#!/usr/bin/env python3 # Copyright (c) 2023 The Bitcoin Core developers # Distributed under the MIT software license, see the accompanying # file COPYING or http://www.opensource.org/licenses/mit-license.php. import time from test_framework.messages import ( CInv, CTxInWitness, MSG_TX, MSG_WITNESS_TX, MSG_WTX, msg_getdata, msg_inv, msg_notfound, msg_tx, tx_from_hex, ) from test_framework.p2p import ( GETDATA_TX_INTERVAL, NONPREF_PEER_TX_DELAY, OVERLOADED_PEER_TX_DELAY, p2p_lock, P2PInterface, P2PTxInvStore, TXID_RELAY_DELAY, ) from test_framework.util import ( assert_equal, ) from test_framework.test_framework import BitcoinTestFramework from test_framework.wallet import ( MiniWallet, MiniWalletMode, ) # Time to bump forward (using setmocktime) before waiting for the node to send getdata(tx) in response # to an inv(tx), in seconds. This delay includes all possible delays + 1, so it should only be used # when the value of the delay is not interesting. If we want to test that the node waits x seconds # for one peer and y seconds for another, use specific values instead. TXREQUEST_TIME_SKIP = NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY + OVERLOADED_PEER_TX_DELAY + 1 def cleanup(func): # Time to fastfoward (using setmocktime) in between subtests to ensure they do not interfere with # one another, in seconds. Equal to 12 hours, which is enough to expire anything that may exist # (though nothing should since state should be cleared) in p2p data structures. LONG_TIME_SKIP = 12 * 60 * 60 def wrapper(self): try: func(self) finally: # Clear mempool self.generate(self.nodes[0], 1) self.nodes[0].disconnect_p2ps() self.nodes[0].bumpmocktime(LONG_TIME_SKIP) return wrapper class PeerTxRelayer(P2PTxInvStore): """A P2PTxInvStore that also remembers all of the getdata and tx messages it receives.""" def __init__(self): super().__init__() self._tx_received = [] self._getdata_received = [] @property def tx_received(self): with p2p_lock: return self._tx_received @property def getdata_received(self): with p2p_lock: return self._getdata_received def on_tx(self, message): self._tx_received.append(message) def on_getdata(self, message): self._getdata_received.append(message) def wait_for_parent_requests(self, txids): """Wait for requests for missing parents by txid with witness data (MSG_WITNESS_TX or WitnessTx). Requires that the getdata message match these txids exactly; all txids must be requested and no additional requests are allowed.""" def test_function(): last_getdata = self.last_message.get('getdata') if not last_getdata: return False return len(last_getdata.inv) == len(txids) and all([item.type == MSG_WITNESS_TX and item.hash in txids for item in last_getdata.inv]) self.wait_until(test_function, timeout=10) def assert_no_immediate_response(self, message): """Check that the node does not immediately respond to this message with any of getdata, inv, tx. The node may respond later. """ prev_lastmessage = self.last_message self.send_and_ping(message) after_lastmessage = self.last_message for msgtype in ["getdata", "inv", "tx"]: if msgtype not in prev_lastmessage: assert msgtype not in after_lastmessage else: assert_equal(prev_lastmessage[msgtype], after_lastmessage[msgtype]) def assert_never_requested(self, txhash): """Check that the node has never sent us a getdata for this hash (int type)""" for getdata in self.getdata_received: for request in getdata.inv: assert request.hash != txhash class OrphanHandlingTest(BitcoinTestFramework): def set_test_params(self): self.num_nodes = 1 self.extra_args = [[]] def create_parent_and_child(self): """Create package with 1 parent and 1 child, normal fees (no cpfp).""" parent = self.wallet.create_self_transfer() child = self.wallet.create_self_transfer(utxo_to_spend=parent['new_utxo']) return child["tx"].getwtxid(), child["tx"], parent["tx"] def relay_transaction(self, peer, tx): """Relay transaction using MSG_WTX""" wtxid = int(tx.getwtxid(), 16) peer.send_and_ping(msg_inv([CInv(t=MSG_WTX, h=wtxid)])) self.nodes[0].bumpmocktime(TXREQUEST_TIME_SKIP) peer.wait_for_getdata([wtxid]) peer.send_and_ping(msg_tx(tx)) def create_malleated_version(self, tx): """ Create a malleated version of the tx where the witness is replaced with garbage data. Returns a CTransaction object. """ tx_bad_wit = tx_from_hex(tx["hex"]) tx_bad_wit.wit.vtxinwit = [CTxInWitness()] # Add garbage data to witness 0. We cannot simply strip the witness, as