#!/usr/bin/env python3 # Copyright (c) 2019-2023, The Monero Project # # All rights reserved. # # Redistribution and use in source and binary forms, with or without modification, are # permitted provided that the following conditions are met: # # 1. Redistributions of source code must retain the above copyright notice, this list of # conditions and the following disclaimer. # # 2. Redistributions in binary form must reproduce the above copyright notice, this list # of conditions and the following disclaimer in the documentation and/or other # materials provided with the distribution. # # 3. Neither the name of the copyright holder nor the names of its contributors may be # used to endorse or promote products derived from this software without specific # prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY # EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF # MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL # THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, # PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, # STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF # THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. from __future__ import print_function """Test multisig transfers """ from framework.daemon import Daemon from framework.wallet import Wallet class MultisigTest(): def run_test(self): self.reset() self.mine('45J58b7PmKJFSiNPFFrTdtfMcFGnruP7V4CMuRpX7NsH4j3jGHKAjo3YJP2RePX6HMaSkbvTbrWUFhDNcNcHgtNmQ3gr7sG', 5) self.mine('44G2TQNfsiURKkvxp7gbgaJY8WynZvANnhmyMAwv6WeEbAvyAWMfKXRhh3uBXT2UAKhAsUJ7Fg5zjjF2U1iGciFk5duN94i', 5) self.mine('41mro238grj56GnrWkakAKTkBy2yDcXYsUZ2iXCM9pe5Ueajd2RRc6Fhh3uBXT2UAKhAsUJ7Fg5zjjF2U1iGciFk5ief4ZP', 5) self.mine('44vZSprQKJQRFe6t1VHgU4ESvq2dv7TjBLVGE7QscKxMdFSiyyPCEV64NnKUQssFPyWxc2meyt7j63F2S2qtCTRL6dakeff', 5) self.mine('47puypSwsV1gvUDratmX4y58fSwikXVehEiBhVLxJA1gRCxHyrRgTDr4NnKUQssFPyWxc2meyt7j63F2S2qtCTRL6aRPj5U', 5) self.mine('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 80) self.test_states() self.create_multisig_wallets(2, 2, '45J58b7PmKJFSiNPFFrTdtfMcFGnruP7V4CMuRpX7NsH4j3jGHKAjo3YJP2RePX6HMaSkbvTbrWUFhDNcNcHgtNmQ3gr7sG') self.import_multisig_info([1, 0], 5) txid = self.transfer([1, 0]) self.import_multisig_info([0, 1], 6) self.check_transaction(txid) self.create_multisig_wallets(2, 3, '44G2TQNfsiURKkvxp7gbgaJY8WynZvANnhmyMAwv6WeEbAvyAWMfKXRhh3uBXT2UAKhAsUJ7Fg5zjjF2U1iGciFk5duN94i') self.import_multisig_info([0, 2], 5) txid = self.transfer([0, 2]) self.import_multisig_info([0, 1, 2], 6) self.check_transaction(txid) self.create_multisig_wallets(3, 3, '41mro238grj56GnrWkakAKTkBy2yDcXYsUZ2iXCM9pe5Ueajd2RRc6Fhh3uBXT2UAKhAsUJ7Fg5zjjF2U1iGciFk5ief4ZP') self.import_multisig_info([2, 0, 1], 5) txid = self.transfer([2, 1, 0]) self.import_multisig_info([0, 2, 1], 6) self.check_transaction(txid) self.create_multisig_wallets(3, 4, '44vZSprQKJQRFe6t1VHgU4ESvq2dv7TjBLVGE7QscKxMdFSiyyPCEV64NnKUQssFPyWxc2meyt7j63F2S2qtCTRL6dakeff') self.import_multisig_info([0, 2, 3], 5) txid = self.transfer([0, 2, 3]) self.import_multisig_info([0, 1, 2, 3], 6) self.check_transaction(txid) self.create_multisig_wallets(2, 4, '47puypSwsV1gvUDratmX4y58fSwikXVehEiBhVLxJA1gRCxHyrRgTDr4NnKUQssFPyWxc2meyt7j63F2S2qtCTRL6aRPj5U') self.import_multisig_info([1, 2], 5) txid = self.transfer([1, 2]) self.import_multisig_info([0, 1, 2, 3], 6) self.check_transaction(txid) def reset(self): print('Resetting blockchain') daemon = Daemon() res = daemon.get_height() daemon.pop_blocks(res.height - 1) daemon.flush_txpool() def mine(self, address, blocks): print("Mining some blocks") daemon = Daemon() daemon.generateblocks(address, blocks) def create_multisig_wallets(self, M_threshold, N_total, expected_address): print('Creating ' + str(M_threshold) + '/' + str(N_total) + ' multisig wallet') seeds = [ 'velvet lymph giddy number token physics poetry unquoted nibs useful sabotage limits benches lifestyle eden nitrogen anvil fewest avoid batch vials washing fences goat