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#!/usr/bin/env python3
# Copyright (C) 2014 The python-bitcoinlib developers
#
# This file is part of python-bitcoinlib.
#
# It is subject to the license terms in the LICENSE file found in the top-level
# directory of this distribution.
#
# No part of python-bitcoinlib, including this file, may be copied, modified,
# propagated, or distributed except according to the terms contained in the
# LICENSE file.
"""Low-level example of how to spend a P2SH/BIP16 txout"""
import hashlib
from bitcoin import SelectParams
from bitcoin.core import b2x, lx, COIN, COutPoint, CMutableTxOut, CMutableTxIn, CMutableTransaction, Hash160
from bitcoin.core.script import CScript, OP_DUP, OP_HASH160, OP_EQUALVERIFY, OP_CHECKSIG, SignatureHash, SIGHASH_ALL
from bitcoin.core.scripteval import VerifyScript, SCRIPT_VERIFY_P2SH
from bitcoin.wallet import CBitcoinAddress, CBitcoinSecret
SelectParams('mainnet')
# Create the (in)famous correct brainwallet secret key.
h = hashlib.sha256(b'correct horse battery staple').digest()
seckey = CBitcoinSecret.from_secret_bytes(h)
# Create a redeemScript. Similar to a scriptPubKey the redeemScript must be
# satisfied for the funds to be spent.
txin_redeemScript = CScript([seckey.pub, OP_CHECKSIG])
print(b2x(txin_redeemScript))
# Create the magic P2SH scriptPubKey format from that redeemScript. You should
# look at the CScript.to_p2sh_scriptPubKey() function in bitcoin.core.script to
# understand what's happening, as well as read BIP16:
# https://github.com/bitcoin/bips/blob/master/bip-0016.mediawiki
txin_scriptPubKey = txin_redeemScript.to_p2sh_scriptPubKey()
# Convert the P2SH scriptPubKey to a base58 Bitcoin address and print it.
# You'll need to send some funds to it to create a txout to spend.
txin_p2sh_address = CBitcoinAddress.from_scriptPubKey(txin_scriptPubKey)
print('Pay to:',str(txin_p2sh_address))
# Same as the txid:vout the createrawtransaction RPC call requires
#
# lx() takes *little-endian* hex and converts it to bytes; in Bitcoin
# transaction hashes are shown little-endian rather than the usual big-endian.
# There's also a corresponding x() convenience function that takes big-endian
# hex and converts it to bytes.
txid = lx('bff785da9f8169f49be92fa95e31f0890c385bfb1bd24d6b94d7900057c617ae')
vout = 0
# Create the txin structure, which includes the outpoint. The scriptSig
# defaults to being empty.
txin = CMutableTxIn(COutPoint(txid, vout))
# Create the txout. This time we create the scriptPubKey from a Bitcoin
# address.
txout = CMutableTxOut(0.0005*COIN, CBitcoinAddress('323uf9MgLaSn9T7vDaK1cGAZ2qpvYUuqSp').to_scriptPubKey())
# Create the unsigned transaction.
tx = CMutableTransaction([txin], [txout])
# Calculate the signature hash for that transaction. Note how the script we use
# is the redeemScript, not the scriptPubKey. That's because when the CHECKSIG
# operation happens EvalScript() will be evaluating the redeemScript, so the
# corresponding SignatureHash() function will use that same script when it
# replaces the scriptSig in the transaction being hashed with the script being
# executed.
sighash = SignatureHash(txin_redeemScript, tx, 0, SIGHASH_ALL)
# Now sign it. We have to append the type of signature we want to the end, in
# this case the usual SIGHASH_ALL.
sig = seckey.sign(sighash) + bytes([SIGHASH_ALL])
# Set the scriptSig of our transaction input appropriately.
txin.scriptSig = CScript([sig, txin_redeemScript])
# Verify the signature worked. This calls EvalScript() and actually executes
# the opcodes in the scripts to see if everything worked out. If it doesn't an
# exception will be raised.
VerifyScript(txin.scriptSig, txin_scriptPubKey, tx, 0, (SCRIPT_VERIFY_P2SH,))
# Done! Print the transaction to standard output with the bytes-to-hex
# function.
print(b2x(tx.serialize()))
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