Host-customized fork of https://github.com/tecnovert/basicswap/
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright (c) 2020 tecnovert
# Distributed under the MIT software license, see the accompanying
# file LICENSE or http://www.opensource.org/licenses/mit-license.php.
import time
import hashlib
import logging
from io import BytesIO
from basicswap.contrib.test_framework import segwit_addr
from .util import (
decodeScriptNum,
getCompactSizeLen,
dumpj,
format_amount,
make_int,
toWIF,
decodeAddress)
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from coincurve.keys import (
PrivateKey,
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PublicKey)
from coincurve.dleag import (
verify_secp256k1_point)
from coincurve.ecdsaotves import (
ecdsaotves_enc_sign,
ecdsaotves_enc_verify,
ecdsaotves_dec_sig,
ecdsaotves_rec_enc_key)
from .ecc_util import (
G, ep,
pointToCPK, CPKToPoint,
getSecretInt,
b2h, i2b, b2i, i2h)
from .contrib.test_framework.messages import (
COIN,
COutPoint,
CTransaction,
CTxIn,
CTxInWitness,
CTxOut,
FromHex)
from .contrib.test_framework.script import (
CScript,
CScriptOp,
OP_IF, OP_ELSE, OP_ENDIF,
OP_0,
OP_2,
OP_CHECKSIG,
OP_CHECKMULTISIG,
OP_CHECKSEQUENCEVERIFY,
OP_DROP,
SIGHASH_ALL,
SegwitV0SignatureHash,
hash160)
from .chainparams import CoinInterface, Coins, chainparams
from .rpc import make_rpc_func
from .util import assert_cond
def findOutput(tx, script_pk):
for i in range(len(tx.vout)):
if tx.vout[i].scriptPubKey == script_pk:
return i
return None
class BTCInterface(CoinInterface):
@staticmethod
def coin_type():
return Coins.BTC
@staticmethod
def COIN():
return COIN
@staticmethod
def exp():
return 8
@staticmethod
def nbk():
return 32
@staticmethod
def nbK(): # No. of bytes requires to encode a public key
return 33
@staticmethod
def witnessScaleFactor():
return 4
@staticmethod
def txVersion():
return 2
@staticmethod
def getTxOutputValue(tx):
rv = 0
for output in tx.vout:
rv += output.nValue
return rv
@staticmethod
def compareFeeRates(a, b):
return abs(a - b) < 20
@staticmethod
def xmr_swap_alock_spend_tx_vsize():
return 147
def __init__(self, coin_settings, network):
super().__init__()
self.rpc_callback = make_rpc_func(coin_settings['rpcport'], coin_settings['rpcauth'], host=coin_settings['rpchost'])
self.txoType = CTxOut
self._network = network
self.blocks_confirmed = coin_settings['blocks_confirmed']
self._conf_target = coin_settings['conf_target']
def testDaemonRPC(self):
self.rpc_callback('getwalletinfo', [])
def getDaemonVersion(self):
return self.rpc_callback('getnetworkinfo')['version']
def getBlockchainInfo(self):
return self.rpc_callback('getblockchaininfo')
def getChainHeight(self):
return self.rpc_callback('getblockchaininfo')['blocks']
def getMempoolTx(self, txid):
return self.rpc_callback('getrawtransaction', [txid.hex()])
def initialiseWallet(self, key_bytes):
wif_prefix = chainparams[self.coin_type()][self._network]['key_prefix']
key_wif = toWIF(wif_prefix, key_bytes)
try:
self.rpc_callback('sethdseed', [True, key_wif])
except Exception as e:
