero-python (for Monero addresses and view keys) https://github.com/monero-ecosystem/monero-python + pycoin (for supported coins) https://github.com/richardkiss/pycoin + keyconv (for supported coins) https://github.com/exploitagency/vanitygen-plus ('keyconv' does not generate Segwit addresses) """ }, 'code': { 'options': lambda s: s.format( rf=results_file, ), 'notes': lambda s: s.format( prog='test/gentest.py', pnm=gc.proj_name, snum=rounds ) } } def get_cmd_output(cmd,input=None): return run(cmd,input=input,stdout=PIPE,stderr=DEVNULL).stdout.decode().splitlines() saved_results = {} class GenTool: def __init__(self,proto,addr_type): self.proto = proto self.addr_type = addr_type self.data = {} def __del__(self): if cfg.save_results: key = f'{self.proto.coin}-{self.proto.network}-{self.addr_type.name}-{self.desc}'.lower() saved_results[key] = {k.hex():v._asdict() for k,v in self.data.items()} def run_tool(self,sec,cache_data): vcoin = 'BTC' if self.proto.coin == 'BCH' else self.proto.coin key = sec.orig_bytes if key in self.data: return self.data[key] else: ret = self.run(sec,vcoin) if cache_data: self.data[key] = sd( **{'reduced':sec.hex()}, **ret._asdict() ) return ret class GenToolEthkey(GenTool): desc = 'ethkey' def __init__(self,*args,**kwargs): self.cmdname = get_ethkey() super().__init__(*args,**kwargs) def run(self,sec,vcoin): o = get_cmd_output([self.cmdname,'info',sec.hex()]) return gtr( o[0].split()[1], o[-1].split()[1], None ) class GenToolKeyconv(GenTool): desc = 'keyconv' def run(self,sec,vcoin): o = get_cmd_output(['keyconv','-C',vcoin,sec.wif]) return gtr( o[1].split()[1], o[0].split()[1], None ) class GenToolZcash_mini(GenTool): desc = 'zcash-mini' def run(self,sec,vcoin): o = get_cmd_output(['zcash-mini','-key','-simple'],input=(sec.wif+'\n').encode()) return gtr( o[1], o[0], o[-1] ) class GenToolPycoin(GenTool): """ pycoin/networks/all.py pycoin/networks/legacy_networks.py """ desc = 'pycoin' def __init__(self,*args,**kwargs): super().__init__(*args,**kwargs) try: from pycoin.networks.registry import network_for_netcode except Exception as e: raise ImportError( 'Unable to import pycoin.networks.registry. Is pycoin installed on your system?') from e self.nfnc = network_for_netcode def run(self,sec,vcoin): if self.proto.testnet: vcoin = cinfo.external_tests['testnet']['pycoin'][vcoin] network = self.nfnc(vcoin) key = network.keys.private( secret_exponent = int(sec.hex(),16), is_compressed = self.addr_type.name != 'legacy' ) if key is None: die(1,f'can’t parse {sec.hex()}') if self.addr_type.name in ('segwit','bech32'): hash160_c = key.hash160(is_compressed=True) if self.addr_type.name == 'segwit': p2sh_script = network.contract.for_p2pkh_wit(hash160_c) addr = network.address.for_p2s(p2sh_script) else: addr = network.address.for_p2pkh_wit(hash160_c) else: addr = key.address() return gtr( key.wif(), addr, None ) class GenToolMonero_python(GenTool): desc = 'monero-python' def __init__(self,*args,**kwargs): super().