Host-customized fork of https://github.com/tecnovert/basicswap/
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1593 lines
67 KiB
1593 lines
67 KiB
#!/usr/bin/env python3 |
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# -*- coding: utf-8 -*- |
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# Copyright (c) 2020-2024 tecnovert |
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# Distributed under the MIT software license, see the accompanying |
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# file LICENSE or http://www.opensource.org/licenses/mit-license.php. |
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import os |
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import json |
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import time |
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import random |
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import shutil |
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import signal |
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import logging |
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import unittest |
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import traceback |
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import threading |
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import basicswap.config as cfg |
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from basicswap.db import ( |
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Concepts, |
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) |
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from basicswap.basicswap import ( |
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Coins, |
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BasicSwap, |
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BidStates, |
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SwapTypes, |
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DebugTypes, |
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) |
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from basicswap.basicswap_util import ( |
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TxLockTypes, |
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EventLogTypes, |
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) |
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from basicswap.util import ( |
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COIN, |
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format_amount, |
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make_int, |
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TemporaryError |
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) |
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from basicswap.util.address import ( |
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toWIF, |
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) |
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from basicswap.rpc import ( |
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callrpc, |
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callrpc_cli, |
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) |
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from basicswap.rpc_xmr import ( |
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callrpc_xmr, |
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) |
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from basicswap.interface.xmr import ( |
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XMR_COIN, |
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) |
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from basicswap.contrib.key import ( |
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ECKey, |
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) |
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from basicswap.http_server import ( |
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HttpThread, |
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) |
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from tests.basicswap.util import ( |
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make_boolean, |
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post_json_req, |
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) |
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from tests.basicswap.util import ( |
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read_json_api, |
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) |
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from tests.basicswap.common import ( |
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prepareDataDir, |
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make_rpc_func, |
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checkForks, |
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stopDaemons, |
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wait_for_bid, |
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wait_for_event, |
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wait_for_offer, |
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wait_for_no_offer, |
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wait_for_none_active, |
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wait_for_balance, |
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wait_for_unspent, |
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waitForRPC, |
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compare_bid_states, |
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extract_states_from_xu_file, |
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TEST_HTTP_HOST, |
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TEST_HTTP_PORT, |
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BASE_RPC_PORT, |
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BASE_ZMQ_PORT, |
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BTC_BASE_PORT, |
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BTC_BASE_RPC_PORT, |
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LTC_BASE_PORT, |
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LTC_BASE_RPC_PORT, |
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PREFIX_SECRET_KEY_REGTEST, |
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) |
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from basicswap.db_util import ( |
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remove_expired_data, |
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) |
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from bin.basicswap_run import startDaemon, startXmrDaemon, startXmrWalletDaemon |
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logger = logging.getLogger() |
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NUM_NODES = 3 |
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NUM_XMR_NODES = 3 |
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NUM_BTC_NODES = 3 |
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NUM_LTC_NODES = 3 |
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TEST_DIR = cfg.TEST_DATADIRS |
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XMR_BASE_P2P_PORT = 17792 |
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XMR_BASE_RPC_PORT = 21792 |
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XMR_BASE_ZMQ_PORT = 22792 |
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XMR_BASE_WALLET_RPC_PORT = 23792 |
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signal_event = threading.Event() # Set if test was cancelled |
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test_delay_event = threading.Event() |
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RESET_TEST = make_boolean(os.getenv('RESET_TEST', 'true')) |
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def prepareXmrDataDir(datadir, node_id, conf_file): |
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node_dir = os.path.join(datadir, 'xmr_' + str(node_id)) |
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if not os.path.exists(node_dir): |
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os.makedirs(node_dir) |
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cfg_file_path = os.path.join(node_dir, conf_file) |
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if os.path.exists(cfg_file_path): |
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return |
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with open(cfg_file_path, 'w+') as fp: |
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fp.write('regtest=1\n') |
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fp.write('keep-fakechain=1\n') |
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fp.write('data-dir={}\n'.format(node_dir)) |
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fp.write('fixed-difficulty=1\n') |
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# fp.write('offline=1\n') |
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fp.write('p2p-bind-port={}\n'.format(XMR_BASE_P2P_PORT + node_id)) |
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fp.write('rpc-bind-port={}\n'.format(XMR_BASE_RPC_PORT + node_id)) |
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fp.write('p2p-bind-ip=127.0.0.1\n') |
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fp.write('rpc-bind-ip=127.0.0.1\n') |
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fp.write('prune-blockchain=1\n') |
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fp.write('zmq-rpc-bind-port={}\n'.format(XMR_BASE_ZMQ_PORT + node_id)) |
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fp.write('zmq-rpc-bind-ip=127.0.0.1\n') |
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for i in range(0, NUM_XMR_NODES): |
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if node_id == i: |
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continue |
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fp.write('add-exclusive-node=127.0.0.1:{}\n'.format(XMR_BASE_P2P_PORT + i)) |