the node would # classify it as a transaction in which the witness was missing rather than wrong. tx_bad_wit.wit.vtxinwit[0].scriptWitness.stack = [b'garbage'] assert_equal(tx["txid"], tx_bad_wit.rehash()) assert tx["wtxid"] != tx_bad_wit.getwtxid() return tx_bad_wit @cleanup def test_arrival_timing_orphan(self): self.log.info("Test missing parents that arrive during delay are not requested") node = self.nodes[0] tx_parent_arrives = self.wallet.create_self_transfer() tx_parent_doesnt_arrive = self.wallet.create_self_transfer() # Fake orphan spends nonexistent outputs of the two parents tx_fake_orphan = self.wallet.create_self_transfer_multi(utxos_to_spend=[ {"txid": tx_parent_doesnt_arrive["txid"], "vout": 10, "value": tx_parent_doesnt_arrive["new_utxo"]["value"]}, {"txid": tx_parent_arrives["txid"], "vout": 10, "value": tx_parent_arrives["new_utxo"]["value"]} ]) peer_spy = node.add_p2p_connection(PeerTxRelayer()) peer_normal = node.add_p2p_connection(PeerTxRelayer()) # This transaction is an orphan because it is missing inputs. It is a "fake" orphan that the # spy peer has crafted to learn information about tx_parent_arrives even though it isn't # able to spend a real output of it, but it could also just be a normal, real child tx. # The node should not immediately respond with a request for orphan parents. # Also, no request should be sent later because it will be resolved by # the time the request is scheduled to be sent. peer_spy.assert_no_immediate_response(msg_tx(tx_fake_orphan["tx"])) # Node receives transaction. It attempts to obfuscate the exact timing at which this # transaction entered its mempool. Send unsolicited because otherwise we need to wait for # request delays. peer_normal.send_and_ping(msg_tx(tx_parent_arrives["tx"])) assert tx_parent_arrives["txid"] in node.getrawmempool() # Spy peer should not be able to query the node for the parent yet, since it hasn't been # announced / insufficient time has elapsed. parent_inv = CInv(t=MSG_WTX, h=int(tx_parent_arrives["tx"].getwtxid(), 16)) assert_equal(len(peer_spy.get_invs()), 0) peer_spy.assert_no_immediate_response(msg_getdata([parent_inv])) # Request would be scheduled with this delay because it is not a preferred relay peer. self.nodes[0].bumpmocktime(NONPREF_PEER_TX_DELAY) peer_spy.assert_never_requested(int(tx_parent_arrives["txid"], 16)) peer_spy.assert_never_requested(int(tx_parent_doesnt_arrive["txid"], 16)) # Request would be scheduled with this delay because it is by txid. self.nodes[0].bumpmocktime(TXID_RELAY_DELAY) peer_spy.wait_for_parent_requests([int(tx_parent_doesnt_arrive["txid"], 16)]) peer_spy.assert_never_requested(int(tx_parent_arrives["txid"], 16)) @cleanup def test_orphan_rejected_parents_exceptions(self): node = self.nodes[0] peer1 = node.add_p2p_connection(PeerTxRelayer()) peer2 = node.add_p2p_connection(PeerTxRelayer()) self.log.info("Test orphan handling when a nonsegwit parent is known to be invalid") parent_low_fee_nonsegwit = self.wallet_nonsegwit.create_self_transfer(fee_rate=0) assert_equal(parent_low_fee_nonsegwit["txid"], parent_low_fee_nonsegwit["tx"].getwtxid()) parent_other = self.wallet_nonsegwit.create_self_transfer() child_nonsegwit = self.wallet_nonsegwit.create_self_transfer_multi( utxos_to_spend=[parent_other["new_utxo"], parent_low_fee_nonsegwit["new_utxo"]]) # Relay the parent. It should be rejected because it pays 0 fees. self.relay_transaction(peer1, parent_low_fee_nonsegwit["tx"]) assert parent_low_fee_nonsegwit["txid"] not in node.getrawmempool() # Relay the child. It should not be accepted because it has missing inputs. # Its parent should not be requested because its hash (txid == wtxid) has been added to the rejection filter. with node.assert_debug_log(['not keeping orphan with rejected parents {}'.format(child_nonsegwit["txid"])]): self.relay_transaction(peer2, child_nonsegwit["tx"]) assert child_nonsegwit["txid"] not in node.getrawmempool() # No parents are requested. self.nodes[0].bumpmocktime(GETDATA_TX_INTERVAL) peer1.assert_never_requested(int(parent_other["txid"], 16)) peer2.assert_never_requested(int(parent_other["txid"], 16)) peer2.assert_never_requested(int(parent_low_fee_nonsegwit["txid"], 16)) self.log.info("Test orphan handling when a segwit parent was invalid but may be retried with another witness") parent_low_fee = self.wallet.create_self_transfer(fee_rate=0) child_low_fee = self.wallet.create_self_transfer(utxo_to_spend=parent_low_fee["new_utxo"]) # Relay