#!/usr/bin/env python3
#
# MMGen Wallet, a terminal-based cryptocurrency wallet
# Copyright (C)2013-2025 The MMGen Project <mmgen@tuta.io>
#
# 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 <http://www.gnu.org/licenses/>.
"""
test/tooltest.py: Tests for the 'mmgen-tool' utility
"""
import sys, os, time
from subprocess import run, PIPE
try:
from include.test_init import repo_root
except ImportError:
from test.include.test_init import repo_root
from mmgen.cfg import Config
from mmgen.color import red, yellow, green, blue, cyan
from mmgen.util import msg, msg_r, Msg, die
opts_data = {
'text': {
'desc': "Test suite for the 'mmgen-tool' utility",
'usage':'[options] [command]',
'options': """
-h, --help Print this help message
-C, --coverage Produce code coverage info using trace module
-d, --debug Produce debugging output (stderr from spawned script)
--, --longhelp Print help message for long (global) options
-l, --list-cmds List and describe the tests and commands in this test suite
-s, --testing-status List the testing status of all 'mmgen-tool' commands
-t, --type=t Specify address type (valid choices: 'zcash_z')
-v, --verbose Produce more verbose output
""",
'notes': """
If no command is given, the whole suite of tests is run.
"""
}
}
sys.argv = [sys.argv[0]] + ['--skip-cfg-file'] + sys.argv[1:]
cfg = Config(opts_data=opts_data)
from test.include.common import (
set_globals,
mk_tmpdir,
cleandir,
write_to_tmpfile,
ok,
read_from_file,
read_from_tmpfile,
cmp_or_die,
getrand,
getrandhex,
end_msg,
init_coverage,
get_tmpfile,
)
set_globals(cfg)
vmsg = cfg._util.vmsg
proto = cfg._proto
assert cfg.type in (None, 'zcash_z'), 'Only zcash-z permitted for --type argument'
cmd_data = {
'cryptocoin': {
'desc': 'Cryptocoin address/key commands',
'cmd_data': {
'randwif': (),
'randpair': (), # create 4 pairs: uncomp, comp, segwit, bech32
'wif2addr': ('randpair', 'o4'),
'wif2hex': ('randpair', 'o4'),
'privhex2pubhex': ('wif2hex', 'o3'), # segwit only
'pubhex2addr': ('privhex2pubhex', 'o3'), # segwit only
'hex2wif': ('wif2hex', 'io2'), # uncomp, comp
'addr2pubhash': ('randpair', 'o4'), # uncomp, comp, bech32
'pubhash2addr': ('addr2pubhash', 'io4'), # uncomp, comp, bech32
},
},
'mnemonic': {
'desc': 'mnemonic commands',
'cmd_data': {
'hex2mn': (),
'mn2hex': ('hex2mn', 'io3'),
'mn_rand128': (),
'mn_rand192': (),
'mn_rand256': (),
'mn_stats': (),
'mn_printlist': (),
},
},
}
if proto.coin in ('BTC', 'LTC'):
cmd_data['cryptocoin']['cmd_data'].update({
'pubhex2redeem_script': ('privhex2pubhex', 'o3'),
'wif2redeem_script': ('randpair', 'o3'),
'wif2segwit_pair': ('randpair', 'o2'),
'privhex2addr': ('wif2hex', 'o4'), # compare with output of randpair
'pipetest': ('randpair', 'o3')
})
if proto.coin == 'XMR' or cfg.type == 'zcash_z':
del cmd_data['cryptocoin']['cmd_data']['pubhash2addr']
del cmd_data['cryptocoin']['cmd_data']['addr2pubhash']
tcfg = {
'name': 'the tool utility',
