#!/usr/bin/env python3 # # mmgen = Multi-Mode GENerator, command-line Bitcoin cold storage solution # Copyright (C)2013-2019 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/objtest.py: Test MMGen data objects """ import sys,os pn = os.path.dirname(sys.argv[0]) os.chdir(os.path.join(pn,os.pardir)) sys.path.__setitem__(0,os.path.abspath(os.curdir)) # Import these _after_ local path's been added to sys.path from mmgen.common import * from mmgen.obj import * from mmgen.altcoins.eth.obj import * from mmgen.seed import * 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 options (common options) -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 """ } } cmd_args = opts.init(opts_data) def run_test(test,arg,input_data): arg_copy = arg kwargs = {'on_fail':'silent'} if opt.silent else {} ret_chk = arg if input_data == 'good' and type(arg) == tuple: arg,ret_chk = arg if type(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'] kwargs.update(arg) elif type(arg) == tuple: args = arg else: args = [arg] try: if not opt.super_silent: msg_r((orange,green)[input_data=='good']('{:<22}'.format(repr(arg_copy)+':'))) cls = globals()[test] ret = cls(*args,**kwargs) bad_ret = list() if issubclass(cls,list) else None if issubclass(type(ret_chk),str): ret_chk = ret_chk.encode() if issubclass(type(ret),str): ret = ret.encode() if (opt.silent and input_data=='bad' and ret!=bad_ret) or (not opt.silent and input_data=='bad'): raise UserWarning("Non-'None' return value {} with bad input data".format(repr(ret))) if opt.silent and input_data=='good' and ret==bad_ret: raise UserWarning("'None' returned with good input data") if input_data=='good' and ret != ret_chk and repr(ret) != repr(ret_chk): raise UserWarning("Return value ({!r}) doesn't match expected value ({!r})".format(ret,ret_chk)) if not opt.super_silent: msg('==> {}'.format(ret)) if opt.verbose and issubclass(cls,MMGenObject): ret.pmsg() if hasattr(ret,'pmsg') else pmsg(ret) except SystemExit as e: if input_data == 'good': raise ValueError('Error on good input data') if opt.verbose: msg('exitval: {}'.format(e.code)) except UserWarning as e: msg('==> {!r}'.format(ret)) die(2,red('{}'.format(e.args[0]))) r32,r24,r16,r17,r18 = os.urandom(32),os.urandom(24),os.urandom(16),os.urandom(17),os.urandom(18) tw_pfx = g.proto.base_coin.lower()+':' utf8_text = '[α-$ample UTF-8 text-ω]' * 10 # 230 chars, unicode types L,N,P,S,Z utf8_text_combining = '[α-$ámple UTF-8 téxt-ω]' * 10 # L,N,P,S,Z,M utf8_text_control = '[α-$ample\nUTF-8\ntext-ω]' * 10 # L,N,P,S,Z,C from collections import OrderedDict tests = OrderedDict([ ('AddrIdx', { 'bad': ('s',1.1,12345678,-1), 'good': (('7',7),) }), ('AddrIdxList', { 'bad': ('x','5,9,1-2-3','8,-11','66,3-2'), 'good': ( ('3,2,2',[2,3]), ('101,1,3,5,2-7,99',[1,2,3,4,5,6,7,99,101]), ({'idx_list':AddrIdxList('1-5')},[1,2,3,4,5]) )}), ('SubSeedIdxRange', { 'bad': (33,'x','-11','66,3','0','3-2','8000000','100000000',(1,2,3)), 'good': ( ('3',(3,3)), ((3,5),(3,5)), ('1-2',(1,2)), (str(g.subseeds),(g.subseeds,g.subseeds)), (str(SubSeedIdxRange.max_idx),(SubSeedIdxRange.max_idx,SubSeedIdxRange.max_idx)), )}), ('BTCAmt', { 