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def prepare_swapclient_dir(datadir, node_id, network_key, network_pubkey, with_coins=set(), cls=None): |
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basicswap_dir = os.path.join(datadir, 'basicswap_' + str(node_id)) |
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if not os.path.exists(basicswap_dir): |
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os.makedirs(basicswap_dir) |
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settings_path = os.path.join(basicswap_dir, cfg.CONFIG_FILENAME) |
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settings = { |
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'debug': True, |
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'zmqhost': 'tcp://127.0.0.1', |
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'zmqport': BASE_ZMQ_PORT + node_id, |
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'htmlhost': '127.0.0.1', |
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'htmlport': TEST_HTTP_PORT + node_id, |
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'network_key': network_key, |
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'network_pubkey': network_pubkey, |
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'chainclients': { |
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'particl': { |
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'connection_type': 'rpc', |
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'manage_daemon': False, |
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'rpcport': BASE_RPC_PORT + node_id, |
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'rpcuser': 'test' + str(node_id), |
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'rpcpassword': 'test_pass' + str(node_id), |
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'datadir': os.path.join(datadir, 'part_' + str(node_id)), |
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'bindir': cfg.PARTICL_BINDIR, |
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'blocks_confirmed': 2, # Faster testing |
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'anon_tx_ring_size': 5, # Faster testing |
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}, |
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'bitcoin': { |
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'connection_type': 'rpc', |
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'manage_daemon': False, |
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'rpcport': BTC_BASE_RPC_PORT + node_id, |
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'rpcuser': 'test' + str(node_id), |
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'rpcpassword': 'test_pass' + str(node_id), |
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'datadir': os.path.join(datadir, 'btc_' + str(node_id)), |
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'bindir': cfg.BITCOIN_BINDIR, |
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'use_segwit': True, |
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} |
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}, |
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'check_progress_seconds': 2, |
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'check_watched_seconds': 4, |
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'check_expired_seconds': 60, |
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'check_events_seconds': 1, |
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'check_xmr_swaps_seconds': 1, |
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'min_delay_event': 1, |
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'max_delay_event': 4, |
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'min_delay_event_short': 1, |
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'max_delay_event_short': 3, |
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'min_delay_retry': 2, |
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'max_delay_retry': 10, |
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'debug_ui': True, |
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'restrict_unknown_seed_wallets': False, |
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} |
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if Coins.XMR in with_coins: |
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settings['chainclients']['monero'] = { |
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'connection_type': 'rpc', |
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'manage_daemon': False, |
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'rpcport': XMR_BASE_RPC_PORT + node_id, |
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'walletrpcport': XMR_BASE_WALLET_RPC_PORT + node_id, |
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'walletrpcuser': 'test' + str(node_id), |
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'walletrpcpassword': 'test_pass' + str(node_id), |
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'walletfile': 'testwallet', |
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'datadir': os.path.join(datadir, 'xmr_' + str(node_id)), |
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'bindir': cfg.XMR_BINDIR, |
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} |
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if Coins.LTC in with_coins: |
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settings['chainclients']['litecoin'] = { |
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'connection_type': 'rpc', |
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'manage_daemon': False, |
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'rpcport': LTC_BASE_RPC_PORT + node_id, |
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'rpcuser': 'test' + str(node_id), |
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'rpcpassword': 'test_pass' + str(node_id), |
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'datadir': os.path.join(datadir, 'ltc_' + str(node_id)), |
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'bindir': cfg.LITECOIN_BINDIR, |
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'use_segwit': True, |
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} |
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if cls: |
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cls.addCoinSettings(settings, datadir, node_id) |
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with open(settings_path, 'w') as fp: |
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json.dump(settings, fp, indent=4) |
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def btcCli(cmd, node_id=0): |
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return callrpc_cli(cfg.BITCOIN_BINDIR, os.path.join(TEST_DIR, 'btc_' + str(node_id)), 'regtest', cmd, cfg.BITCOIN_CLI) |
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def ltcCli(cmd, node_id=0): |
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return callrpc_cli(cfg.LITECOIN_BINDIR, os.path.join(TEST_DIR, 'ltc_' + str(node_id)), 'regtest', cmd, cfg.LITECOIN_CLI) |
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def signal_handler(sig, frame): |
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logging.info('signal {} detected.'.format(sig)) |
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signal_event.set() |
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test_delay_event.set() |
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def waitForXMRNode(rpc_offset, max_tries=7): |
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for i in range(max_tries + 1): |
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try: |
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callrpc_xmr(XMR_BASE_RPC_PORT + rpc_offset, 'get_block_count') |
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return |
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except Exception as ex: |
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if i < max_tries: |
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logging.warning('Can\'t connect to XMR RPC: %s. Retrying in %d second/s.', str(ex), (i + 1)) |
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time.sleep(i + 1) |
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raise ValueError('waitForXMRNode failed') |
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def waitForXMRWallet(rpc_offset, auth, max_tries=7): |
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for i in range(max_tries + 1): |
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try: |
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callrpc_xmr(XMR_BASE_WALLET_RPC_PORT + rpc_offset, 'get_languages', auth=auth) |
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return |
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except Exception as ex: |
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if i < max_tries: |
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logging.warning('Can\'t connect to XMR wallet RPC: %s. Retrying in %d second/s.', str(ex), (i + 1)) |
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time.sleep(i + 1) |
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raise ValueError('waitForXMRWallet failed') |
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def callnoderpc(node_id, method, params=[], wallet=None, base_rpc_port=BASE_RPC_PORT): |
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auth = 'test{0}:test_pass{0}'.format(node_id) |
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return callrpc(base_rpc_port + node_id, auth, method, params, wallet) |
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pause_event = threading.Event() |
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def run_coins_loop(cls): |
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while not test_delay_event.is_set(): |
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pause_event.wait() |
