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a83f76b0d5
be5c84f41d
Merge bitcoin/bitcoin#22089: test: MiniWallet: fix fee calculation for P2PK and check tx vsize (MarcoFalke)247141d32c
Merge bitcoin/bitcoin#22210: test: Use MiniWallet in test_no_inherited_signaling RBF test (MarcoFalke)dad3ae3f33
Merge bitcoin/bitcoin#22130: test: refactor: dedup utility function chain_transaction() (MarcoFalke)9dff334f47
Merge bitcoin-core/gui#361: Fix gui segfault caused by bitcoin/bitcoin#22216 (Hennadii Stepanov)1087849955
Merge bitcoin/bitcoin#22216: refactor: Make SetupServerArgs callable without NodeContext (MarcoFalke)fd94de6888
Merge bitcoin/bitcoin#21178: test: run mempool_reorg.py even with wallet disabled (MarcoFalke)f1f5723fcf
fix: missing changes from bitcoin#14123 (Konstantin Akimov) Pull request description: ## Issue being fixed or feature implemented Regular backports from bitcoin v22 ## What was done? See commits for list of backported changes. It also have some missing changes from bitcoin#14123 ## How Has This Been Tested? Run unit/functional tests ## Breaking Changes N/A ## Checklist: - [x] I have performed a self-review of my own code - [ ] I have commented my code, particularly in hard-to-understand areas - [ ] I have added or updated relevant unit/integration/functional/e2e tests - [ ] I have made corresponding changes to the documentation - [x] I have assigned this pull request to a milestone ACKs for top commit: UdjinM6: utACKbe5c84f41d
PastaPastaPasta: utACKbe5c84f41d
Tree-SHA512: 553ffde63c8409799cf6b3b87bf1ee285fbf58b13c08d04cdac29bc0e4dd75059feaa2f163803084ae85175397512517b68a6e0e0cc602d981f38ac70d96e393
253 lines
11 KiB
Python
253 lines
11 KiB
Python
#!/usr/bin/env python3
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# Copyright (c) 2020 The Bitcoin Core developers
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# Distributed under the MIT software license, see the accompanying
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# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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"""A limited-functionality wallet, which may replace a real wallet in tests"""
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from copy import deepcopy
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from decimal import Decimal
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from enum import Enum
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from test_framework.address import ADDRESS_BCRT1_P2SH_OP_TRUE
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from test_framework.key import ECKey
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from random import choice
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from typing import Optional
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from test_framework.messages import (
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COIN,
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COutPoint,
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CTransaction,
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CTxIn,
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CTxOut,
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tx_from_hex,
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)
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from test_framework.script import (
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CScript,
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SignatureHash,
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OP_CHECKSIG,
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OP_TRUE,
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OP_NOP,
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SIGHASH_ALL,
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)
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from test_framework.util import (
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assert_equal,
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assert_greater_than_or_equal,
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satoshi_round,
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)
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DEFAULT_FEE = Decimal("0.0001")
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class MiniWalletMode(Enum):
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"""Determines the transaction type the MiniWallet is creating and spending.
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For most purposes, the default mode ADDRESS_OP_TRUE should be sufficient;
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it simply uses a fixed P2SH address whose coins are spent with a
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witness stack of OP_TRUE, i.e. following an anyone-can-spend policy.
