#!/usr/bin/env python3 # -*- coding: utf-8 -*- # Copyright (c) 2021-2023 tecnovert # Distributed under the MIT software license, see the accompanying # file LICENSE or http://www.opensource.org/licenses/mit-license.php. import random import logging import unittest from basicswap.basicswap import ( Coins, SwapTypes, BidStates, DebugTypes, ) from basicswap.basicswap_util import ( TxLockTypes, ) from basicswap.util import ( make_int, format_amount, ) from tests.basicswap.util import ( read_json_api, ) from tests.basicswap.common import ( wait_for_bid, wait_for_offer, wait_for_balance, wait_for_unspent, wait_for_none_active, BTC_BASE_RPC_PORT, ) from basicswap.contrib.test_framework.messages import ( ToHex, FromHex, CTxIn, COutPoint, CTransaction, CTxInWitness, ) from basicswap.contrib.test_framework.script import ( CScript, OP_CHECKLOCKTIMEVERIFY, OP_CHECKSEQUENCEVERIFY, ) from .test_xmr import BaseTest, test_delay_event, callnoderpc logger = logging.getLogger() class BasicSwapTest(BaseTest): base_rpc_port = None def getBalance(self, js_wallets, coin): return float(js_wallets[coin.name]['balance']) + float(js_wallets[coin.name]['unconfirmed']) def callnoderpc(self, method, params=[], wallet=None, node_id=0): return callnoderpc(node_id, method, params, wallet, self.base_rpc_port) def mineBlock(self, num_blocks=1): self.callnoderpc('generatetoaddress', [num_blocks, self.btc_addr]) def test_001_nested_segwit(self): logging.info('---------- Test {} p2sh nested segwit'.format(self.test_coin_from.name)) addr_p2sh_segwit = self.callnoderpc('getnewaddress', ['segwit test', 'p2sh-segwit']) addr_info = self.callnoderpc('getaddressinfo', [addr_p2sh_segwit, ]) assert addr_info['script'] == 'witness_v0_keyhash' txid = self.callnoderpc('sendtoaddress', [addr_p2sh_segwit, 1.0]) assert len(txid) == 64 self.mineBlock() ro = self.callnoderpc('scantxoutset', ['start', ['addr({})'.format(addr_p2sh_segwit)]]) assert (len(ro['unspents']) == 1) assert (ro['unspents'][0]['txid'] == txid) tx_wallet = self.callnoderpc('gettransaction', [txid, ])['hex'] tx = self.callnoderpc('decoderawtransaction', [tx_wallet, ]) prevout_n = -1 for txo in tx['vout']: if addr_p2sh_segwit == txo['scriptPubKey']['address']: prevout_n = txo['n'] break assert prevout_n > -1 tx_funded = self.callnoderpc('createrawtransaction', [[{'txid': txid, 'vout': prevout_n}], {addr_p2sh_segwit: 0.99}]) tx_signed = self.callnoderpc('signrawtransactionwithwallet', [tx_funded, ])['hex'] tx_funded_decoded = self.callnoderpc('decoderawtransaction', [tx_funded, ]) tx_signed_decoded = self.callnoderpc('decoderawtransaction', [tx_signed, ]) assert tx_funded_decoded['txid'] != tx_signed_decoded['txid'] # Add scriptsig for txids to match addr_p2sh_segwit_info = self.callnoderpc('getaddressinfo', [addr_p2sh_segwit, ]) decoded_tx = FromHex(CTransaction(), tx_funded) decoded_tx.vin[0].scriptSig = bytes.fromhex('16' + addr_p2sh_segwit_info['hex']) txid_with_scriptsig = decoded_tx.rehash() assert txid_with_scriptsig == tx_signed_decoded['txid'] def test_002_native_segwit(self): logging.info('---------- Test {} p2sh native segwit'.format(self.test_coin_from.name)) addr_segwit = self.callnoderpc('getnewaddress', ['segwit test', 'bech32']) addr_info = self.callnoderpc('getaddressinfo', [addr_segwit, ]) assert addr_info['iswitness'] is True txid = self.callnoderpc('sendtoaddress', [addr_segwit, 1.0]) assert len(txid) == 64 