Host-customized fork of https://github.com/tecnovert/basicswap/
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#!/usr/bin/env python3
# -*- coding: utf-8 -*-
# Copyright (c) 2024 tecnovert
# Distributed under the MIT software license, see the accompanying
# file LICENSE or http://www.opensource.org/licenses/mit-license.php.
import logging
import os
import select
import subprocess
import unittest
import basicswap.config as cfg
from basicswap.basicswap import (
Coins,
)
from basicswap.util.crypto import (
hash160
)
from basicswap.interface.dcr.rpc import (
callrpc,
)
from basicswap.interface.dcr.messages import (
SigHashType,
TxSerializeType,
)
from tests.basicswap.common import (
stopDaemons,
waitForRPC,
wait_for_balance,
)
from tests.basicswap.util import (
read_json_api,
REQUIRED_SETTINGS,
)
from tests.basicswap.test_xmr import BaseTest, test_delay_event
from basicswap.interface.dcr import DCRInterface
from basicswap.interface.dcr.messages import CTransaction, CTxIn, COutPoint
from basicswap.interface.dcr.script import OP_CHECKSEQUENCEVERIFY, push_script_data
from bin.basicswap_run import startDaemon
logger = logging.getLogger()
DCR_BINDIR = os.path.expanduser(os.getenv('DCR_BINDIR', os.path.join(cfg.DEFAULT_TEST_BINDIR, 'decred')))
DCRD = os.getenv('DCRD', 'dcrd' + cfg.bin_suffix)
DCR_WALLET = os.getenv('DCR_WALLET', 'dcrwallet' + cfg.bin_suffix)
DCR_CLI = os.getenv('DCR_CLI', 'dcrctl' + cfg.bin_suffix)
DCR_BASE_PORT = 44932
DCR_BASE_RPC_PORT = 45932
DCR_BASE_WALLET_RPC_PORT = 45952
def make_rpc_func(node_id, base_rpc_port):
node_id = node_id
auth = 'test{0}:test_pass{0}'.format(node_id)
def rpc_func(method, params=None):
nonlocal node_id, auth
return callrpc(base_rpc_port + node_id, auth, method, params)
return rpc_func
def prepareDCDDataDir(datadir, node_id, conf_file, dir_prefix, num_nodes=3):
node_dir = os.path.join(datadir, dir_prefix + str(node_id))
if not os.path.exists(node_dir):
os.makedirs(node_dir)
cfg_file_path = os.path.join(node_dir, conf_file)
if os.path.exists(cfg_file_path):
return
config = [
'simnet=1\n',
'debuglevel=debug\n',
f'listen=127.0.0.1:{DCR_BASE_PORT + node_id}\n',
f'rpclisten=127.0.0.1:{DCR_BASE_RPC_PORT + node_id}\n',
f'rpcuser=test{node_id}\n',
f'rpcpass=test_pass{node_id}\n',
'notls=1\n',
'miningaddr=SsYbXyjkKAEXXcGdFgr4u4bo4L8RkCxwQpH\n',]
for i in range(0, num_nodes):
if node_id == i:
continue
config.append('addpeer=127.0.0.1:{}\n'.format(DCR_BASE_PORT + i))
with open(cfg_file_path, 'w+') as fp:
for line in config:
fp.write(line)
config = [
'simnet=1\n',
'debuglevel=debug\n',
f'rpclisten=127.0.0.1:{DCR_BASE_WALLET_RPC_PORT + node_id}\n',
f'rpcconnect=127.0.0.1:{DCR_BASE_RPC_PORT + node_id}\n',
f'username=test{node_id}\n',
f'password=test_pass{node_id}\n',
'noservertls=1\n',
'noclienttls=1\n',
'enablevoting=1\n',]
wallet_cfg_file_path = os.path.join(node_dir, 'dcrwallet.conf')
with open(wallet_cfg_file_path, 'w+') as fp:
for line in config:
fp.write(line)
class Test(BaseTest):
__test__ = True
test_coin = Coins.DCR
dcr_daemons = []
start_ltc_nodes = False