'enc_passwd': 'Ten Satoshis',
'tmpdir': 'test/tmp/10',
'tmpdir_num': 10,
'refdir': 'test/ref',
'txfile': {
'btc': ('0B8D5A[15.31789,14,tl=1320969600].rawtx',
'0C7115[15.86255,14,tl=1320969600].testnet.rawtx'),
'bch': ('460D4D-BCH[10.19764,tl=1320969600].rawtx',
'359FD5-BCH[6.68868,tl=1320969600].testnet.rawtx'),
'ltc': ('AF3CDF-LTC[620.76194,1453,tl=1320969600].rawtx',
'A5A1E0-LTC[1454.64322,1453,tl=1320969600].testnet.rawtx'),
},
'addrfile': '98831F3A{}[1,31-33,500-501,1010-1011]{}.addrs',
'addrfile_chk': {
'btc': ('6FEF 6FB9 7B13 5D91','424E 4326 CFFE 5F51'),
'bch': ('6FEF 6FB9 7B13 5D91','424E 4326 CFFE 5F51'),
'ltc': ('AD52 C3FE 8924 AAF0','4EBE 2E85 E969 1B30'),
}
}
ref_subdir = '' if proto.base_coin == 'BTC' else proto.name.lower()
altcoin_pfx = '' if proto.base_coin == 'BTC' else '-'+proto.base_coin
tn_ext = ('', '.testnet')[proto.testnet]
spawn_cmd = [
'scripts/exec_wrapper.py',
os.path.relpath(os.path.join(repo_root, 'cmds', 'mmgen-tool'))]
if cfg.coverage:
d, f = init_coverage()
spawn_cmd = ['python3', '-m', 'trace', '--count', '--coverdir='+d, '--file='+f] + spawn_cmd
elif sys.platform == 'win32':
spawn_cmd = ['python3'] + spawn_cmd
add_spawn_args = ['--data-dir='+tcfg['tmpdir']] + ['--{}{}'.format(
k.replace('_', '-'),
'='+getattr(cfg, k) if getattr(cfg, k) is not True else '')
for k in ('testnet', 'rpc_host', 'regtest', 'coin', 'type') if getattr(cfg, k)]
if cfg.list_cmds:
fs = ' {:<{w}} - {}'
Msg('Available commands:')
w = max(map(len, cmd_data))
for cmd in cmd_data:
Msg(fs.format(cmd, cmd_data[cmd]['desc'], w=w))
Msg('\nAvailable utilities:')
Msg(fs.format('clean', 'Clean the tmp directory', w=w))
sys.exit(0)
if cfg.testing_status:
tested_in = {
'tooltest.py': [],
'cmdtest.py': (
'encrypt', 'decrypt', 'find_incog_data',
'addrfile_chksum', 'keyaddrfile_chksum', 'passwdfile_chksum',
'add_label', 'remove_label', 'remove_address', 'twview',
'getbalance', 'listaddresses', 'listaddress',
'daemon_version', 'decrypt_keystore', 'decrypt_geth_keystore',
'mn2hex_interactive', 'rand2file',
'rescan_address', 'rescan_blockchain', 'resolve_address',
'twexport', 'twimport', 'txhist'
),
'tooltest2.py': run(
['python3', 'test/tooltest2.py', '--list-tested-cmds'],
stdout = PIPE,
check = True
).stdout.decode().split()
}
for v in cmd_data.values():
tested_in['tooltest.py'] += list(v['cmd_data'].keys())
Msg(green("Testing status of 'mmgen-tool' commands:"))
for l in ('tooltest.py', 'tooltest2.py', 'cmdtest.py'):
Msg('\n ' + blue(l+':'))
Msg(' '+'\n '.join(sorted(tested_in[l])))
ignore = ()
from mmgen.main_tool import get_cmds
uc = sorted(
set(get_cmds()) -
set(ignore) -
set(tested_in['tooltest.py']) -
set(tested_in['tooltest2.py']) -
set(tested_in['cmdtest.py'])
)
if uc:
Msg(yellow('\n {}\n {}'.format('Untested commands:', '\n '.join(uc))))
sys.exit(0)
from mmgen.key import is_wif
from mmgen.addr import is_coin_addr
def is_wif_loc(s):
return is_wif(proto, s)
def is_coin_addr_loc(s):