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try: |
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cls.coins_loop() |
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except Exception as e: |
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logging.warning('run_coins_loop ' + str(e)) |
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test_delay_event.wait(1.0) |
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def run_loop(cls): |
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while not test_delay_event.is_set(): |
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for c in cls.swap_clients: |
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c.update() |
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test_delay_event.wait(1.0) |
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class BaseTest(unittest.TestCase): |
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__test__ = False |
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update_thread = None |
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coins_update_thread = None |
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http_threads = [] |
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swap_clients = [] |
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part_daemons = [] |
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btc_daemons = [] |
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ltc_daemons = [] |
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xmr_daemons = [] |
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xmr_wallet_auth = [] |
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restore_instance = False |
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start_ltc_nodes = False |
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start_xmr_nodes = True |
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has_segwit = True |
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xmr_addr = None |
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btc_addr = None |
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ltc_addr = None |
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@classmethod |
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def getRandomPubkey(cls): |
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eckey = ECKey() |
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eckey.generate() |
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return eckey.get_pubkey().get_bytes() |
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@classmethod |
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def setUpClass(cls): |
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if signal_event.is_set(): |
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raise ValueError('Test has been cancelled.') |
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test_delay_event.clear() |
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random.seed(time.time()) |
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logger.propagate = False |
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logger.handlers = [] |
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logger.setLevel(logging.INFO) # DEBUG shows many messages from requests.post |
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formatter = logging.Formatter('%(asctime)s %(levelname)s : %(message)s') |
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stream_stdout = logging.StreamHandler() |
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stream_stdout.setFormatter(formatter) |
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logger.addHandler(stream_stdout) |
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logging.info('Setting up tests for class: ' + cls.__name__) |
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diagrams_dir = 'doc/protocols/sequence_diagrams' |
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cls.states_bidder = extract_states_from_xu_file(os.path.join(diagrams_dir, 'ads.bidder.alt.xu'), 'B') |
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cls.states_offerer = extract_states_from_xu_file(os.path.join(diagrams_dir, 'ads.offerer.alt.xu'), 'O') |
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cls.states_bidder_sh = extract_states_from_xu_file(os.path.join(diagrams_dir, 'bidder.alt.xu'), 'B') |
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cls.states_offerer_sh = extract_states_from_xu_file(os.path.join(diagrams_dir, 'offerer.alt.xu'), 'O') |
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if os.path.isdir(TEST_DIR): |
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if RESET_TEST: |
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logging.info('Removing ' + TEST_DIR) |
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for name in os.listdir(TEST_DIR): |
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if name == 'pivx-params': |
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continue |
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fullpath = os.path.join(TEST_DIR, name) |
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if os.path.isdir(fullpath): |
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shutil.rmtree(fullpath) |
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else: |
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os.remove(fullpath) |
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else: |
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logging.info('Restoring instance from ' + TEST_DIR) |
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cls.restore_instance = True |
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if not os.path.exists(TEST_DIR): |
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os.makedirs(TEST_DIR) |
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cls.stream_fp = logging.FileHandler(os.path.join(TEST_DIR, 'test.log')) |
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cls.stream_fp.setFormatter(formatter) |
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logger.addHandler(cls.stream_fp) |
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try: |
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logging.info('Preparing coin nodes.') |
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for i in range(NUM_NODES): |
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if not cls.restore_instance: |
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data_dir = prepareDataDir(TEST_DIR, i, 'particl.conf', 'part_') |
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if os.path.exists(os.path.join(cfg.PARTICL_BINDIR, 'particl-wallet')): |
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try: |
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callrpc_cli(cfg.PARTICL_BINDIR, data_dir, 'regtest', '-wallet=wallet.dat -legacy create', 'particl-wallet') |
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except Exception as e: |
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logging.warning('particl-wallet create failed, retrying without -legacy') |
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callrpc_cli(cfg.PARTICL_BINDIR, data_dir, 'regtest', '-wallet=wallet.dat create', 'particl-wallet') |
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cls.part_daemons.append(startDaemon(os.path.join(TEST_DIR, 'part_' + str(i)), cfg.PARTICL_BINDIR, cfg.PARTICLD)) |
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logging.info('Started %s %d', cfg.PARTICLD, cls.part_daemons[-1].handle.pid) |
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if not cls.restore_instance: |
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for i in range(NUM_NODES): |
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# Load mnemonics after all nodes have started to avoid staking getting stuck in TryToSync |
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rpc = make_rpc_func(i) |
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waitForRPC(rpc, test_delay_event) |
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if i == 0: |
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rpc('extkeyimportmaster', ['abandon baby cabbage dad eager fabric gadget habit ice kangaroo lab absorb']) |
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elif i == 1: |
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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']) |
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rpc('getnewextaddress', ['lblExtTest']) |
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rpc('rescanblockchain') |
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else: |
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rpc('extkeyimportmaster', [rpc('mnemonic', ['new'])['master']]) |
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# Lower output split threshold for more stakeable outputs |
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rpc('walletsettings', ['stakingoptions', {'stakecombinethreshold': 100, 'stakesplitthreshold': 200}]) |
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rpc('reservebalance', [False]) |
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|
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for i in range(NUM_BTC_NODES): |
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if not cls.restore_instance: |
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data_dir = prepareDataDir(TEST_DIR, i, 'bitcoin.conf', 'btc_', base_p2p_port=BTC_BASE_PORT, base_rpc_port=BTC_BASE_RPC_PORT) |
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if os.path.exists(os.path.join(cfg.BITCOIN_BINDIR, 'bitcoin-wallet')): |
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try: |
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callrpc_cli(cfg.BITCOIN_BINDIR, data_dir, 'regtest', '-wallet=wallet.dat -legacy create', 'bitcoin-wallet') |
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except Exception as e: |