start_xmr_nodes = False
dcr_mining_addr = 'SsYbXyjkKAEXXcGdFgr4u4bo4L8RkCxwQpH'
hex_seeds = [
'e8574b2a94404ee62d8acc0258cab4c0defcfab8a5dfc2f4954c1f9d7e09d72a',
'10689fc6378e5f318b663560012673441dcdd8d796134e6021a4248cc6342cc6',
'efc96ffe4fee469407826841d9700ef0a0735b0aa5ec5e7a4aa9bc1afd9a9a30', # Won't match main seed, as it's set randomly
]
@classmethod
def prepareExtraCoins(cls):
if not cls.restore_instance:
ci0 = cls.swap_clients[0].ci(cls.test_coin)
assert (ci0.rpc_wallet('getnewaddress') == cls.dcr_mining_addr)
cls.dcr_ticket_account = ci0.rpc_wallet('getaccount', [cls.dcr_mining_addr, ])
ci0.rpc('generate', [110,])
else:
cls.dcr_ticket_account = ci0.rpc_wallet('getaccount', [cls.dcr_mining_addr, ])
@classmethod
def tearDownClass(cls):
logging.info('Finalising Decred Test')
super(Test, cls).tearDownClass()
stopDaemons(cls.dcr_daemons)
cls.dcr_daemons.clear()
@classmethod
def coins_loop(cls):
super(Test, cls).coins_loop()
ci0 = cls.swap_clients[0].ci(cls.test_coin)
num_passed: int = 0
for i in range(5):
try:
ci0.rpc_wallet('purchaseticket', [cls.dcr_ticket_account, 0.1, 0])
num_passed += 1
except Exception as e:
if 'double spend' in str(e):
pass
else:
logging.warning('coins_loop purchaseticket {}'.format(e))
try:
if num_passed >= 5:
ci0.rpc('generate', [1,])
except Exception as e:
logging.warning('coins_loop generate {}'.format(e))
@classmethod
def prepareExtraDataDir(cls, i):
extra_opts = []
if not cls.restore_instance:
data_dir = prepareDCDDataDir(cfg.TEST_DATADIRS, i, 'dcrd.conf', 'dcr_')
appdata = os.path.join(cfg.TEST_DATADIRS, 'dcr_' + str(i))
datadir = os.path.join(appdata, 'data')
extra_opts.append(f'--appdata="{appdata}"')
cls.dcr_daemons.append(startDaemon(appdata, DCR_BINDIR, DCRD, opts=extra_opts, extra_config={'add_datadir': False, 'stdout_to_file': True, 'stdout_filename': 'dcrd_stdout.log'}))
logging.info('Started %s %d', DCRD, cls.dcr_daemons[-1].handle.pid)
waitForRPC(make_rpc_func(i, base_rpc_port=DCR_BASE_RPC_PORT), test_delay_event, rpc_command='getnetworkinfo', max_tries=12)
logging.info('Creating wallet')
extra_opts.append('--pass=test_pass')
args = [os.path.join(DCR_BINDIR, DCR_WALLET), '--create'] + extra_opts
(pipe_r, pipe_w) = os.pipe() # subprocess.PIPE is buffered, blocks when read
p = subprocess.Popen(args, stdin=subprocess.PIPE, stdout=pipe_w, stderr=pipe_w)
try:
while p.poll() is None:
while len(select.select([pipe_r], [], [], 0)[0]) == 1:
buf = os.read(pipe_r, 1024).decode('utf-8')
logging.debug(f'dcrwallet {buf}')
response = None
if 'Use the existing configured private passphrase' in buf:
response = b'y\n'
elif 'Do you want to add an additional layer of encryption' in buf:
response = b'n\n'
elif 'Do you have an existing wallet seed' in buf:
response = b'y\n'
elif 'Enter existing wallet seed' in buf:
response = (cls.hex_seeds[i] + '\n').encode('utf-8')
elif 'Seed input successful' in buf:
pass
else:
raise ValueError(f'Unexpected output: {buf}')
if response is not None:
p.stdin.write(response)
p.stdin.flush()
test_delay_event.wait(0.1)
except Exception as e:
