300 lines
12 KiB
Python
300 lines
12 KiB
Python
#!/usr/bin/env python3
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import sys
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if sys.version_info.major < 3:
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sys.stderr.write('Sorry, Python 3.x required by this example.\n')
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sys.exit(1)
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import bitcoin
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import bitcoin.rpc
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from bitcoin import SelectParams
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from bitcoin.core import b2x, lx, b2lx, x, COIN, COutPoint, CMutableTxOut, CMutableTxIn, CMutableTransaction, Hash160, CTransaction
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from bitcoin.base58 import decode
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from bitcoin.core.script import CScript, OP_DUP, OP_IF, OP_ELSE, OP_ENDIF, OP_HASH160, OP_EQUALVERIFY, OP_CHECKSIG, SignatureHash, SIGHASH_ALL, OP_FALSE, OP_DROP, OP_CHECKLOCKTIMEVERIFY, OP_SHA256, OP_TRUE
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from bitcoin.core.scripteval import VerifyScript, SCRIPT_VERIFY_P2SH
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from bitcoin.wallet import CBitcoinAddress, CBitcoinSecret, P2SHBitcoinAddress, P2PKHBitcoinAddress
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from xcat.utils import *
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import zcash
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import zcash.rpc
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import pprint, json
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from xcat.zcashRPC import parse_script
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# SelectParams('testnet')
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SelectParams('regtest')
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# TODO: Accurately read user and pw info
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bitcoind = bitcoin.rpc.Proxy(service_url="http://user:password@127.0.0.1:18332")
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FEE = 0.001*COIN
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def validateaddress(addr):
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return bitcoind.validateaddress(addr)
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def parse_secret(txid):
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decoded = bitcoind.getrawtransaction(lx(txid), 1)
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print("Decoded", decoded)
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# decoded = bitcoind.decoderawtransaction(raw)
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asm = decoded['vin'][0]['scriptSig']['asm'].split(" ")
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print(asm[2])
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def get_keys(funder_address, redeemer_address):
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fundpubkey = CBitcoinAddress(funder_address)
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redeempubkey = CBitcoinAddress(redeemer_address)
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# fundpubkey = bitcoind.getnewaddress()
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# redeempubkey = bitcoind.getnewaddress()
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return fundpubkey, redeempubkey
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def privkey(address):
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bitcoind.dumpprivkey(address)
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def hashtimelockcontract(funder, redeemer, commitment, locktime):
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funderAddr = CBitcoinAddress(funder)
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redeemerAddr = CBitcoinAddress(redeemer)
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if type(commitment) == str:
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commitment = x(commitment)
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# h = sha256(secret)
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blocknum = bitcoind.getblockcount()
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print("Current blocknum", blocknum)
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redeemblocknum = blocknum + locktime
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print("REDEEMBLOCKNUM BITCOIN", redeemblocknum)
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print("COMMITMENT", commitment)
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redeemScript = CScript([OP_IF, OP_SHA256, commitment, OP_EQUALVERIFY,OP_DUP, OP_HASH160,
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redeemerAddr, OP_ELSE, redeemblocknum, OP_CHECKLOCKTIMEVERIFY, OP_DROP, OP_DUP, OP_HASH160,
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funderAddr, OP_ENDIF,OP_EQUALVERIFY, OP_CHECKSIG])
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print("Redeem script for p2sh contract on Bitcoin blockchain:", b2x(redeemScript))
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txin_scriptPubKey = redeemScript.to_p2sh_scriptPubKey()
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# Convert the P2SH scriptPubKey to a base58 Bitcoin address
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txin_p2sh_address = CBitcoinAddress.from_scriptPubKey(txin_scriptPubKey)
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p2sh = str(txin_p2sh_address)
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print("p2sh computed", p2sh)
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return {'p2sh': p2sh, 'redeemblocknum': redeemblocknum, 'redeemScript': b2x(redeemScript), 'redeemer': redeemer, 'funder': funder, 'locktime': locktime}
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def fund_htlc(p2sh, amount):
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send_amount = float(amount) * COIN
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fund_txid = bitcoind.sendtoaddress(p2sh, send_amount)
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# Import address at same time that you fund it
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bitcoind.importaddress(p2sh, "", False)
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txid = b2x(lx(b2x(fund_txid)))
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return txid
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def check_funds(p2sh):
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bitcoind.importaddress(p2sh, "", False)
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# Get amount in address
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amount = bitcoind.getreceivedbyaddress(p2sh, 0)
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amount = amount/COIN
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return amount
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## TODO: FIX search for p2sh in block
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def search_p2sh(block, p2sh):
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print("Fetching block...")