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logging.warning('bitcoin-wallet create failed, retrying without -legacy') |
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callrpc_cli(cfg.BITCOIN_BINDIR, data_dir, 'regtest', '-wallet=wallet.dat create', 'bitcoin-wallet') |
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cls.btc_daemons.append(startDaemon(os.path.join(TEST_DIR, 'btc_' + str(i)), cfg.BITCOIN_BINDIR, cfg.BITCOIND)) |
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logging.info('Started %s %d', cfg.BITCOIND, cls.part_daemons[-1].handle.pid) |
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|
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waitForRPC(make_rpc_func(i, base_rpc_port=BTC_BASE_RPC_PORT), test_delay_event) |
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|
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if cls.start_ltc_nodes: |
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for i in range(NUM_LTC_NODES): |
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if not cls.restore_instance: |
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data_dir = prepareDataDir(TEST_DIR, i, 'litecoin.conf', 'ltc_', base_p2p_port=LTC_BASE_PORT, base_rpc_port=LTC_BASE_RPC_PORT) |
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if os.path.exists(os.path.join(cfg.LITECOIN_BINDIR, 'litecoin-wallet')): |
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callrpc_cli(cfg.LITECOIN_BINDIR, data_dir, 'regtest', '-wallet=wallet.dat create', 'litecoin-wallet') |
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|
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cls.ltc_daemons.append(startDaemon(os.path.join(TEST_DIR, 'ltc_' + str(i)), cfg.LITECOIN_BINDIR, cfg.LITECOIND)) |
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logging.info('Started %s %d', cfg.LITECOIND, cls.part_daemons[-1].handle.pid) |
|
|
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waitForRPC(make_rpc_func(i, base_rpc_port=LTC_BASE_RPC_PORT), test_delay_event) |
|
|
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if cls.start_xmr_nodes: |
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for i in range(NUM_XMR_NODES): |
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if not cls.restore_instance: |
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prepareXmrDataDir(TEST_DIR, i, 'monerod.conf') |
|
|
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node_dir = os.path.join(TEST_DIR, 'xmr_' + str(i)) |
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cls.xmr_daemons.append(startXmrDaemon(node_dir, cfg.XMR_BINDIR, cfg.XMRD)) |
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logging.info('Started %s %d', cfg.XMRD, cls.xmr_daemons[-1].handle.pid) |
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waitForXMRNode(i) |
|
|
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opts = [ |
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'--daemon-address=127.0.0.1:{}'.format(XMR_BASE_RPC_PORT + i), |
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'--no-dns', |
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'--rpc-bind-port={}'.format(XMR_BASE_WALLET_RPC_PORT + i), |
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'--wallet-dir={}'.format(os.path.join(node_dir, 'wallets')), |
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'--log-file={}'.format(os.path.join(node_dir, 'wallet.log')), |
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'--rpc-login=test{0}:test_pass{0}'.format(i), |
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'--shared-ringdb-dir={}'.format(os.path.join(node_dir, 'shared-ringdb')), |
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'--allow-mismatched-daemon-version', |
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] |
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cls.xmr_daemons.append(startXmrWalletDaemon(node_dir, cfg.XMR_BINDIR, cfg.XMR_WALLET_RPC, opts=opts)) |
|
|
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for i in range(NUM_XMR_NODES): |
|
cls.xmr_wallet_auth.append(('test{0}'.format(i), 'test_pass{0}'.format(i))) |
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logging.info('Creating XMR wallet %i', i) |
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|
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waitForXMRWallet(i, cls.xmr_wallet_auth[i]) |
|
|
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if not cls.restore_instance: |
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cls.callxmrnodewallet(cls, i, 'create_wallet', {'filename': 'testwallet', 'language': 'English'}) |
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cls.callxmrnodewallet(cls, i, 'open_wallet', {'filename': 'testwallet'}) |
|
|
|
for i in range(NUM_NODES): |
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# Hook for descendant classes |
|
cls.prepareExtraDataDir(i) |
|
|
|
logging.info('Preparing swap clients.') |
|
if not cls.restore_instance: |
|
eckey = ECKey() |
|
eckey.generate() |
|
cls.network_key = toWIF(PREFIX_SECRET_KEY_REGTEST, eckey.get_bytes()) |
|
cls.network_pubkey = eckey.get_pubkey().get_bytes().hex() |
|
|
|
for i in range(NUM_NODES): |
|
start_nodes = set() |
|
if cls.start_ltc_nodes: |
|
start_nodes.add(Coins.LTC) |
|
if cls.start_xmr_nodes: |
|
start_nodes.add(Coins.XMR) |
|
if not cls.restore_instance: |
|
prepare_swapclient_dir(TEST_DIR, i, cls.network_key, cls.network_pubkey, start_nodes, cls) |
|
basicswap_dir = os.path.join(os.path.join(TEST_DIR, 'basicswap_' + str(i))) |
|
settings_path = os.path.join(basicswap_dir, cfg.CONFIG_FILENAME) |
|
with open(settings_path) as fs: |
|
settings = json.load(fs) |
|
if cls.restore_instance and i == 1: |
|
cls.network_key = settings['network_key'] |
|
cls.network_pubkey = settings['network_pubkey'] |
|
fp = open(os.path.join(basicswap_dir, 'basicswap.log'), 'w') |
|
sc = BasicSwap(fp, basicswap_dir, settings, 'regtest', log_name='BasicSwap{}'.format(i)) |
|
cls.swap_clients.append(sc) |
|
sc.setDaemonPID(Coins.BTC, cls.btc_daemons[i].handle.pid) |
|
sc.setDaemonPID(Coins.PART, cls.part_daemons[i].handle.pid) |
|
|
|
if cls.start_ltc_nodes: |
|
sc.setDaemonPID(Coins.LTC, cls.ltc_daemons[i].handle.pid) |
|
cls.addPIDInfo(sc, i) |
|
|
|
sc.start() |
|
if cls.start_xmr_nodes: |
|
# Set XMR main wallet address |
|
xmr_ci = sc.ci(Coins.XMR) |
|
sc.setStringKV('main_wallet_addr_' + xmr_ci.coin_name().lower(), xmr_ci.getMainWalletAddress()) |
|
|
|
t = HttpThread(sc.fp, TEST_HTTP_HOST, TEST_HTTP_PORT + i, False, sc) |
|
cls.http_threads.append(t) |
|
t.start() |
|
# Set future block rewards to nowhere (a random address), so wallet amounts stay constant |
|
void_block_rewards_pubkey = cls.getRandomPubkey() |
|
if cls.restore_instance: |
|
cls.btc_addr = cls.swap_clients[0].ci(Coins.BTC).pubkey_to_segwit_address(void_block_rewards_pubkey) |
|
if cls.start_ltc_nodes: |
|
cls.ltc_addr = cls.swap_clients[0].ci(Coins.LTC).pubkey_to_address(void_block_rewards_pubkey) |
|
if cls.start_xmr_nodes: |
|
cls.xmr_addr = cls.callxmrnodewallet(cls, 1, 'get_address')['address'] |
|
else: |
|
cls.btc_addr = callnoderpc(0, 'getnewaddress', ['mining_addr', 'bech32'], base_rpc_port=BTC_BASE_RPC_PORT) |
|
num_blocks = 400 # Mine enough to activate segwit |
|
logging.info('Mining %d Bitcoin blocks to %s', num_blocks, cls.btc_addr) |
|
callnoderpc(0, 'generatetoaddress', [num_blocks, cls.btc_addr], base_rpc_port=BTC_BASE_RPC_PORT) |
|
|
|
btc_addr1 = callnoderpc(1, 'getnewaddress', ['initial addr'], base_rpc_port=BTC_BASE_RPC_PORT) |
|
for i in range(5): |
|
callnoderpc(0, 'sendtoaddress', [btc_addr1, 100], base_rpc_port=BTC_BASE_RPC_PORT) |
|
|
|
# Switch addresses so wallet amounts stay constant |
|
num_blocks = 100 |
|
cls.btc_addr = cls.swap_clients[0].ci(Coins.BTC).pubkey_to_segwit_address(void_block_rewards_pubkey) |
|
logging.info('Mining %d Bitcoin blocks to %s', num_blocks, cls.btc_addr) |
|
callnoderpc(0, 'generatetoaddress', [num_blocks, cls.btc_addr], base_rpc_port=BTC_BASE_RPC_PORT) |
|
|
|
major_version = int(str(callnoderpc(0, 'getnetworkinfo', base_rpc_port=BTC_BASE_RPC_PORT)['version'])[:2]) |
|
if major_version >= 23: |
|
checkForks(callnoderpc(0, 'getdeploymentinfo', base_rpc_port=BTC_BASE_RPC_PORT)) |
|
else: |
|
checkForks(callnoderpc(0, 'getblockchaininfo', base_rpc_port=BTC_BASE_RPC_PORT)) |
|
|
|
if cls.start_ltc_nodes: |
|
num_blocks = 400 |
|
cls.ltc_addr = callnoderpc(0, 'getnewaddress', ['mining_addr', 'bech32'], base_rpc_port=LTC_BASE_RPC_PORT, wallet='wallet.dat') |
|
logging.info('Mining %d Litecoin blocks to %s', num_blocks, cls.ltc_addr) |
|
callnoderpc(0, 'generatetoaddress', [num_blocks, cls.ltc_addr], base_rpc_port=LTC_BASE_RPC_PORT, wallet='wallet.dat') |
|
|
|
num_blocks = 31 |
|
cls.ltc_addr = cls.swap_clients[0].ci(Coins.LTC).pubkey_to_address(void_block_rewards_pubkey) |
|
logging.info('Mining %d Litecoin blocks to %s', num_blocks, cls.ltc_addr) |
|
callnoderpc(0, 'generatetoaddress', [num_blocks, cls.ltc_addr], base_rpc_port=LTC_BASE_RPC_PORT, wallet='wallet.dat') |
|
|
|
# https://github.com/litecoin-project/litecoin/issues/807 |
|
# Block 432 is when MWEB activates. It requires a peg-in. You'll need to generate an mweb address and send some coins to it. Then it will allow you to mine the next block. |
|
mweb_addr = callnoderpc(2, 'getnewaddress', ['mweb_addr', 'mweb'], base_rpc_port=LTC_BASE_RPC_PORT, wallet='wallet.dat') |
|
callnoderpc(0, 'sendtoaddress', [mweb_addr, 1], base_rpc_port=LTC_BASE_RPC_PORT, wallet='wallet.dat') |
|
|
|
ltc_addr1 = callnoderpc(1, 'getnewaddress', ['initial addr'], base_rpc_port=LTC_BASE_RPC_PORT, wallet='wallet.dat') |
|
for i in range(5): |
|
callnoderpc(0, 'sendtoaddress', [ltc_addr1, 100], base_rpc_port=LTC_BASE_RPC_PORT, wallet='wallet.dat') |
|
|
|
num_blocks = 69 |
|
cls.ltc_addr = cls.swap_clients[0].ci(Coins.LTC).pubkey_to_address(void_block_rewards_pubkey) |
|
callnoderpc(0, 'generatetoaddress', [num_blocks, cls.ltc_addr], base_rpc_port=LTC_BASE_RPC_PORT, wallet='wallet.dat') |
|
|
|