logging.error(f'{DCR_WALLET} --create failed: {e}')
finally:
if p.poll() is None:
p.terminate()
os.close(pipe_r)
os.close(pipe_w)
p.stdin.close()
test_delay_event.wait(1.0)
cls.dcr_daemons.append(startDaemon(appdata, DCR_BINDIR, DCR_WALLET, opts=extra_opts, extra_config={'add_datadir': False, 'stdout_to_file': True, 'stdout_filename': 'dcrwallet_stdout.log'}))
logging.info('Started %s %d', DCR_WALLET, cls.dcr_daemons[-1].handle.pid)
waitForRPC(make_rpc_func(i, base_rpc_port=DCR_BASE_WALLET_RPC_PORT), test_delay_event, rpc_command='getinfo', max_tries=12)
@classmethod
def addCoinSettings(cls, settings, datadir, node_id):
settings['chainclients']['decred'] = {
'connection_type': 'rpc',
'manage_daemon': False,
'rpcport': DCR_BASE_RPC_PORT + node_id,
'walletrpcport': DCR_BASE_WALLET_RPC_PORT + node_id,
'rpcuser': 'test' + str(node_id),
'rpcpassword': 'test_pass' + str(node_id),
'datadir': os.path.join(datadir, 'dcr_' + str(node_id)),
'bindir': DCR_BINDIR,
'use_csv': True,
'use_segwit': True,
'blocks_confirmed': 1,
}
def prepare_balance(self, coin, amount: float, port_target_node: int, port_take_from_node: int, test_balance: bool = True) -> None:
delay_iterations = 20
delay_time = 3
coin_ticker: str = coin.name
balance_type: str = 'balance'
address_type: str = 'deposit_address'
js_w = read_json_api(port_target_node, 'wallets')
current_balance: float = float(js_w[coin_ticker][balance_type])
if test_balance and current_balance >= amount:
return
post_json = {
'value': amount,
'address': js_w[coin_ticker][address_type],
'subfee': False,
}
json_rv = read_json_api(port_take_from_node, 'wallets/{}/withdraw'.format(coin_ticker.lower()), post_json)
assert (len(json_rv['txid']) == 64)
wait_for_amount: float = amount
if not test_balance:
wait_for_amount += current_balance
wait_for_balance(test_delay_event, 'http://127.0.0.1:{}/json/wallets/{}'.format(port_target_node, coin_ticker.lower()), balance_type, wait_for_amount, iterations=delay_iterations, delay_time=delay_time)
def test_0001_decred_address(self):
logging.info('---------- Test {}'.format(self.test_coin.name))
coin_settings = {'rpcport': 0, 'rpcauth': 'none'}
coin_settings.update(REQUIRED_SETTINGS)
ci = DCRInterface(coin_settings, 'mainnet')
k = ci.getNewSecretKey()
K = ci.getPubkey(k)
pkh = ci.pkh(K)
address = ci.pkh_to_address(pkh)
assert (address.startswith('Ds'))
data = ci.decode_address(address)
assert (data[2:] == pkh)
for i, sc in enumerate(self.swap_clients):
loop_ci = sc.ci(self.test_coin)
root_key = sc.getWalletKey(Coins.DCR, 1)
masterpubkey = loop_ci.rpc_wallet('getmasterpubkey')
masterpubkey_data = loop_ci.decode_address(masterpubkey)[4:]
seed_hash = loop_ci.getSeedHash(root_key)
if i == 0:
assert (masterpubkey == 'spubVV1z2AFYjVZvzM45FSaWMPRqyUoUwyW78wfANdjdNG6JGCXrr8AbRvUgYb3Lm1iun9CgHew1KswdePryNLKEnBSQ82AjNpYdQgzXPUme9c6')
if i < 2:
assert (seed_hash == hash160(masterpubkey_data))
def test_001_segwit(self):
logging.info('---------- Test {} segwit'.format(self.test_coin.name))
swap_clients = self.swap_clients
ci0 = swap_clients[0].ci(self.test_coin)
