#!/usr/bin/env python3 # -*- coding: utf-8 -*- # Copyright (c) 2019 tecnovert # Distributed under the MIT software license, see the accompanying # file LICENSE or http://www.opensource.org/licenses/mit-license.php. """ basicswap]$ python setup.py test Run one test: $ python setup.py test -s tests.basicswap.test_run.Test.test_04_ltc_btc """ import os import sys import json import time import shutil import signal import logging import unittest import threading from urllib.request import urlopen import basicswap.config as cfg from basicswap.basicswap import ( BasicSwap, Coins, SwapTypes, BidStates, TxStates, SEQUENCE_LOCK_BLOCKS, ) from basicswap.util import ( COIN, toWIF, dumpje, ) from basicswap.rpc import ( callrpc_cli, waitForRPC, ) from basicswap.contrib.key import ( ECKey, ) from basicswap.http_server import ( HttpThread, ) from tests.basicswap.common import ( checkForks, stopDaemons, wait_for_offer, wait_for_bid, wait_for_bid_tx_state, wait_for_in_progress, TEST_HTTP_HOST, TEST_HTTP_PORT, BASE_PORT, BASE_RPC_PORT, BASE_ZMQ_PORT, PREFIX_SECRET_KEY_REGTEST, ) from bin.basicswap_run import startDaemon NUM_NODES = 3 LTC_NODE = 3 BTC_NODE = 4 delay_event = threading.Event() stop_test = False logger = logging.getLogger() logger.level = logging.DEBUG if not len(logger.handlers): logger.addHandler(logging.StreamHandler(sys.stdout)) def prepareOtherDir(datadir, nodeId, conf_file='litecoin.conf'): node_dir = os.path.join(datadir, str(nodeId)) if not os.path.exists(node_dir): os.makedirs(node_dir) filePath = os.path.join(node_dir, conf_file) with open(filePath, 'w+') as fp: fp.write('regtest=1\n') fp.write('[regtest]\n') fp.write('port=' + str(BASE_PORT + nodeId) + '\n') fp.write('rpcport=' + str(BASE_RPC_PORT + nodeId) + '\n') fp.write('daemon=0\n') fp.write('printtoconsole=0\n') fp.write('server=1\n') fp.write('discover=0\n') fp.write('listenonion=0\n') fp.write('bind=127.0.0.1\n') fp.write('findpeers=0\n') fp.write('debug=1\n') fp.write('debugexclude=libevent\n') fp.write('fallbackfee=0.0002\n') fp.write('acceptnonstdtxn=0\n') def prepareDir(datadir, nodeId, network_key, network_pubkey): node_dir = os.path.join(datadir, str(nodeId)) if not os.path.exists(node_dir): os.makedirs(node_dir) filePath = os.path.join(node_dir, 'particl.conf') with open(filePath, 'w+') as fp: fp.write('regtest=1\n') fp.write('[regtest]\n') fp.write('port=' + str(BASE_PORT + nodeId) + '\n') fp.write('rpcport=' + str(BASE_RPC_PORT + nodeId) + '\n') fp.write('daemon=0\n') fp.write('printtoconsole=0\n') fp.write('server=1\n') fp.write('discover=0\n') fp.write('listenonion=0\n') fp.write('bind=127.0.0.1\n') fp.write('findpeers=0\n') fp.write('debug=1\n') fp.write('debugexclude=libevent\n') fp.write('zmqpubsmsg=tcp://127.0.0.1:' + str(BASE_ZMQ_PORT + nodeId) + '\n') fp.write('acceptnonstdtxn=0\n') fp.write('minstakeinterval=2\n') fp.write('stakethreadconddelayms=1000\n') for i in range(0, NUM_NODES): if nodeId == i: continue fp.write('addnode=127.0.0.1:%d\n' % (BASE_PORT + i)) if nodeId < 2: fp.write('spentindex=1\n') fp.write('txindex=1\n') basicswap_dir = os.path.join(datadir, str(nodeId), 'basicswap') if not os.path.exists(basicswap_dir): os.makedirs(basicswap_dir) ltcdatadir = os.path.join(datadir, str(LTC_NODE)) btcdatadir = os.path.join(datadir, str(BTC_NODE)) settings_path = os.path.join(basicswap_dir, cfg.CONFIG_FILENAME) settings = { 'debug': True, 'zmqhost': 'tcp://127.0.0.1', 'zmqport': BASE_ZMQ_PORT + nodeId, 'htmlhost': 'localhost', 'htmlport': 12700 + nodeId, 'network_key': network_key, 'network_pubkey': network_pubkey, 'chainclients': { 'particl': { 'connection_type': 'rpc', 'manage_daemon': False, 'rpcport': BASE_RPC_PORT + nodeId, 'datadir': node_dir, 'bindir': cfg.PARTICL_BINDIR, 'blocks_confirmed': 2, # Faster testing }, 'litecoin': { 'connection_type': 'rpc', 'manage_daemon': False, 'rpcport': BASE_RPC_PORT + LTC_NODE, 'datadir': ltcdatadir, 'bindir': cfg.LITECOIN_BINDIR, # 'use_segwit': True, }, 'bitcoin': { 'connection_type': 'rpc', 'manage_daemon': False, 'rpcport': BASE_RPC_PORT + BTC_NODE, 'datadir': btcdatadir, 'bindir': cfg.BITCOIN_BINDIR, 'use_segwit': True, } }, 'check_progress_seconds': 2, 'check_watched_seconds': 4, 'check_expired_seconds': 60, 'check_events_seconds': 1, 'min_delay_event': 1, 'max_delay_event': 5 } with open(settings_path, 'w') as fp: json.dump(settings, fp, indent=4) def partRpc(cmd, node_id=0): return callrpc_cli(cfg.PARTICL_BINDIR, os.path.join(cfg.TEST_DATADIRS, str(node_id)), 'regtest', cmd, cfg.PARTICL_CLI) def btcRpc(cmd): return callrpc_cli(cfg.BITCOIN_BINDIR, os.path.join(cfg.TEST_DATADIRS, str(BTC_NODE)), 'regtest', cmd, cfg.BITCOIN_CLI) def ltcRpc(cmd): return callrpc_cli(cfg.LITECOIN_BINDIR, os.path.join(cfg.TEST_DATADIRS, str(LTC_NODE)), 'regtest', cmd, cfg.LITECOIN_CLI) def signal_handler(sig, frame): global stop_test print('signal {} detected.'.format(sig)) stop_test = True delay_event.set() def run_coins_loop(cls): while not stop_test: try: ltcRpc('generatetoaddress 1 {}'.format(cls.ltc_addr)) btcRpc('generatetoaddress 1 {}'.format(cls.btc_addr)) except Exception as e: logging.warning('run_coins_loop ' + str(e)) time.sleep(1.0) def run_loop(cls): while not stop_test: for c in cls.swap_clients: c.update() time.sleep(1) def make_part_cli_rpc_func(node_id): node_id = node_id def rpc_func(method, params=None, wallet=None): nonlocal node_id cmd = method if params: for p in params: if isinstance(p, dict) or isinstance(p, list): cmd += ' "' + dumpje(p) + '"' elif isinstance(p, int): cmd += ' ' + str(p) else: cmd += ' "' + p + '"' return partRpc(cmd, node_id) return rpc_func class Test(unittest.TestCase): @classmethod def setUpClass(cls): super(Test, cls).setUpClass() eckey = ECKey() eckey.generate() cls.network_key = toWIF(PREFIX_SECRET_KEY_REGTEST, eckey.get_bytes()) cls.network_pubkey = eckey.get_pubkey().get_bytes().hex() if os.path.isdir(cfg.TEST_DATADIRS): logging.info('Removing ' + cfg.TEST_DATADIRS) shutil.rmtree(cfg.TEST_DATADIRS) for i in range(NUM_NODES): prepareDir(cfg.TEST_DATADIRS, i, cls.network_key, cls.network_pubkey) prepareOtherDir(cfg.TEST_DATADIRS, LTC_NODE) prepareOtherDir(cfg.TEST_DATADIRS, BTC_NODE, 'bitcoin.conf') cls.daemons = [] cls.swap_clients = [] cls.http_threads = [] cls.daemons.append(startDaemon(os.path.join(cfg.TEST_DATADIRS, str(BTC_NODE)), cfg.BITCOIN_BINDIR, cfg.BITCOIND)) logging.info('Started %s %d', cfg.BITCOIND, cls.daemons[-1].pid) cls.daemons.append(startDaemon(os.path.join(cfg.TEST_DATADIRS, str(LTC_NODE)), cfg.LITECOIN_BINDIR, cfg.LITECOIND)) logging.info('Started %s %d', cfg.LITECOIND, cls.daemons[-1].pid) for i in