# < 0.21: Cannot set a new HD seed while still in Initial Block Download.
logging.error('sethdseed failed: {}'.format(str(e)))
def getWalletInfo(self):
return self.rpc_callback('getwalletinfo')
def getWalletSeedID(self):
return self.rpc_callback('getwalletinfo')['hdseedid']
def getNewAddress(self, use_segwit):
args = ['swap_receive']
if use_segwit:
args.append('bech32')
return self.rpc_callback('getnewaddress', args)
def get_fee_rate(self, conf_target=2):
try:
return self.rpc_callback('estimatesmartfee', [conf_target])['feerate'], 'estimatesmartfee'
except Exception:
try:
fee_rate = self.rpc_callback('getwalletinfo')['paytxfee'], 'paytxfee'
assert(fee_rate > 0.0), '0 feerate'
return fee_rate
except Exception:
return self.rpc_callback('getnetworkinfo')['relayfee'], 'relayfee'
def decodeAddress(self, address):
bech32_prefix = chainparams[self.coin_type()][self._network]['hrp']
if address.startswith(bech32_prefix):
return bytes(segwit_addr.decode(bech32_prefix, address)[1])
return decodeAddress(address)[1:]
def getNewSecretKey(self):
return getSecretInt()
def pubkey(self, key):
return G * key
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def getPubkey(self, privkey):
return PublicKey.from_secret(privkey).format()
def getAddressHashFromKey(self, key):
pk = self.getPubkey(key)
return hash160(pk)
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def verifyKey(self, k):
i = b2i(k)
return(i < ep.o and i > 0)
def verifyPubkey(self, pubkey_bytes):
return verify_secp256k1_point(pubkey_bytes)
def encodePubkey(self, pk):
return pointToCPK(pk)
def decodePubkey(self, pke):
return CPKToPoint(pke)
def decodeKey(self, k):
i = b2i(k)
assert(i < ep.o)
return i
def sumKeys(self, ka, kb):
return (ka + kb) % ep.o
def sumPubkeys(self, Ka, Kb):
return Ka + Kb
def getScriptForPubkeyHash(self, pkh):
return CScript([OP_0, pkh])
def extractScriptLockScriptValues(self, script_bytes):
script_len = len(script_bytes)
assert_cond(script_len == 71, 'Bad script length')
o = 0
assert_cond(script_bytes[o] == OP_2)
assert_cond(script_bytes[o + 1] == 33)
o += 2
pk1 = script_bytes[o: o + 33]
o += 33
assert_cond(script_bytes[o] == 33)
o += 1
pk2 = script_bytes[o: o + 33]
o += 33
assert_cond(script_bytes[o] == OP_2)
assert_cond(script_bytes[o + 1] == OP_CHECKMULTISIG)
return pk1, pk2
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def genScriptLockTxScript(self, Kal, Kaf):
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Kal_enc = Kal if len(Kal) == 33 else self.encodePubkey(Kal)
Kaf_enc = Kaf if len(Kaf) == 33 else self.encodePubkey(Kaf)
return CScript([2, Kal_enc, Kaf_enc, 2, CScriptOp(OP_CHECKMULTISIG)])
def createScriptLockTx(self, value, Kal, Kaf):
script = self.genScriptLockTxScript(Kal, Kaf)
tx = CTransaction()
tx.nVersion = self.txVersion()
tx.vout.append(self.txoType(value, self.getScriptDest(script)))
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return tx.serialize(), script
def extractScriptLockRefundScriptValues(self, script_bytes):
script_len = len(script_bytes)
assert_cond(script_len > 73, 'Bad script length')
assert_cond(script_bytes[0] == OP_IF)
assert_cond(script_bytes[1] == OP_2)
assert_cond(script_bytes[2] == 33)
pk1 = script_bytes[3: 3 + 33]
assert_cond(script_bytes[36] == 33)
pk2 = script_bytes[37: 37 + 33]
assert_cond(script_bytes[70] == OP_2)
assert_cond(script_bytes[71] == OP_CHECKMULTISIG)
assert_cond(script_bytes[72] == OP_ELSE)
