#!/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/objtest.py: Test MMGen data objects
"""
import os, re
try:
from include import test_init
except ImportError:
from test.include import test_init
# for objtest, violate MMGen Project best practices and allow use of the dev tools
# in production code:
from mmgen.devtools import pmsg
if not os.getenv('MMGEN_DEVTOOLS'):
from mmgen.devinit import init_dev
init_dev()
from mmgen.cfg import Config
from mmgen.util import msg, msg_r, gmsg, capfirst, die
from mmgen.color import red, yellow, blue, green, orange, purple, gray, nocolor
from mmgen.obj import get_obj
opts_data = {
'sets': [('super_silent', True, 'silent', True)],
'text': {
'desc': 'Test MMGen data objects',
'usage':'[options] [object]',
'options': """
-h, --help Print this help message
--, --longhelp Print help message for long (global) options
-g, --getobj Instantiate objects with get_obj() wrapper
-q, --quiet Produce quieter output
-s, --silent Silence output of tested objects
-S, --super-silent Silence all output except for errors
-v, --verbose Produce more verbose output
"""
}
}
cfg = Config(opts_data=opts_data)
if cfg.verbose:
from mmgen.objmethods import MMGenObject
from test.include.common import set_globals
set_globals(cfg)
def run_test(mod, test, arg, input_data, arg1, exc_name):
arg_copy = arg
kwargs = {}
ret_chk = arg
ret_idx = None
if input_data == 'good' and isinstance(arg, tuple):
arg, ret_chk = arg
if isinstance(arg, dict): # pass one arg + kwargs to constructor
arg_copy = arg.copy()
if 'arg' in arg:
args = [arg['arg']]
ret_chk = args[0]
del arg['arg']
else:
args = []
ret_chk = list(arg.values())[0] # assume only one key present
if 'ret' in arg:
ret_chk = arg['ret']
del arg['ret']
del arg_copy['ret']
if 'exc_name' in arg:
exc_name = arg['exc_name']
del arg['exc_name']
del arg_copy['exc_name']
if 'ret_idx' in arg:
ret_idx = arg['ret_idx']
del arg['ret_idx']
del arg_copy['ret_idx']
kwargs.update(arg)
elif isinstance(arg, tuple):
args = arg
else:
args = [arg]
if cfg.getobj:
if args:
assert len(args) == 1, 'objtest_chk1: only one positional arg is allowed'
kwargs.update( { arg1: args[0] } )
if cfg.silent:
kwargs.update( { 'silent': True } )
try:
if not cfg.super_silent:
arg_disp = repr(arg_copy[0] if isinstance(arg_copy, tuple) else arg_copy)
if cfg.test_suite_deterministic and isinstance(arg_copy, dict):
arg_disp = re.sub(r'object at 0x[0-9a-f]+', 'object at [SCRUBBED]', arg_disp)
msg_r((green if input_data=='good' else orange)(f'{arg_disp+":":<22}'))
cls = getattr(mod, test)
if cfg.getobj:
ret = get_obj(getattr(mod, test), **kwargs)
else:
ret = cls(*args, **kwargs)
bad_ret = [] if issubclass(cls, list) else None
if isinstance(ret_chk, str):
ret_chk = ret_chk.encode()
if isinstance(ret, str):
ret = ret.encode()
if cfg.getobj:
if input_data == 'bad':
assert ret is False, 'non-False return on bad input data'
else:
if (cfg.silent and input_data=='bad' and ret!=bad_ret) or (not cfg.silent and input_data=='bad'):
raise UserWarning(f"Non-'None' return value {ret!r} with bad input data")
if cfg.silent and input_data=='good' and ret==bad_ret:
raise UserWarning("'None' returned with good input data")
if input_data=='good':
if ret_idx:
ret_chk = arg[list(arg.keys())[ret_idx]].encode()
if ret != ret_chk and repr(ret) != repr(ret_chk):
raise UserWarning(f"Return value ({ret!r}) doesn't match expected value ({ret_chk!r})")
if cfg.super_silent:
return
if cfg.getobj and (not cfg.silent and input_data == 'bad'):
pass
else:
try:
ret_disp = ret.decode()
except:
ret_disp = ret
msg(f'==> {ret_disp!r}')
if cfg.verbose and issubclass(cls, MMGenObject):
ret.pmsg() if hasattr(ret, 'pmsg') else pmsg(ret)
except UserWarning as e:
msg(f'==> {ret!r}')
die(2, red(str(e)))
except Exception as e:
if input_data == 'good':
raise ValueError(f'Error on good input data: {e}') from e
if not type(e).__name__ == exc_name:
msg(f'Incorrect exception: expected {exc_name} but got {type(e).__name__}')
raise
if cfg.super_silent:
pass
elif cfg.silent:
msg(f'==> {exc_name}')
else:
msg( yellow(f' {exc_name}:') + str(e) )
except SystemExit as e:
if input_data == 'good':
raise ValueError('Error on good input data') from e
if cfg.verbose:
msg(f'exitval: {e.code}')
def do_loop():
import importlib
modname = f'test.objtest_d.{proto.coin.lower()}_{proto.network}'
mod = importlib.import_module(modname)
test_data = getattr(mod, 'tests')
gmsg(f'Running data object tests for {proto.coin} {proto.network}')
clr = None
utests = cfg._args
for test in test_data:
arg1 = test_data[test].get('arg1')
if utests and test not in utests:
continue
nl = ('\n', '')[bool(cfg.super_silent) or clr is None]
clr = (blue, nocolor)[bool(cfg.super_silent)]
if cfg.getobj and arg1 is None:
msg(gray(f'{nl}Skipping {test}'))
continue
msg(clr(f'{nl}Testing {test}'))
for k in ('bad', 'good'):
if not cfg.super_silent:
msg(purple(capfirst(k)+' input:'))
for arg in test_data[test][k]:
run_test(
mod,
test,
arg,
input_data = k,
arg1 = arg1,
exc_name = test_data[test].get('exc_name') or ('ObjectInitError', 'None')[k=='good'])
proto = cfg._proto
if __name__ == '__main__':
do_loop()