range(NUM_NODES): cls.daemons.append(startDaemon(os.path.join(cfg.TEST_DATADIRS, str(i)), cfg.PARTICL_BINDIR, cfg.PARTICLD)) logging.info('Started %s %d', cfg.PARTICLD, cls.daemons[-1].pid) for i in range(NUM_NODES): # Load mnemonics after all nodes have started to avoid staking getting stuck in TryToSync rpc = make_part_cli_rpc_func(i) waitForRPC(rpc) if i == 0: rpc('extkeyimportmaster', ['abandon baby cabbage dad eager fabric gadget habit ice kangaroo lab absorb']) elif i == 1: rpc('extkeyimportmaster', ['pact mammal barrel matrix local final lecture chunk wasp survey bid various book strong spread fall ozone daring like topple door fatigue limb olympic', '', 'true']) rpc('getnewextaddress', ['lblExtTest']) rpc('rescanblockchain') else: rpc('extkeyimportmaster', [rpc('mnemonic', ['new'])['master']]) # Lower output split threshold for more stakeable outputs rpc('walletsettings', ['stakingoptions', {'stakecombinethreshold': 100, 'stakesplitthreshold': 200}]) basicswap_dir = os.path.join(os.path.join(cfg.TEST_DATADIRS, str(i)), 'basicswap') settings_path = os.path.join(basicswap_dir, cfg.CONFIG_FILENAME) with open(settings_path) as fs: settings = json.load(fs) fp = open(os.path.join(basicswap_dir, 'basicswap.log'), 'w') sc = BasicSwap(fp, basicswap_dir, settings, 'regtest', log_name='BasicSwap{}'.format(i)) sc.setDaemonPID(Coins.BTC, cls.daemons[0].pid) sc.setDaemonPID(Coins.LTC, cls.daemons[1].pid) sc.setDaemonPID(Coins.PART, cls.daemons[2 + i].pid) sc.start() cls.swap_clients.append(sc) t = HttpThread(cls.swap_clients[i].fp, TEST_HTTP_HOST, TEST_HTTP_PORT + i, False, cls.swap_clients[i]) cls.http_threads.append(t) t.start() waitForRPC(ltcRpc) num_blocks = 500 logging.info('Mining %d litecoin blocks', num_blocks) cls.ltc_addr = ltcRpc('getnewaddress mining_addr legacy') ltcRpc('generatetoaddress {} {}'.format(num_blocks, cls.ltc_addr)) ro = ltcRpc('getblockchaininfo') checkForks(ro) waitForRPC(btcRpc) cls.btc_addr = btcRpc('getnewaddress mining_addr bech32') logging.info('Mining %d Bitcoin blocks to %s', num_blocks, cls.btc_addr) btcRpc('generatetoaddress {} {}'.format(num_blocks, cls.btc_addr)) ro = btcRpc('getblockchaininfo') checkForks(ro) ro = ltcRpc('getwalletinfo') print('ltcRpc', ro) signal.signal(signal.SIGINT, signal_handler) cls.update_thread = threading.Thread(target=run_loop, args=(cls,)) cls.update_thread.start() cls.coins_update_thread = threading.Thread(target=run_coins_loop, args=(cls,)) cls.coins_update_thread.start() # Wait for height, or sequencelock is thrown off by genesis blocktime num_blocks = 3 logging.info('Waiting for Particl chain height %d', num_blocks) for i in range(60): particl_blocks = cls.swap_clients[0].callrpc('getblockchaininfo')['blocks'] print('particl_blocks', particl_blocks) if particl_blocks >= num_blocks: break delay_event.wait(1) assert(particl_blocks >= num_blocks) @classmethod def tearDownClass(cls): global stop_test logging.info('Finalising') stop_test = True cls.update_thread.join() cls.coins_update_thread.join() for t in cls.http_threads: t.stop() t.join() for c in cls.swap_clients: c.finalise() c.fp.close() stopDaemons(cls.daemons) super(Test, cls).tearDownClass() def test_01_verifyrawtransaction(self): txn = '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' prevout = { 'txid': 'bbbd7fb69bab3502ddb230ee918e00646a45ad4c31c7402fa3efa4bb4e5c6eeb', 'vout': 1, 'scriptPubKey': 