#!/usr/bin/env python3 # Copyright (c) 2017-2021 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 transaction upload""" from test_framework.messages import msg_getdata, CInv, MSG_TX, MSG_WTX from test_framework.p2p import p2p_lock, P2PDataStore, P2PTxInvStore from test_framework.test_framework import BitcoinTestFramework from test_framework.util import ( assert_equal, ) from test_framework.wallet import MiniWallet class P2PNode(P2PDataStore): def on_inv(self, msg): pass class P2PLeakTxTest(BitcoinTestFramework): def set_test_params(self): self.num_nodes = 1 def run_test(self): self.gen_node = self.nodes[0] # The block and tx generating node self.miniwallet = MiniWallet(self.gen_node) self.test_tx_in_block() self.test_notfound_on_replaced_tx() self.test_notfound_on_unannounced_tx() def test_tx_in_block(self): self.log.info("Check that a transaction in the last block is uploaded (beneficial for compact block relay)") inbound_peer = self.gen_node.add_p2p_connection(P2PNode()) self.log.debug("Generate transaction and block") inbound_peer.last_message.pop("inv", None) wtxid = self.miniwallet.send_self_transfer(from_node=self.gen_node)["wtxid"] inbound_peer.wait_until(lambda: "inv" in inbound_peer.last_message and inbound_peer.last_message.get("inv").inv[0].hash == int(wtxid, 16)) want_tx = msg_getdata(inv=inbound_peer.last_message.get("inv").inv) self.generate(self.gen_node, 1) self.log.debug("Request transaction") inbound_peer.last_message.pop("tx", None) inbound_peer.send_and_ping(want_tx) assert_equal(inbound_peer.last_message.get("tx").tx.getwtxid(), wtxid) def test_notfound_on_replaced_tx(self): self.gen_node.disconnect_p2ps() inbound_peer = self.gen_node.add_p2p_connection(P2PTxInvStore()) self.log.info("Transaction tx_a is broadcast") tx_a = self.miniwallet.send_self_transfer(from_node=self.gen_node) inbound_peer.wait_for_broadcast(txns=[tx_a["wtxid"]]) tx_b = tx_a["tx"] tx_b.vout[0].nValue -= 9000 self.gen_node.sendrawtransaction(tx_b.serialize().hex()) inbound_peer.wait_until(lambda: "tx" in inbound_peer.last_message and inbound_peer.last_message.get("tx").tx.getwtxid() == tx_b.getwtxid()) self.log.info("Re-request of tx_a after replacement is answered with notfound") req_vec = [ CInv(t=MSG_TX, h=int(tx_a["txid"], 16)), CInv(t=MSG_WTX, h=int(tx_a["wtxid"], 16)), ] want_tx = msg_getdata() want_tx.inv = req_vec with p2p_lock: inbound_peer.last_message.pop("notfound", None) inbound_peer.last_message.pop("tx", None) inbound_peer.send_and_ping(want_tx) assert_equal(inbound_peer.last_message.get("notfound").vec, req_vec) assert "tx" not in inbound_peer.last_message def test_notfound_on_unannounced_tx(self): self.log.info("Check that we don't leak txs to inbound peers that we haven't yet announced to") self.gen_node.disconnect_p2ps() inbound_peer = self.gen_node.add_p2p_connection(P2PNode()) # An "attacking" inbound peer MAX_REPEATS = 100 self.log.info("Running test up to {} times.".format(MAX_REPEATS)) for i in range(MAX_REPEATS): self.log.info('Run repeat {}'.format(i + 1)) txid = self.miniwallet.send_self_transfer(from_node=self.gen_node)["wtxid"] want_tx = msg_getdata() want_tx.inv.append(CInv(t=MSG_TX, h=int(txid, 16))) with p2p_lock: inbound_peer.last_message.pop('notfound', None) inbound_peer.send_and_ping(want_tx) if inbound_peer.last_message.get('notfound'): self.log.debug('tx {} was not yet announced to us.'.format(txid)) self.log.debug("node has responded with a notfound message. End test.") assert_equal(inbound_peer.last_message['notfound'].vec[0].hash, int(txid, 16)) with p2p_lock: inbound_peer.last_message.pop('notfound') break else: self.log.debug('tx {} was already announced to us. Try test again.'.format(txid)) assert int(txid, 16) in [inv.hash for inv in inbound_peer.last_message['inv'].inv] if __name__ == '__main__': P2PLeakTxTest().main()