Host-customized fork of https://github.com/tecnovert/basicswap/
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright (c) 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 hashlib
from io import BytesIO
from coincurve.keys import (
PublicKey,
PrivateKey,
)
from .btc import BTCInterface, find_vout_for_address_from_txobj, findOutput
from basicswap.rpc import make_rpc_func
from basicswap.chainparams import Coins
from basicswap.interface.contrib.nav_test_framework.mininode import (
CTxIn,
CTxOut,
CBlock,
COutPoint,
CTransaction,
CTxInWitness,
FromHex,
uint256_from_str,
)
from basicswap.util.crypto import hash160
from basicswap.util.address import (
decodeWif,
pubkeyToAddress,
encodeAddress,
)
from basicswap.util import (
i2b, i2h,
ensure,
)
from basicswap.basicswap_util import (
getVoutByScriptPubKey,
)
from basicswap.interface.contrib.nav_test_framework.script import (
CScript,
OP_0,
OP_EQUAL,
OP_DUP, OP_HASH160, OP_EQUALVERIFY, OP_CHECKSIG,
SIGHASH_ALL,
SegwitVersion1SignatureHash,
)
from mnemonic import Mnemonic
class NAVInterface(BTCInterface):
@staticmethod
def coin_type():
return Coins.NAV
@staticmethod
def txVersion() -> int:
return 3
@staticmethod
def txoType():
return CTxOut
def __init__(self, coin_settings, network, swap_client=None):
super(NAVInterface, self).__init__(coin_settings, network, swap_client)
# No multiwallet support
self.rpc_wallet = make_rpc_func(self._rpcport, self._rpcauth, host=self._rpc_host)
def checkWallets(self) -> int:
return 1
def use_p2shp2wsh(self) -> bool:
# p2sh-p2wsh
return True
def seedToMnemonic(self, key):
return Mnemonic('english').to_mnemonic(key)
def initialiseWallet(self, key):
# load with -importmnemonic= parameter
pass
def getWalletSeedID(self):
return self.rpc('getwalletinfo')['hdmasterkeyid']
def withdrawCoin(self, value, addr_to: str, subfee: bool):
strdzeel = ''
params = [addr_to, value, '', '', strdzeel, subfee]
return self.rpc('sendtoaddress', params)
def getSpendableBalance(self) -> int:
return self.make_int(self.rpc('getwalletinfo')['balance'])
def signTxWithWallet(self, tx: bytes) -> bytes:
rv = self.rpc('signrawtransaction', [tx.hex()])
return bytes.fromhex(rv['hex'])
def checkExpectedSeed(self, key_hash: str):
try:
rv = self.rpc('dumpmnemonic')
entropy = Mnemonic('english').to_entropy(rv.split(' '))
entropy_hash = self.getAddressHashFromKey(entropy)[::-1].hex()
self._have_checked_seed = True
return entropy_hash == key_hash
except Exception as e:
self._log.warning('checkExpectedSeed failed: {}'.format(str(e)))
return False
def getScriptForP2PKH(self, pkh: bytes) -> bytearray:
# Return P2PKH
return CScript([OP_DUP, OP_HASH160, pkh, OP_EQUALVERIFY, OP_CHECKSIG])
def getScriptForPubkeyHash(self, pkh: bytes) -> bytearray:
# Return P2SH-p2wpkh
script = CScript([OP_0, pkh])
script_hash = hash160(script)
assert len(script_hash) == 20
return CScript([OP_HASH160, script_hash, OP_EQUAL])
def getInputScriptForPubkeyHash(self, pkh: bytes) -> bytearray:
script = CScript([OP_0, pkh])
return bytes((len(script),)) + script
def encodeSegwitAddress(self, pkh: bytes) -> str:
# P2SH-p2wpkh
script = CScript([OP_0, pkh])
script_hash = hash160(script)
assert len(script_hash) == 20
return encodeAddress(bytes((self.chainparams_network()['script_address'],)) + script_hash)
def encodeSegwitAddressScript(self, script: bytes) -> str:
if len(script) == 23 and script[0] == OP_HASH160 and script[1] == 20 and script[22] == OP_EQUAL:
script_hash = script[2:22]
return encodeAddress(bytes((self.chainparams_network()['script_address'],)) + script_hash)
raise ValueError('Unknown Script')
def loadTx(self, tx_bytes: bytes) -> CTransaction:
# Load tx from bytes to internal representation
tx = CTransaction()
tx.deserialize(BytesIO(tx_bytes))
return tx
def signTx(self, key_bytes: bytes, tx_bytes: bytes, input_n: int, prevout_script, prevout_value: int):
tx = self.loadTx(tx_bytes)
sig_hash = SegwitVersion1SignatureHash(prevout_script, tx, input_n, SIGHASH_ALL, prevout_value)
eck = PrivateKey(key_bytes)
return eck.sign(sig_hash, hasher=None) + bytes((SIGHASH_ALL,))
def setTxSignature(self, tx_bytes: bytes, stack) -> bytes:
tx = self.loadTx(tx_bytes)
tx.wit.vtxinwit.clear()
tx.wit.vtxinwit.append(CTxInWitness())
tx.wit.vtxinwit[0].scriptWitness.stack = stack
return tx.serialize_with_witness()
def getProofOfFunds(self, amount_for, extra_commit_bytes):
# TODO: Lock unspent and use same output/s to fund bid
unspents_by_addr = dict()
unspents = self.rpc('listunspent')
for u in unspents:
if u['spendable'] is not True:
continue
if u['address'] not in unspents_by_addr:
unspents_by_addr[u['address']] = {'total': 0, 'utxos': []}
utxo_amount: int = self.make_int(u['amount'], r=1)
unspents_by_addr[u['address']]['total'] += utxo_amount
unspents_by_addr[u['address']]['utxos'].append((utxo_amount, u['txid'], u['vout']))
max_utxos: int = 4
viable_addrs = []
for addr, data in unspents_by_addr.items():
if data['total'] >= amount_for:
# Sort from largest to smallest amount
sorted_utxos = sorted(data['utxos'], key=lambda x: x[0])
# Max outputs required to reach amount_for
utxos_req: int = 0
sum_value: int = 0
for utxo in sorted_utxos:
sum_value += utxo[0]
utxos_req += 1
if sum_value >= amount_for:
break
if utxos_req <= max_utxos:
viable_addrs.append(addr)
continue
ensure(len(viable_addrs) > 0, 'Could not find address with enough funds for proof')
sign_for_addr: str = random.choice(viable_addrs)
self._log.debug('sign_for_addr %s', sign_for_addr)
prove_utxos = []
sorted_utxos = sorted(unspents_by_addr[sign_for_addr]['utxos'], key=lambda x: x[0])
hasher = hashlib.sha256()
sum_value: int = 0
for utxo in sorted_utxos:
sum_value += utxo[0]
outpoint = (bytes.fromhex(utxo[1]), utxo[2])
prove_utxos.append(outpoint)
hasher.update(outpoint[0])
hasher.update(outpoint[1].to_bytes(2, 'big'))
if sum_value >= amount_for:
break
utxos_hash = hasher.digest()
self._log.debug('sign_for_addr %s', sign_for_addr)
if self.using_segwit(): # TODO: Use isSegwitAddress when scantxoutset can use combo
# 'Address does not refer to key' for non p2pkh
addr_info = self.rpc('validateaddress', [addr, ])
if 'isscript' in addr_info and addr_info['isscript'] and 'hex' in addr_info:
pkh = bytes.fromhex(addr_info['hex'])[2:]
sign_for_addr = self.pkh_to_address(pkh)
self._log.debug('sign_for_addr converted %s', sign_for_addr)
signature = self.rpc('signmessage', [sign_for_addr, sign_for_addr + '_swap_proof_' + utxos_hash.hex() + extra_commit_bytes.hex()])
return (sign_for_addr, signature, prove_utxos)
def verifyProofOfFunds(self, address, signature, utxos, extra_commit_bytes):
hasher = hashlib.sha256()
sum_value: int = 0
for outpoint in utxos:
hasher.update(outpoint[0])
hasher.update(outpoint[1].to_bytes(2, 'big'))
utxos_hash = hasher.digest()
passed = self.verifyMessage(address, address + '_swap_proof_' + utxos_hash.hex() + extra_commit_bytes.hex(), signature)