checkForks(callnoderpc(0, 'getblockchaininfo', base_rpc_port=LTC_BASE_RPC_PORT, wallet='wallet.dat')) |
|
|
|
num_blocks = 100 |
|
if cls.start_xmr_nodes: |
|
cls.xmr_addr = cls.callxmrnodewallet(cls, 1, 'get_address')['address'] |
|
if callrpc_xmr(XMR_BASE_RPC_PORT + 1, 'get_block_count')['count'] < num_blocks: |
|
logging.info('Mining %d Monero blocks to %s.', num_blocks, cls.xmr_addr) |
|
callrpc_xmr(XMR_BASE_RPC_PORT + 1, 'generateblocks', {'wallet_address': cls.xmr_addr, 'amount_of_blocks': num_blocks}) |
|
logging.info('XMR blocks: %d', callrpc_xmr(XMR_BASE_RPC_PORT + 1, 'get_block_count')['count']) |
|
|
|
logging.info('Adding anon outputs') |
|
outputs = [] |
|
for i in range(8): |
|
sx_addr = callnoderpc(1, 'getnewstealthaddress') |
|
outputs.append({'address': sx_addr, 'amount': 0.5}) |
|
for i in range(7): |
|
callnoderpc(0, 'sendtypeto', ['part', 'anon', outputs]) |
|
|
|
part_addr1 = callnoderpc(1, 'getnewaddress', ['initial addr']) |
|
part_addr2 = callnoderpc(1, 'getnewaddress', ['initial addr 2']) |
|
callnoderpc(0, 'sendtypeto', ['part', 'part', [{'address': part_addr1, 'amount': 100}, {'address': part_addr2, 'amount': 100}]]) |
|
|
|
cls.prepareExtraCoins() |
|
|
|
logging.info('Starting update thread.') |
|
signal.signal(signal.SIGINT, signal_handler) |
|
cls.update_thread = threading.Thread(target=run_loop, args=(cls,)) |
|
cls.update_thread.start() |
|
|
|
pause_event.set() |
|
cls.coins_update_thread = threading.Thread(target=run_coins_loop, args=(cls,)) |
|
cls.coins_update_thread.start() |
|
|
|
except Exception: |
|
traceback.print_exc() |
|
cls.tearDownClass() |
|
raise ValueError('setUpClass() failed.') |
|
|
|
@classmethod |
|
def tearDownClass(cls): |
|
logging.info('Finalising') |
|
test_delay_event.set() |
|
if cls.update_thread is not None: |
|
try: |
|
cls.update_thread.join() |
|
except Exception: |
|
logging.info('Failed to join update_thread') |
|
if cls.coins_update_thread is not None: |
|
try: |
|
cls.coins_update_thread.join() |
|
except Exception: |
|
logging.info('Failed to join coins_update_thread') |
|
for t in cls.http_threads: |
|
t.stop() |
|
t.join() |
|
logging.info('Stopping swap clients') |
|
for c in cls.swap_clients: |
|
c.finalise() |
|
c.fp.close() |
|
|
|
logging.info('Stopping coin nodes') |
|
stopDaemons(cls.xmr_daemons) |
|
stopDaemons(cls.part_daemons) |
|
stopDaemons(cls.btc_daemons) |
|
stopDaemons(cls.ltc_daemons) |
|
|
|
cls.http_threads.clear() |
|
cls.swap_clients.clear() |
|
cls.part_daemons.clear() |
|
cls.btc_daemons.clear() |
|
cls.ltc_daemons.clear() |
|
cls.xmr_daemons.clear() |
|
|
|
super(BaseTest, cls).tearDownClass() |
|
|
|
@classmethod |
|
def addCoinSettings(cls, settings, datadir, node_id): |
|
pass |
|
|
|
@classmethod |
|
def prepareExtraDataDir(cls, i): |
|
pass |
|
|
|
@classmethod |
|
def addPIDInfo(cls, sc, i): |
|
pass |
|
|
|
@classmethod |
|
def prepareExtraCoins(cls): |
|
pass |
|
|
|
@classmethod |
|
def coins_loop(cls): |
|
if cls.btc_addr is not None: |
|
btcCli('generatetoaddress 1 {}'.format(cls.btc_addr)) |
|
if cls.ltc_addr is not None: |
|
ltcCli('generatetoaddress 1 {}'.format(cls.ltc_addr)) |
|
if cls.xmr_addr is not None: |
|
callrpc_xmr(XMR_BASE_RPC_PORT + 1, 'generateblocks', {'wallet_address': cls.xmr_addr, 'amount_of_blocks': 1}) |
|
|
|
@classmethod |
|
def waitForParticlHeight(cls, num_blocks, node_id=0): |
|
logging.info(f'Waiting for Particl chain height {num_blocks}', ) |
|
for i in range(60): |
|
if test_delay_event.is_set(): |
|
raise ValueError('Test stopped.') |
|
particl_blocks = callnoderpc(0, 'getblockcount') |
|
print('particl_blocks', particl_blocks) |
|
if particl_blocks >= num_blocks: |
|
break |
|
test_delay_event.wait(1) |
|
logging.info('PART blocks: %d', callnoderpc(0, 'getblockcount')) |
|
assert particl_blocks >= num_blocks |
|
|
|
def callxmrnodewallet(self, node_id, method, params=None): |
|
return callrpc_xmr(XMR_BASE_WALLET_RPC_PORT + node_id, method, params, auth=self.xmr_wallet_auth[node_id]) |
|
|
|
def getXmrBalance(self, js_wallets): |
|
return float(js_wallets[Coins.XMR.name]['unconfirmed']) + float(js_wallets[Coins.XMR.name]['balance']) |
|
|
|
|
|
class Test(BaseTest): |
|
__test__ = True |
|
|
|
def notest_00_delay(self): |
|
test_delay_event.wait(100000) |
|
|
|
def test_010_txn_size(self): |
|
logging.info('---------- Test {} txn_size'.format(Coins.PART)) |
|
|
|
swap_clients = self.swap_clients |
|
ci = swap_clients[0].ci(Coins.PART) |
|
pi = swap_clients[0].pi(SwapTypes.XMR_SWAP) |
|
|
|
amount: int = ci.make_int(random.uniform(0.1, 2.0), r=1) |
|
|
|
# Record unspents before createSCLockTx as the used ones will be locked |
|
unspents = ci.rpc('listunspent') |
|
|
|
# fee_rate is in sats/kvB |
|
fee_rate: int = 1000 |
|
|
|
a = ci.getNewSecretKey() |
|
b = ci.getNewSecretKey() |
|
|
|
A = ci.getPubkey(a) |
|
B = ci.getPubkey(b) |
|
lock_tx_script = pi.genScriptLockTxScript(ci, A, B) |
|
|
|
lock_tx = ci.createSCLockTx(amount, lock_tx_script) |
|
lock_tx = ci.fundSCLockTx(lock_tx, fee_rate) |
|
lock_tx = ci.signTxWithWallet(lock_tx) |
|
|
|
unspents_after = ci.rpc('listunspent') |
|
assert (len(unspents) > len(unspents_after)) |
|
|
|
tx_decoded = ci.rpc('decoderawtransaction', [lock_tx.hex()]) |
|
txid = tx_decoded['txid'] |
|
|
|
vsize = tx_decoded['vsize'] |
|
expect_fee_int = round(fee_rate * vsize / 1000) |
|
expect_fee = ci.format_amount(expect_fee_int) |
|
|
|
out_value: int = 0 |
|
for txo in tx_decoded['vout']: |
|
if 'value' in txo: |
|
out_value += ci.make_int(txo['value']) |
|
in_value: int = 0 |
|
for txi in tx_decoded['vin']: |
|
for utxo in unspents: |
|
if 'vout' not in utxo: |
|
continue |
|
if utxo['txid'] == txi['txid'] and utxo['vout'] == txi['vout']: |
|
in_value += ci.make_int(utxo['amount']) |
|
break |
|
fee_value = in_value - out_value |
|
|
|
ci.rpc('sendrawtransaction', [lock_tx.hex()]) |
|
rv = ci.rpc('gettransaction', [txid]) |
|
wallet_tx_fee = -ci.make_int(rv['fee']) |
|
|
|
assert (wallet_tx_fee == fee_value) |
|
assert (wallet_tx_fee == expect_fee_int) |
|
|
|
addr_out = ci.getNewAddress(True) |
|
pkh_out = ci.decodeAddress(addr_out) |
|
fee_info = {} |
|
lock_spend_tx = ci.createSCLockSpendTx(lock_tx, lock_tx_script, pkh_out, fee_rate, fee_info=fee_info) |
|
vsize_estimated: int = fee_info['vsize'] |
|
|
|
tx_decoded = ci.rpc('decoderawtransaction', [lock_spend_tx.hex()]) |
|
txid = tx_decoded['txid'] |
|
|
|
witness_stack = [ |
|
b'', |
|
ci.signTx(a, lock_spend_tx, 0, lock_tx_script, amount), |
|
ci.signTx(b, lock_spend_tx, 0, lock_tx_script, amount), |
|
lock_tx_script, |
|
] |
|
lock_spend_tx = ci.setTxSignature(lock_spend_tx, witness_stack) |
|
tx_decoded = ci.rpc('decoderawtransaction', [lock_spend_tx.hex()]) |
|
vsize_actual: int = tx_decoded['vsize'] |
|
|
|
assert (vsize_actual <= vsize_estimated and vsize_estimated - vsize_actual < 4) |
|
assert (ci.rpc('sendrawtransaction', [lock_spend_tx.hex()]) == txid) |
|
|
|
expect_vsize: int = ci.xmr_swap_a_lock_spend_tx_vsize() |
|
assert (expect_vsize >= vsize_actual) |
|
assert (expect_vsize - vsize_actual < 10) |
|
|
|
# Test chain b (no-script) lock tx size |
|
v = ci.getNewSecretKey() |
|
s = ci.getNewSecretKey() |
|
S = ci.getPubkey(s) |
|
lock_tx_b_txid = ci.publishBLockTx(v, S, amount, fee_rate) |
|
|
|
addr_out = ci.getNewAddress(True) |
|
lock_tx_b_spend_txid = ci.spendBLockTx(lock_tx_b_txid, addr_out, v, s, amount, fee_rate, 0) |
|
lock_tx_b_spend = ci.getTransaction(lock_tx_b_spend_txid) |
|
if lock_tx_b_spend is None: |
|
lock_tx_b_spend = ci.getWalletTransaction(lock_tx_b_spend_txid) |
|
lock_tx_b_spend_decoded = ci.rpc('decoderawtransaction', [lock_tx_b_spend.hex()]) |
|
|
|
expect_vsize: int = ci.xmr_swap_b_lock_spend_tx_vsize() |
|
assert (expect_vsize >= lock_tx_b_spend_decoded['vsize']) |
|
assert (expect_vsize - lock_tx_b_spend_decoded['vsize'] < 10) |
|
|
|
def test_010_xmr_txn_size(self): |
|
logging.info('---------- Test {} txn_size'.format(Coins.XMR)) |
|
|
|
swap_clients = self.swap_clients |
|
ci = swap_clients[1].ci(Coins.XMR) |
|
pi = swap_clients[1].pi(SwapTypes.XMR_SWAP) |
|
|
|
amount: int = ci.make_int(random.uniform(0.1, 2.0), r=1) |
|
fee_rate: int = 1000 # TODO: How to set feerate for rpc functions? |
|
|
|
v = ci.getNewSecretKey() |
|
s = ci.getNewSecretKey() |
|
S = ci.getPubkey(s) |
|
lock_tx_b_txid = ci.publishBLockTx(v, S, amount, fee_rate) |
|
|
|
addr_out = ci.getNewAddress(True) |
|
for i in range(20): |
|
try: |
|
lock_tx_b_spend_txid = ci.spendBLockTx(lock_tx_b_txid, addr_out, v, s, amount, fee_rate, 0) |
|
break |
|
except Exception as e: |
|
if isinstance(e, TemporaryError): |
|
continue |
|
else: |
|
raise (e) |
|
test_delay_event.wait(1) |
|
|
|
lock_tx_b_spend = ci.getTransaction(lock_tx_b_spend_txid) |
|
|
|
actual_size: int = len(lock_tx_b_spend['txs_as_hex'][0]) // 2 |
|
expect_size: int = ci.xmr_swap_b_lock_spend_tx_vsize() |
|
assert (expect_size >= actual_size) |
|
assert (expect_size - actual_size < 100) # TODO |
|
|
|
def test_01_part_xmr(self): |
|
logging.info('---------- Test PART to XMR') |
|
swap_clients = self.swap_clients |
|
|
|
start_xmr_amount = self.getXmrBalance(read_json_api(1800, 'wallets')) |
|
js_1 = read_json_api(1801, 'wallets') |
|
assert (self.getXmrBalance(js_1) > 0.0) |
|
|
|
offer_id = swap_clients[0].postOffer(Coins.PART, Coins.XMR, 100 * COIN, 0.11 * XMR_COIN, 100 * COIN, SwapTypes.XMR_SWAP) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offers = swap_clients[1].listOffers(filters={'offer_id': offer_id}) |
|
assert (len(offers) == 1) |
|
offer = offers[0] |
|
|
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_RECEIVED) |
|
|
|
bid, xmr_swap = swap_clients[0].getXmrBid(bid_id) |
|
assert (xmr_swap) |
|
|
|
swap_clients[0].acceptXmrBid(bid_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=180) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True) |
|
|
|
js_0_end = read_json_api(1800, 'wallets') |
|
end_xmr_amount = self.getXmrBalance(js_0_end) |
|
xmr_amount_diff = end_xmr_amount - start_xmr_amount |
|
assert (xmr_amount_diff > 10.9 and xmr_amount_diff < 11.0) |
|
|
|