__init__(*args,**kwargs) try: from monero.seed import Seed except Exception as e: raise ImportError( 'Unable to import monero-python. Is monero-python installed on your system?') from e self.Seed = Seed def run(self,sec,vcoin): seed = self.Seed( sec.orig_bytes.hex() ) sk = seed.secret_spend_key() vk = seed.secret_view_key() addr = seed.public_address() return gtr( sk, addr, vk ) def find_or_check_tool(proto,addr_type,toolname): ext_progs = list(cinfo.external_tests[proto.network]) if toolname not in ext_progs + ['ext']: die(1,f'{toolname!r}: unsupported tool for network {proto.network}') if cfg.all_coins and toolname == 'ext': die(1,"'--all-coins' must be combined with a specific external testing tool") else: tool = cinfo.get_test_support( proto.coin, addr_type.name, proto.network, verbose = not cfg.quiet, toolname = toolname if toolname != 'ext' else None ) if tool and toolname in ext_progs and toolname != tool: sys.exit(3) if tool is None: return None return tool def test_equal(desc,a_val,b_val,in_bytes,sec,wif,a_desc,b_desc): if a_val != b_val: fs = """ {i:{w}}: {} {s:{w}}: {} {W:{w}}: {} {a:{w}}: {} {b:{w}}: {} """ die(3, red('\nERROR: {} do not match!').format(desc) + fs.format( in_bytes.hex(), sec, wif, a_val, b_val, i='input', s='sec key', W='WIF key', a=a_desc, b=b_desc, w=max(len(e) for e in (a_desc,b_desc)) + 1 ).rstrip()) def do_ab_test(proto,scfg,addr_type,gen1,kg2,ag,tool,cache_data): def do_ab_inner(n,trounds,in_bytes): global last_t if cfg.verbose or time.time() - last_t >= 0.1: qmsg_r(f'\rRound {i+1}/{trounds} ') last_t = time.time() sec = PrivKey(proto,in_bytes,compressed=addr_type.compressed,pubkey_type=addr_type.pubkey_type) data = kg1.gen_data(sec) addr1 = ag.to_addr(data) tinfo = ( in_bytes, sec, sec.wif, type(kg1).__name__, type(kg2).__name__ if kg2 else tool.desc ) def do_msg(): if cfg.verbose: msg( fs.format( b=in_bytes.hex(), r=sec.hex(), k=sec.wif, v=vk2, a=addr1 )) if tool: def run_tool(): o = tool.run_tool(sec,cache_data) test_equal( 'WIF keys', sec.wif, o.wif, *tinfo ) test_equal( 'addresses', addr1, o.addr, *tinfo ) if o.viewkey: test_equal( 'view keys', ag.to_viewkey(data), o.viewkey, *tinfo ) return o.viewkey vk2 = run_tool() do_msg() else: test_equal( 'addresses', addr1, ag.to_addr(kg2.gen_data(sec)), *tinfo ) vk2 = None do_msg() qmsg_r(f'\rRound {n+1}/{trounds} ') def get_randbytes(): if tool and len(tool.data) > len(edgecase_sks): for privbytes in tuple(tool.data)[len(edgecase_sks):]: yield privbytes else: for _ in range(scfg.rounds): yield getrand(32) kg1 = KeyGenerator( cfg, proto, addr_type.pubkey_type, gen1 ) if type(kg1) == type(kg2): die(4,'Key generators are the same!') e = cinfo.get_entry(proto.coin,proto.network) qmsg(green("Comparing address generators '{A}' and '{B}' for {N} {c} ({n}), addrtype {a!r}".format( A = type(kg1).__name__.replace('_','-'), B = type(kg2).__name__.replace('_','-') if kg2 else tool.desc, N = proto.network, c = proto.coin, n = e.name if e else '---', a = addr_type.name ))) global last_t last_t = time.time() fs = ( '\ninput: {b}' + '\nreduced: {r}' + '\n{:9} {{k}}'.format(addr_type.wif_label+':') + ('\nviewkey: {v}' if 'viewkey' in addr_type.extra_attrs else '') + '\naddr: {a}\n' ) ge = CoinProtocol.Secp256k1.secp256k1_ge # test some important private key edge cases: edgecase_sks = ( bytes([0x00]*31 + [0x01]), # min bytes([0xff]*32), # max bytes([0x0f] + [0xff]*31), # produces