import asyncio import json import os from .crypto import sha256, hash_160 from .ecc import ECPrivkey from .bitcoin import address_to_script, script_to_p2wsh, redeem_script_to_address, opcodes from .transaction import TxOutpoint, PartialTxInput, PartialTxOutput, PartialTransaction, construct_witness from .transaction import script_GetOp, match_script_against_template, OPPushDataGeneric, OPPushDataPubkey from .transaction import Transaction from .util import log_exceptions API_URL = 'http://ecdsa.org:9001' WITNESS_TEMPLATE_SWAP = [ opcodes.OP_HASH160, OPPushDataGeneric(lambda x: x == 20), opcodes.OP_EQUAL, opcodes.OP_IF, OPPushDataPubkey, opcodes.OP_ELSE, OPPushDataGeneric(None), opcodes.OP_CHECKLOCKTIMEVERIFY, opcodes.OP_DROP, OPPushDataPubkey, opcodes.OP_ENDIF, opcodes.OP_CHECKSIG ] WITNESS_TEMPLATE_REVERSE_SWAP = [ opcodes.OP_SIZE, OPPushDataGeneric(None), opcodes.OP_EQUAL, opcodes.OP_IF, opcodes.OP_HASH160, OPPushDataGeneric(lambda x: x == 20), opcodes.OP_EQUALVERIFY, OPPushDataPubkey, opcodes.OP_ELSE, opcodes.OP_DROP, OPPushDataGeneric(None), opcodes.OP_CHECKLOCKTIMEVERIFY, opcodes.OP_DROP, OPPushDataPubkey, opcodes.OP_ENDIF, opcodes.OP_CHECKSIG ] def create_claim_tx(txin, witness_script, preimage, privkey:bytes, amount_sat, address, fee): pubkey = ECPrivkey(privkey).get_public_key_bytes(compressed=True) txin.script_type = 'p2wsh' txin.script_sig = b'' txin.pubkeys = [pubkey] txin.num_sig = 1 txin.witness_script = witness_script txin._trusted_value_sats = amount_sat txout = PartialTxOutput(scriptpubkey=bytes.fromhex(address_to_script(address)), value=amount_sat - fee) tx = PartialTransaction.from_io([txin], [txout], version=2) sig = bytes.fromhex(tx.sign_txin(0, privkey)) witness = construct_witness([sig, preimage, witness_script]) tx.inputs()[0].witness = bytes.fromhex(witness) assert tx.is_complete() return tx @log_exceptions async def _claim_swap(lnworker, lockup_address, redeem_script, preimage, privkey, onchain_amount, address): # add address to lnwatcher lnwatcher = lnworker.lnwatcher utxos = lnwatcher.get_addr_utxo(lockup_address) for txin in list(utxos.values()): fee = lnwatcher.config.estimate_fee(136, allow_fallback_to_static_rates=True) tx = create_claim_tx(txin, redeem_script, preimage, privkey, onchain_amount, address, fee) await lnwatcher.network.broadcast_transaction(tx) @log_exceptions async def claim_swap(key, wallet): lnworker = wallet.lnworker address = wallet.get_unused_address() swaps = wallet.db.get_dict('submarine_swaps') data = swaps[key] onchain_amount = data['onchainAmount'] redeem_script = bytes.fromhex(data['redeemScript']) lockup_address = data['lockupAddress'] preimage = bytes.fromhex(data['preimage']) privkey = bytes.fromhex(data['privkey']) callback = lambda: _claim_swap(lnworker, lockup_address, redeem_script, preimage, privkey, onchain_amount, address) lnworker.lnwatcher.add_callback(lockup_address, callback) return True @log_exceptions async def submarine_swap(amount_sat, wallet: 'Abstract_Wallet', network: 'Network', password): # lnworker = wallet.lnworker privkey = os.urandom(32) pubkey = ECPrivkey(privkey).get_public_key_bytes(compressed=True) key = await lnworker._add_request_coro(amount_sat, 'swap', expiry=3600) request = wallet.get_request(key) invoice = request['invoice'] lnaddr = lnworker._check_invoice(invoice, amount_sat) payment_hash = lnaddr.paymenthash preimage = lnworker.get_preimage(payment_hash) request_data = { "type": "submarine", "pairId": "BTC/BTC", "orderSide": "sell", "invoice": invoice, "refundPublicKey": pubkey.hex() } response = await network._send_http_on_proxy( 'post', API_URL + '/createswap', json=request_data, timeout=30) data = json.loads(response) response_id = data["id"] zeroconf = data["acceptZeroConf"] onchain_amount = data["expectedAmount"] locktime = data["timeoutBlockHeight"], lockup_address = data["address"] redeem_script = data["redeemScript"] print(data) # verify redeem_script is built with our pubkey and preimage redeem_script = bytes.fromhex(redeem_script) parsed_script = [x for x in script_GetOp(redeem_script)] assert match_script_against_template(redeem_script, WITNESS_TEMPLATE_SWAP) #assert script_to_p2wsh(redeem_script.hex()) == lockup_address assert redeem_script_to_address('p2wsh-p2sh', redeem_script.hex()) == lockup_address assert hash_160(preimage) == parsed_script[1][1] assert pubkey == parsed_script[9][1] # verify that we will have enought time to get our tx confirmed cltv = int.from_bytes(parsed_script[6][1], byteorder='little') assert cltv - network.get_local_height() == 140 # save swap data in wallet in case we need a refund data['privkey'] = privkey.hex() data['preimage'] = preimage.hex() swaps = wallet.db.get_dict('submarine_swaps') swaps[response_id] = data # todo: add callback to lnwatcher (with cltv) #callback = lambda: _claim_refund(lnworker, lockup_address, redeem_script, preimage, privkey, onchain_amount, address) #lnworker.lnwatcher.add_callback(lockup_address, callback) # pay onchain. must not be RBF outputs = [PartialTxOutput.from_address_and_value(lockup_address, onchain_amount)] tx = wallet.create_transaction(outputs=outputs, rbf=False, password=password) await network.broadcast_transaction(tx) # attempt = await lnworker.await_payment(payment_hash) return { 'id':response_id, 'success':attempt.success, } @log_exceptions async def reverse_swap(amount_sat, wallet: 'Abstract_Wallet', network: 'Network'): privkey = os.urandom(32) pubkey = ECPrivkey(privkey).get_public_key_bytes(compressed=True) preimage = os.urandom(32) preimage_hash = sha256(preimage) address = wallet.get_unused_address() request_data = { "type": "reversesubmarine", "pairId": "BTC/BTC", "orderSide": "buy", "invoiceAmount": amount_sat, "preimageHash": preimage_hash.hex(), "claimPublicKey": pubkey.hex() } response = await network._send_http_on_proxy( 'post', API_URL + '/createswap', json=request_data, timeout=30) data = json.loads(response) invoice = data['invoice'] lockup_address = data['lockupAddress'] redeem_script = data['redeemScript'] timeout_block_height = data['timeoutBlockHeight'] onchain_amount = data["onchainAmount"] response_id = data['id'] # verify redeem_script is built with our pubkey and preimage redeem_script = bytes.fromhex(redeem_script) parsed_script = [x for x in script_GetOp(redeem_script)] assert match_script_against_template(redeem_script, WITNESS_TEMPLATE_REVERSE_SWAP) assert script_to_p2wsh(redeem_script.hex()) == lockup_address assert hash_160(preimage) == parsed_script[5][1] assert pubkey == parsed_script[7][1] # verify that we will have enought time to get our tx confirmed cltv = int.from_bytes(parsed_script[10][1], byteorder='little') assert cltv - network.get_local_height() > 10 # verify invoice preimage_hash lnworker = wallet.lnworker lnaddr = lnworker._check_invoice(invoice, amount_sat) assert lnaddr.paymenthash == preimage_hash # save swap data in wallet in case payment fails data['privkey'] = privkey.hex() data['preimage'] = preimage.hex() # save data to wallet file swaps = wallet.db.get_dict('submarine_swaps') swaps[response_id] = data # add callback to lnwatcher callback = lambda: _claim_swap(lnworker, lockup_address, redeem_script, preimage, privkey, onchain_amount, address) lnworker.lnwatcher.add_callback(lockup_address, callback) # initiate payment. success, log = await lnworker._pay(invoice, attempts=5) # discard data; this should be done by lnwatcher if success: swaps.pop(response_id) return { 'id':response_id, 'success':success, }