bid_id_hex = bid_id.hex() |
|
path = f'bids/{bid_id_hex}/states' |
|
offerer_states = read_json_api(1800, path) |
|
bidder_states = read_json_api(1801, path) |
|
|
|
assert (compare_bid_states(offerer_states, self.states_offerer[0]) is True) |
|
assert (compare_bid_states(bidder_states, self.states_bidder[0]) is True) |
|
|
|
# Test remove_expired_data |
|
remove_expired_data(swap_clients[0], -swap_clients[0]._expire_db_records_after * 2) |
|
offers = swap_clients[0].listOffers(filters={'offer_id': offer_id}) |
|
assert (len(offers) == 0) |
|
|
|
def test_011_smsgaddresses(self): |
|
logging.info('---------- Test address management and private offers') |
|
swap_clients = self.swap_clients |
|
js_1 = read_json_api(1801, 'smsgaddresses') |
|
|
|
post_json = { |
|
'addressnote': 'testing', |
|
} |
|
json_rv = json.loads(post_json_req('http://127.0.0.1:1801/json/smsgaddresses/new', post_json)) |
|
new_address = json_rv['new_address'] |
|
new_address_pk = json_rv['pubkey'] |
|
|
|
js_2 = read_json_api(1801, 'smsgaddresses') |
|
assert (len(js_2) == len(js_1) + 1) |
|
found = False |
|
for addr in js_2: |
|
if addr['addr'] == new_address: |
|
assert (addr['note'] == 'testing') |
|
found = True |
|
assert (found is True) |
|
|
|
found = False |
|
lks = callnoderpc(1, 'smsglocalkeys') |
|
for key in lks['wallet_keys']: |
|
if key['address'] == new_address: |
|
assert (key['receive'] == '1') |
|
found = True |
|
assert (found is True) |
|
|
|
# Disable |
|
post_json = { |
|
'address': new_address, |
|
'addressnote': 'testing2', |
|
'active_ind': '0', |
|
} |
|
json_rv = json.loads(post_json_req('http://127.0.0.1:1801/json/smsgaddresses/edit', post_json)) |
|
assert (json_rv['edited_address'] == new_address) |
|
|
|
js_3 = read_json_api(1801, 'smsgaddresses') |
|
assert (len(js_3) == 0) |
|
|
|
post_json = { |
|
'exclude_inactive': False, |
|
} |
|
js_3 = json.loads(post_json_req('http://127.0.0.1:1801/json/smsgaddresses', post_json)) |
|
found = False |
|
for addr in js_3: |
|
if addr['addr'] == new_address: |
|
assert (addr['note'] == 'testing2') |
|
assert (addr['active_ind'] == 0) |
|
found = True |
|
assert (found is True) |
|
|
|
found = False |
|
lks = callnoderpc(1, 'smsglocalkeys') |
|
for key in lks['wallet_keys']: |
|
if key['address'] == new_address: |
|
found = True |
|
assert (found is False) |
|
|
|
# Re-enable |
|
post_json = { |
|
'address': new_address, |
|
'active_ind': '1', |
|
} |
|
json_rv = json.loads(post_json_req('http://127.0.0.1:1801/json/smsgaddresses/edit', post_json)) |
|
assert (json_rv['edited_address'] == new_address) |
|
|
|
found = False |
|
lks = callnoderpc(1, 'smsglocalkeys') |
|
for key in lks['wallet_keys']: |
|
if key['address'] == new_address: |
|
assert (key['receive'] == '1') |
|
found = True |
|
assert (found is True) |
|
|
|
post_json = { |
|
'addresspubkey': new_address_pk, |
|
'addressnote': 'testing_add_addr', |
|
} |
|
json_rv = json.loads(post_json_req('http://127.0.0.1:1800/json/smsgaddresses/add', post_json)) |
|
assert (json_rv['added_address'] == new_address) |
|
|
|
post_json = { |
|
'addr_to': new_address, |
|
'addr_from': -1, |
|
'coin_from': 1, |
|
'coin_to': 6, |
|
'amt_from': 1, |
|
'amt_to': 1, |
|
'lockhrs': 24} |
|
rv = json.loads(post_json_req('http://127.0.0.1:1800/json/offers/new', post_json)) |
|
offer_id_hex = rv['offer_id'] |
|
|
|
wait_for_offer(test_delay_event, swap_clients[1], bytes.fromhex(offer_id_hex)) |
|
|
|
rv = read_json_api(1801, f'offers/{offer_id_hex}') |
|
assert (rv[0]['addr_to'] == new_address) |
|
|
|
rv = read_json_api(1800, f'offers/{offer_id_hex}') |
|
assert (rv[0]['addr_to'] == new_address) |
|
|
|
def test_02_leader_recover_a_lock_tx(self): |
|
logging.info('---------- Test PART to XMR leader recovers coin a lock tx') |
|
swap_clients = self.swap_clients |
|
|
|
offer_id = swap_clients[0].postOffer( |
|
Coins.PART, Coins.XMR, 101 * COIN, 0.12 * XMR_COIN, 101 * COIN, SwapTypes.XMR_SWAP, |
|
lock_type=TxLockTypes.SEQUENCE_LOCK_BLOCKS, lock_value=12) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offer = swap_clients[1].getOffer(offer_id) |
|
|
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_RECEIVED) |
|
|
|
bid, xmr_swap = swap_clients[0].getXmrBid(bid_id) |
|
assert (xmr_swap) |
|
|
|
swap_clients[1].setBidDebugInd(bid_id, DebugTypes.BID_STOP_AFTER_COIN_A_LOCK) |
|
|
|
swap_clients[0].acceptXmrBid(bid_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.XMR_SWAP_FAILED_REFUNDED, wait_for=180) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, [BidStates.BID_STALLED_FOR_TEST, BidStates.XMR_SWAP_FAILED], sent=True) |
|
|
|
bid_id_hex = bid_id.hex() |
|
path = f'bids/{bid_id_hex}/states' |
|
offerer_states = read_json_api(1800, path) |
|
|
|
assert (compare_bid_states(offerer_states, self.states_offerer[1]) is True) |
|
|
|
def test_03_follower_recover_a_lock_tx(self): |
|
logging.info('---------- Test PART to XMR follower recovers coin a lock tx') |
|
swap_clients = self.swap_clients |
|
|
|
offer_id = swap_clients[0].postOffer( |
|
Coins.PART, Coins.XMR, 101 * COIN, 0.13 * XMR_COIN, 101 * COIN, SwapTypes.XMR_SWAP, |
|
lock_type=TxLockTypes.SEQUENCE_LOCK_BLOCKS, lock_value=16) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offer = swap_clients[1].getOffer(offer_id) |
|
|
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_RECEIVED) |
|
|
|
bid, xmr_swap = swap_clients[0].getXmrBid(bid_id) |
|
assert (xmr_swap) |
|
|
|
swap_clients[1].setBidDebugInd(bid_id, DebugTypes.BID_STOP_AFTER_COIN_A_LOCK) |
|
swap_clients[0].setBidDebugInd(bid_id, DebugTypes.BID_DONT_SPEND_COIN_A_LOCK_REFUND) |
|
|
|
swap_clients[0].acceptXmrBid(bid_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_STALLED_FOR_TEST, wait_for=220) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.XMR_SWAP_FAILED_SWIPED, wait_for=80, sent=True) |
|
|
|
wait_for_none_active(test_delay_event, 1800) |
|
wait_for_none_active(test_delay_event, 1801) |
|
|
|
bid_id_hex = bid_id.hex() |
|
path = f'bids/{bid_id_hex}/states' |
|
bidder_states = read_json_api(1801, path) |
|
|
|
bidder_states = [s for s in bidder_states if s[1] != 'Bid Stalled (debug)'] |
|
assert (compare_bid_states(bidder_states, self.states_bidder[2]) is True) |
|
|
|
def test_04_follower_recover_b_lock_tx(self): |
|
logging.info('---------- Test PART to XMR follower recovers coin b lock tx') |
|
|
|
swap_clients = self.swap_clients |
|
|
|
offer_id = swap_clients[0].postOffer( |
|
Coins.PART, Coins.XMR, 101 * COIN, 0.14 * XMR_COIN, 101 * COIN, SwapTypes.XMR_SWAP, |
|
lock_type=TxLockTypes.SEQUENCE_LOCK_BLOCKS, lock_value=28) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offer = swap_clients[1].getOffer(offer_id) |
|
|
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_RECEIVED) |
|
|
|
bid, xmr_swap = swap_clients[0].getXmrBid(bid_id) |
|
assert (xmr_swap) |
|
|
|
swap_clients[1].setBidDebugInd(bid_id, DebugTypes.CREATE_INVALID_COIN_B_LOCK) |
|
|
|
swap_clients[0].acceptXmrBid(bid_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.XMR_SWAP_FAILED_REFUNDED, wait_for=180) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.XMR_SWAP_FAILED_REFUNDED, sent=True) |
|
|
|
bid_id_hex = bid_id.hex() |
|
path = f'bids/{bid_id_hex}/states' |
|
offerer_states = read_json_api(1800, path) |
|
bidder_states = read_json_api(1801, path) |
|
|
|
assert (compare_bid_states(offerer_states, self.states_offerer[1]) is True) |
|
assert (compare_bid_states(bidder_states, self.states_bidder[1]) is True) |
|
|
|
def test_05_btc_xmr(self): |
|
logging.info('---------- Test BTC to XMR') |
|
swap_clients = self.swap_clients |
|
offer_id = swap_clients[0].postOffer(Coins.BTC, Coins.XMR, 10 * COIN, 100 * XMR_COIN, 10 * COIN, SwapTypes.XMR_SWAP) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offers = swap_clients[1].listOffers(filters={'offer_id': offer_id}) |
|
offer = offers[0] |
|
|
|
swap_clients[1].ci(Coins.XMR).setFeePriority(3) |
|
|
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_RECEIVED) |
|
|
|
bid, xmr_swap = swap_clients[0].getXmrBid(bid_id) |
|
assert (xmr_swap) |
|
|
|
swap_clients[0].acceptXmrBid(bid_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=180) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True) |
|
|
|
swap_clients[1].ci(Coins.XMR).setFeePriority(0) |
|
|
|
def test_06_multiple_swaps(self): |
|
logging.info('---------- Test Multiple concurrent swaps') |
|
swap_clients = self.swap_clients |
|
|
|
js_w0_before = read_json_api(1800, 'wallets') |
|
js_w1_before = read_json_api(1801, 'wallets') |
|
|
|
amt_1 = make_int(random.uniform(0.001, 19.0), scale=8, r=1) |
|
amt_2 = make_int(random.uniform(0.001, 49.0), scale=8, r=1) |
|
|
|
rate_1 = make_int(random.uniform(80.0, 110.0), scale=12, r=1) |
|
rate_2 = make_int(random.uniform(0.01, 0.5), scale=12, r=1) |
|
|
|
logging.info('amt_1 {}, rate_1 {}'.format(amt_1, rate_1)) |
|
logging.info('amt_2 {}, rate_2 {}'.format(amt_2, rate_2)) |
|
offer1_id = swap_clients[0].postOffer(Coins.BTC, Coins.XMR, amt_1, rate_1, amt_1, SwapTypes.XMR_SWAP) |
|
offer2_id = swap_clients[0].postOffer(Coins.PART, Coins.XMR, amt_2, rate_2, amt_2, SwapTypes.XMR_SWAP) |
|
|
|
wait_for_offer(test_delay_event, swap_clients[1], offer1_id) |
|
offer1 = swap_clients[1].getOffer(offer1_id) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer2_id) |
|
offer2 = swap_clients[1].getOffer(offer2_id) |
|
|
|
bid1_id = swap_clients[1].postXmrBid(offer1_id, offer1.amount_from) |
|
bid2_id = swap_clients[1].postXmrBid(offer2_id, offer2.amount_from) |
|
|
|
offer3_id = swap_clients[0].postOffer(Coins.PART, Coins.XMR, 11 * COIN, 0.15 * XMR_COIN, 11 * COIN, SwapTypes.XMR_SWAP) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid1_id, BidStates.BID_RECEIVED) |
|
swap_clients[0].acceptXmrBid(bid1_id) |
|
|
|
wait_for_offer(test_delay_event, swap_clients[1], offer3_id) |
|
offer3 = swap_clients[1].getOffer(offer3_id) |
|
bid3_id = swap_clients[1].postXmrBid(offer3_id, offer3.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid2_id, BidStates.BID_RECEIVED) |
|