'a9143d37191e8b864222d14952a14c85504677a0581d87', 'redeemScript': '6382012088a8201fe90717abb84b481c2a59112414ae56ec8acc72273642ca26cc7a5812fdc8f68876a914225fbfa4cb725b75e511810ac4d6f74069bdded26703520140b27576a914207eb66b2fd6ed9924d6217efc7fa7b38dfabe666888ac', 'amount': 1.0} ro = partRpc('verifyrawtransaction {} "{}"'.format(txn, dumpje([prevout, ]))) assert(ro['inputs_valid'] is False) assert(ro['validscripts'] == 1) prevout['amount'] = 100.0 ro = partRpc('verifyrawtransaction {} "{}"'.format(txn, dumpje([prevout, ]))) assert(ro['inputs_valid'] is True) assert(ro['validscripts'] == 1) txn = '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' prevout = { 'txid': '1e6f4af5d3fd8bcdb33876a4478488d11f797ab283d95fbb2e3f67286abae828', 'vout': 1, 'scriptPubKey': 'a914129aee070317bbbd57062288849e85cf57d15c2687', 'redeemScript': '6382012088a8201fe90717abb84b481c2a59112414ae56ec8acc72273642ca26cc7a5812fdc8f68876a914207eb66b2fd6ed9924d6217efc7fa7b38dfabe666703a90040b27576a914225fbfa4cb725b75e511810ac4d6f74069bdded26888ac', 'amount': 1.0} ro = partRpc('verifyrawtransaction {} "{}"'.format(txn, dumpje([prevout, ]))) assert(ro['inputs_valid'] is False) assert(ro['validscripts'] == 0) # Amount covered by signature prevout['amount'] = 90.0 ro = partRpc('verifyrawtransaction {} "{}"'.format(txn, dumpje([prevout, ]))) assert(ro['inputs_valid'] is True) assert(ro['validscripts'] == 1) def test_02_part_ltc(self): logging.info('---------- Test PART to LTC') swap_clients = self.swap_clients offer_id = swap_clients[0].postOffer(Coins.PART, Coins.LTC, 100 * COIN, 0.1 * COIN, 100 * COIN, SwapTypes.SELLER_FIRST) wait_for_offer(delay_event, swap_clients[1], offer_id) offers = swap_clients[1].listOffers() assert(len(offers) == 1) for offer in offers: if offer.offer_id == offer_id: bid_id = swap_clients[1].postBid(offer_id, offer.amount_from) wait_for_bid(delay_event, swap_clients[0], bid_id) swap_clients[0].acceptBid(bid_id) wait_for_in_progress(delay_event, swap_clients[1], bid_id, sent=True) wait_for_bid(delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=60) wait_for_bid(delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True, wait_for=60) js_0 = json.loads(urlopen('http://localhost:1800/json').read()) js_1 = json.loads(urlopen('http://localhost:1801/json').read()) assert(js_0['num_swapping'] == 0 and js_0['num_watched_outputs'] == 0) assert(js_1['num_swapping'] == 0 and js_1['num_watched_outputs'] == 0) def test_03_ltc_part(self): logging.info('---------- Test LTC to PART') swap_clients = self.swap_clients offer_id = swap_clients[1].postOffer(Coins.LTC, Coins.PART, 10 * COIN, 9.0 * COIN, 10 * COIN, SwapTypes.SELLER_FIRST) wait_for_offer(delay_event, swap_clients[0], offer_id) offers = swap_clients[0].listOffers() for offer in offers: if offer.offer_id == offer_id: bid_id = swap_clients[0].postBid(offer_id, offer.amount_from) wait_for_bid(delay_event, swap_clients[1], bid_id) swap_clients[1].acceptBid(bid_id) wait_for_in_progress(delay_event, swap_clients[0], bid_id, sent=True) wait_for_bid(delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, sent=True, wait_for=60) wait_for_bid(delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, wait_for=60) js_0 = json.loads(urlopen('http://localhost:1800/json').read()) js_1 = json.loads(urlopen('http://localhost:1801/json').read()) assert(js_0['num_swapping'] == 