same key as above for zcash-z int.to_bytes(ge + 1, 32, 'big'), # bitcoin will reduce int.to_bytes(ge - 1, 32, 'big'), # bitcoin will not reduce bytes([0x00]*31 + [0xff]), # monero will reduce bytes([0xff]*31 + [0x0f]), # monero will not reduce bytes.fromhex('deadbeef'*8), ) qmsg(purple('edge cases:')) for i,privbytes in enumerate(edgecase_sks): do_ab_inner(i,len(edgecase_sks),privbytes) qmsg(green('\rOK ' if cfg.verbose else 'OK')) qmsg(purple('random input:')) for i,privbytes in enumerate(get_randbytes()): do_ab_inner(i,scfg.rounds,privbytes) qmsg(green('\rOK ' if cfg.verbose else 'OK')) def init_tool(proto,addr_type,toolname): return globals()['GenTool'+capfirst(toolname.replace('-','_'))](proto,addr_type) def ab_test(proto,scfg): addr_type = MMGenAddrType( proto=proto, id_str=cfg.type or proto.dfl_mmtype ) if scfg.gen2: assert scfg.gen1 != 'all', "'all' must be used only with external tool" kg2 = KeyGenerator( cfg, proto, addr_type.pubkey_type, scfg.gen2 ) tool = None else: toolname = find_or_check_tool( proto, addr_type, scfg.tool ) if toolname is None: ymsg(f'Warning: skipping tool {scfg.tool!r} for {proto.coin} {addr_type.name}') return tool = init_tool( proto, addr_type, toolname ) kg2 = None ag = AddrGenerator( cfg, proto, addr_type ) if scfg.all_backends: # check all backends against external tool for n in range(len(get_backends(addr_type.pubkey_type))): do_ab_test( proto, scfg, addr_type, gen1 = n+1, kg2 = kg2, ag = ag, tool = tool, cache_data = scfg.rounds < 1000 and not n) else: # check specific backend against external tool or another backend do_ab_test( proto, scfg, addr_type, gen1 = scfg.gen1, kg2 = kg2, ag = ag, tool = tool, cache_data = False) def speed_test(proto,kg,ag,rounds): qmsg(green('Testing speed of address generator {!r} for coin {}'.format( type(kg).__name__, proto.coin ))) from struct import pack seed = getrand(28) qmsg('Incrementing key with each round') qmsg('Starting key: {}'.format( (seed + pack('I',0)).hex() )) start = last_t = time.time() for i in range(rounds): if time.time() - last_t >= 0.1: qmsg_r(f'\rRound {i+1}/{rounds} ') last_t = time.time() sec = PrivKey( proto, seed+pack('I', i), compressed=ag.compressed, pubkey_type=ag.pubkey_type ) addr = ag.to_addr(kg.gen_data(sec)) vmsg(f'\nkey: {sec.wif}\naddr: {addr}\n') qmsg( f'\rRound {i+1}/{rounds} ' + f'\n{rounds} addresses generated' + ('' if cfg.test_suite_deterministic else f' in {time.time()-start:.2f} seconds') ) def dump_test(proto,kg,ag,filename): with open(filename) as fp: dump = [[*(e.split()[0] for e in line.split('addr='))] for line in fp.readlines() if 'addr=' in line] if not dump: die(1,f'File {filename!r} appears not to be a wallet dump') qmsg(green( "A: generator pair '{}:{}'\nB: wallet dump {!r}".format( type(kg).__name__, type(ag).__name__, filename))) for count,(b_wif,b_addr) in enumerate(dump,1): qmsg_r(f'\rKey {count}/{len(dump)} ') try: b_sec = PrivKey(proto,wif=b_wif) except: die(2,f'\nInvalid {proto.network} WIF address in dump file: {b_wif}') a_addr = ag.to_addr(kg.gen_data(b_sec)) vmsg(f'\nwif: {b_wif}\naddr: {b_addr}\n') tinfo = (b_sec,b_sec.hex(),b_wif,type(kg).