o = 73
csv_val, nb = decodeScriptNum(script_bytes, o)
o += nb
assert_cond(script_len == o + 5 + 33, 'Bad script length') # Fails if script too long
assert_cond(script_bytes[o] == OP_CHECKSEQUENCEVERIFY)
o += 1
assert_cond(script_bytes[o] == OP_DROP)
o += 1
assert_cond(script_bytes[o] == 33)
o += 1
pk3 = script_bytes[o: o + 33]
o += 33
assert_cond(script_bytes[o] == OP_CHECKSIG)
o += 1
assert_cond(script_bytes[o] == OP_ENDIF)
return pk1, pk2, csv_val, pk3
def genScriptLockRefundTxScript(self, Kal, Kaf, csv_val):
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Kal_enc = Kal if len(Kal) == 33 else self.encodePubkey(Kal)
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Kaf_enc = Kaf if len(Kaf) == 33 else self.encodePubkey(Kaf)
return CScript([
CScriptOp(OP_IF),
2, Kal_enc, Kaf_enc, 2, CScriptOp(OP_CHECKMULTISIG),
CScriptOp(OP_ELSE),
csv_val, CScriptOp(OP_CHECKSEQUENCEVERIFY), CScriptOp(OP_DROP),
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Kaf_enc, CScriptOp(OP_CHECKSIG),
CScriptOp(OP_ENDIF)])
def createScriptLockRefundTx(self, tx_lock_bytes, script_lock, Kal, Kaf, lock1_value, csv_val, tx_fee_rate):
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tx_lock = CTransaction()
tx_lock = FromHex(tx_lock, tx_lock_bytes.hex())
output_script = CScript([OP_0, hashlib.sha256(script_lock).digest()])
locked_n = findOutput(tx_lock, output_script)
assert_cond(locked_n is not None, 'Output not found in tx')
locked_coin = tx_lock.vout[locked_n].nValue
tx_lock.rehash()
tx_lock_hash_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_hash_int, locked_n), nSequence=lock1_value))
tx.vout.append(self.txoType(locked_coin, CScript([OP_0, hashlib.sha256(refund_script).digest()])))
witness_bytes = len(script_lock)
witness_bytes += 73 * 2 # 2 signatures (72 + 1 byts size)
witness_bytes += 2 # 2 empty witness stack values
witness_bytes += getCompactSizeLen(witness_bytes)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
pay_fee = int(tx_fee_rate * vsize / 1000)
tx.vout[0].nValue = locked_coin - pay_fee
tx.rehash()
logging.info('createScriptLockRefundTx %s:\n fee_rate, vsize, fee: %ld, %ld, %ld.',
i2h(tx.sha256), tx_fee_rate, vsize, pay_fee)
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return tx.serialize(), refund_script, tx.vout[0].nValue
def createScriptLockRefundSpendTx(self, tx_lock_refund_bytes, script_lock_refund, pkh_refund_to, tx_fee_rate):
# 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
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tx_lock_refund = self.loadTx(tx_lock_refund_bytes)
output_script = CScript([OP_0, hashlib.sha256(script_lock_refund).digest()])
locked_n = findOutput(tx_lock_refund, output_script)
assert_cond(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))
tx.vout.append(self.txoType(locked_coin, self.getScriptForPubkeyHash(pkh_refund_to)))
witness_bytes = len(script_lock_refund)
witness_bytes += 73 * 2 # 2 signatures (72 + 1 byte size)
witness_bytes += 4 # 1 empty, 1 true witness stack values
witness_bytes += getCompactSizeLen(witness_bytes)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
pay_fee = int(tx_fee_rate * vsize / 1000)
tx.vout[0].nValue = locked_coin - pay_fee
tx.rehash()
logging.info('createScriptLockRefundSpendTx %s:\n fee_rate, vsize, fee: %ld, %ld, %ld.',
i2h(tx.sha256), tx_fee_rate, vsize, pay_fee)
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return tx.serialize()