tx_wallet = self.callnoderpc('gettransaction', [txid, ])['hex'] tx = self.callnoderpc('decoderawtransaction', [tx_wallet, ]) self.mineBlock() ro = self.callnoderpc('scantxoutset', ['start', ['addr({})'.format(addr_segwit)]]) assert (len(ro['unspents']) == 1) assert (ro['unspents'][0]['txid'] == txid) prevout_n = -1 for txo in tx['vout']: if addr_segwit == txo['scriptPubKey']['address']: prevout_n = txo['n'] break assert prevout_n > -1 tx_funded = self.callnoderpc('createrawtransaction', [[{'txid': txid, 'vout': prevout_n}], {addr_segwit: 0.99}]) tx_signed = self.callnoderpc('signrawtransactionwithwallet', [tx_funded, ])['hex'] tx_funded_decoded = self.callnoderpc('decoderawtransaction', [tx_funded, ]) tx_signed_decoded = self.callnoderpc('decoderawtransaction', [tx_signed, ]) assert tx_funded_decoded['txid'] == tx_signed_decoded['txid'] def test_003_cltv(self): logging.info('---------- Test {} cltv'.format(self.test_coin_from.name)) ci = self.swap_clients[0].ci(self.test_coin_from) chain_height = self.callnoderpc('getblockcount') script = CScript([chain_height + 3, OP_CHECKLOCKTIMEVERIFY, ]) script_dest = ci.getScriptDest(script) tx = CTransaction() tx.nVersion = ci.txVersion() tx.vout.append(ci.txoType()(ci.make_int(1.1), script_dest)) tx_hex = ToHex(tx) tx_funded = self.callnoderpc('fundrawtransaction', [tx_hex]) utxo_pos = 0 if tx_funded['changepos'] == 1 else 1 tx_signed = self.callnoderpc('signrawtransactionwithwallet', [tx_funded['hex'], ])['hex'] txid = self.callnoderpc('sendrawtransaction', [tx_signed, ]) addr_out = self.callnoderpc('getnewaddress', ['csv test', 'bech32']) pkh = ci.decodeSegwitAddress(addr_out) script_out = ci.getScriptForPubkeyHash(pkh) tx_spend = CTransaction() tx_spend.nVersion = ci.txVersion() tx_spend.nLockTime = chain_height + 3 tx_spend.vin.append(CTxIn(COutPoint(int(txid, 16), utxo_pos))) tx_spend.vout.append(ci.txoType()(ci.make_int(1.0999), script_out)) tx_spend.wit.vtxinwit.append(CTxInWitness()) tx_spend.wit.vtxinwit[0].scriptWitness.stack = [script, ] tx_spend_hex = ToHex(tx_spend) try: txid = self.callnoderpc('sendrawtransaction', [tx_spend_hex, ]) assert False, 'Should fail' except Exception as e: assert ('non-final' in str(e)) self.mineBlock(5) txid = self.callnoderpc('sendrawtransaction', [tx_spend_hex, ]) self.mineBlock() ro = self.callnoderpc('listreceivedbyaddress', [0, ]) sum_addr = 0 for entry in ro: if entry['address'] == addr_out: sum_addr += entry['amount'] assert (sum_addr == 1.0999) def test_004_csv(self): logging.info('---------- Test {} csv'.format(self.test_coin_from.name)) swap_clients = self.swap_clients ci = self.swap_clients[0].ci(self.test_coin_from) script = CScript([3, OP_CHECKSEQUENCEVERIFY, ]) script_dest = ci.getScriptDest(script) tx = CTransaction() tx.nVersion = ci.txVersion() tx.vout.append(ci.txoType()(ci.make_int(1.1), script_dest)) tx_hex = ToHex(tx) tx_funded = self.callnoderpc('fundrawtransaction', [tx_hex]) utxo_pos = 0 if tx_funded['changepos'] == 1 else 1 tx_signed = self.callnoderpc('signrawtransactionwithwallet', [tx_funded['hex'], ])['hex'] txid = self.callnoderpc('sendrawtransaction', [tx_signed, ]) addr_out = self.callnoderpc('getnewaddress', ['csv test', 'bech32']) pkh = ci.decodeSegwitAddress(addr_out) script_out = ci.getScriptForPubkeyHash(pkh) tx_spend = CTransaction() tx_spend.nVersion = ci.txVersion() tx_spend.vin.append(CTxIn(COutPoint(int(txid, 