unquoted', 'peeled mixture ionic radar utopia puddle buying illness nuns gadget river spout cavernous bounced paradise drunk looking cottage jump tequila melting went winter adjust spout', 'dilute gutter certain antics pamphlet macro enjoy left slid guarded bogeys upload nineteen bomb jubilee enhanced irritate turnip eggs swung jukebox loudly reduce sedan slid', 'waking gown buffet negative reorder speedy baffles hotel pliers dewdrop actress diplomat lymph emit ajar mailed kennel cynical jaunt justice weavers height teardrop toyed lymph', ] assert M_threshold <= N_total assert N_total <= len(seeds) self.wallet = [None] * N_total info = [] for i in range(N_total): self.wallet[i] = Wallet(idx = i) try: self.wallet[i].close_wallet() except: pass res = self.wallet[i].restore_deterministic_wallet(seed = seeds[i]) res = self.wallet[i].prepare_multisig(enable_multisig_experimental = True) assert len(res.multisig_info) > 0 info.append(res.multisig_info) for i in range(N_total): res = self.wallet[i].is_multisig() assert res.multisig == False addresses = [] next_stage = [] for i in range(N_total): res = self.wallet[i].make_multisig(info, M_threshold) addresses.append(res.address) next_stage.append(res.multisig_info) for i in range(N_total): res = self.wallet[i].is_multisig() assert res.multisig == True assert not res.ready assert res.threshold == M_threshold assert res.total == N_total while True: n_ready = 0 for i in range(N_total): res = self.wallet[i].is_multisig() if res.ready == True: n_ready += 1 assert n_ready == 0 or n_ready == N_total if n_ready == N_total: break info = next_stage next_stage = [] addresses = [] for i in range(N_total): res = self.wallet[i].exchange_multisig_keys(info) next_stage.append(res.multisig_info) addresses.append(res.address) for i in range(N_total): assert addresses[i] == expected_address self.wallet_address = expected_address for i in range(N_total): res = self.wallet[i].is_multisig() assert res.multisig == True assert res.ready == True assert res.threshold == M_threshold assert res.total == N_total def test_states(self): print('Testing multisig states') seeds = [ 'velvet lymph giddy number token physics poetry unquoted nibs useful sabotage limits benches lifestyle eden nitrogen anvil fewest avoid batch vials washing fences goat unquoted', 'peeled mixture ionic radar utopia puddle buying illness nuns gadget river spout cavernous bounced paradise drunk looking cottage jump tequila melting went winter adjust spout', 'dilute gutter certain antics pamphlet macro enjoy left slid guarded bogeys upload nineteen bomb jubilee enhanced irritate turnip eggs swung jukebox loudly reduce sedan slid', ] info2of2 = [] wallet2of2 = [None, None] for i in range(2): wallet2of2[i] = Wallet(idx = i) try: wallet2of2[i].close_wallet() except: pass res = wallet2of2[i].restore_deterministic_wallet(seed = seeds[i]) res = wallet2of2[i].is_multisig() assert not res.multisig res = wallet2of2[i].prepare_multisig(enable_multisig_experimental = True) assert len(res.multisig_info) > 0 info2of2.append(res.multisig_info) kex_info = [] res = wallet2of2[0].make_multisig(info2of2, 2) kex_info.append(res.multisig_info) res = wallet2of2[1].make_multisig(info2of2, 2) kex_info.append(res.multisig_info) res = wallet2of2[0].exchange_multisig_keys(kex_info) res = wallet2of2[0].is_multisig() assert res.multisig assert res.ready ok = False try: res = wallet2of2[0].prepare_multisig(enable_multisig_experimental = True) except: ok = True assert ok ok = False try: res = wallet2of2[0].make_multisig(info2of2, 2) except: ok = True assert ok info2of3 = [] wallet2of3 = [None, None, None] for i in range(3): wallet2of3[i] = Wallet(idx = i) try: wallet2of3[i].close_wallet() except: pass res = wallet2of3[i].restore_deterministic_wallet(seed = seeds[i]) res = wallet2of3[i].is_multisig() assert not res.multisig res = wallet2of3[i].prepare_multisig(enable_multisig_experimental = True) assert len(res.multisig_info) > 0 