def createScriptLockRefundSpendToFTx(self, tx_lock_refund_bytes, script_lock_refund, pkh_dest, tx_fee_rate):
# Sends the coinA locked coin to the follower
tx_lock_refund = self.loadTx(tx_lock_refund_bytes)
output_script = CScript([OP_0, hashlib.sha256(script_lock_refund).digest()])
locked_n = findOutput(tx_lock_refund, output_script)
assert_cond(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))
tx.vout.append(self.txoType(locked_coin, self.getScriptForPubkeyHash(pkh_dest)))
witness_bytes = len(script_lock_refund)
witness_bytes += 73 # signature (72 + 1 byte size)
witness_bytes += 1 # 1 empty stack value
witness_bytes += getCompactSizeLen(witness_bytes)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
pay_fee = int(tx_fee_rate * vsize / 1000)
tx.vout[0].nValue = locked_coin - pay_fee
tx.rehash()
logging.info('createScriptLockRefundSpendToFTx %s:\n fee_rate, vsize, fee: %ld, %ld, %ld.',
i2h(tx.sha256), tx_fee_rate, vsize, pay_fee)
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return tx.serialize()
def createScriptLockSpendTx(self, tx_lock_bytes, script_lock, pkh_dest, tx_fee_rate):
tx_lock = self.loadTx(tx_lock_bytes)
output_script = CScript([OP_0, hashlib.sha256(script_lock).digest()])
locked_n = findOutput(tx_lock, output_script)
assert_cond(locked_n is not None, 'Output not found in tx')
locked_coin = tx_lock.vout[locked_n].nValue
tx_lock.rehash()
tx_lock_hash_int = tx_lock.sha256
tx = CTransaction()
tx.nVersion = self.txVersion()
tx.vin.append(CTxIn(COutPoint(tx_lock_hash_int, locked_n)))
tx.vout.append(self.txoType(locked_coin, self.getScriptForPubkeyHash(pkh_dest)))
witness_bytes = len(script_lock)
witness_bytes += 33 # sv, size
witness_bytes += 73 * 2 # 2 signatures (72 + 1 byte size)
witness_bytes += 4 # 1 empty, 1 true witness stack values
witness_bytes += getCompactSizeLen(witness_bytes)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
pay_fee = int(tx_fee_rate * vsize / 1000)
tx.vout[0].nValue = locked_coin - pay_fee
tx.rehash()
logging.info('createScriptLockSpendTx %s:\n fee_rate, vsize, fee: %ld, %ld, %ld.',
i2h(tx.sha256), tx_fee_rate, vsize, pay_fee)
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return tx.serialize()
def verifyLockTx(self, tx_bytes, script_out,
swap_value,
Kal, Kaf,
feerate,
check_lock_tx_inputs):
# Verify:
#
# Not necessary to check the lock txn is mineable, as protocol will wait for it to confirm
# However by checking early we can avoid wasting time processing unmineable txns
# Check fee is reasonable
tx = self.loadTx(tx_bytes)
tx_hash = self.getTxHash(tx)
logging.info('Verifying lock tx: {}.'.format(b2h(tx_hash)))
assert_cond(tx.nVersion == self.txVersion(), 'Bad version')
assert_cond(tx.nLockTime == 0, 'Bad nLockTime')
script_pk = CScript([OP_0, hashlib.sha256(script_out).digest()])
locked_n = findOutput(tx, script_pk)
assert_cond(locked_n is not None, 'Output not found in tx')
locked_coin = tx.vout[locked_n].nValue
assert_cond(locked_coin == swap_value, 'Bad locked value')
# Check script and values
A, B = self.extractScriptLockScriptValues(script_out)
assert_cond(A == Kal, 'Bad script pubkey')
assert_cond(B == Kaf, 'Bad script pubkey')
if check_lock_tx_inputs:
# Check that inputs are unspent and verify fee rate
inputs_value = 0
add_bytes = 0
add_witness_bytes = getCompactSizeLen(len(tx.vin))
for pi in tx.vin:
ptx = self.rpc_callback('getrawtransaction', [i2h(pi.prevout.hash), True])
prevout = ptx['vout'][pi.prevout.n]
inputs_value += make_int(prevout['value'])
prevout_type = prevout['scriptPubKey']['type']
if prevout_type == 'witness_v0_keyhash':
add_witness_bytes += 107 # sig 72, pk 33 and 2 size bytes
add_witness_bytes += getCompactSizeLen(107)
else:
# Assume P2PKH, TODO more types
add_bytes += 107 # OP_PUSH72 <ecdsa_signature> OP_PUSH33 <public_key>
outputs_value = 0
for txo in tx.vout:
outputs_value += txo.nValue
fee_paid = inputs_value - outputs_value
assert(fee_paid > 0)
vsize = self.getTxVSize(tx, add_bytes, add_witness_bytes)
fee_rate_paid = fee_paid * 1000 / vsize
logging.info('tx amount, vsize, feerate: %ld, %ld, %ld', locked_coin, vsize, fee_rate_paid)
if not self.compareFeeRates(fee_rate_paid, feerate):
logging.warning('feerate paid doesn\'t match expected: %ld, %ld', fee_rate_paid, feerate)
# TODO: Display warning to user
return tx_hash, locked_n
def verifyLockRefundTx(self, tx_bytes, script_out,
prevout_id, prevout_n, prevout_seq, prevout_script,
Kal, Kaf, csv_val_expect, swap_value, feerate):
# Verify:
# Must have only one input with correct prevout and sequence
# Must have only one output to the p2wsh of the lock refund script
# Output value must be locked_coin - lock tx fee
tx = self.loadTx(tx_bytes)
tx_hash = self.getTxHash(tx)
logging.info('Verifying lock refund tx: {}.'.format(b2h(tx_hash)))
assert_cond(tx.nVersion == self.txVersion(), 'Bad version')
assert_cond(tx.nLockTime == 0, 'nLockTime not 0')
assert_cond(len(tx.vin) == 1, 'tx doesn\'t have one input')
assert_cond(tx.vin[0].nSequence == prevout_seq, 'Bad input nSequence')
assert_cond(len(tx.vin[0].scriptSig) == 0, 'Input scriptsig not empty')
assert_cond(tx.vin[0].prevout.hash == b2i(prevout_id) and tx.vin[0].prevout.n == prevout_n, 'Input prevout mismatch')
assert_cond(len(tx.vout) == 1, 'tx doesn\'t have one output')
script_pk = CScript([OP_0, hashlib.sha256(script_out).digest()])
locked_n = findOutput(tx, script_pk)
assert_cond(locked_n is not None, 'Output not found in tx')
locked_coin = tx.vout[locked_n].nValue
# Check script and values
A, B, csv_val, C = self.extractScriptLockRefundScriptValues(script_out)
assert_cond(A == Kal, 'Bad script pubkey')
assert_cond(B == Kaf, 'Bad script pubkey')
assert_cond(csv_val == csv_val_expect, 'Bad script csv value')
assert_cond(C == Kaf, 'Bad script pubkey')
fee_paid = swap_value - locked_coin
assert(fee_paid > 0)
witness_bytes = len(prevout_script)
witness_bytes += 73 * 2 # 2 signatures (72 + 1 byts size)
witness_bytes += 2 # 2 empty witness stack values
witness_bytes += getCompactSizeLen(witness_bytes)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
fee_rate_paid = fee_paid * 1000 / vsize
logging.info('tx amount, vsize, feerate: %ld, %ld, %ld', locked_coin, vsize, fee_rate_paid)
if not self.compareFeeRates(fee_rate_paid, feerate):
raise ValueError('Bad fee rate')
return tx_hash, locked_coin
def verifyLockRefundSpendTx(self, tx_bytes,
lock_refund_tx_id, prevout_script,
Kal,
prevout_value, feerate):
# Verify:
# Must have only one input with correct prevout (n is always 0) and sequence
# Must have only one output sending lock refund tx value - fee to leader's address, TODO: follower shouldn't need to verify destination addr
tx = self.loadTx(tx_bytes)
tx_hash = self.getTxHash(tx)
logging.info('Verifying lock refund spend tx: {}.'.format(b2h(tx_hash)))