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blockdata = bitcoind.getblock(lx(block))
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print("done fetching block")
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txs = blockdata.vtx
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print("txs", txs)
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for tx in txs:
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txhex = b2x(tx.serialize())
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# Using my fork of python-zcashlib to get result of decoderawtransaction
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txhex = txhex + '00'
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rawtx = zcashd.decoderawtransaction(txhex)
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# print('rawtx', rawtx)
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print(rawtx)
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for vout in rawtx['vout']:
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if 'addresses' in vout['scriptPubKey']:
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for addr in vout['scriptPubKey']['addresses']:
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print("Sent to address:", addr)
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if addr == p2sh:
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print("Address to p2sh found in transaction!", addr)
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print("Returning from search_p2sh")
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def get_tx_details(txid):
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# must convert txid string to bytes x(txid)
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fund_txinfo = bitcoind.gettransaction(lx(txid))
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return fund_txinfo['details'][0]
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# redeems automatically after buyer has funded tx, by scanning for transaction to the p2sh
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# i.e., doesn't require buyer telling us fund txid
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def auto_redeem(contract, secret):
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print("Parsing script for auto_redeem...")
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scriptarray = parse_script(contract.redeemScript)
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redeemblocknum = scriptarray[8]
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redeemPubKey = P2PKHBitcoinAddress.from_bytes(x(scriptarray[6]))
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refundPubKey = P2PKHBitcoinAddress.from_bytes(x(scriptarray[13]))
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# How to find redeemScript and redeemblocknum from blockchain?
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print("Contract in auto redeem", contract.__dict__)
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p2sh = contract.p2sh
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#checking there are funds in the address
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amount = check_funds(p2sh)
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if(amount == 0):
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print("address ", p2sh, " not funded")
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quit()
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fundtx = find_transaction_to_address(p2sh)
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amount = fundtx['amount'] / COIN
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print("Found fundtx:", fundtx)
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p2sh = P2SHBitcoinAddress(p2sh)
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if fundtx['address'] == p2sh:
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print("Found {0} in p2sh {1}, redeeming...".format(amount, p2sh))
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# Parsing redeemblocknum from the redeemscript of the p2sh
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# redeemblocknum = find_redeemblocknum(contract)
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blockcount = bitcoind.getblockcount()
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print("\nCurrent blocknum at time of redeem on Bitcoin:", blockcount)
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if blockcount < int(redeemblocknum):
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# redeemPubKey = find_redeemAddr(contract)
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print('redeemPubKey', redeemPubKey)
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else:
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print("nLocktime exceeded, refunding")
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# refundPubKey = find_refundAddr(contract)
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redeemPubKey = refundPubkey
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print('refundPubKey', redeemPubKey)
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# redeemPubKey = CBitcoinAddress.from_scriptPubKey(redeemPubKey)
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# exit()
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zec_redeemScript = CScript(x(contract.redeemScript))
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txin = CMutableTxIn(fundtx['outpoint'])
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txout = CMutableTxOut(fundtx['amount'] - FEE, redeemPubKey.to_scriptPubKey())
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# Create the unsigned raw transaction.
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tx = CMutableTransaction([txin], [txout])
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# nLockTime needs to be at least as large as parameter of CHECKLOCKTIMEVERIFY for script to verify
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# TODO: these things like redeemblocknum should really be properties of a tx class...
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# Need: redeemblocknum, zec_redeemScript, secret (for creator...), txid, redeemer...
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if blockcount >= int(redeemblocknum):
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print("\nLocktime exceeded")
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tx.nLockTime = redeemblocknum # Ariel: This is only needed when redeeming with the timelock
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sighash = SignatureHash(zec_redeemScript, tx, 0, SIGHASH_ALL)
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# TODO: figure out how to better protect privkey
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privkey = bitcoind.dumpprivkey(redeemPubKey)
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sig = privkey.sign(sighash) + bytes([SIGHASH_ALL])
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print("SECRET", secret)
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preimage = secret.encode('utf-8')
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txin.scriptSig = CScript([sig, privkey.pub, preimage, OP_TRUE, zec_redeemScript])
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# exit()
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print("txin.scriptSig", b2x(txin.scriptSig))
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txin_scriptPubKey = zec_redeemScript.to_p2sh_scriptPubKey()
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print('Redeem txhex', b2x(tx.serialize()))
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VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0, (SCRIPT_VERIFY_P2SH,))
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print("script verified, sending raw tx")
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txid = bitcoind.sendrawtransaction(tx)
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print("Txid of submitted redeem tx: ", b2x(lx(b2x(txid))))
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return b2x(lx(b2x(txid)))
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else:
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print("No contract for this p2sh found in database", p2sh)
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def redeem_contract(contract, secret):
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# How to find redeemScript and redeemblocknum from blockchain?
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print("Contract in redeem_contract", contract.__dict__)
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p2sh = contract.p2sh
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#checking there are funds in the address
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amount = check_funds(p2sh)
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if(amount == 0):
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print("address ", p2sh, " not funded")
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quit()
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fundtx = find_transaction_to_address(p2sh)
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amount = fundtx['amount'] / COIN
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print("Found fundtx:", fundtx)
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p2sh = P2SHBitcoinAddress(p2sh)
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if fundtx['address'] == p2sh:
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print("Found {0} in p2sh {1}, redeeming...".format(amount, p2sh))
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# TODO: Decodescript is not working, add back in.
