#!/usr/bin/env python3 # Copyright (c) 2024 The Bitcoin Core developers # Distributed under the MIT software license, see the accompanying # file COPYING or http://www.opensource.org/licenses/mit-license.php. """Helpful routines for mempool testing.""" from decimal import Decimal from .blocktools import ( COINBASE_MATURITY, ) from .messages import CTransaction from .util import ( assert_equal, assert_greater_than, create_lots_of_big_transactions, gen_return_txouts, ) from .wallet import ( MiniWallet, ) ORPHAN_TX_EXPIRE_TIME = 1200 def fill_mempool(test_framework, node, *, tx_sync_fun=None): """Fill mempool until eviction. Allows for simpler testing of scenarios with floating mempoolminfee > minrelay Requires -datacarriersize=100000 and -maxmempool=5 and assumes -minrelaytxfee is 1 sat/vbyte. To avoid unintentional tx dependencies, the mempool filling txs are created with a tagged ephemeral miniwallet instance. """ test_framework.log.info("Fill the mempool until eviction is triggered and the mempoolminfee rises") txouts = gen_return_txouts() relayfee = node.getnetworkinfo()['relayfee'] assert_equal(relayfee, Decimal('0.00001000')) tx_batch_size = 1 num_of_batches = 75 # Generate UTXOs to flood the mempool # 1 to create a tx initially that will be evicted from the mempool later # 75 transactions each with a fee rate higher than the previous one ephemeral_miniwallet = MiniWallet(node, tag_name="fill_mempool_ephemeral_wallet") test_framework.generate(ephemeral_miniwallet, 1 + num_of_batches * tx_batch_size) # Mine enough blocks so that the UTXOs are allowed to be spent test_framework.generate(node, COINBASE_MATURITY - 1) # Get all UTXOs up front to ensure none of the transactions spend from each other, as that may # change their effective feerate and thus the order in which they are selected for eviction. confirmed_utxos = [ephemeral_miniwallet.get_utxo(confirmed_only=True) for _ in range(num_of_batches * tx_batch_size + 1)] assert_equal(len(confirmed_utxos), num_of_batches * tx_batch_size + 1) test_framework.log.debug("Create a mempool tx that will be evicted") tx_to_be_evicted_id = ephemeral_miniwallet.send_self_transfer( from_node=node, utxo_to_spend=confirmed_utxos.pop(0), fee_rate=relayfee)["txid"] def send_batch(fee): utxos = confirmed_utxos[:tx_batch_size] create_lots_of_big_transactions(ephemeral_miniwallet, node, fee, tx_batch_size, txouts, utxos) del confirmed_utxos[:tx_batch_size] # Increase the tx fee rate to give the subsequent transactions a higher priority in the mempool # The tx has an approx. vsize of 65k, i.e. multiplying the previous fee rate (in sats/kvB) # by 130 should result in a fee that corresponds to 2x of that fee rate base_fee = relayfee * 130 batch_fees = [(i + 1) * base_fee for i in range(num_of_batches)] test_framework.log.debug("Fill up the mempool with txs with higher fee rate") for fee in batch_fees[:-3]: send_batch(fee) tx_sync_fun() if tx_sync_fun else test_framework.sync_mempools() # sync before any eviction assert_equal(node.getmempoolinfo()["mempoolminfee"], Decimal("0.00001000")) for fee in batch_fees[-3:]: send_batch(fee) tx_sync_fun() if tx_sync_fun else test_framework.sync_mempools() # sync after all evictions test_framework.log.debug("The tx should be evicted by now") # The number of transactions created should be greater than the ones present in the mempool assert_greater_than(tx_batch_size * num_of_batches, len(node.getrawmempool())) # Initial tx created should not be present in the mempool anymore as it had a lower fee rate assert tx_to_be_evicted_id not in node.getrawmempool() test_framework.log.debug("Check that mempoolminfee is larger than minrelaytxfee") assert_equal(node.getmempoolinfo()['minrelaytxfee'], Decimal('0.00001000')) assert_greater_than(node.getmempoolinfo()['mempoolminfee'], Decimal('0.00001000')) def tx_in_orphanage(node, tx: CTransaction) -> bool: """Returns true if the transaction is in the orphanage.""" found = [o for o in node.getorphantxs(verbosity=1) if o["txid"] == tx.rehash() and o["wtxid"] == tx.getwtxid()] return len(found) == 1