swap_clients[0].acceptXmrBid(bid2_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid3_id, BidStates.BID_RECEIVED) |
|
swap_clients[0].acceptXmrBid(bid3_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid1_id, BidStates.SWAP_COMPLETED, wait_for=180) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid1_id, BidStates.SWAP_COMPLETED, sent=True) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid2_id, BidStates.SWAP_COMPLETED, wait_for=120) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid2_id, BidStates.SWAP_COMPLETED, sent=True) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid3_id, BidStates.SWAP_COMPLETED, wait_for=120) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid3_id, BidStates.SWAP_COMPLETED, sent=True) |
|
|
|
wait_for_none_active(test_delay_event, 1800) |
|
wait_for_none_active(test_delay_event, 1801) |
|
|
|
js_w0_after = read_json_api(1800, 'wallets') |
|
js_w1_after = read_json_api(1801, 'wallets') |
|
assert (make_int(js_w1_after['BTC']['balance'], scale=8, r=1) - (make_int(js_w1_before['BTC']['balance'], scale=8, r=1) + amt_1) < 1000) |
|
|
|
def test_07_revoke_offer(self): |
|
logging.info('---------- Test offer revocaction') |
|
swap_clients = self.swap_clients |
|
offer_id = swap_clients[0].postOffer(Coins.BTC, Coins.XMR, 10 * COIN, 100 * XMR_COIN, 10 * COIN, SwapTypes.XMR_SWAP) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
|
|
swap_clients[0].revokeOffer(offer_id) |
|
|
|
wait_for_no_offer(test_delay_event, swap_clients[1], offer_id) |
|
|
|
def test_08_withdraw(self): |
|
logging.info('---------- Test XMR withdrawals') |
|
swap_clients = self.swap_clients |
|
js_0 = read_json_api(1800, 'wallets') |
|
address_to = js_0[Coins.XMR.name]['deposit_address'] |
|
|
|
js_1 = read_json_api(1801, 'wallets') |
|
assert (float(js_1[Coins.XMR.name]['balance']) > 0.0) |
|
|
|
post_json = { |
|
'value': 1.1, |
|
'address': address_to, |
|
'sweepall': False, |
|
} |
|
rv = read_json_api(1801, 'wallets/xmr/withdraw', post_json) |
|
assert (len(rv['txid']) == 64) |
|
|
|
def test_09_auto_accept(self): |
|
logging.info('---------- Test BTC to XMR auto accept') |
|
swap_clients = self.swap_clients |
|
amt_swap = make_int(random.uniform(0.01, 11.0), scale=8, r=1) |
|
rate_swap = make_int(random.uniform(10.0, 101.0), scale=12, r=1) |
|
offer_id = swap_clients[0].postOffer(Coins.BTC, Coins.XMR, amt_swap, rate_swap, amt_swap, SwapTypes.XMR_SWAP, auto_accept_bids=True) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offer = swap_clients[1].listOffers(filters={'offer_id': offer_id})[0] |
|
|
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=180) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True) |
|
|
|
def test_09_1_auto_accept_multiple(self): |
|
logging.info('---------- Test BTC to XMR auto accept multiple bids') |
|
swap_clients = self.swap_clients |
|
amt_swap = make_int(10, scale=8, r=1) |
|
rate_swap = make_int(100, scale=12, r=1) |
|
min_bid = make_int(1, scale=8, r=1) |
|
|
|
extra_options = { |
|
'amount_negotiable': True, |
|
'automation_id': 1, |
|
} |
|
offer_id = swap_clients[0].postOffer(Coins.BTC, Coins.XMR, amt_swap, rate_swap, min_bid, SwapTypes.XMR_SWAP, extra_options=extra_options) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offer = swap_clients[1].listOffers(filters={'offer_id': offer_id})[0] |
|
|
|
below_min_bid = min_bid - 1 |
|
|
|
# Ensure bids below the minimum amount fails on sender and recipient. |
|
try: |
|
bid_id = swap_clients[1].postBid(offer_id, below_min_bid) |
|
except Exception as e: |
|
assert ('Bid amount below minimum' in str(e)) |
|
extra_bid_options = { |
|
'debug_skip_validation': True, |
|
} |
|
bid_id = swap_clients[1].postBid(offer_id, below_min_bid, extra_options=extra_bid_options) |
|
|
|
event = wait_for_event(test_delay_event, swap_clients[0], Concepts.NETWORK_MESSAGE, bid_id) |
|
assert ('Bid amount below minimum' in event.event_msg) |
|
|
|
bid_ids = [] |
|
for i in range(5): |
|
bid_ids.append(swap_clients[1].postBid(offer_id, min_bid)) |
|
|
|
# Should fail > max concurrent |
|
test_delay_event.wait(1.0) |
|
bid_id = swap_clients[1].postBid(offer_id, min_bid) |
|
logging.info('Waiting for bid {} to fail.'.format(bid_id.hex())) |
|
event = wait_for_event(test_delay_event, swap_clients[0], Concepts.BID, bid_id, event_type=EventLogTypes.AUTOMATION_CONSTRAINT) |
|
assert ('Already have 5 bids to complete' in event.event_msg) |
|
|
|
for bid_id in bid_ids: |
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=240) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True) |
|
|
|
amt_bid = make_int(5, scale=8, r=1) |
|
|
|
# Should fail > total value |
|
amt_bid += 1 |
|
bid_id = swap_clients[1].postBid(offer_id, amt_bid) |
|
event = wait_for_event(test_delay_event, swap_clients[0], Concepts.BID, bid_id, event_type=EventLogTypes.AUTOMATION_CONSTRAINT) |
|
assert ('Over remaining offer value' in event.event_msg) |
|
|
|
# Should pass |
|
amt_bid -= 1 |
|
bid_id = swap_clients[1].postBid(offer_id, amt_bid) |
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=180) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True) |
|
|
|
def test_10_locked_refundtx(self): |
|
logging.info('---------- Test Refund tx is locked') |
|
swap_clients = self.swap_clients |
|
offer_id = swap_clients[0].postOffer(Coins.BTC, Coins.XMR, 10 * COIN, 100 * XMR_COIN, 10 * COIN, SwapTypes.XMR_SWAP) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offers = swap_clients[1].listOffers(filters={'offer_id': offer_id}) |
|
offer = offers[0] |
|
|
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_RECEIVED) |
|
|
|
bid, xmr_swap = swap_clients[0].getXmrBid(bid_id) |
|
assert (xmr_swap) |
|
|
|
swap_clients[1].setBidDebugInd(bid_id, DebugTypes.BID_STOP_AFTER_COIN_A_LOCK) |
|
|
|
swap_clients[0].acceptXmrBid(bid_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.XMR_SWAP_SCRIPT_COIN_LOCKED, wait_for=180) |
|
|
|
bid, xmr_swap = swap_clients[0].getXmrBid(bid_id) |
|
assert (xmr_swap) |
|
|
|
try: |
|
swap_clients[0].ci(Coins.BTC).publishTx(xmr_swap.a_lock_refund_tx) |
|
assert (False), 'Lock refund tx should be locked' |
|
except Exception as e: |
|
assert ('non-BIP68-final' in str(e)) |
|
|
|
def test_11_particl_anon(self): |
|
logging.info('---------- Test Particl anon transactions') |
|
swap_clients = self.swap_clients |
|
|
|
js_0 = read_json_api(1800, 'wallets/part') |
|
assert (float(js_0['anon_balance']) == 0.0) |
|
node0_anon_before = js_0['anon_balance'] + js_0['anon_pending'] |
|
|
|
wait_for_balance(test_delay_event, 'http://127.0.0.1:1801/json/wallets/part', 'balance', 200.0) |
|
js_1 = read_json_api(1801, 'wallets/part') |
|
assert (float(js_1['balance']) > 200.0) |
|
node1_anon_before = js_1['anon_balance'] + js_1['anon_pending'] |
|
|
|
callnoderpc(1, 'reservebalance', [True, 1000000]) # Stop staking to avoid conflicts (input used by tx->anon staked before tx gets in the chain) |
|
post_json = { |
|
'value': 100, |
|
'address': js_1['stealth_address'], |
|
'subfee': False, |
|
'type_to': 'anon', |
|
} |
|
json_rv = json.loads(post_json_req('http://127.0.0.1:1801/json/wallets/part/withdraw', post_json)) |
|
assert (len(json_rv['txid']) == 64) |
|
|
|
logging.info('Waiting for anon balance') |
|
wait_for_balance(test_delay_event, 'http://127.0.0.1:1801/json/wallets/part', 'anon_balance', 100.0 + node1_anon_before) |
|
js_1 = read_json_api(1801, 'wallets/part') |
|
node1_anon_before = js_1['anon_balance'] + js_1['anon_pending'] |
|
|
|
callnoderpc(1, 'reservebalance', [False]) |
|
post_json = { |
|
'value': 10, |
|
'address': js_0['stealth_address'], |
|
'subfee': True, |
|
'type_from': 'anon', |
|
'type_to': 'blind', |
|
} |
|
json_rv = json.loads(post_json_req('http://127.0.0.1:1801/json/wallets/part/withdraw', post_json)) |
|
assert (len(json_rv['txid']) == 64) |
|
|
|
logging.info('Waiting for blind balance') |
|
wait_for_balance(test_delay_event, 'http://127.0.0.1:1800/json/wallets/part', 'blind_balance', 9.8) |
|
if float(js_0['blind_balance']) >= 10.0: |
|
raise ValueError('Expect blind balance < 10') |
|
|
|
amt_swap = make_int(random.uniform(0.1, 2.0), scale=8, r=1) |
|
rate_swap = make_int(random.uniform(2.0, 20.0), scale=8, r=1) |
|
offer_id = swap_clients[0].postOffer(Coins.BTC, Coins.PART_ANON, amt_swap, rate_swap, amt_swap, SwapTypes.XMR_SWAP) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offers = swap_clients[0].listOffers(filters={'offer_id': offer_id}) |
|
offer = offers[0] |
|
|
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_RECEIVED) |
|
|
|
bid, xmr_swap = swap_clients[0].getXmrBid(bid_id) |
|
assert (xmr_swap) |
|
amount_to = float(format_amount(bid.amount_to, 8)) |
|
|
|
swap_clients[0].acceptXmrBid(bid_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=180) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True) |
|
|
|
js_1 = read_json_api(1801, 'wallets/part') |
|
assert (js_1['anon_balance'] < node1_anon_before - amount_to) |
|
|
|
js_0 = read_json_api(1800, 'wallets/part') |
|
assert (js_0['anon_balance'] + js_0['anon_pending'] > node0_anon_before + (amount_to - 0.05)) |
|
|
|
# Test chain b (no-script) lock tx size |
|
ci = swap_clients[1].ci(Coins.PART_ANON) |
|
pi = swap_clients[1].pi(SwapTypes.XMR_SWAP) |
|
amount: int = ci.make_int(random.uniform(0.1, 2.0), r=1) |
|
fee_rate: int = 1000 |
|
v = ci.getNewSecretKey() |
|
s = ci.getNewSecretKey() |
|
S = ci.getPubkey(s) |
|
lock_tx_b_txid = ci.publishBLockTx(v, S, amount, fee_rate) |
|
|
|
addr_out = ci.getNewStealthAddress() |
|
lock_tx_b_spend_txid = None |
|
for i in range(20): |
|
try: |
|
lock_tx_b_spend_txid = ci.spendBLockTx(lock_tx_b_txid, addr_out, v, s, amount, fee_rate, 0) |
|
break |
|
except Exception as e: |
|
print('spendBLockTx failed', str(e)) |
|
test_delay_event.wait(2) |
|
assert (lock_tx_b_spend_txid is not None) |
|
|
|
lock_tx_b_spend = ci.getTransaction(lock_tx_b_spend_txid) |
|
if lock_tx_b_spend is None: |
|
lock_tx_b_spend = ci.getWalletTransaction(lock_tx_b_spend_txid) |
|
lock_tx_b_spend_decoded = ci.rpc('decoderawtransaction', [lock_tx_b_spend.hex()]) |
|
|
|
expect_vsize: int = ci.xmr_swap_b_lock_spend_tx_vsize() |