0 and js_0['num_watched_outputs'] == 0) assert(js_1['num_swapping'] == 0 and js_1['num_watched_outputs'] == 0) def test_04_ltc_btc(self): logging.info('---------- Test LTC to BTC') swap_clients = self.swap_clients offer_id = swap_clients[0].postOffer(Coins.LTC, Coins.BTC, 10 * COIN, 0.1 * COIN, 10 * COIN, SwapTypes.SELLER_FIRST) wait_for_offer(delay_event, swap_clients[1], offer_id) offers = swap_clients[1].listOffers() for offer in offers: if offer.offer_id == offer_id: bid_id = swap_clients[1].postBid(offer_id, offer.amount_from) wait_for_bid(delay_event, swap_clients[0], bid_id) swap_clients[0].acceptBid(bid_id) wait_for_in_progress(delay_event, swap_clients[1], bid_id, sent=True) wait_for_bid(delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=60) wait_for_bid(delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True, wait_for=60) js_0bid = json.loads(urlopen('http://localhost:1800/json/bids/{}'.format(bid_id.hex())).read()) js_0 = json.loads(urlopen('http://localhost:1800/json').read()) js_1 = json.loads(urlopen('http://localhost:1801/json').read()) assert(js_0['num_swapping'] == 0 and js_0['num_watched_outputs'] == 0) assert(js_1['num_swapping'] == 0 and js_1['num_watched_outputs'] == 0) def test_05_refund(self): # Seller submits initiate txn, buyer doesn't respond logging.info('---------- Test refund, LTC to BTC') swap_clients = self.swap_clients offer_id = swap_clients[0].postOffer(Coins.LTC, Coins.BTC, 10 * COIN, 0.1 * COIN, 10 * COIN, SwapTypes.SELLER_FIRST, SEQUENCE_LOCK_BLOCKS, 10) wait_for_offer(delay_event, swap_clients[1], offer_id) offers = swap_clients[1].listOffers() for offer in offers: if offer.offer_id == offer_id: bid_id = swap_clients[1].postBid(offer_id, offer.amount_from) wait_for_bid(delay_event, swap_clients[0], bid_id) swap_clients[1].abandonBid(bid_id) swap_clients[0].acceptBid(bid_id) wait_for_bid(delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=60) wait_for_bid(delay_event, swap_clients[1], bid_id, BidStates.BID_ABANDONED, sent=True, wait_for=60) js_0 = json.loads(urlopen('http://localhost:1800/json').read()) js_1 = json.loads(urlopen('http://localhost:1801/json').read()) assert(js_0['num_swapping'] == 0 and js_0['num_watched_outputs'] == 0) assert(js_1['num_swapping'] == 0 and js_1['num_watched_outputs'] == 0) def test_06_self_bid(self): logging.info('---------- Test same client, BTC to LTC') swap_clients = self.swap_clients js_0_before = json.loads(urlopen('http://localhost:1800/json').read()) offer_id = swap_clients[0].postOffer(Coins.BTC, Coins.LTC, 10 * COIN, 10 * COIN, 10 * COIN, SwapTypes.SELLER_FIRST) wait_for_offer(delay_event, swap_clients[0], offer_id) offers = swap_clients[0].listOffers() for offer in offers: if offer.offer_id == offer_id: bid_id = swap_clients[0].postBid(offer_id, offer.amount_from) wait_for_bid(delay_event, swap_clients[0], bid_id) swap_clients[0].acceptBid(bid_id) wait_for_bid_tx_state(delay_event, swap_clients[0], bid_id, TxStates.TX_REDEEMED, TxStates.TX_REDEEMED, wait_for=60) wait_for_bid(delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=60) js_0 = json.loads(urlopen('http://localhost:1800/json').read()) assert(js_0['num_swapping'] == 0 and js_0['num_watched_outputs'] == 0) assert(js_0['num_recv_bids'] == js_0_before['num_recv_bids'] + 1 and