return is_coin_addr(proto, s)
msg_w = 35
def test_msg(m):
msg_r(green(f'Testing {m}\n') if cfg.verbose else '{:{w}}'.format(f'Testing {m}', w=msg_w+8))
compressed = cfg.type or ('', 'compressed')['C' in proto.mmtypes]
segwit = ('', 'segwit')['S' in proto.mmtypes]
bech32 = ('', 'bech32')['B' in proto.mmtypes]
type_compressed_arg = ([], ['--type=' + (cfg.type or 'compressed')])[bool(cfg.type) or 'C' in proto.mmtypes]
type_segwit_arg = ([], ['--type=segwit'])['S' in proto.mmtypes]
type_bech32_arg = ([], ['--type=bech32'])['B' in proto.mmtypes]
class MMGenToolTestUtils:
def run_cmd(
self,
name,
tool_args,
kwargs = '',
extra_msg = '',
silent = False,
strip = True,
add_opts = [],
binary = False):
sys_cmd = (
spawn_cmd +
add_spawn_args +
['-r0', '-d', tcfg['tmpdir']] +
add_opts +
[name.lower()] +
tool_args +
kwargs.split()
)
if extra_msg:
extra_msg = f'({extra_msg})'
full_name = ' '.join([name.lower()]+add_opts+kwargs.split()+extra_msg.split())
if not silent:
if cfg.verbose:
sys.stderr.write(green(f'Testing {full_name}\nExecuting '))
sys.stderr.write(cyan(' '.join(sys_cmd)+'\n'))
else:
msg_r('Testing {:{w}}'.format(full_name+':', w=msg_w))
cp = run(sys_cmd, stdout=PIPE, stderr=PIPE)
out = cp.stdout
err = cp.stderr
if cfg.debug:
from test.include.common import dmsg
try:
dmsg(err.decode())
except:
dmsg(repr(err))
if not binary:
out = out.decode()
if cp.returncode != 0:
msg('{}\n{}\n{}'.format(
red('FAILED'),
yellow('Command stderr output:'),
err.decode()))
die(2, f'Called process returned with an error (retcode {cp.returncode})')
return (out, out.rstrip())[bool(strip)]
def run_cmd_chk(self, name, f1, f2, kwargs='', extra_msg='', strip_hex=False, add_opts=[]):
idata = read_from_file(f1).rstrip()
odata = read_from_file(f2).rstrip()
ret = self.run_cmd(name, [odata], kwargs=kwargs, extra_msg=extra_msg, add_opts=add_opts)
vmsg('In: ' + repr(odata))
vmsg('Out: ' + repr(ret))
def cmp_equal(a, b):
return (a.lstrip('0') == b.lstrip('0')) if strip_hex else (a == b)
if cmp_equal(ret, idata):
ok()
else:
die(4, f"Error: values don't match:\nIn: {idata!r}\nOut: {ret!r}")
return ret
def run_cmd_nochk(self, name, f1, kwargs='', add_opts=[]):
odata = read_from_file(f1).rstrip()
ret = self.run_cmd(name, [odata], kwargs=kwargs, add_opts=add_opts)
vmsg('In: ' + repr(odata))
vmsg('Out: ' + repr(ret))
return ret
def run_cmd_out(
self,
name,
carg = None,
Return = False,
kwargs = '',
fn_idx = '',
extra_msg = '',
literal = False,
chkdata = '',
hush = False,
add_opts = []):
if carg:
write_to_tmpfile(tcfg, f'{name}{fn_idx}.in', carg+'\n')
ret = self.run_cmd(
name,
([], [carg])[bool(carg)],
kwargs = kwargs,
extra_msg = extra_msg,
add_opts = add_opts)
if carg:
vmsg('In: ' + repr(carg))
vmsg('Out: ' + (repr(ret), ret)[literal])
if ret or ret == '':
write_to_tmpfile(tcfg, f'{name}{fn_idx}.out', ret+'\n')
if chkdata:
cmp_or_die(ret, chkdata)
return
if Return:
return ret
elif not hush:
ok()
else:
die(4, f'Error for command {name!r}')
def run_cmd_randinput(self, name, strip=True, add_opts=[]):
s = getrand(128)
fn = name+'.in'
write_to_tmpfile(tcfg, fn, s, binary=True)
ret = self.run_cmd(name, [get_tmpfile(tcfg, fn)], strip=strip, add_opts=add_opts)
fn = name+'.out'
write_to_tmpfile(tcfg, fn, ret+'\n')
ok()
vmsg(f'Returned: {ret}')
tu = MMGenToolTestUtils()
def ok_or_die(val, chk_func, s, skip_ok=False):
try:
ret = chk_func(val)
except:
ret = False
if ret:
if not skip_ok:
ok()
else:
die(4, f'Returned value {val!r} is not a {s}')
class MMGenToolTestCmds:
# Cryptocoin
def randwif(self, name):
for n, k in enumerate(['', compressed]):
ao = ['--type='+k] if k else []
ret = tu.run_cmd_out(name, add_opts=ao, Return=True, fn_idx=n+1)
ok_or_die(ret, is_wif_loc, 'WIF key')
def randpair(self, name):
for n, k in enumerate(['', compressed, segwit, bech32]):
ao = ['--type='+k] if k else []
wif, addr = tu.run_cmd_out(name, add_opts=ao, Return=True, fn_idx=n+1, literal=True).split()
ok_or_die(wif, is_wif_loc, 'WIF key', skip_ok=True)
ok_or_die(addr, is_coin_addr_loc, 'Coin address')
def wif2addr(self, name, f1, f2, f3, f4):
for n, f, k in (
(1, f1, ''),
(2, f2, compressed),
(3, f3, segwit),
(4, f4, bech32)):
ao = ['--type='+k] if k else []
wif = read_from_file(f).split()[0]
tu.run_cmd_out(name, wif, add_opts=ao, fn_idx=n)
def wif2hex(self, name, f1, f2, f3, f4):
for n, f, m in (
(1, f1, ''),
(2, f2, compressed),
(3, f3, '{} for {}'.format(compressed or 'uncompressed', segwit or 'p2pkh')),
(4, f4, '{} for {}'.format(compressed or 'uncompressed', bech32 or 'p2pkh'))):
wif = read_from_file(f).split()[0]
tu.run_cmd_out(name, wif, fn_idx=n, extra_msg=m)
def privhex2addr(self, name, f1, f2, f3, f4):
keys = [read_from_file(f).rstrip() for f in (f1, f2, f3, f4)]
for n, k in enumerate(('', compressed, segwit, bech32)):
ao = ['--type='+k] if k else []
ret = tu.run_cmd(name, [keys[n]], add_opts=ao).rstrip()
iaddr = read_from_tmpfile(tcfg, f'randpair{n+1}.out').split()[-1]
vmsg(f'Out: {ret}')
cmp_or_die(iaddr, ret)
ok()
def hex2wif(self, name, f1, f2, f3, f4):
for fi, fo, k in (
(f1, f2, ''),
(f3, f4, compressed)):
ao = ['--type='+k] if k else []
tu.run_cmd_chk(name, fi, fo, add_opts=ao)
def addr2pubhash(self, name, f1, f2, f3, f4):
for n, f, m, ao in (
(1, f1, '', []),
(2, f2, 'from {}'.format(compressed or 'uncompressed'), []),
(4, f4, '', type_bech32_arg)):
addr = read_from_file(f).split()[-1]
tu.run_cmd_out(name, addr, fn_idx=n, add_opts=ao, extra_msg=m)
def pubhash2addr(self, name, f1, f2, f3, f4, f5, f6, f7, f8):
for _, fi, fo, m, ao in (
(1, f1, f2, '', []),
(2, f3, f4, 'from {}'.format(compressed or 'uncompressed'), []),
(4, f7, f8, '', type_bech32_arg)):
tu.run_cmd_chk(name, fi, fo, add_opts=ao, extra_msg=m)
def privhex2pubhex(self, name, f1, f2, f3): # from Hex2wif
addr = read_from_file(f3).strip()
tu.run_cmd_out(name, addr, add_opts=type_compressed_arg, fn_idx=3) # what about uncompressed?