assert (ci0.using_segwit() is True)
addr_out = ci0.getNewAddress()
addr_info = ci0.rpc_wallet('validateaddress', [addr_out,])
assert (addr_info['isvalid'] is True)
assert (addr_info['ismine'] is True)
rtx = ci0.rpc_wallet('createrawtransaction', [[], {addr_out: 2.0}])
account_from = ci0.rpc_wallet('getaccount', [self.dcr_mining_addr, ])
frtx = ci0.rpc_wallet('fundrawtransaction', [rtx, account_from])
f_decoded = ci0.rpc_wallet('decoderawtransaction', [frtx['hex'], ])
assert (f_decoded['version'] == 1)
sfrtx = ci0.rpc_wallet('signrawtransaction', [frtx['hex']])
s_decoded = ci0.rpc_wallet('decoderawtransaction', [sfrtx['hex'], ])
sent_txid = ci0.rpc_wallet('sendrawtransaction', [sfrtx['hex'], ])
assert (f_decoded['txid'] == sent_txid)
assert (f_decoded['txid'] == s_decoded['txid'])
assert (f_decoded['txid'] == s_decoded['txid'])
ctx = ci0.loadTx(bytes.fromhex(sfrtx['hex']))
ser_out = ctx.serialize()
assert (ser_out.hex() == sfrtx['hex'])
assert (f_decoded['txid'] == ctx.TxHash().hex())
def test_003_signature_hash(self):
logging.info('---------- Test {} signature_hash'.format(self.test_coin.name))
# Test that signing a transaction manually produces the same result when signed with the wallet
swap_clients = self.swap_clients
ci0 = swap_clients[0].ci(self.test_coin)
utxos = ci0.getNewAddress()
addr_out = ci0.rpc_wallet('getnewaddress')
rtx = ci0.rpc_wallet('createrawtransaction', [[], {addr_out: 2.0}])
account_from = ci0.rpc_wallet('getaccount', [self.dcr_mining_addr, ])
frtx = ci0.rpc_wallet('fundrawtransaction', [rtx, account_from])
sfrtx = ci0.rpc_wallet('signrawtransaction', [frtx['hex']])
ctx = ci0.loadTx(bytes.fromhex(frtx['hex']))
prevout = None
prevout_txid = ctx.vin[0].prevout.get_hash().hex()
prevout_n = ctx.vin[0].prevout.n
for utxo in utxos:
if prevout_txid == utxo['txid'] and prevout_n == utxo['vout']:
prevout = utxo
break
assert (prevout is not None)
tx_bytes_no_witness: bytes = ctx.serialize(TxSerializeType.NoWitness)
sig0 = ci0.rpc_wallet('createsignature', [prevout['address'], 0, SigHashType.SigHashAll, prevout['scriptPubKey'], tx_bytes_no_witness.hex()])
priv_key_wif = ci0.rpc_wallet('dumpprivkey', [prevout['address'], ])
sig_type, key_bytes = ci0.decodeKey(priv_key_wif)
addr_info = ci0.rpc_wallet('validateaddress', [prevout['address'],])
pk_hex: str = addr_info['pubkey']
sig0_py = ci0.signTx(key_bytes, tx_bytes_no_witness, 0, bytes.fromhex(prevout['scriptPubKey']), ci0.make_int(prevout['amount']))
tx_bytes_signed = ci0.setTxSignature(tx_bytes_no_witness, [sig0_py, bytes.fromhex(pk_hex)])
# Set prevout value
ctx = ci0.loadTx(tx_bytes_signed)
assert (ctx.vout[0].version == 0)
ctx.vin[0].value_in = ci0.make_int(prevout['amount'])
tx_bytes_signed = ctx.serialize()
assert (tx_bytes_signed.hex() == sfrtx['hex'])
sent_txid = ci0.rpc_wallet('sendrawtransaction', [tx_bytes_signed.hex(), ])
assert (len(sent_txid) == 64)
def test_004_csv(self):
logging.info('---------- Test {} csv'.format(self.test_coin.name))
swap_clients = self.swap_clients
ci0 = swap_clients[0].ci(self.test_coin)