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# redeemblocknum = find_redeemblocknum(contract)
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blockcount = bitcoind.getblockcount()
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print("\nCurrent blocknum at time of redeem on Zcash:", blockcount)
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if blockcount < contract.redeemblocknum:
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# redeemPubKey = find_redeemAddr(contract)
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redeemPubKey = P2PKHBitcoinAddress.from_bytes(x('7788b4511a25fba1092e67b307a6dcdb6da125d9'))
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print('redeemPubKey', redeemPubKey)
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zec_redeemScript = CScript(x(contract.redeemScript))
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txin = CMutableTxIn(fundtx['outpoint'])
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txout = CMutableTxOut(fundtx['amount'] - FEE, redeemPubKey.to_scriptPubKey())
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# Create the unsigned raw transaction.
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tx = CMutableTransaction([txin], [txout])
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sighash = SignatureHash(zec_redeemScript, tx, 0, SIGHASH_ALL)
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# TODO: figure out how to better protect privkey
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privkey = bitcoind.dumpprivkey(redeemPubKey)
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sig = privkey.sign(sighash) + bytes([SIGHASH_ALL])
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print("SECRET", secret)
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preimage = b(secret)
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txin.scriptSig = CScript([sig, privkey.pub, preimage, OP_TRUE, zec_redeemScript])
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print("txin.scriptSig", b2x(txin.scriptSig))
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txin_scriptPubKey = zec_redeemScript.to_p2sh_scriptPubKey()
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print('Redeem txhex', b2x(tx.serialize()))
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VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0, (SCRIPT_VERIFY_P2SH,))
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print("script verified, sending raw tx")
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txid = bitcoind.sendrawtransaction(tx)
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print("Txid of submitted redeem tx: ", b2x(lx(b2x(txid))))
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print("TXID SUCCESSFULLY REDEEMED")
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return 'redeem_tx', b2x(lx(b2x(txid)))
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else:
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print("nLocktime exceeded, refunding")
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refundPubKey = find_refundAddr(contract)
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print('refundPubKey', refundPubKey)
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txid = bitcoind.sendtoaddress(refundPubKey, fundtx['amount'] - FEE)
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print("Txid of refund tx:", b2x(lx(b2x(txid))))
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print("TXID SUCCESSFULLY REFUNDED")
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return 'refund_tx', b2x(lx(b2x(txid)))
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else:
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print("No contract for this p2sh found in database", p2sh)
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def find_redeemblocknum(contract):
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scriptarray = parse_script(contract.redeemScript)
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redeemblocknum = scriptarray[8]
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return int(redeemblocknum)
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def find_redeemAddr(contract):
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scriptarray = parse_script(contract.redeemScript)
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redeemer = scriptarray[6]
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redeemAddr = P2PKHBitcoinAddress.from_bytes(x(redeemer))
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return redeemAddr
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def find_refundAddr(contract):
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scriptarray = parse_script(contract.redeemScript)
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funder = scriptarray[13]
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refundAddr = P2PKHBitcoinAddress.from_bytes(x(funder))
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return refundAddr
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# def find_recipient(contract):
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# initiator = CBitcoinAddress(contract.initiator)
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# fulfiller = CBitcoinAddress(contract.fulfiller)
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# print("Initiator", b2x(initiator))
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# print("Fulfiler", b2x(fulfiller))
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# make this dependent on actual fund tx to p2sh, not contract
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# print("Contract fund_tx", contract.fund_tx)
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# txid = contract.fund_tx
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# raw = bitcoind.gettransaction(lx(txid))['hex']
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# print("Raw tx", raw)
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# # print("Raw", raw)
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# decoded = zcashd.decoderawtransaction(raw + '00')
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# scriptSig = decoded['vin'][0]['scriptSig']
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# print("Decoded", scriptSig)
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# asm = scriptSig['asm'].split(" ")
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# pubkey = asm[1]
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# print('pubkey', pubkey)
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# redeemPubkey = P2PKHBitcoinAddress.from_pubkey(x(pubkey))
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# print('redeemPubkey', redeemPubkey)
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def find_transaction_to_address(p2sh):
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bitcoind.importaddress(p2sh, "", False)
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txs = bitcoind.listunspent()
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for tx in txs:
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if tx['address'] == CBitcoinAddress(p2sh):
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print("Found tx to p2sh", p2sh)
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print(tx)
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return tx
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def new_bitcoin_addr():
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addr = bitcoind.getnewaddress()
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print('new btc addr', addr.to_scriptPubKey)
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return addr.to_scriptPubKey()
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def generate(num):
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blocks = bitcoind.generate(num)
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return blocks
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