16), utxo_pos), nSequence=3)) tx_spend.vout.append(ci.txoType()(ci.make_int(1.0999), script_out)) tx_spend.wit.vtxinwit.append(CTxInWitness()) tx_spend.wit.vtxinwit[0].scriptWitness.stack = [script, ] tx_spend_hex = ToHex(tx_spend) try: txid = self.callnoderpc('sendrawtransaction', [tx_spend_hex, ]) assert False, 'Should fail' except Exception as e: assert ('non-BIP68-final' in str(e)) self.mineBlock(3) txid = self.callnoderpc('sendrawtransaction', [tx_spend_hex, ]) self.mineBlock(1) ro = self.callnoderpc('listreceivedbyaddress', [0, ]) sum_addr = 0 for entry in ro: if entry['address'] == addr_out: sum_addr += entry['amount'] assert (sum_addr == 1.0999) def test_005_watchonly(self): logging.info('---------- Test {} watchonly'.format(self.test_coin_from.name)) addr = self.callnoderpc('getnewaddress', ['watchonly test', 'bech32']) ro = self.callnoderpc('importaddress', [addr, '', False], node_id=1) txid = self.callnoderpc('sendtoaddress', [addr, 1.0]) tx_hex = self.callnoderpc('getrawtransaction', [txid, ]) self.callnoderpc('sendrawtransaction', [tx_hex, ], node_id=1) ro = self.callnoderpc('gettransaction', [txid, ], node_id=1) assert (ro['txid'] == txid) balances = self.callnoderpc('getbalances', node_id=1) assert (balances['watchonly']['trusted'] + balances['watchonly']['untrusted_pending'] >= 1.0) def test_006_getblock_verbosity(self): logging.info('---------- Test {} getblock verbosity'.format(self.test_coin_from.name)) best_hash = self.callnoderpc('getbestblockhash') block = self.callnoderpc('getblock', [best_hash, 2]) assert ('vin' in block['tx'][0]) def test_007_hdwallet(self): logging.info('---------- Test {} hdwallet'.format(self.test_coin_from.name)) test_seed = '8e54a313e6df8918df6d758fafdbf127a115175fdd2238d0e908dd8093c9ac3b' test_wif = self.swap_clients[0].ci(self.test_coin_from).encodeKey(bytes.fromhex(test_seed)) new_wallet_name = random.randbytes(10).hex() # wallet_name, wallet_name, blank, passphrase, avoid_reuse, descriptors self.callnoderpc('createwallet', [new_wallet_name, False, True, '', False, False]) self.callnoderpc('sethdseed', [True, test_wif], wallet=new_wallet_name) addr = self.callnoderpc('getnewaddress', wallet=new_wallet_name) self.callnoderpc('unloadwallet', [new_wallet_name]) assert (addr == 'bcrt1qps7hnjd866e9ynxadgseprkc2l56m00dvwargr') self.swap_clients[0].initialiseWallet(Coins.BTC, raise_errors=True) assert self.swap_clients[0].checkWalletSeed(Coins.BTC) is True for i in range(1500): self.callnoderpc('getnewaddress') assert self.swap_clients[0].checkWalletSeed(Coins.BTC) is True rv = read_json_api(1800, 'getcoinseed', {'coin': 'XMR'}) assert (rv['address'] == '47H7UDLzYEsR28BWttxp59SP1UVSxs4VKDJYSfmz7Wd4Fue5VWuoV9x9eejunwzVSmHWN37gBkaAPNf9VD4bTvwQKsBVWyK') def do_test_01_full_swap(self, coin_from, coin_to): logging.info('---------- Test {} to {}'.format(coin_from.name, coin_to.name)) swap_clients = self.swap_clients ci_from = swap_clients[0].ci(coin_from) ci_to = swap_clients[1].ci(coin_to) js_0 = read_json_api(1800, 'wallets') node0_from_before = self.getBalance(js_0, coin_from) js_1 = read_json_api(1801, 'wallets') node1_from_before = self.getBalance(js_1, coin_from) js_0_to = read_json_api(1800, 'wallets/{}'.format(coin_to.name.lower())) js_1_to = read_json_api(1801, 'wallets/{}'.format(coin_to.name.lower())) 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(ci_from.format_amount(amt_swap)) js_1 = read_json_api(1801, 