script = bytearray()
push_script_data(script, bytes((3,)))
script += OP_CHECKSEQUENCEVERIFY.to_bytes(1)
script_dest = ci0.getScriptDest(script)
script_info = ci0.rpc_wallet('decodescript', [script_dest.hex(),])
script_addr = ci0.encodeScriptDest(script_dest)
assert (script_info['addresses'][0] == script_addr)
prevout_amount: int = ci0.make_int(1.1)
tx = CTransaction()
tx.version = ci0.txVersion()
tx.vout.append(ci0.txoType()(prevout_amount, script_dest))
tx_hex = tx.serialize().hex()
tx_decoded = ci0.rpc_wallet('decoderawtransaction', [tx_hex, ])
utxo_pos = None
script_address = None
for i, txo in enumerate(tx_decoded['vout']):
script_address = tx_decoded['vout'][0]['scriptPubKey']['addresses'][0]
addr_info = ci0.rpc_wallet('validateaddress', [script_address,])
if addr_info['isscript'] is True:
utxo_pos = i
break
assert (utxo_pos is not None)
accounts = ci0.rpc_wallet('listaccounts')
for account_from in accounts:
try:
frtx = ci0.rpc_wallet('fundrawtransaction', [tx_hex, account_from])
break
except Exception as e:
logging.warning('fundrawtransaction failed {}'.format(e))
sfrtx = ci0.rpc_wallet('signrawtransaction', [frtx['hex']])
sent_txid = ci0.rpc_wallet('sendrawtransaction', [sfrtx['hex'], ])
tx_spend = CTransaction()
tx_spend.version = ci0.txVersion()
tx_spend.vin.append(CTxIn(COutPoint(int(sent_txid, 16), utxo_pos), sequence=3))
tx_spend.vin[0].value_in = prevout_amount
signature_script = bytearray()
push_script_data(signature_script, script)
tx_spend.vin[0].signature_script = signature_script
addr_out = ci0.getNewAddress()
pkh = ci0.decode_address(addr_out)[2:]
tx_spend.vout.append(ci0.txoType()())
tx_spend.vout[0].value = ci0.make_int(1.09)
tx_spend.vout[0].script_pubkey = ci0.getPubkeyHashDest(pkh)
tx_spend_hex = tx_spend.serialize().hex()
try:
sent_spend_txid = ci0.rpc_wallet('sendrawtransaction', [tx_spend_hex, ])
logging.info('Sent tx spending csv output, txid: {}'.format(sent_spend_txid))
except Exception as e:
assert ('transaction sequence locks on inputs not met' in str(e))
else:
assert False, 'Should fail'
sent_spend_txid = None
for i in range(20):
try:
sent_spend_txid = ci0.rpc_wallet('sendrawtransaction', [tx_spend_hex, ])
break
except Exception as e:
logging.info('sendrawtransaction failed {}, height {}'.format(e, ci0.getChainHeight()))
test_delay_event.wait(1)
assert (sent_spend_txid is not None)
def test_005_watchonly(self):
logging.info('---------- Test {} watchonly'.format(self.test_coin.name))
swap_clients = self.swap_clients
ci0 = swap_clients[0].ci(self.test_coin)
ci1 = swap_clients[1].ci(self.test_coin)
addr = ci0.getNewAddress()
pkh = ci0.decode_address(addr)[2:]
addr_info = ci0.rpc_wallet('validateaddress', [addr,])
addr_script = ci0.getPubkeyHashDest(pkh).hex()
script_info = ci0.rpc_wallet('decodescript', [addr_script,])
assert (addr in script_info['addresses'])
# Importscript doesn't import an address
ci1.rpc_wallet('importscript', [addr_script,])
addr_info1 = ci1.rpc_wallet('validateaddress', [addr,])
assert (addr_info1.get('ismine', False) is False)
