#!/usr/bin/env python3 # Copyright (c) 2024-present The Bitcoin Core developers # Distributed under the MIT software license, see the accompanying # file COPYING or http://www.opensource.org/licenses/mit-license.php. """ Test that 1p1c package submission allows a 1p1c package to propagate in a "network" of nodes. Send various packages from different nodes on a network in which some nodes have already received some of the transactions (and submitted them to mempool, kept them as orphans or rejected them as too-low-feerate transactions). The packages should be received and accepted by all nodes. """ from decimal import Decimal from math import ceil from test_framework.messages import ( msg_tx, ) from test_framework.p2p import ( P2PInterface, ) from test_framework.test_framework import BitcoinTestFramework from test_framework.util import ( assert_equal, assert_greater_than, fill_mempool, ) from test_framework.wallet import ( MiniWallet, MiniWalletMode, ) # 1sat/vB feerate denominated in BTC/KvB FEERATE_1SAT_VB = Decimal("0.00001000") class PackageRelayTest(BitcoinTestFramework): def set_test_params(self): self.setup_clean_chain = True self.num_nodes = 4 # hugely speeds up the test, as it involves multiple hops of tx relay. self.noban_tx_relay = True self.extra_args = [[ "-datacarriersize=100000", "-maxmempool=5", ]] * self.num_nodes self.supports_cli = False def raise_network_minfee(self): filler_wallet = MiniWallet(self.nodes[0]) fill_mempool(self, self.nodes[0], filler_wallet) self.log.debug("Wait for the network to sync mempools") self.sync_mempools() self.log.debug("Check that all nodes' mempool minimum feerates are above min relay feerate") for node in self.nodes: assert_equal(node.getmempoolinfo()['minrelaytxfee'], FEERATE_1SAT_VB) assert_greater_than(node.getmempoolinfo()['mempoolminfee'], FEERATE_1SAT_VB) def create_basic_1p1c(self, wallet): low_fee_parent = wallet.create_self_transfer(fee_rate=FEERATE_1SAT_VB, confirmed_only=True) high_fee_child = wallet.create_self_transfer(utxo_to_spend=low_fee_parent["new_utxo"], fee_rate=999*FEERATE_1SAT_VB) package_hex_basic = [low_fee_parent["hex"], high_fee_child["hex"]] return package_hex_basic, low_fee_parent["tx"], high_fee_child["tx"] def create_package_2outs(self, wallet): # First create a tester tx to see the vsize, and then adjust the fees utxo_for_2outs = wallet.get_utxo(confirmed_only=True) low_fee_parent_2outs_tester = wallet.create_self_transfer_multi( utxos_to_spend=[utxo_for_2outs], num_outputs=2, ) # Target 1sat/vB so the number of satoshis is equal to the vsize. # Round up. The goal is to be between min relay feerate and mempool min feerate. fee_2outs = ceil(low_fee_parent_2outs_tester["tx"].get_vsize() / 2) low_fee_parent_2outs = wallet.create_self_transfer_multi( utxos_to_spend=[utxo_for_2outs], num_outputs=2, fee_per_output=fee_2outs, ) # Now create the child high_fee_child_2outs = wallet.create_self_transfer_multi( utxos_to_spend=low_fee_parent_2outs["new_utxos"][::-1], fee_per_output=fee_2outs*100, ) return [low_fee_parent_2outs["hex"], high_fee_child_2outs["hex"]], low_fee_parent_2outs["tx"], high_fee_child_2outs["tx"] def create_package_2p1c(self, wallet): parent1 = wallet.create_self_transfer(fee_rate=FEERATE_1SAT_VB*10, confirmed_only=True) parent2 = wallet.create_self_transfer(fee_rate=FEERATE_1SAT_VB*20, confirmed_only=True) child = wallet.create_self_transfer_multi( utxos_to_spend=[parent1["new_utxo"], parent2["new_utxo"]], fee_per_output=999*parent1["tx"].get_vsize(), ) return [parent1["hex"], parent2["hex"], child["hex"]], parent1["tx"], parent2["tx"], child["tx"] def create_packages(self): # 1: Basic 1-parent-1-child package, parent 1sat/vB, child 999sat/vB package_hex_1, parent_1, child_1 = self.create_basic_1p1c(self.wallet) # 2: same as 1, parent's txid is the same as its wtxid. package_hex_2, parent_2, child_2 = self.create_basic_1p1c(self.wallet_nonsegwit) # 3: 2-parent-1-child package. Both parents are above mempool min feerate. No package submission happens. # We require packages to be child-with-unconfirmed-parents and only allow 1-parent-1-child packages. package_hex_3, parent_31, parent_32, child_3 = self.create_package_2p1c(self.wallet) # 4: parent + child package where the child spends 2 different outputs from the parent. package_hex_4, parent_4, child_4 = self.create_package_2outs(self.wallet) # Assemble return results packages_to_submit = [package_hex_1, package_hex_2, package_hex_3, package_hex_4] # node0: sender # node1: pre-received the children (orphan) # node3: pre-received the parents (too low fee) # All nodes receive parent_31 ahead of time. txns_to_send = [ [], [child_1, child_2, parent_31, child_3, child_4], [parent_31], [parent_1, parent_2, parent_31, parent_4] ] return packages_to_submit, txns_to_send def run_test(self): self.wallet = MiniWallet(self.nodes[1]) self.wallet_nonsegwit = MiniWallet(self.nodes[2], mode=MiniWalletMode.RAW_P2PK) self.generate(self.wallet_nonsegwit, 10) self.generate(self.wallet, 120) self.log.info("Fill mempools with large transactions to raise mempool minimum feerates") self.raise_network_minfee() # Create the transactions. self.wallet.rescan_utxos(include_mempool=True) packages_to_submit, transactions_to_presend = self.create_packages() self.peers = [self.nodes[i].add_p2p_connection(P2PInterface()) for i in range(self.num_nodes)] self.log.info("Pre-send some transactions to nodes") for (i, peer) in enumerate(self.peers): for tx in transactions_to_presend[i]: peer.send_and_ping(msg_tx(tx)) # This disconnect removes any sent orphans from the orphanage (EraseForPeer) and times # out the in-flight requests. It is currently required for the test to pass right now, # because the node will not reconsider an orphan tx and will not (re)try requesting # orphan parents from multiple peers if the first one didn't respond. # TODO: remove this in the future if the node tries orphan resolution with multiple peers. peer.peer_disconnect() self.log.info("Submit full packages to node0") for package_hex in packages_to_submit: submitpackage_result = self.nodes[0].submitpackage(package_hex) assert_equal(submitpackage_result["package_msg"], "success") self.log.info("Wait for mempools to sync") self.sync_mempools(timeout=20) if __name__ == '__main__': PackageRelayTest().main()