assert_cond(tx.nVersion == self.txVersion(), 'Bad version')
assert_cond(tx.nLockTime == 0, 'nLockTime not 0')
assert_cond(len(tx.vin) == 1, 'tx doesn\'t have one input')
assert_cond(tx.vin[0].nSequence == 0, 'Bad input nSequence')
assert_cond(len(tx.vin[0].scriptSig) == 0, 'Input scriptsig not empty')
assert_cond(tx.vin[0].prevout.hash == b2i(lock_refund_tx_id) and tx.vin[0].prevout.n == 0, 'Input prevout mismatch')
assert_cond(len(tx.vout) == 1, 'tx doesn\'t have one output')
# Destination doesn't matter to the follower
'''
p2wpkh = CScript([OP_0, hash160(Kal)])
locked_n = findOutput(tx, p2wpkh)
assert_cond(locked_n is not None, 'Output not found in lock refund spend tx')
'''
tx_value = tx.vout[0].nValue
fee_paid = prevout_value - tx_value
assert(fee_paid > 0)
witness_bytes = len(prevout_script)
witness_bytes += 73 * 2 # 2 signatures (72 + 1 byts size)
witness_bytes += 4 # 1 empty, 1 true witness stack values
witness_bytes += getCompactSizeLen(witness_bytes)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
fee_rate_paid = fee_paid * 1000 / vsize
logging.info('tx amount, vsize, feerate: %ld, %ld, %ld', tx_value, vsize, fee_rate_paid)
if not self.compareFeeRates(fee_rate_paid, feerate):
raise ValueError('Bad fee rate')
return True
def verifyLockSpendTx(self, tx_bytes,
lock_tx_bytes, lock_tx_script,
a_pkhash_f, feerate):
# Verify:
# Must have only one input with correct prevout (n is always 0) and sequence
# Must have only one output with destination and amount
tx = self.loadTx(tx_bytes)
tx_hash = self.getTxHash(tx)
logging.info('Verifying lock spend tx: {}.'.format(b2h(tx_hash)))
assert_cond(tx.nVersion == self.txVersion(), 'Bad version')
assert_cond(tx.nLockTime == 0, 'nLockTime not 0')
assert_cond(len(tx.vin) == 1, 'tx doesn\'t have one input')
lock_tx = self.loadTx(lock_tx_bytes)
lock_tx_id = self.getTxHash(lock_tx)
output_script = CScript([OP_0, hashlib.sha256(lock_tx_script).digest()])
locked_n = findOutput(lock_tx, output_script)
assert_cond(locked_n is not None, 'Output not found in tx')
locked_coin = lock_tx.vout[locked_n].nValue
assert_cond(tx.vin[0].nSequence == 0, 'Bad input nSequence')
assert_cond(len(tx.vin[0].scriptSig) == 0, 'Input scriptsig not empty')
assert_cond(tx.vin[0].prevout.hash == b2i(lock_tx_id) and tx.vin[0].prevout.n == locked_n, 'Input prevout mismatch')
assert_cond(len(tx.vout) == 1, 'tx doesn\'t have one output')
p2wpkh = self.getScriptForPubkeyHash(a_pkhash_f)
assert_cond(tx.vout[0].scriptPubKey == p2wpkh, 'Bad output destination')
fee_paid = locked_coin - tx.vout[0].nValue
assert(fee_paid > 0)
witness_bytes = len(lock_tx_script)
witness_bytes += 33 # sv, size
witness_bytes += 73 * 2 # 2 signatures (72 + 1 byts size)
witness_bytes += 4 # 1 empty, 1 true witness stack values
witness_bytes += getCompactSizeLen(witness_bytes)
vsize = self.getTxVSize(tx, add_witness_bytes=witness_bytes)
fee_rate_paid = fee_paid * 1000 / vsize
logging.info('tx amount, vsize, feerate: %ld, %ld, %ld', tx.vout[0].nValue, vsize, fee_rate_paid)
if not self.compareFeeRates(fee_rate_paid, feerate):
raise ValueError('Bad fee rate')
return True
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def signTx(self, key_bytes, tx_bytes, prevout_n, prevout_script, prevout_value):
tx = self.loadTx(tx_bytes)
sig_hash = SegwitV0SignatureHash(prevout_script, tx, prevout_n, SIGHASH_ALL, prevout_value)