ensure(passed is True, 'Proof of funds signature invalid')
if self.using_segwit():
address = self.encodeSegwitAddress(self.decodeAddress(address)[1:])
sum_value: int = 0
for outpoint in utxos:
txout = self.rpc('gettxout', [outpoint[0].hex(), outpoint[1]])
sum_value += self.make_int(txout['value'])
return sum_value
def createRawFundedTransaction(self, addr_to: str, amount: int, sub_fee: bool = False, lock_unspents: bool = True) -> str:
txn = self.rpc('createrawtransaction', [[], {addr_to: self.format_amount(amount)}])
fee_rate, fee_src = self.get_fee_rate(self._conf_target)
self._log.debug(f'Fee rate: {fee_rate}, source: {fee_src}, block target: {self._conf_target}')
if sub_fee:
raise ValueError('Navcoin fundrawtransaction is missing the subtractFeeFromOutputs parameter')
# options['subtractFeeFromOutputs'] = [0,]
fee_rate = self.make_int(fee_rate, r=1)
return self.fundTx(txn, fee_rate, lock_unspents).hex()
def isAddressMine(self, address: str, or_watch_only: bool = False) -> bool:
addr_info = self.rpc('validateaddress', [address])
if not or_watch_only:
return addr_info['ismine']
return addr_info['ismine'] or addr_info['iswatchonly']
def createRawSignedTransaction(self, addr_to, amount) -> str:
txn_funded = self.createRawFundedTransaction(addr_to, amount)
return self.rpc('signrawtransaction', [txn_funded])['hex']
def getBlockchainInfo(self):
rv = self.rpc('getblockchaininfo')
synced = round(rv['verificationprogress'], 3)
if synced >= 0.997:
rv['verificationprogress'] = 1.0
return rv
def encodeScriptDest(self, script_dest: bytes) -> str:
script_hash = script_dest[2:-1] # Extract hash from script
return self.sh_to_address(script_hash)
def encode_p2wsh(self, script: bytes) -> str:
return pubkeyToAddress(self.chainparams_network()['script_address'], script)
def find_prevout_info(self, txn_hex: str, txn_script: bytes):
txjs = self.rpc('decoderawtransaction', [txn_hex])
n = getVoutByScriptPubKey(txjs, self.getScriptDest(txn_script).hex())
return {
'txid': txjs['txid'],
'vout': n,
'scriptPubKey': txjs['vout'][n]['scriptPubKey']['hex'],
'redeemScript': txn_script.hex(),
'amount': txjs['vout'][n]['value']
}
def getNewAddress(self, use_segwit: bool, label: str = 'swap_receive') -> str:
address: str = self.rpc('getnewaddress', [label,])
if use_segwit:
return self.rpc('addwitnessaddress', [address,])
return address
def createRedeemTxn(self, prevout, output_addr: str, output_value: int, txn_script: bytes) -> str:
tx = CTransaction()
tx.nVersion = self.txVersion()
prev_txid = uint256_from_str(bytes.fromhex(prevout['txid'])[::-1])
tx.vin.append(CTxIn(COutPoint(prev_txid, prevout['vout']),
scriptSig=self.getScriptScriptSig(txn_script)))
pkh = self.decodeAddress(output_addr)
script = self.getScriptForPubkeyHash(pkh)
tx.vout.append(self.txoType()(output_value, script))
tx.rehash()
return tx.serialize().hex()
def createRefundTxn(self, prevout, output_addr: str, output_value: int, locktime: int, sequence: int, txn_script: bytes) -> str:
tx = CTransaction()
tx.nVersion = self.txVersion()
tx.nLockTime = locktime
prev_txid = uint256_from_str(bytes.fromhex(prevout['txid'])[::-1])
tx.vin.append(CTxIn(COutPoint(prev_txid, prevout['vout']),
nSequence=sequence,
scriptSig=self.getScriptScriptSig(txn_script)))
pkh = self.decodeAddress(output_addr)
script = self.getScriptForPubkeyHash(pkh)
tx.vout.append(self.txoType()(output_value, script))
tx.rehash()
return tx.serialize().hex()