__name__,filename) test_equal('addresses',a_addr,b_addr,*tinfo) qmsg(green(('\n','')[bool(cfg.verbose)] + 'OK')) def get_protos(proto,addr_type,toolname): init_genonly_altcoins(testnet=proto.testnet) for coin in cinfo.external_tests[proto.network][toolname]: if coin.lower() not in CoinProtocol.coins: continue ret = init_proto( cfg, coin, testnet=proto.testnet ) if addr_type not in ret.mmtypes: continue yield ret def parse_args(): if len(cfg._args) != 2: cfg._opts.usage() arg1,arg2 = cfg._args gen1,gen2,rounds = (0,0,0) tool,all_backends,dumpfile = (None,None,None) if is_int(arg1) and is_int(arg2): test = 'speed' gen1 = arg1 rounds = arg2 elif is_int(arg1) and os.access(arg2,os.R_OK): test = 'dump' gen1 = arg1 dumpfile = arg2 else: test = 'ab' rounds = arg2 if not is_int(arg2): die(1,'Second argument must be dump filename or integer rounds specification') try: a,b = arg1.split(':') except: die(1,'First argument must be a generator backend number or two colon-separated arguments') if is_int(a): gen1 = a else: if a == 'all': all_backends = True else: die(1,"First part of first argument must be a generator backend number or 'all'") if is_int(b): if cfg.all_coins: die(1,'--all-coins must be used with external tool only') gen2 = b else: tool = b ext_progs = list(cinfo.external_tests[cfg._proto.network]) + ['ext'] if b not in ext_progs: die(1,f'Second part of first argument must be a generator backend number or one of {ext_progs}') return namedtuple('parsed_args',['test','gen1','gen2','rounds','tool','all_backends','dumpfile'])( test, int(gen1) or None, int(gen2) or None, int(rounds) or None, tool, all_backends, dumpfile ) def main(): scfg = parse_args() addr_type = MMGenAddrType( proto=proto, id_str=cfg.type or proto.dfl_mmtype ) if scfg.test == 'ab': protos = get_protos(proto,addr_type,scfg.tool) if cfg.all_coins else [proto] for p in protos: ab_test( p, scfg ) else: kg = KeyGenerator( cfg, proto, addr_type.pubkey_type, scfg.gen1 ) ag = AddrGenerator( cfg, proto, addr_type ) if scfg.test == 'speed': speed_test( proto, kg, ag, scfg.rounds ) elif scfg.test == 'dump': dump_test( proto, kg, ag, scfg.dumpfile ) if saved_results: import json with open(results_file,'w') as fp: fp.write(json.dumps( saved_results, indent=4 )) from subprocess import run,PIPE,DEVNULL from collections import namedtuple from mmgen.protocol import init_proto,CoinProtocol from mmgen.altcoin.params import init_genonly_altcoins from test.altcointest import TestCoinInfo as cinfo from mmgen.key import PrivKey from mmgen.addr import MMGenAddrType from mmgen.addrgen import KeyGenerator,AddrGenerator from mmgen.keygen import get_backends from mmgen.util2 import load_cryptodomex from test.include.common import getrand,get_ethkey,set_globals gtr = namedtuple('gen_tool_result',['wif','addr','viewkey']) sd = namedtuple('saved_data_item',['reduced','wif','addr','viewkey']) sys.argv = [sys.argv[0]] + ['--skip-cfg-file'] + sys.argv[1:] cfg = Config(opts_data=opts_data) set_globals(cfg) qmsg = cfg._util.qmsg qmsg_r = cfg._util.qmsg_r vmsg = cfg._util.vmsg proto = cfg._proto if proto.coin == 'XMR': # This must be done at top level, not in monero tool __init__ load_cryptodomex() if __name__ == '__main__': from mmgen.main import launch launch(func=main)