'bad': ('-3.2','0.123456789',123,'123L','22000000',20999999.12345678), 'good': (('20999999.12345678',Decimal('20999999.12345678')),) }), ('LTCAmt', { 'bad': ('-3.2','0.123456789',123,'123L','88000000',80999999.12345678), 'good': (('80999999.12345678',Decimal('80999999.12345678')),) }), ('CoinAddr', { 'bad': (1,'x','я'), 'good': { 'btc': (('1MjjELEy6EJwk8fSNfpS8b5teFRo4X5fZr','32GiSWo9zJQgkCmjAaLRrbPwXhKry2jHhj'), ('n2FgXPKwuFkCXF946EnoxWJDWF2VwQ6q8J','2MspvWFjBbkv2wzQGqhxJUYPCk3Y2jMaxLN')), 'ltc': (('LXYx4j8PDGE8GEwDFnEQhcLyHFGsRxSJwt','MEnuCzUGHaQx9fK5WYvLwR1NK4SAo8HmSr'), ('n2D3joAy3yE5fqxUeCp38X6uPUcVn7EFw9','QN59YbnHsPQcbKWSq9PmTpjrhBnHGQqRmf')) }[g.coin.lower()][bool(g.testnet)] }), ('SeedID', { 'bad': ( {'sid':'я'}, {'sid':'F00F00'}, {'sid':'xF00F00x'}, {'sid':1}, {'sid':'F00BAA123'}, {'sid':'f00baa12'}, 'я',r32,'abc'), 'good': (({'sid':'F00BAA12'},'F00BAA12'),(Seed(r16),Seed(r16).sid)) }), ('SubSeedIdx', { 'bad': (33,'x','я','1x',200,'1ss','L','s','200LS','30ll','s100',str(SubSeedIdxRange.max_idx+1),'0'), 'good': (('1','1L'),('1s','1S'),'20S','30L',('300l','300L'),('200','200L'),str(SubSeedIdxRange.max_idx)+'S') }), ('MMGenID', { 'bad': ('x',1,'f00f00f','a:b','x:L:3','F00BAA12:0','F00BAA12:Z:99'), 'good': (('F00BAA12:99','F00BAA12:L:99'),'F00BAA12:L:99','F00BAA12:S:99') }), ('TwMMGenID', { 'bad': ('x','я','я:я',1,'f00f00f','a:b','x:L:3','F00BAA12:0','F00BAA12:Z:99',tw_pfx,tw_pfx+'я'), 'good': (('F00BAA12:99','F00BAA12:L:99'),'F00BAA12:L:99','F00BAA12:S:9999999',tw_pfx+'x') }), ('TwLabel', { 'bad': ('x x','x я','я:я',1,'f00f00f','a:b','x:L:3','F00BAA12:0 x', 'F00BAA12:Z:99',tw_pfx+' x',tw_pfx+'я x'), 'good': ( ('F00BAA12:99 a comment','F00BAA12:L:99 a comment'), 'F00BAA12:L:99 comment (UTF-8) α', 'F00BAA12:S:9999999 comment', tw_pfx+'x comment') }), ('MMGenTxID', { 'bad': (1,[],'\0','\1','я','g','gg','FF','f00','F00F0012'), 'good': ('DEADBE','F00BAA') }), ('CoinTxID',{ 'bad': (1,[],'\0','\1','я','g','gg','FF','f00','F00F0012',r16.hex(),r32.hex()+'ee'), 'good': (r32.hex(),) }), ('WifKey', { 'bad': (1,[],'\0','\1','я','g','gg','FF','f00',r16.hex(),'2MspvWFjBbkv2wzQGqhxJUYPCk3Y2jMaxLN'), 'good': { 'btc': (('5KXEpVzjWreTcQoG5hX357s1969MUKNLuSfcszF6yu84kpsNZKb', 'KwWr9rDh8KK5TtDa3HLChEvQXNYcUXpwhRFUPc5uSNnMtqNKLFhk'), ('93HsQEpH75ibaUJYi3QwwiQxnkW4dUuYFPXZxcbcKds7XrqHkY6', 'cMsqcmDYZP1LdKgqRh9L4ZRU9br28yvdmTPwW2YQwVSN9aQiMAoR')), 'ltc': (('6udBAGS6B9RfGyvEQDkVDsWy3Kqv9eTULqtEfVkJtTJyHdLvojw', 'T7kCSp5E71jzV2zEJW4q5qU1SMB5CSz8D9VByxMBkamv1uM3Jjca'), ('936Fd4qs3Zy2ZiYHH7vZ3UpT23KtCAiGiG2xBTkjHo7jE9aWA2f', 'cQY3EumdaSNuttvDSUuPdiMYLyw8aVmYfFqxo9kdPuWbJBN4Ny66')) }[g.coin.lower()][bool(g.testnet)] }), ('PubKey', { 'bad': ({'arg':1,'compressed':False},{'arg':'F00BAA12','compressed':False},), 'good': ({'arg':'deadbeef','compressed':True},) # TODO: add real pubkeys }), ('PrivKey', { 'bad': ( # TODO: add LTC, testnet {'wif':1}, {'wif':'1'}, {'wif':'cMsqcmDYZP1LdKgqRh9L4ZRU9br28yvdmTPwW2YQwVSN9aQiMAoR'}, {'s':r32,'wif':'5KXEpVzjWreTcQoG5hX357s1969MUKNLuSfcszF6yu84kpsNZKb'}, {'pubkey_type':'std'}, {'s':r32}, {'s':r32,'compressed':'yes'}, {'s':r32,'compressed':'yes','pubkey_type':'std'}, {'s':r32,'compressed':True,'pubkey_type':'nonstd'}, {'s':r32+b'x','compressed':True,'pubkey_type':'std'} ), 'good': ({ 'btc': (({'wif':'5KXEpVzjWreTcQoG5hX357s1969MUKNLuSfcszF6yu84kpsNZKb', 'ret':'e0aef965b905a2fedf907151df8e0a6bac832aa697801c51f58bd2ecb4fd381c'}, {'wif':'KwWr9rDh8KK5TtDa3HLChEvQXNYcUXpwhRFUPc5uSNnMtqNKLFhk', 'ret':'08d0ed83b64b68d56fa064be48e2385060ed205be2b1e63cd56d218038c3a05f'}), ({'wif':'93HsQEpH75ibaUJYi3QwwiQxnkW4dUuYFPXZxcbcKds7XrqHkY6', 'ret':'e0aef965b905a2fedf907151df8e0a6bac832aa697801c51f58bd2ecb4fd381c'}, {'wif':'cMsqcmDYZP1LdKgqRh9L4ZRU9br28yvdmTPwW2YQwVSN9aQiMAoR', 'ret':'08d0ed83b64b68d56fa064be48e2385060ed205be2b1e63cd56d218038c3a05f'})), 'ltc': (({'wif':'6ufJhtQQiRYA3w2QvDuXNXuLgPFp15i3HR1Wp8An2mx1JnhhJAh', 'ret':'470a974ffca9fca1299b706b09142077bea3acbab6d6480b87dbba79d5fd279b'}, {'wif':'T41Fm7J3mtZLKYPMCLVSFARz4QF8nvSDhLAfW97Ds56Zm9hRJgn8', 'ret':'1c6feab55a4c3b4ad1823d4ecacd1565c64228c01828cf44fb4db1e2d82c3d56'}), ({'wif':'92iqzh6NqiKawyB1ronw66YtEHrU4rxRJ5T4aHniZqvuSVZS21f', 'ret':'95b2aa7912550eacdd3844dcc14bee08ce7bc2434ad4858beb136021e945afeb'}, {'wif':'cSaJAXBAm9ooHpVJgoxqjDG3AcareFy29Cz8mhnNTRijjv2HLgta', 'ret':'94fa8b90c11fea8fb907c9376b919534b0a75b9a9621edf71a78753544b4101c'})), }[g.coin.lower()][bool(g.testnet)], {'s':r32,'compressed':False,'pubkey_type':'std','ret':r32.hex()}, {'s':r32,'compressed':True,'pubkey_type':'std','ret':r32.hex()} ) }), ('AddrListID', { # a rather pointless test, but do it anyway 'bad': ( {'sid':SeedID(sid='F00BAA12'),'mmtype':'Z','ret':'F00BAA12:Z'}, ), 'good': ( {'sid':SeedID(sid='F00BAA12'),'mmtype':MMGenAddrType('S'),'ret':'F00BAA12:S'}, {'sid':SeedID(sid='F00BAA12'),'mmtype':MMGenAddrType('L'),'ret':'F00BAA12:L'}, ) }), ('MMGenWalletLabel', { 'bad': (utf8_text[:49],utf8_text_combining[:48],utf8_text_control[:48]), 'good': (utf8_text[:48],) }), ('TwComment', { 'bad': (utf8_text[:41],utf8_text_combining[:40],utf8_text_control[:40]), 'good': (utf8_text[:40],) }), ('MMGenTXLabel',{ 'bad': (utf8_text[:73],utf8_text_combining[:72],utf8_text_control[:72]), 'good': (utf8_text[:72],) }), ('MMGenPWIDString', { # forbidden = list(u' :/\\') 'bad': ('foo/','foo:','foo:\\'), 'good': ('qwerty@яяя',) }), ('MMGenAddrType', { 'bad': ('U','z','xx',1,'dogecoin'), 'good': ( {'s':'legacy','ret':'L'}, {'s':'L','ret':'L'}, {'s':'compressed','ret':'C'}, {'s':'C','ret':'C'}, {'s':'segwit','ret':'S'}, {'s':'S','ret':'S'}, {'s':'bech32','ret':'B'}, {'s':'B','ret':'B'}, )}), ('MMGenPasswordType', { 'bad': ('U','z','я',1,'passw0rd'), 'good': ( {'s':'password','ret':'P'}, {'s':'P','ret':'P'}, )}), ('ETHNonce', { 'bad': ('U','z','я',-1), 'good': (('0',0),('1',1),('100',100),1,100) }), ]) def do_loop(): utests = cmd_args for test in tests: if utests and test not in utests: continue msg((blue,nocolor)[bool(opt.super_silent)]('Testing {}'.format(test))) for k in ('bad','good'): for arg in tests[test][k]: run_test(test,arg,input_data=k) do_loop()