'wallets') node1_from_after = self.getBalance(js_1, coin_from) if coin_from is not Coins.PART: # TODO: staking assert (node1_from_after > node1_from_before + (amount_from - 0.05)) js_0 = read_json_api(1800, 'wallets') node0_from_after = self.getBalance(js_0, coin_from) # TODO: Discard block rewards # assert (node0_from_after < node0_from_before - amount_from) js_0_to_after = read_json_api(1800, 'wallets/{}'.format(coin_to.name.lower())) js_1_to_after = read_json_api(1801, 'wallets/{}'.format(coin_to.name.lower())) scale_from = 8 amount_to = int((amt_swap * rate_swap) // (10 ** scale_from)) amount_to_float = float(ci_to.format_amount(amount_to)) node1_to_after = float(js_1_to_after['unconfirmed']) + float(js_1_to_after['balance']) node1_to_before = float(js_1_to['unconfirmed']) + float(js_1_to['balance']) if False: # TODO: set stakeaddress and xmr rewards to non wallet addresses assert (node1_to_after < node1_to_before - amount_to_float) def test_01_full_swap(self): if not self.has_segwit: return self.do_test_01_full_swap(self.test_coin_from, Coins.XMR) def test_01_full_swap_to_part(self): if not self.has_segwit: return self.do_test_01_full_swap(self.test_coin_from, Coins.PART) def test_01_full_swap_from_part(self): self.do_test_01_full_swap(Coins.PART, self.test_coin_from) def do_test_02_leader_recover_a_lock_tx(self, coin_from, coin_to): logging.info('---------- Test {} to {} leader recovers coin a lock tx'.format(coin_from.name, coin_to.name)) swap_clients = self.swap_clients ci_from = swap_clients[0].ci(coin_from) ci_to = swap_clients[0].ci(coin_to) js_w0_before = read_json_api(1800, 'wallets') node0_from_before = self.getBalance(js_w0_before, coin_from) 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, lock_type=TxLockTypes.SEQUENCE_LOCK_BLOCKS, lock_value=32) 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) js_w0_after = read_json_api(1800, 'wallets') node0_from_after = self.getBalance(js_w0_after, coin_from) # TODO: Discard block rewards # assert (node0_from_before - node0_from_after < 0.02) def test_02_leader_recover_a_lock_tx(self): if not self.has_segwit: return self.do_test_02_leader_recover_a_lock_tx(self.test_coin_from, Coins.XMR) def test_02_leader_recover_a_lock_tx_to_part(self): if not self.has_segwit: return self.do_test_02_leader_recover_a_lock_tx(self.test_coin_from, Coins.PART) def test_02_leader_recover_a_lock_tx_from_part(self): self.do_test_02_leader_recover_a_lock_tx(Coins.PART, self.test_coin_from) def do_test_03_follower_recover_a_lock_tx(self, coin_from, coin_to): logging.info('---------- Test {} to {} follower recovers coin a lock tx'.format(coin_from.name, coin_to.name)) swap_clients = self.swap_clients ci_from = swap_clients[0].ci(coin_from) ci_to = swap_clients[0].ci(coin_to) js_w0_before = read_json_api(1800, 'wallets') js_w1_before = read_json_api(1801, 'wallets') 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, lock_type=TxLockTypes.SEQUENCE_LOCK_BLOCKS, lock_value=32) 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=180) wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.XMR_SWAP_FAILED_SWIPED, wait_for=80, sent=True) js_w1_after = read_json_api(1801, 'wallets') node1_from_before = self.getBalance(js_w1_before, coin_from) node1_from_after = self.getBalance(js_w1_after, coin_from) amount_from = float(format_amount(amt_swap, 8)) # TODO: Discard block rewards # assert (node1_from_after - node1_from_before > (amount_from - 0.02)) swap_clients[0].abandonBid(bid_id) wait_for_none_active(test_delay_event, 1800) wait_for_none_active(test_delay_event, 1801) def test_03_follower_recover_a_lock_tx(self): if not self.has_segwit: return self.do_test_03_follower_recover_a_lock_tx(self.test_coin_from, Coins.XMR) def test_03_follower_recover_a_lock_tx_to_part(self): if not self.has_segwit: return self.do_test_03_follower_recover_a_lock_tx(self.test_coin_from, Coins.PART) def test_03_follower_recover_a_lock_tx_from_part(self): self.do_test_03_follower_recover_a_lock_tx(Coins.PART, self.test_coin_from) def do_test_04_follower_recover_b_lock_tx(self, coin_from, coin_to): logging.info('---------- Test {} to {} follower recovers coin b lock tx'.format(coin_from.name, coin_to.name)) swap_clients = self.swap_clients ci_from = swap_clients[0].ci(coin_from) ci_to = swap_clients[0].ci(coin_to) js_w0_before = read_json_api(1800, 'wallets') js_w1_before = read_json_api(1801, 'wallets') 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, lock_type=TxLockTypes.SEQUENCE_LOCK_BLOCKS, lock_value=32) 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) js_w0_after = read_json_api(1800, 'wallets') js_w1_after = read_json_api(1801, 'wallets') node0_from_before = self.getBalance(js_w0_before, coin_from) node0_from_after = self.getBalance(js_w0_after, coin_from) logging.info('End coin_from balance {}, diff {}'.format(node0_from_after, node0_from_after - node0_from_before)) # TODO: Discard block rewards # assert (node0_from_before - node0_from_after < 0.02) node1_coin_to_before = self.getBalance(js_w1_before, coin_to) node1_coin_to_after = self.getBalance(js_w1_after, coin_to) logging.info('End coin_to balance {}, diff {}'.format(node1_coin_to_after, node1_coin_to_after - node1_coin_to_before)) assert (node1_coin_to_before - node1_coin_to_after < 0.02) def test_04_follower_recover_b_lock_tx(self): if not self.has_segwit: return self.do_test_04_follower_recover_b_lock_tx(self.test_coin_from, Coins.XMR) def test_04_follower_recover_b_lock_tx_to_part(self): if not self.has_segwit: return self.do_test_04_follower_recover_b_lock_tx(self.test_coin_from, Coins.PART) def test_04_follower_recover_b_lock_tx_from_part(self): self.do_test_04_follower_recover_b_lock_tx(Coins.PART, self.test_coin_from) def do_test_05_self_bid(self, coin_from, coin_to): logging.info('---------- Test {} to {} same client'.format(coin_from.name, coin_to.name)) swap_clients = self.swap_clients ci_to = swap_clients[0].ci(coin_to) amt_swap = make_int(random.uniform(0.1, 2.0), scale=8, r=1) rate_swap = ci_to.make_int(random.uniform(0.2, 20.0), r=1) offer_id = swap_clients[1].postOffer(coin_from, coin_to, amt_swap, rate_swap, amt_swap, SwapTypes.XMR_SWAP, auto_accept_bids=True) bid_id = swap_clients[1].postXmrBid(offer_id, amt_swap) wait_for_bid(test_delay_event, swap_clients[1], bid_id, BidStates.SWAP_COMPLETED, wait_for=180) def test_05_self_bid(self): if not self.has_segwit: return self.do_test_05_self_bid(self.test_coin_from, Coins.XMR) def test_05_self_bid_to_part(self): if not self.has_segwit: return self.do_test_05_self_bid(self.test_coin_from, Coins.PART) def test_05_self_bid_from_part(self): self.do_test_05_self_bid(Coins.PART, self.test_coin_from) def test_06_preselect_inputs(self): tla_from = self.test_coin_from.name logging.info('---------- Test {} Preselected