def getTxSignature(self, tx_hex: str, prevout_data, key_wif: str) -> str:
key = decodeWif(key_wif)
redeem_script = bytes.fromhex(prevout_data['redeemScript'])
sig = self.signTx(key, bytes.fromhex(tx_hex), 0, redeem_script, self.make_int(prevout_data['amount']))
return sig.hex()
def verifyTxSig(self, tx_bytes: bytes, sig: bytes, K: bytes, input_n: int, prevout_script: bytes, prevout_value: int) -> bool:
tx = self.loadTx(tx_bytes)
sig_hash = SegwitVersion1SignatureHash(prevout_script, tx, input_n, SIGHASH_ALL, prevout_value)
pubkey = PublicKey(K)
return pubkey.verify(sig[: -1], sig_hash, hasher=None) # Pop the hashtype byte
def verifyRawTransaction(self, tx_hex: str, prevouts):
# Only checks signature
# verifyrawtransaction
self._log.warning('NAV verifyRawTransaction only checks signature')
inputs_valid: bool = False
validscripts: int = 0
tx_bytes = bytes.fromhex(tx_hex)
tx = self.loadTx(bytes.fromhex(tx_hex))
signature = tx.wit.vtxinwit[0].scriptWitness.stack[0]
pubkey = tx.wit.vtxinwit[0].scriptWitness.stack[1]
input_n: int = 0
prevout_data = prevouts[input_n]
redeem_script = bytes.fromhex(prevout_data['redeemScript'])
prevout_value = self.make_int(prevout_data['amount'])
if self.verifyTxSig(tx_bytes, signature, pubkey, input_n, redeem_script, prevout_value):
validscripts += 1
# TODO: validate inputs
inputs_valid = True
return {
'inputs_valid': inputs_valid,
'validscripts': validscripts,
}
def getHTLCSpendTxVSize(self, redeem: bool = True) -> int:
tx_vsize = 5 # Add a few bytes, sequence in script takes variable amount of bytes
tx_vsize += 184 if redeem else 187
return tx_vsize
def getTxid(self, tx) -> bytes:
if isinstance(tx, str):
tx = bytes.fromhex(tx)
if isinstance(tx, bytes):
tx = self.loadTx(tx)
tx.rehash()
return i2b(tx.sha256)
def rescanBlockchainForAddress(self, height_start: int, addr_find: str):
# Very ugly workaround for missing `rescanblockchain` rpc command
chain_blocks: int = self.getChainHeight()
current_height: int = chain_blocks
block_hash = self.rpc('getblockhash', [current_height])
script_hash: bytes = self.decodeAddress(addr_find)
find_scriptPubKey = self.getDestForScriptHash(script_hash)
while current_height > height_start:
block_hash = self.rpc('getblockhash', [current_height])
block = self.rpc('getblock', [block_hash, False])
decoded_block = CBlock()
decoded_block = FromHex(decoded_block, block)
for tx in decoded_block.vtx:
for txo in tx.vout:
if txo.scriptPubKey == find_scriptPubKey:
tx.rehash()
txid = i2b(tx.sha256)
self._log.info('Found output to addr: {} in tx {} in block {}'.format(addr_find, txid.hex(), block_hash))
self._log.info('rescanblockchain hack invalidateblock {}'.format(block_hash))
self.rpc('invalidateblock', [block_hash])
self.rpc('reconsiderblock', [block_hash])
return
current_height -= 1
def getLockTxHeight(self, txid, dest_address, bid_amount, rescan_from, find_index: bool = False):
# Add watchonly address and rescan if required
if not self.isAddressMine(dest_address, or_watch_only=True):
self.importWatchOnlyAddress(dest_address, 'bid')
self._log.info('Imported watch-only addr: {}'.format(dest_address))
self._log.info('Rescanning {} chain from height: {}'.format(self.coin_name(), rescan_from))
self.rescanBlockchainForAddress(rescan_from, dest_address)
return_txid = True if txid is None else False
if txid is None:
txns = self.rpc('listunspent', [0, 9999999, [dest_address, ]])
for tx in txns:
if self.make_int(tx['amount']) == bid_amount:
txid = bytes.fromhex(tx['txid'])
break
if txid is None:
return None
try:
tx = self.rpc('gettransaction', [txid.hex()])
block_height = 0
if 'blockhash' in tx:
block_header = self.rpc('getblockheader', [tx['blockhash']])
block_height = block_header['height']
rv = {
'depth': 0 if 'confirmations' not in tx else tx['confirmations'],
'height': block_height}
except Exception as e:
self._log.debug('getLockTxHeight gettransaction failed: %s, %s', txid.hex(), str(e))
return None
if find_index:
tx_obj = self.rpc('decoderawtransaction', [tx['hex']])
rv['index'] = find_vout_for_address_from_txobj(tx_obj, dest_address)
if return_txid:
rv['txid'] = txid.hex()
return rv
def getBlockWithTxns(self, block_hash):
# TODO: Bypass decoderawtransaction and getblockheader
block = self.rpc('getblock', [block_hash, False])
block_header = self.rpc('getblockheader', [block_hash])
decoded_block = CBlock()
decoded_block = FromHex(decoded_block, block)
tx_rv = []
for tx in decoded_block.vtx:
tx_hex = tx.serialize_with_witness().hex()
tx_dec = self.rpc('decoderawtransaction', [tx_hex])
if 'hex' not in tx_dec:
tx_dec['hex'] = tx_hex
tx_rv.append(tx_dec)
block_rv = {
'hash': block_hash,
'tx': tx_rv,
'confirmations': block_header['confirmations'],
'height': block_header['height'],
'version': block_header['version'],
'merkleroot': block_header['merkleroot'],
}
return block_rv
def getScriptScriptSig(self, script: bytes) -> bytearray:
return self.getP2SHP2WSHScriptSig(script)
def getScriptDest(self, script):
return self.getP2SHP2WSHDest(script)
def getDestForScriptHash(self, script_hash):
assert len(script_hash) == 20
return CScript([OP_HASH160, script_hash, OP_EQUAL])
def pubkey_to_segwit_address(self, pk: bytes) -> str:
pkh = hash160(pk)
script_out = self.getScriptForPubkeyHash(pkh)
return self.encodeSegwitAddressScript(script_out)
def createBLockTx(self, Kbs: bytes, output_amount: int, vkbv=None) -> bytes:
tx = CTransaction()
tx.nVersion = self.txVersion()
script_pk = self.getPkDest(Kbs)
tx.vout.append(self.txoType()(output_amount, script_pk))
return tx.serialize()
def spendBLockTx(self, chain_b_lock_txid: bytes, address_to: str, kbv: bytes, kbs: bytes, cb_swap_value: int, b_fee: int, restore_height: int) -> bytes:
self._log.info('spendBLockTx %s:\n', chain_b_lock_txid.hex())
wtx = self.rpc('gettransaction', [chain_b_lock_txid.hex(), ])
lock_tx = self.loadTx(bytes.fromhex(wtx['hex']))
Kbs = self.getPubkey(kbs)
script_pk = self.getPkDest(Kbs)
locked_n = findOutput(lock_tx, script_pk)
ensure(locked_n is not None, 'Output not found in tx')
pkh_to = self.decodeAddress(address_to)
tx = CTransaction()
tx.nVersion = self.txVersion()
chain_b_lock_txid_int = uint256_from_str(chain_b_lock_txid[::-1])
script_sig = self.getInputScriptForPubkeyHash(self.getPubkeyHash(Kbs))
tx.vin.append(CTxIn(COutPoint(chain_b_lock_txid_int, locked_n),
nSequence=0,
scriptSig=script_sig))
tx.vout.append(self.txoType()(cb_swap_value, self.getScriptForPubkeyHash(pkh_to)))
pay_fee = self.getBLockSpendTxFee(tx, b_fee)
tx.vout[0].nValue = cb_swap_value - pay_fee
b_lock_spend_tx = tx.serialize()
b_lock_spend_tx = self.signTxWithKey(b_lock_spend_tx, kbs, cb_swap_value)
return bytes.fromhex(self.publishTx(b_lock_spend_tx))
def signTxWithKey(self, tx: bytes, key: bytes, prev_amount: int) -> bytes:
Key = self.getPubkey(key)
pkh = self.getPubkeyHash(Key)
script = self.getScriptForP2PKH(pkh)
sig = self.signTx(key, tx, 0, script, prev_amount)