js_0['num_sent_bids'] == js_0_before['num_sent_bids'] + 1) def test_07_error(self): logging.info('---------- Test error, BTC to LTC, set fee above bid value') swap_clients = self.swap_clients js_0_before = json.loads(urlopen('http://localhost:1800/json').read()) offer_id = swap_clients[0].postOffer(Coins.BTC, Coins.LTC, 0.001 * COIN, 1.0 * COIN, 0.001 * COIN, SwapTypes.SELLER_FIRST) wait_for_offer(delay_event, swap_clients[0], offer_id) offers = swap_clients[0].listOffers() for offer in offers: if offer.offer_id == offer_id: bid_id = swap_clients[0].postBid(offer_id, offer.amount_from) wait_for_bid(delay_event, swap_clients[0], bid_id) swap_clients[0].acceptBid(bid_id) swap_clients[0].coin_clients[Coins.BTC]['override_feerate'] = 10.0 swap_clients[0].coin_clients[Coins.LTC]['override_feerate'] = 10.0 wait_for_bid(delay_event, swap_clients[0], bid_id, BidStates.BID_ERROR, wait_for=60) swap_clients[0].abandonBid(bid_id) del swap_clients[0].coin_clients[Coins.BTC]['override_feerate'] del swap_clients[0].coin_clients[Coins.LTC]['override_feerate'] def test_08_part_ltc_buyer_first(self): logging.info('---------- Test PART to LTC, buyer first') swap_clients = self.swap_clients offer_id = swap_clients[0].postOffer(Coins.PART, Coins.LTC, 100 * COIN, 0.1 * COIN, 100 * COIN, SwapTypes.BUYER_FIRST) return # TODO wait_for_offer(delay_event, swap_clients[1], offer_id) offers = swap_clients[1].listOffers() assert(len(offers) == 1) for offer in offers: if offer.offer_id == offer_id: bid_id = swap_clients[1].postBid(offer_id, offer.amount_from) wait_for_bid(delay_event, swap_clients[0], bid_id) swap_clients[0].acceptBid(bid_id) wait_for_in_progress(delay_event, swap_clients[1], bid_id, sent=True) wait_for_bid(delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=60) wait_for_bid(delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True, wait_for=60) js_0 = json.loads(urlopen('http://localhost:1800/json').read()) js_1 = json.loads(urlopen('http://localhost:1801/json').read()) assert(js_0['num_swapping'] == 0 and js_0['num_watched_outputs'] == 0) assert(js_1['num_swapping'] == 0 and js_1['num_watched_outputs'] == 0) def test_09_part_ltc_auto_accept(self): logging.info('---------- Test PART to LTC, auto accept bid') swap_clients = self.swap_clients offer_id = swap_clients[0].postOffer(Coins.PART, Coins.LTC, 100 * COIN, 0.1 * COIN, 100 * COIN, SwapTypes.SELLER_FIRST, auto_accept_bids=True) wait_for_offer(delay_event, swap_clients[1], offer_id) offers = swap_clients[1].listOffers() assert(len(offers) >= 1) for offer in offers: if offer.offer_id == offer_id: bid_id = swap_clients[1].postBid(offer_id, offer.amount_from) wait_for_bid(delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=60) wait_for_bid(delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True, wait_for=60) def pass_99_delay(self): global stop_test logging.info('Delay') for i in range(60 * 10): if stop_test: break time.sleep(1) print('delay', i) if i % 2 == 0: offer_id = self.swap_clients[0].postOffer(Coins.BTC, Coins.LTC, 0.001 * (i + 1) * COIN, 1.0 * (i + 1) * COIN, 0.001 * (i + 1) * COIN, SwapTypes.SELLER_FIRST) else: offer_id = self.swap_clients[1].postOffer(Coins.LTC, Coins.BTC, 0.001 * (i + 1) * COIN, 1.0 * (i + 1) * COIN, 0.001 * COIN, SwapTypes.SELLER_FIRST) stop_test = True if __name__ == '__main__': unittest.main()