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However, if the transactions need to be modified by the user (e.g. prepending
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scriptSig for testing opcodes that are activated by a soft-fork), or the txs
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should contain an actual signature, the raw modes RAW_OP_TRUE and RAW_P2PK
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can be useful. Summary of modes:
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| output | | tx is | can modify | needs
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mode | description | address | standard | scriptSig | signing
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----------------+-------------------+-----------+----------+------------+----------
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ADDRESS_OP_TRUE | anyone-can-spend | bech32 | yes | no | no
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RAW_OP_TRUE | anyone-can-spend | - (raw) | no | yes | no
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RAW_P2PK | pay-to-public-key | - (raw) | yes | yes | yes
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"""
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ADDRESS_OP_TRUE = 1
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RAW_OP_TRUE = 2
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RAW_P2PK = 3
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class MiniWallet:
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def __init__(self, test_node, *, mode=MiniWalletMode.ADDRESS_OP_TRUE):
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self._test_node = test_node
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self._utxos = []
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self._priv_key = None
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self._address = None
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assert isinstance(mode, MiniWalletMode)
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if mode == MiniWalletMode.RAW_OP_TRUE:
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self._scriptPubKey = bytes(CScript([OP_TRUE]))
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elif mode == MiniWalletMode.RAW_P2PK:
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# use simple deterministic private key (k=1)
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self._priv_key = ECKey()
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self._priv_key.set((1).to_bytes(32, 'big'), True)
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pub_key = self._priv_key.get_pubkey()
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self._scriptPubKey = bytes(CScript([pub_key.get_bytes(), OP_CHECKSIG]))
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elif mode == MiniWalletMode.ADDRESS_OP_TRUE:
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self._address = ADDRESS_BCRT1_P2SH_OP_TRUE
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self._scriptPubKey = bytes.fromhex(self._test_node.validateaddress(self._address)['scriptPubKey'])
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def scan_blocks(self, *, start=1, num):
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"""Scan the blocks for self._address outputs and add them to self._utxos"""
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for i in range(start, start + num):
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block = self._test_node.getblock(blockhash=self._test_node.getblockhash(i), verbosity=2)
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for tx in block['tx']:
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self.scan_tx(tx)
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def scan_tx(self, tx):
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"""Scan the tx for self._scriptPubKey outputs and add them to self._utxos"""
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for out in tx['vout']:
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if out['scriptPubKey']['hex'] == self._scriptPubKey.hex():
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self._utxos.append({'txid': tx['txid'], 'vout': out['n'], 'value': out['value']})
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def sign_tx(self, tx, fixed_length=True):
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"""Sign tx that has been created by MiniWallet in P2PK mode"""
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assert self._priv_key is not None
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(sighash, err) = SignatureHash(CScript(self._scriptPubKey), tx, 0, SIGHASH_ALL)
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assert err is None
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# for exact fee calculation, create only signatures with fixed size by default (>49.89% probability):
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# 65 bytes: high-R val (33 bytes) + low-S val (32 bytes)
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# with the DER header/skeleton data of 6 bytes added, this leads to a target size of 71 bytes
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der_sig = b''
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while not len(der_sig) == 71:
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der_sig = self._priv_key.sign_ecdsa(sighash)
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if not fixed_length:
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break
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tx.vin[0].scriptSig = CScript([der_sig + bytes(bytearray([SIGHASH_ALL]))])
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def generate(self, num_blocks):
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"""Generate blocks with coinbase outputs to the internal address, and append the outputs to the internal list"""
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blocks = self._test_node.generatetodescriptor(num_blocks, f'raw({self._scriptPubKey.hex()})')
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for b in blocks:
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cb_tx = self._test_node.getblock(blockhash=b, verbosity=2)['tx'][0]
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self._utxos.append({'txid': cb_tx['txid'], 'vout': 0, 'value': cb_tx['vout'][0]['value']})
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return blocks
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def get_address(self):
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return self._address
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def get_utxo(self, *, txid: Optional[str]='', mark_as_spent=True):
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"""
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Returns a utxo and marks it as spent (pops it from the internal list)
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Args:
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txid: get the first utxo we find from a specific transaction
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Note: Can be used to get the change output immediately after a send_self_transfer
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"""
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index = -1 # by default the last utxo
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if txid:
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utxo = next(filter(lambda utxo: txid == utxo['txid'], self._utxos))
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index = self._utxos.index(utxo)
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if mark_as_spent:
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return self._utxos.pop(index)
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else:
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return self._utxos[index]
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def send_self_transfer(self, **kwargs):
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"""Create and send a tx with the specified fee_rate. Fee may be exact or at most one satoshi higher than needed."""
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tx = self.create_self_transfer(**kwargs)
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self.sendrawtransaction(from_node=kwargs['from_node'], tx_hex=tx['hex'])
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return tx
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def create_self_transfer(self, *, fee_rate=Decimal("0.003"), from_node, utxo_to_spend=None, mempool_valid=True, locktime=0, sequence=0):
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"""Create and return a tx with the specified fee_rate. Fee may be exact or at most one satoshi higher than needed."""