stack = [
sig,
Key,
]
return self.setTxSignature(tx, stack)
def findTxnByHash(self, txid_hex: str):
# Only works for wallet txns
try:
rv = self.rpc('gettransaction', [txid_hex])
except Exception as ex:
self._log.debug('findTxnByHash getrawtransaction failed: {}'.format(txid_hex))
return None
if 'confirmations' in rv and rv['confirmations'] >= self.blocks_confirmed:
block_height = self.getBlockHeader(rv['blockhash'])['height']
return {'txid': txid_hex, 'amount': 0, 'height': block_height}
return None
def createSCLockTx(self, value: int, script: bytearray, vkbv: bytes = None) -> bytes:
tx = CTransaction()
tx.nVersion = self.txVersion()
tx.vout.append(self.txoType()(value, self.getScriptDest(script)))
return tx.serialize()
def fundTx(self, tx_hex: str, feerate: int, lock_unspents: bool = True):
feerate_str = self.format_amount(feerate)
# TODO: unlock unspents if bid cancelled
options = {
'lockUnspents': lock_unspents,
'feeRate': feerate_str,
}
rv = self.rpc('fundrawtransaction', [tx_hex, options])
# Sign transaction then strip witness data to fill scriptsig
rv = self.rpc('signrawtransaction', [rv['hex']])
tx_signed = self.loadTx(bytes.fromhex(rv['hex']))
if len(tx_signed.vin) != len(tx_signed.wit.vtxinwit):
raise ValueError('txn has non segwit input')
for witness_data in tx_signed.wit.vtxinwit:
if len(witness_data.scriptWitness.stack) < 2:
raise ValueError('txn has non segwit input')
return tx_signed.serialize_without_witness()
def fundSCLockTx(self, tx_bytes: bytes, feerate, vkbv=None) -> bytes:
tx_funded = self.fundTx(tx_bytes.hex(), feerate)
return tx_funded
def createSCLockRefundTx(self, tx_lock_bytes, script_lock, Kal, Kaf, lock1_value, csv_val, tx_fee_rate, vkbv=None):
tx_lock = CTransaction()
tx_lock = self.loadTx(tx_lock_bytes)
output_script = self.getScriptDest(script_lock)
locked_n = findOutput(tx_lock, output_script)
ensure(locked_n is not None, 'Output not found in tx')
locked_coin = tx_lock.vout[locked_n].nValue
tx_lock.rehash()
tx_lock_id_int = tx_lock.sha256
refund_script = self.genScriptLockRefundTxScript(Kal, Kaf, csv_val)
tx = CTransaction()
tx.nVersion = self.txVersion()
tx.vin.append(CTxIn(COutPoint(tx_lock_id_int, locked_n),
nSequence=lock1_value,
scriptSig=self.getScriptScriptSig(script_lock)))
tx.vout.append(self.txoType()(locked_coin, self.getScriptDest(refund_script)))
dummy_witness_stack = self.getScriptLockTxDummyWitness(script_lock)
witness_bytes = self.getWitnessStackSerialisedLength(dummy_witness_stack)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
pay_fee = round(tx_fee_rate * vsize / 1000)
tx.vout[0].nValue = locked_coin - pay_fee
tx.rehash()
self._log.info('createSCLockRefundTx %s:\n fee_rate, vsize, fee: %ld, %ld, %ld.',
i2h(tx.sha256), tx_fee_rate, vsize, pay_fee)
return tx.serialize(), refund_script, tx.vout[0].nValue
def createSCLockRefundSpendTx(self, tx_lock_refund_bytes, script_lock_refund, pkh_refund_to, tx_fee_rate, vkbv=None):
# Returns the coinA locked coin to the leader
# The follower will sign the multisig path with a signature encumbered by the leader's coinB spend pubkey
# If the leader publishes the decrypted signature the leader's coinB spend privatekey will be revealed to the follower
tx_lock_refund = self.loadTx(tx_lock_refund_bytes)
output_script = self.getScriptDest(script_lock_refund)
locked_n = findOutput(tx_lock_refund, output_script)
ensure(locked_n is not None, 'Output not found in tx')