def pubhex2redeem_script(self, name, f1, f2, f3): # from above
addr = read_from_file(f3).strip()
tu.run_cmd_out(name, addr, add_opts=type_segwit_arg, fn_idx=3)
rs = read_from_tmpfile(tcfg, 'privhex2pubhex3.out').strip()
tu.run_cmd_out('pubhex2addr', rs, add_opts=type_segwit_arg, fn_idx=3, hush=True)
addr1 = read_from_tmpfile(tcfg, 'pubhex2addr3.out').strip()
addr2 = read_from_tmpfile(tcfg, 'randpair3.out').split()[1]
cmp_or_die(addr1, addr2)
ok()
def wif2redeem_script(self, name, f1, f2, f3): # compare output with above
wif = read_from_file(f3).split()[0]
ret1 = tu.run_cmd_out(name, wif, add_opts=type_segwit_arg, fn_idx=3, Return=True)
ret2 = read_from_tmpfile(tcfg, 'pubhex2redeem_script3.out').strip()
cmp_or_die(ret1, ret2)
ok()
def wif2segwit_pair(self, name, f1, f2): # does its own checking, so just run
wif = read_from_file(f2).split()[0]
tu.run_cmd_out(name, wif, add_opts=type_segwit_arg, fn_idx=2)
def pubhex2addr(self, name, f1, f2, f3):
addr = read_from_file(f3).strip()
tu.run_cmd_out(name, addr, add_opts=type_segwit_arg, fn_idx=3)
def pipetest(self, name, f1, f2, f3):
wif = read_from_file(f3).split()[0]
cmd = (
'{c} {a} wif2hex {wif}' +
' | {c} {a} --type=compressed privhex2pubhex -' +
' | {c} {a} --type=segwit pubhex2redeem_script -' +
' | {c} {a} --type=segwit redeem_script2addr -').format(
c = ' '.join(spawn_cmd),
a = ' '.join(add_spawn_args),
wif = wif)
test_msg('command piping')
if cfg.verbose:
sys.stderr.write(green('Executing ') + cyan(cmd) + '\n')
res = run(cmd, stdout=PIPE, shell=True).stdout.decode().strip()
addr = read_from_tmpfile(tcfg, 'wif2addr3.out').strip()
cmp_or_die(addr, res)
ok()
# Mnemonic
def hex2mn(self, name):
for n, size, m in (
(1, 16, '128-bit'),
(2, 24, '192-bit'),
(3, 32, '256-bit')):
hexnum = getrandhex(size)
tu.run_cmd_out(name, hexnum, fn_idx=n, extra_msg=m)
def mn2hex(self, name, f1, f2, f3, f4, f5, f6):
for f_i, f_o, m in ((f1, f2, '128-bit'), (f3, f4, '192-bit'), (f5, f6, '256-bit')):
tu.run_cmd_chk(name, f_i, f_o, extra_msg=m, strip_hex=True)
def mn_rand128(self, name):
tu.run_cmd_out(name)
def mn_rand192(self, name):
tu.run_cmd_out(name)
def mn_rand256(self, name):
tu.run_cmd_out(name)
def mn_stats(self, name):
tu.run_cmd_out(name)
def mn_printlist(self, name):
tu.run_cmd(name, [])
ok()
# main()
start_time = int(time.time())
mk_tmpdir(tcfg['tmpdir'])
def gen_deps_for_cmd(cdata):
fns = []
if cdata:
name, code = cdata
io, count = (code[:-1], int(code[-1])) if code[-1] in '0123456789' else (code, 1)
for c in range(count):
fns += ['{}{}{}'.format(
name,
(c+1 if count > 1 else ''),
('.in' if ch == 'i' else '.out'),
) for ch in io]
return fns
def do_cmds(cmd_group):
tc = MMGenToolTestCmds()
gdata = cmd_data[cmd_group]['cmd_data']
for cmd in gdata:
fns = gen_deps_for_cmd(gdata[cmd])
cmdline = [cmd] + [os.path.join(tcfg['tmpdir'], fn) for fn in fns]
getattr(tc, cmd)(*cmdline)
def main():
if cfg._args:
if len(cfg._args) != 1:
die(1, 'Only one command may be specified')
cmd = cfg._args[0]
if cmd in cmd_data:
cleandir(tcfg['tmpdir'], do_msg=True)
msg('Running tests for {}:'.format(cmd_data[cmd]['desc']))
do_cmds(cmd)
elif cmd == 'clean':
cleandir(tcfg['tmpdir'], do_msg=True)
sys.exit(0)
else:
die(1, f'{cmd!r}: unrecognized command')
else:
cleandir(tcfg['tmpdir'], do_msg=True)
for cmd in cmd_data:
msg('Running tests for {}:'.format(cmd_data[cmd]['desc']))
do_cmds(cmd)
if cmd is not list(cmd_data.keys())[-1]:
msg('')
end_msg(int(time.time()) - start_time)
from mmgen.main import launch
launch(func=main)