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self._utxos = sorted(self._utxos, key=lambda k: k['value'])
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utxo_to_spend = utxo_to_spend or self._utxos.pop() # Pick the largest utxo (if none provided) and hope it covers the fee
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if self._priv_key is None:
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vsize = Decimal(85) # anyone-can-spend
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else:
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vsize = Decimal(168) # P2PK (73 bytes scriptSig + 35 bytes scriptPubKey + 60 bytes other)
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send_value = satoshi_round(utxo_to_spend['value'] - fee_rate * (vsize / 1000))
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fee = utxo_to_spend['value'] - send_value
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assert send_value > 0
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tx = CTransaction()
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tx.vin = [CTxIn(COutPoint(int(utxo_to_spend['txid'], 16), utxo_to_spend['vout']), nSequence=sequence)]
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tx.vout = [CTxOut(int(send_value * COIN), self._scriptPubKey)]
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tx.nLockTime = locktime
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if not self._address:
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# raw script
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if self._priv_key is not None:
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# P2PK, need to sign
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self.sign_tx(tx)
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else:
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# anyone-can-spend
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tx.vin[0].scriptSig = CScript([OP_NOP] * 24) # pad to identical size
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else:
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tx.vin[0].scriptSig = CScript([CScript([OP_TRUE])])
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tx_hex = tx.serialize().hex()
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tx_info = from_node.testmempoolaccept([tx_hex])[0]
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assert_equal(mempool_valid, tx_info['allowed'])
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if mempool_valid:
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assert_equal(len(tx_hex) // 2, vsize) # 1 byte = 2 character
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assert_equal(tx_info['fees']['base'], fee)
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return {'txid': tx_info['txid'], 'hex': tx_hex, 'tx': tx}
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def sendrawtransaction(self, *, from_node, tx_hex):
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from_node.sendrawtransaction(tx_hex)
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self.scan_tx(from_node.decoderawtransaction(tx_hex))
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def make_chain(node, address, privkeys, parent_txid, parent_value, n=0, parent_locking_script=None, fee=DEFAULT_FEE):
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"""Build a transaction that spends parent_txid.vout[n] and produces one output with
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amount = parent_value with a fee deducted.
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Return tuple (CTransaction object, raw hex, nValue, scriptPubKey of the output created).
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"""
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inputs = [{"txid": parent_txid, "vout": n}]
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my_value = parent_value - fee
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outputs = {address : my_value}
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rawtx = node.createrawtransaction(inputs, outputs)
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prevtxs = [{
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"txid": parent_txid,
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"vout": n,
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"scriptPubKey": parent_locking_script,
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"amount": parent_value,
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}] if parent_locking_script else None
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signedtx = node.signrawtransactionwithkey(hexstring=rawtx, privkeys=privkeys, prevtxs=prevtxs)
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assert signedtx["complete"]
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tx = tx_from_hex(signedtx["hex"])
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return (tx, signedtx["hex"], my_value, tx.vout[0].scriptPubKey.hex())
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def create_child_with_parents(node, address, privkeys, parents_tx, values, locking_scripts, fee=DEFAULT_FEE):
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"""Creates a transaction that spends the first output of each parent in parents_tx."""
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num_parents = len(parents_tx)
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total_value = sum(values)
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inputs = [{"txid": tx.rehash(), "vout": 0} for tx in parents_tx]
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outputs = {address : total_value - fee}
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rawtx_child = node.createrawtransaction(inputs, outputs)
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prevtxs = []
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for i in range(num_parents):
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prevtxs.append({"txid": parents_tx[i].rehash(), "vout": 0, "scriptPubKey": locking_scripts[i], "amount": values[i]})
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signedtx_child = node.signrawtransactionwithkey(hexstring=rawtx_child, privkeys=privkeys, prevtxs=prevtxs)
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assert signedtx_child["complete"]
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return signedtx_child["hex"]
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def create_raw_chain(node, first_coin, address, privkeys, chain_length=25):
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"""Helper function: create a "chain" of chain_length transactions. The nth transaction in the
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chain is a child of the n-1th transaction and parent of the n+1th transaction.
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"""
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parent_locking_script = None
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txid = first_coin["txid"]
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chain_hex = []
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chain_txns = []
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value = first_coin["amount"]
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for _ in range(chain_length):
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(tx, txhex, value, parent_locking_script) = make_chain(node, address, privkeys, txid, value, 0, parent_locking_script)
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txid = tx.rehash()
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chain_hex.append(txhex)
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chain_txns.append(tx)
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return (chain_hex, chain_txns)
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def bulk_transaction(tx, node, target_weight, privkeys, prevtxs=None):
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"""Pad a transaction with extra outputs until it reaches a target weight (or higher).
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returns CTransaction object
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"""
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tx_heavy = deepcopy(tx)
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assert_greater_than_or_equal(target_weight, tx_heavy.get_weight())
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while tx_heavy.get_weight() < target_weight:
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random_spk = "6a4d0200" # OP_RETURN OP_PUSH2 512 bytes
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for _ in range(512*2):
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random_spk += choice("0123456789ABCDEF")
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tx_heavy.vout.append(CTxOut(0, bytes.fromhex(random_spk)))
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# Re-sign the transaction
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if privkeys:
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signed = node.signrawtransactionwithkey(tx_heavy.serialize().hex(), privkeys, prevtxs)
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return tx_from_hex(signed["hex"])
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# OP_TRUE
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tx_heavy.vin[0].scriptSig = CScript([CScript([OP_TRUE])])
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return tx_heavy
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