info2of3.append(res.multisig_info) for i in range(3): ok = False try: res = wallet2of3[i].exchange_multisig_keys(info) except: ok = True assert ok res = wallet2of3[i].is_multisig() assert not res.multisig res = wallet2of3[1].make_multisig(info2of3, 2) res = wallet2of3[1].is_multisig() assert res.multisig assert not res.ready ok = False try: res = wallet2of3[1].prepare_multisig(enable_multisig_experimental = True) except: ok = True assert ok ok = False try: res = wallet2of3[1].make_multisig(info2of3[0:2], 2) except: ok = True assert ok def import_multisig_info(self, signers, expected_outputs): assert len(signers) >= 2 print('Importing multisig info from ' + str(signers)) info = [] for i in signers: self.wallet[i].refresh() res = self.wallet[i].export_multisig_info() assert len(res.info) > 0 info.append(res.info) for i in signers: res = self.wallet[i].import_multisig_info(info) assert res.n_outputs == expected_outputs def transfer(self, signers): assert len(signers) >= 2 daemon = Daemon() print("Creating multisig transaction from wallet " + str(signers[0])) dst = {'address': '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 'amount': 1000000000000} res = self.wallet[signers[0]].transfer([dst]) assert len(res.tx_hash) == 0 # not known yet txid = res.tx_hash assert len(res.tx_key) == 32*2 assert res.amount > 0 amount = res.amount assert res.fee > 0 fee = res.fee assert len(res.tx_blob) == 0 assert len(res.tx_metadata) == 0 assert len(res.multisig_txset) > 0 assert len(res.unsigned_txset) == 0 multisig_txset = res.multisig_txset daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) for i in range(len(self.wallet)): self.wallet[i].refresh() for i in range(len(signers[1:])): print('Signing multisig transaction with wallet ' + str(signers[i+1])) res = self.wallet[signers[i+1]].describe_transfer(multisig_txset = multisig_txset) assert len(res.desc) == 1 desc = res.desc[0] assert desc.amount_in >= amount + fee assert desc.amount_out == desc.amount_in - fee assert desc.ring_size == 16 assert desc.unlock_time == 0 assert not 'payment_id' in desc or desc.payment_id in ['', '0000000000000000'] assert desc.change_amount == desc.amount_in - 1000000000000 - fee assert desc.change_address == self.wallet_address assert desc.fee == fee assert len(desc.recipients) == 1 rec = desc.recipients[0] assert rec.address == '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm' assert rec.amount == 1000000000000 res = self.wallet[signers[i+1]].sign_multisig(multisig_txset) multisig_txset = res.tx_data_hex assert len(res.tx_hash_list if 'tx_hash_list' in res else []) == (i == len(signers[1:]) - 1) if i < len(signers[1:]) - 1: print('Submitting multisig transaction prematurely with wallet ' + str(signers[-1])) ok = False try: self.wallet[signers[-1]].submit_multisig(multisig_txset) except: ok = True assert ok print('Submitting multisig transaction with wallet ' + str(signers[-1])) res = self.wallet[signers[-1]].submit_multisig(multisig_txset) assert len(res.tx_hash_list) == 1 txid = res.tx_hash_list[0] for i in range(len(self.wallet)): self.wallet[i].refresh() res = self.wallet[i].get_transfers() assert len([x for x in (res['pending'] if 'pending' in res else []) if x.txid == txid]) == (1 if i == signers[-1] else 0) assert len([x for x in (res['out'] if 'out' in res else []) if x.txid == txid]) == 0 daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) return txid def check_transaction(self, txid): for i in range(len(self.wallet)): self.wallet[i].refresh() res = self.wallet[i].get_transfers() assert len([x for x in (res['pending'] if 'pending' in res else []) if x.txid == txid]) == 0 assert len([x for x in (res['out'] if 'out' in res else []) if x.txid == txid]) == 1 class Guard: def __enter__(self): for i in range(4): Wallet(idx = i).auto_refresh(False) def __exit__(self, exc_type, exc_value, traceback): for i in range(4): Wallet(idx = i).auto_refresh(True) if __name__ == '__main__': with Guard() as guard: MultisigTest().run_test()