eck = PrivateKey(key_bytes)
return eck.sign(sig_hash, hasher=None) + bytes((SIGHASH_ALL,))
def signTxOtVES(self, key_sign, pubkey_encrypt, tx_bytes, prevout_n, prevout_script, prevout_value):
tx = self.loadTx(tx_bytes)
sig_hash = SegwitV0SignatureHash(prevout_script, tx, prevout_n, SIGHASH_ALL, prevout_value)
return ecdsaotves_enc_sign(key_sign, pubkey_encrypt, sig_hash)
def verifyTxOtVES(self, tx_bytes, ct, Ks, Ke, prevout_n, prevout_script, prevout_value):
tx = self.loadTx(tx_bytes)
sig_hash = SegwitV0SignatureHash(prevout_script, tx, prevout_n, SIGHASH_ALL, prevout_value)
return ecdsaotves_enc_verify(Ks, Ke, sig_hash, ct)
def decryptOtVES(self, k, esig):
return ecdsaotves_dec_sig(k, esig) + bytes((SIGHASH_ALL,))
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def verifyTxSig(self, tx_bytes, sig, K, prevout_n, prevout_script, prevout_value):
tx = self.loadTx(tx_bytes)
sig_hash = SegwitV0SignatureHash(prevout_script, tx, prevout_n, SIGHASH_ALL, prevout_value)
pubkey = PublicKey(K)
return pubkey.verify(sig[: -1], sig_hash, hasher=None) # Pop the hashtype byte
def verifySig(self, pubkey, signed_hash, sig):
pubkey = PublicKey(pubkey)
return pubkey.verify(sig, signed_hash, hasher=None)
def fundTx(self, tx, feerate):
feerate_str = format_amount(feerate, self.exp())
# TODO: unlock unspents if bid cancelled
options = {
'lockUnspents': True,
'feeRate': feerate_str,
}
rv = self.rpc_callback('fundrawtransaction', [tx.hex(), options])
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return bytes.fromhex(rv['hex'])
def signTxWithWallet(self, tx):
rv = self.rpc_callback('signrawtransactionwithwallet', [tx.hex()])
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return bytes.fromhex(rv['hex'])
def publishTx(self, tx):
return self.rpc_callback('sendrawtransaction', [tx.hex()])
def encodeTx(self, tx):
return tx.serialize()
def loadTx(self, tx_bytes):
# Load tx from bytes to internal representation
tx = CTransaction()
tx.deserialize(BytesIO(tx_bytes))
return tx
def getTxHash(self, tx):
if isinstance(tx, bytes):
tx = self.loadTx(tx)
tx.rehash()
return i2b(tx.sha256)
def getTxOutputPos(self, tx, script):
if isinstance(tx, bytes):
tx = self.loadTx(tx)
script_pk = CScript([OP_0, hashlib.sha256(script).digest()])
return findOutput(tx, script_pk)
def getPubkeyHash(self, K):
return hash160(self.encodePubkey(K))
def getScriptDest(self, script):
return CScript([OP_0, hashlib.sha256(script).digest()])
def getPkDest(self, K):
return self.getScriptForPubkeyHash(self.getPubkeyHash(K))
def scanTxOutset(self, dest):
return self.rpc_callback('scantxoutset', ['start', ['raw({})'.format(dest.hex())]])
def getTransaction(self, txid):
try:
return bytes.fromhex(self.rpc_callback('getrawtransaction', [txid.hex()]))
except Exception as ex:
# TODO: filter errors
return None
def getWalletTransaction(self, txid):
try:
return bytes.fromhex(self.rpc_callback('gettransaction', [txid.hex()]))
except Exception as ex:
# TODO: filter errors
return None
def setTxSignature(self, tx_bytes, stack):
tx = self.loadTx(tx_bytes)
tx.wit.vtxinwit.clear()
tx.wit.vtxinwit.append(CTxInWitness())
tx.wit.vtxinwit[0].scriptWitness.stack = stack
return tx.serialize()
def extractLeaderSig(self, tx_bytes):
tx = self.loadTx(tx_bytes)
return tx.wit.vtxinwit[0].scriptWitness.stack[1]
def extractFollowerSig(self, tx_bytes):
tx = self.loadTx(tx_bytes)
return tx.wit.vtxinwit[0].scriptWitness.stack[2]