|
assert (expect_vsize >= lock_tx_b_spend_decoded['vsize']) |
|
assert (expect_vsize - lock_tx_b_spend_decoded['vsize'] < 10) |
|
|
|
def test_12_particl_blind(self): |
|
logging.info('---------- Test Particl blind transactions') |
|
swap_clients = self.swap_clients |
|
|
|
js_0 = read_json_api(1800, 'wallets/part') |
|
node0_blind_before = js_0['blind_balance'] + js_0['blind_unconfirmed'] |
|
|
|
wait_for_balance(test_delay_event, 'http://127.0.0.1:1801/json/wallets/part', 'balance', 200.0) |
|
js_1 = read_json_api(1801, 'wallets/part') |
|
assert (float(js_1['balance']) > 200.0) |
|
node1_blind_before = js_1['blind_balance'] + js_1['blind_unconfirmed'] |
|
|
|
post_json = { |
|
'value': 100, |
|
'address': js_0['stealth_address'], |
|
'subfee': False, |
|
'type_to': 'blind', |
|
} |
|
json_rv = json.loads(post_json_req('http://127.0.0.1:1800/json/wallets/part/withdraw', post_json)) |
|
assert (len(json_rv['txid']) == 64) |
|
|
|
logging.info('Waiting for blind balance') |
|
wait_for_balance(test_delay_event, 'http://127.0.0.1:1800/json/wallets/part', 'blind_balance', 100.0 + node0_blind_before) |
|
js_0 = read_json_api(1800, 'wallets/part') |
|
node0_blind_before = js_0['blind_balance'] + js_0['blind_unconfirmed'] |
|
|
|
coin_from = Coins.PART_BLIND |
|
coin_to = Coins.XMR |
|
ci_from = swap_clients[0].ci(coin_from) |
|
ci_to = swap_clients[0].ci(coin_to) |
|
amt_swap = ci_from.make_int(random.uniform(0.1, 2.0), r=1) |
|
rate_swap = ci_to.make_int(random.uniform(0.2, 20.0), r=1) |
|
offer_id = swap_clients[0].postOffer(coin_from, coin_to, amt_swap, rate_swap, amt_swap, SwapTypes.XMR_SWAP) |
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offers = swap_clients[0].listOffers(filters={'offer_id': offer_id}) |
|
offer = offers[0] |
|
|
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_RECEIVED) |
|
|
|
swap_clients[0].acceptXmrBid(bid_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.SWAP_COMPLETED, wait_for=180) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True) |
|
|
|
amount_from = float(format_amount(amt_swap, 8)) |
|
js_1 = read_json_api(1801, 'wallets/part') |
|
node1_blind_after = js_1['blind_balance'] + js_1['blind_unconfirmed'] |
|
assert (node1_blind_after > node1_blind_before + (amount_from - 0.05)) |
|
|
|
js_0 = read_json_api(1800, 'wallets/part') |
|
node0_blind_after = js_0['blind_balance'] + js_0['blind_unconfirmed'] |
|
assert (node0_blind_after < node0_blind_before - amount_from) |
|
|
|
def test_13_locked_xmr(self): |
|
logging.info('---------- Test PART to XMR leader recovers coin a lock tx') |
|
swap_clients = self.swap_clients |
|
|
|
amt_swap = make_int(random.uniform(0.1, 10.0), scale=8, r=1) |
|
rate_swap = make_int(random.uniform(2.0, 20.0), scale=12, r=1) |
|
offer_id = swap_clients[0].postOffer(Coins.PART, Coins.XMR, amt_swap, rate_swap, amt_swap, SwapTypes.XMR_SWAP) |
|
|
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offer = swap_clients[1].getOffer(offer_id) |
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_RECEIVED) |
|
swap_clients[1].setBidDebugInd(bid_id, DebugTypes.SEND_LOCKED_XMR) |
|
swap_clients[0].acceptXmrBid(bid_id) |
|
|
|
wait_for_event(test_delay_event, swap_clients[0], Concepts.BID, bid_id, event_type=EventLogTypes.LOCK_TX_B_INVALID, wait_for=180) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.XMR_SWAP_SCRIPT_COIN_LOCKED, wait_for=180) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.XMR_SWAP_SCRIPT_COIN_LOCKED, sent=True) |
|
|
|
swap_clients[0].abandonBid(bid_id) |
|
swap_clients[1].abandonBid(bid_id) |
|
|
|
def test_14_sweep_balance(self): |
|
logging.info('---------- Test sweep balance offer') |
|
swap_clients = self.swap_clients |
|
|
|
# Disable staking |
|
walletsettings = callnoderpc(2, 'walletsettings', ['stakingoptions', ]) |
|
walletsettings['enabled'] = False |
|
walletsettings = callnoderpc(2, 'walletsettings', ['stakingoptions', walletsettings]) |
|
walletsettings = callnoderpc(2, 'walletsettings', ['stakingoptions', ]) |
|
assert (walletsettings['stakingoptions']['enabled'] is False) |
|
|
|
# Prepare balance |
|
js_w2 = read_json_api(1802, 'wallets') |
|
if float(js_w2['PART']['balance']) < 100.0: |
|
post_json = { |
|
'value': 100, |
|
'address': js_w2['PART']['deposit_address'], |
|
'subfee': False, |
|
} |
|
json_rv = read_json_api(TEST_HTTP_PORT + 0, 'wallets/part/withdraw', post_json) |
|
assert (len(json_rv['txid']) == 64) |
|
wait_for_balance(test_delay_event, 'http://127.0.0.1:1802/json/wallets/part', 'balance', 100.0) |
|
|
|
js_w2 = read_json_api(1802, 'wallets') |
|
assert (float(js_w2['PART']['balance']) >= 100.0) |
|
|
|
js_w2 = read_json_api(1802, 'wallets') |
|
post_json = { |
|
'value': float(js_w2['PART']['balance']), |
|
'address': read_json_api(1802, 'wallets/part/nextdepositaddr'), |
|
'subfee': True, |
|
} |
|
json_rv = read_json_api(TEST_HTTP_PORT + 2, 'wallets/part/withdraw', post_json) |
|
wait_for_balance(test_delay_event, 'http://127.0.0.1:1802/json/wallets/part', 'balance', 10.0) |
|
assert (len(json_rv['txid']) == 64) |
|
|
|
# Create prefunded ITX |
|
ci = swap_clients[2].ci(Coins.PART) |
|
pi = swap_clients[2].pi(SwapTypes.XMR_SWAP) |
|
js_w2 = read_json_api(1802, 'wallets') |
|
swap_value = ci.make_int(js_w2['PART']['balance']) |
|
|
|
itx = pi.getFundedInitiateTxTemplate(ci, swap_value, True) |
|
itx_decoded = ci.describeTx(itx.hex()) |
|
n = pi.findMockVout(ci, itx_decoded) |
|
value_after_subfee = ci.make_int(itx_decoded['vout'][n]['value']) |
|
assert (value_after_subfee < swap_value) |
|
swap_value = value_after_subfee |
|
wait_for_unspent(test_delay_event, ci, swap_value) |
|
|
|
extra_options = {'prefunded_itx': itx} |
|
offer_id = swap_clients[2].postOffer(Coins.PART, Coins.XMR, swap_value, 2 * COIN, swap_value, SwapTypes.XMR_SWAP, extra_options=extra_options) |
|
|
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offer = swap_clients[1].getOffer(offer_id) |
|
bid_id = swap_clients[1].postBid(offer_id, offer.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[2], bid_id, BidStates.BID_RECEIVED) |
|
swap_clients[2].acceptBid(bid_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[2], bid_id, BidStates.SWAP_COMPLETED, wait_for=120) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, sent=True, wait_for=120) |
|
|
|
# Verify expected inputs were used |
|
bid, _, _, _, _ = swap_clients[2].getXmrBidAndOffer(bid_id) |
|
assert (bid.xmr_a_lock_tx) |
|
wtx = ci.rpc('gettransaction', [bid.xmr_a_lock_tx.txid.hex(),]) |
|
itx_after = ci.describeTx(wtx['hex']) |
|
assert (len(itx_after['vin']) == len(itx_decoded['vin'])) |
|
for i, txin in enumerate(itx_decoded['vin']): |
|
assert (txin['txid'] == itx_after['vin'][i]['txid']) |
|
assert (txin['vout'] == itx_after['vin'][i]['vout']) |
|
|
|
def test_15_missed_xmr_send(self): |
|
logging.info('---------- Test PART to XMR B lock tx is lost') |
|
swap_clients = self.swap_clients |
|
|
|
amt_swap = make_int(random.uniform(0.1, 10.0), scale=8, r=1) |
|
rate_swap = make_int(random.uniform(2.0, 20.0), scale=12, r=1) |
|
offer_id = swap_clients[0].postOffer(Coins.PART, Coins.XMR, amt_swap, rate_swap, amt_swap, SwapTypes.XMR_SWAP, |
|
lock_type=TxLockTypes.SEQUENCE_LOCK_BLOCKS, lock_value=28) |
|
|
|
wait_for_offer(test_delay_event, swap_clients[1], offer_id) |
|
offer = swap_clients[1].getOffer(offer_id) |
|
bid_id = swap_clients[1].postXmrBid(offer_id, offer.amount_from) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.BID_RECEIVED) |
|
swap_clients[1].setBidDebugInd(bid_id, DebugTypes.B_LOCK_TX_MISSED_SEND) |
|
swap_clients[0].acceptXmrBid(bid_id) |
|
|
|
wait_for_bid(test_delay_event, swap_clients[0], bid_id, BidStates.XMR_SWAP_FAILED_REFUNDED, wait_for=1800) |
|
wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.XMR_SWAP_FAILED_REFUNDED, wait_for=30, sent=True) |
|
|
|
def test_16_new_subaddress(self): |
|
logging.info('---------- Test that new subaddresses are created') |
|
|
|
current_subaddress = read_json_api(1800, 'wallets/xmr')['deposit_address'] |
|
first_subaddress = read_json_api(1800, 'wallets/xmr/nextdepositaddr') |
|
second_subaddress = read_json_api(1800, 'wallets/xmr/nextdepositaddr') |
|
assert (first_subaddress != second_subaddress) |
|
assert (first_subaddress != current_subaddress) |
|
assert (second_subaddress != current_subaddress) |
|
|
|
def test_97_withdraw_all(self): |
|
logging.info('---------- Test XMR withdrawal all') |
|
|
|
wait_for_balance(test_delay_event, 'http://127.0.0.1:1800/json/wallets/xmr', 'unconfirmed', 0.0) |
|
wallets0 = read_json_api(TEST_HTTP_PORT + 0, 'wallets') |
|
xmr_total = float(wallets0[Coins.XMR.name]['balance']) |
|
|
|
if xmr_total < 10.0: |
|
address_to = read_json_api(1800, 'wallets')[Coins.XMR.name]['deposit_address'] |
|
post_json = { |
|
'value': 10.0, |
|
'address': address_to, |
|
'sweepall': False, |
|
} |
|
json_rv = read_json_api(TEST_HTTP_PORT + 1, 'wallets/xmr/withdraw', post_json) |
|
wait_for_balance(test_delay_event, 'http://127.0.0.1:1800/json/wallets/xmr', 'balance', 10.0) |
|
|
|
post_json = { |
|
'address': read_json_api(1801, 'wallets')[Coins.XMR.name]['deposit_address'], |
|
'sweepall': True, |
|
} |
|
json_rv = json.loads(post_json_req('http://127.0.0.1:{}/json/wallets/xmr/withdraw'.format(TEST_HTTP_PORT + 0), post_json)) |
|
assert (len(json_rv['txid']) == 64) |
|
|
|
try: |
|
logging.info('Disabling XMR mining') |
|
pause_event.clear() |
|
|
|
address_to = read_json_api(1800, 'wallets')[Coins.XMR.name]['deposit_address'] |
|
|
|
wallets1 = read_json_api(TEST_HTTP_PORT + 1, 'wallets') |
|
xmr_total = float(wallets1[Coins.XMR.name]['balance']) |
|
assert (xmr_total > 10) |
|
|
|
post_json = { |
|
'address': address_to, |
|
'sweepall': True, |
|
} |
|
json_rv = json.loads(post_json_req('http://127.0.0.1:{}/json/wallets/xmr/withdraw'.format(TEST_HTTP_PORT + 1), post_json)) |
|
assert ('Balance must be fully confirmed to use sweep all' in json_rv['error']) |
|
finally: |
|
logging.info('Restoring XMR mining') |
|
pause_event.set() |
|
|
|
|
|
if __name__ == '__main__': |
|
unittest.main()
|
|
|