inputs'.format(tla_from)) swap_clients = self.swap_clients # Prepare balance js_w2 = read_json_api(1802, 'wallets') if float(js_w2[tla_from]['balance']) < 100.0: post_json = { 'value': 100, 'address': js_w2[tla_from]['deposit_address'], 'subfee': False, } json_rv = read_json_api(1800, 'wallets/{}/withdraw'.format(tla_from.lower()), post_json) assert (len(json_rv['txid']) == 64) wait_for_balance(test_delay_event, 'http://127.0.0.1:1802/json/wallets/{}'.format(tla_from.lower()), 'balance', 100.0) js_w2 = read_json_api(1802, 'wallets') assert (float(js_w2[tla_from]['balance']) >= 100.0) js_w2 = read_json_api(1802, 'wallets') post_json = { 'value': float(js_w2[tla_from]['balance']), 'address': read_json_api(1802, 'wallets/{}/nextdepositaddr'.format(tla_from.lower())), 'subfee': True, } json_rv = read_json_api(1802, 'wallets/{}/withdraw'.format(tla_from.lower()), post_json) wait_for_balance(test_delay_event, 'http://127.0.0.1:1802/json/wallets/{}'.format(tla_from.lower()), 'balance', 10.0) assert (len(json_rv['txid']) == 64) # Create prefunded ITX ci = swap_clients[2].ci(self.test_coin_from) ci_to = swap_clients[2].ci(Coins.XMR) pi = swap_clients[2].pi(SwapTypes.XMR_SWAP) js_w2 = read_json_api(1802, 'wallets') swap_value = ci.make_int(js_w2[tla_from]['balance']) assert (swap_value > ci.make_int(95)) 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} rate_swap = ci_to.make_int(random.uniform(0.2, 20.0)) offer_id = swap_clients[2].postOffer(self.test_coin_from, Coins.XMR, swap_value, rate_swap, 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_callback('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']): txin_after = itx_after['vin'][i] assert (txin['txid'] == txin_after['txid']) assert (txin['vout'] == txin_after['vout']) class TestBTC(BasicSwapTest): __test__ = True test_coin_from = Coins.BTC start_ltc_nodes = False base_rpc_port = BTC_BASE_RPC_PORT def test_009_wallet_encryption(self): for coin in ('btc', 'part', 'xmr'): jsw = read_json_api(1800, f'wallets/{coin}') assert (jsw['encrypted'] is False) assert (jsw['locked'] is False) read_json_api(1800, 'setpassword', {'oldpassword': '', 'newpassword': 'notapassword123'}) # Entire system is locked with Particl wallet jsw = read_json_api(1800, 'wallets/btc') assert ('Coin must be unlocked' in jsw['error']) read_json_api(1800, 'unlock', {'coin': 'part', 'password': 'notapassword123'}) for coin in ('btc', 'xmr'): jsw = read_json_api(1800, f'wallets/{coin}') assert (jsw['encrypted'] is True) assert (jsw['locked'] is True) read_json_api(1800, 'lock', {'coin': 'part'}) jsw = read_json_api(1800, 'wallets/part') assert ('Coin must be unlocked' in jsw['error']) read_json_api(1800, 'setpassword', {'oldpassword': 'notapassword123', 'newpassword': 'notapassword456'}) read_json_api(1800, 'unlock', {'password': 'notapassword456'}) for coin in ('part', 'btc', 'xmr'): jsw = read_json_api(1800, f'wallets/{coin}') assert (jsw['encrypted'] is True) assert (jsw['locked'] is False) def test_01_full_swap(self): js_0 = read_json_api(1800, 'wallets') if not js_0['PART']['encrypted']: read_json_api(1800, 'setpassword', {'oldpassword': '', 'newpassword': 'notapassword123'}) read_json_api(1800, 'unlock', {'password': 'notapassword123'}) js_0 = read_json_api(1800, 'wallets') assert (js_0['PART']['encrypted'] is True) assert (js_0['PART']['locked'] is False) super().test_01_full_swap() if __name__ == '__main__': unittest.main()