def createBLockTx(self, Kbs, output_amount):
tx = CTransaction()
tx.nVersion = self.txVersion()
p2wpkh = self.getPkDest(Kbs)
tx.vout.append(self.txoType(output_amount, p2wpkh))
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return tx.serialize()
def publishBLockTx(self, Kbv, Kbs, output_amount, feerate):
b_lock_tx = self.createBLockTx(Kbs, output_amount)
b_lock_tx = self.fundTx(b_lock_tx, feerate)
b_lock_tx_id = self.getTxHash(b_lock_tx)
b_lock_tx = self.signTxWithWallet(b_lock_tx)
return self.publishTx(b_lock_tx)
def recoverEncKey(self, esig, sig, K):
return ecdsaotves_rec_enc_key(K, esig, sig[:-1]) # Strip sighash type
def getTxVSize(self, tx, add_bytes=0, add_witness_bytes=0):
wsf = self.witnessScaleFactor()
len_full = len(tx.serialize_with_witness()) + add_bytes + add_witness_bytes
len_nwit = len(tx.serialize_without_witness()) + add_bytes
weight = len_nwit * (wsf - 1) + len_full
return (weight + wsf - 1) // wsf
def findTxB(self, kbv, Kbs, cb_swap_value, cb_block_confirmed, restore_height):
raw_dest = self.getPkDest(Kbs)
rv = self.scanTxOutset(raw_dest)
print('scanTxOutset', dumpj(rv))
for utxo in rv['unspents']:
if 'height' in utxo and utxo['height'] > 0 and rv['height'] - utxo['height'] > cb_block_confirmed:
if utxo['amount'] * COIN != cb_swap_value:
logging.warning('Found output to lock tx pubkey of incorrect value: %s', str(utxo['amount']))
else:
return {'txid': utxo['txid'], 'vout': utxo['vout'], 'amount': utxo['amount'], 'height': utxo['height']}
return None
def waitForLockTxB(self, kbv, Kbs, cb_swap_value, cb_block_confirmed):
raw_dest = self.getPkDest(Kbs)
for i in range(20):
time.sleep(1)
rv = self.scanTxOutset(raw_dest)
print('scanTxOutset', dumpj(rv))
for utxo in rv['unspents']:
if 'height' in utxo and utxo['height'] > 0 and rv['height'] - utxo['height'] > cb_block_confirmed:
if utxo['amount'] * COIN != cb_swap_value:
logging.warning('Found output to lock tx pubkey of incorrect value: %s', str(utxo['amount']))
else:
return True
return False
def spendBLockTx(self, address_to, kbv, kbs, cb_swap_value, b_fee, restore_height):
print('TODO: spendBLockTx')
def getOutput(self, txid, dest_script, expect_value):
# TODO: Use getrawtransaction if txindex is active
utxos = self.rpc_callback('scantxoutset', ['start', ['raw({})'.format(dest_script.hex())]])
chain_height = utxos['height']
rv = []
for utxo in utxos['unspents']:
if txid and txid.hex() != utxo['txid']:
continue
if expect_value != utxo['amount'] * COIN:
continue
rv.append({
'depth': 0 if 'height' not in utxo else (chain_height - utxo['height']) + 1,
'height': 0 if 'height' not in utxo else utxo['height'],
'amount': utxo['amount'] * COIN,
'txid': utxo['txid'],
'vout': utxo['vout']})
return rv, chain_height
def withdrawCoin(self, value, addr_to, subfee):
params = [addr_to, value, '', '', subfee, True, self._conf_target]
return self.rpc_callback('sendtoaddress', params)
def signCompact(self, k, message):
message_hash = hashlib.sha256(bytes(message, 'utf-8')).digest()
privkey = PrivateKey(k)
return privkey.sign_recoverable(message_hash, hasher=None)[:64]
def verifyCompact(self, K, message, sig):
message_hash = hashlib.sha256(bytes(message, 'utf-8')).digest()
pubkey = PublicKey(K)
rv = pubkey.verify_compact(sig, message_hash, hasher=None)
assert(rv is True)
def testBTCInterface():
print('testBTCInterface')
if __name__ == "__main__":
testBTCInterface()