# Would need to run a second wallet daemon?
try:
ro = ci1.rpc_wallet('importpubkey', [addr_info['pubkey'],])
except Exception as e:
assert ('public keys may only be imported by watching-only wallets' in str(e))
else:
logging.info('Expected importpubkey to fail on non watching-only wallet')
chain_height_last = ci1.getChainHeight()
txid = ci0.rpc_wallet('sendtoaddress', [addr, 1])
found_txid = None
for i in range(20):
if found_txid is not None:
break
chain_height_now = ci1.getChainHeight()
while chain_height_last <= chain_height_now:
if found_txid is not None:
break
try:
check_hash = ci1.rpc('getblockhash', [chain_height_last + 1, ])
except Exception as e:
logging.warning('getblockhash {} failed {}'.format(chain_height_last + 1, e))
test_delay_event.wait(1)
break
chain_height_last += 1
check_hash = ci1.rpc('getblockhash', [chain_height_last, ])
block_tx = ci1.rpc('getblock', [check_hash, True, True])
for tx in block_tx['rawtx']:
if found_txid is not None:
break
for txo in tx['vout']:
if addr_script == txo['scriptPubKey']['hex']:
found_txid = tx['txid']
logging.info('found_txid {}'.format(found_txid))
break
test_delay_event.wait(1)
assert (found_txid is not None)
def test_008_gettxout(self):
logging.info('---------- Test {} gettxout'.format(self.test_coin.name))
ci0 = self.swap_clients[0].ci(self.test_coin)
addr = ci0.getNewAddress()
test_amount: float = 1.0
txid = ci0.withdrawCoin(test_amount, addr)
assert len(txid) == 64
unspents = None
for i in range(30):
unspents = ci0.rpc_wallet('listunspent', [0, 999999999, [addr,]])
if unspents is None:
unspents = []
if len(unspents) > 0:
break
test_delay_event.wait(1)
assert (len(unspents) == 1)
utxo = unspents[0]
txout = ci0.rpc('gettxout', [utxo['txid'], utxo['vout'], utxo['tree']])
# Lock utxo so it's not spent for tickets, while waiting for depth
rv = ci0.rpc_wallet('lockunspent', [False, [utxo, ]])
def wait_for_depth():
for i in range(20):
logging.info('Waiting for txout depth, iter {}'.format(i))
txout = ci0.rpc('gettxout', [utxo['txid'], utxo['vout'], utxo['tree']])
if txout['confirmations'] > 0:
return txout
test_delay_event.wait(1)
raise ValueError('prevout not confirmed')
txout = wait_for_depth()
assert (txout['confirmations'] > 0)
assert (addr in txout['scriptPubKey']['addresses'])
addr_out = ci0.getNewAddress()
rtx = ci0.rpc_wallet('createrawtransaction', [[utxo, ], {addr_out: test_amount - 0.0001}])
stx = ci0.rpc_wallet('signrawtransaction', [rtx])
chain_height_before_send = ci0.getChainHeight()
sent_txid = ci0.rpc_wallet('sendrawtransaction', [stx['hex'], ])
# NOTE: UTXO is still found when spent in the mempool (tested in loop, not delay from wallet to core)
txout = ci0.rpc('gettxout', [utxo['txid'], utxo['vout'], utxo['tree']])
assert (addr in txout['scriptPubKey']['addresses'])
for i in range(20):
txout = ci0.rpc('gettxout', [utxo['txid'], utxo['vout'], utxo['tree']])
if txout is None:
logging.info('txout spent, height before spent {}, height spent {}'.format(chain_height_before_send, ci0.getChainHeight()))
break
test_delay_event.wait(1)
assert (txout is None)
logging.info('Testing getProofOfFunds')
require_amount: int = ci0.make_int(1)
funds_proof = ci0.getProofOfFunds(require_amount, 'test'.encode('utf-8'))
logging.info('Testing verifyProofOfFunds')
amount_proved = ci0.verifyProofOfFunds(funds_proof[0], funds_proof[1], funds_proof[2], 'test'.encode('utf-8'))
assert (amount_proved >= require_amount)
if __name__ == '__main__':
unittest.main()