locked_coin = tx_lock_refund.vout[locked_n].nValue
tx_lock_refund.rehash()
tx_lock_refund_hash_int = tx_lock_refund.sha256
tx = CTransaction()
tx.nVersion = self.txVersion()
tx.vin.append(CTxIn(COutPoint(tx_lock_refund_hash_int, locked_n),
nSequence=0,
scriptSig=self.getScriptScriptSig(script_lock_refund)))
tx.vout.append(self.txoType()(locked_coin, self.getScriptForPubkeyHash(pkh_refund_to)))
dummy_witness_stack = self.getScriptLockRefundSpendTxDummyWitness(script_lock_refund)
witness_bytes = self.getWitnessStackSerialisedLength(dummy_witness_stack)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
pay_fee = round(tx_fee_rate * vsize / 1000)
tx.vout[0].nValue = locked_coin - pay_fee
tx.rehash()
self._log.info('createSCLockRefundSpendTx %s:\n fee_rate, vsize, fee: %ld, %ld, %ld.',
i2h(tx.sha256), tx_fee_rate, vsize, pay_fee)
return tx.serialize()
def createSCLockRefundSpendToFTx(self, tx_lock_refund_bytes, script_lock_refund, pkh_dest, tx_fee_rate, vkbv=None):
# lock refund swipe tx
# Sends the coinA locked coin to the follower
tx_lock_refund = self.loadTx(tx_lock_refund_bytes)
output_script = self.getScriptDest(script_lock_refund)
locked_n = findOutput(tx_lock_refund, output_script)
ensure(locked_n is not None, 'Output not found in tx')
locked_coin = tx_lock_refund.vout[locked_n].nValue
A, B, lock2_value, C = self.extractScriptLockRefundScriptValues(script_lock_refund)
tx_lock_refund.rehash()
tx_lock_refund_hash_int = tx_lock_refund.sha256
tx = CTransaction()
tx.nVersion = self.txVersion()
tx.vin.append(CTxIn(COutPoint(tx_lock_refund_hash_int, locked_n),
nSequence=lock2_value,
scriptSig=self.getScriptScriptSig(script_lock_refund)))
tx.vout.append(self.txoType()(locked_coin, self.getScriptForPubkeyHash(pkh_dest)))
dummy_witness_stack = self.getScriptLockRefundSwipeTxDummyWitness(script_lock_refund)
witness_bytes = self.getWitnessStackSerialisedLength(dummy_witness_stack)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
pay_fee = round(tx_fee_rate * vsize / 1000)
tx.vout[0].nValue = locked_coin - pay_fee
tx.rehash()
self._log.info('createSCLockRefundSpendToFTx %s:\n fee_rate, vsize, fee: %ld, %ld, %ld.',
i2h(tx.sha256), tx_fee_rate, vsize, pay_fee)
return tx.serialize()
def createSCLockSpendTx(self, tx_lock_bytes, script_lock, pkh_dest, tx_fee_rate, vkbv=None, fee_info={}):
tx_lock = self.loadTx(tx_lock_bytes)
output_script = self.getScriptDest(script_lock)
locked_n = findOutput(tx_lock, output_script)
ensure(locked_n is not None, 'Output not found in tx')
locked_coin = tx_lock.vout[locked_n].nValue
tx_lock.rehash()
tx_lock_id_int = tx_lock.sha256
tx = CTransaction()
tx.nVersion = self.txVersion()
tx.vin.append(CTxIn(COutPoint(tx_lock_id_int, locked_n),
scriptSig=self.getScriptScriptSig(script_lock)))
tx.vout.append(self.txoType()(locked_coin, self.getScriptForPubkeyHash(pkh_dest)))
dummy_witness_stack = self.getScriptLockTxDummyWitness(script_lock)
witness_bytes = self.getWitnessStackSerialisedLength(dummy_witness_stack)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
pay_fee = round(tx_fee_rate * vsize / 1000)
tx.vout[0].nValue = locked_coin - pay_fee
fee_info['fee_paid'] = pay_fee
fee_info['rate_used'] = tx_fee_rate
fee_info['witness_bytes'] = witness_bytes
fee_info['vsize'] = vsize
tx.rehash()
self._log.info('createSCLockSpendTx %s:\n fee_rate, vsize, fee: %ld, %ld, %ld.',
i2h(tx.sha256), tx_fee_rate, vsize, pay_fee)
return tx.serialize()