the low fee parent. It should not be accepted. self.relay_transaction(peer1, parent_low_fee["tx"]) assert parent_low_fee["txid"] not in node.getrawmempool() # Relay the child. It should not be accepted because it has missing inputs. self.relay_transaction(peer2, child_low_fee["tx"]) assert child_low_fee["txid"] not in node.getrawmempool() # The parent should be requested because even though the txid commits to the fee, it doesn't # commit to the feerate. Delayed because it's by txid and this is not a preferred relay peer. self.nodes[0].bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) peer2.wait_for_getdata([int(parent_low_fee["tx"].rehash(), 16)]) self.log.info("Test orphan handling when a parent was previously downloaded with witness stripped") parent_normal = self.wallet.create_self_transfer() parent1_witness_stripped = tx_from_hex(parent_normal["tx"].serialize_without_witness().hex()) child_invalid_witness = self.wallet.create_self_transfer(utxo_to_spend=parent_normal["new_utxo"]) # Relay the parent with witness stripped. It should not be accepted. self.relay_transaction(peer1, parent1_witness_stripped) assert_equal(parent_normal["txid"], parent1_witness_stripped.rehash()) assert parent1_witness_stripped.rehash() not in node.getrawmempool() # Relay the child. It should not be accepted because it has missing inputs. self.relay_transaction(peer2, child_invalid_witness["tx"]) assert child_invalid_witness["txid"] not in node.getrawmempool() # The parent should be requested since the unstripped wtxid would differ. Delayed because # it's by txid and this is not a preferred relay peer. self.nodes[0].bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) peer2.wait_for_getdata([int(parent_normal["tx"].rehash(), 16)]) # parent_normal can be relayed again even though parent1_witness_stripped was rejected self.relay_transaction(peer1, parent_normal["tx"]) assert_equal(set(node.getrawmempool()), set([parent_normal["txid"], child_invalid_witness["txid"]])) @cleanup def test_orphan_multiple_parents(self): node = self.nodes[0] peer = node.add_p2p_connection(PeerTxRelayer()) self.log.info("Test orphan parent requests with a mixture of confirmed, in-mempool and missing parents") # This UTXO confirmed a long time ago. utxo_conf_old = self.wallet.send_self_transfer(from_node=node)["new_utxo"] txid_conf_old = utxo_conf_old["txid"] self.generate(self.wallet, 10) # Create a fake reorg to trigger BlockDisconnected, which resets the rolling bloom filter. # The alternative is to mine thousands of transactions to push it out of the filter. last_block = node.getbestblockhash() node.invalidateblock(last_block) node.preciousblock(last_block) node.syncwithvalidationinterfacequeue() # This UTXO confirmed recently. utxo_conf_recent = self.wallet.send_self_transfer(from_node=node)["new_utxo"] self.generate(node, 1) # This UTXO is unconfirmed and in the mempool. assert_equal(len(node.getrawmempool()), 0) mempool_tx = self.wallet.send_self_transfer(from_node=node) utxo_unconf_mempool = mempool_tx["new_utxo"] # This UTXO is unconfirmed and missing. missing_tx = self.wallet.create_self_transfer() utxo_unconf_missing = missing_tx["new_utxo"] assert missing_tx["txid"] not in node.getrawmempool() orphan = self.wallet.create_self_transfer_multi(utxos_to_spend=[utxo_conf_old, utxo_conf_recent, utxo_unconf_mempool, utxo_unconf_missing]) self.relay_transaction(peer, orphan["tx"]) self.nodes[0].bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) peer.sync_with_ping() assert_equal(len(peer.last_message["getdata"].inv), 2) peer.wait_for_parent_requests([int(txid_conf_old, 16), int(missing_tx["txid"], 16)]) # Even though the peer would send a notfound for the "old" confirmed transaction, the node # doesn't give up on the orphan. Once all of the missing parents are received, it should be # submitted to mempool. peer.send_message(msg_notfound(vec=[CInv(MSG_WITNESS_TX, int(txid_conf_old, 16))])) # Sync with ping to ensure orphans are reconsidered peer.send_and_ping(msg_tx(missing_tx["tx"])) assert_equal(node.getmempoolentry(orphan["txid"])["ancestorcount"], 3) @cleanup def test_orphans_overlapping_parents(self): node = self.nodes[0] # In the process of relaying inflight_parent_AB peer_txrequest = node.add_p2p_connection(PeerTxRelayer()) # Sends the orphans peer_orphans = node.add_p2p_connection(PeerTxRelayer()) confirmed_utxos = [self.wallet_nonsegwit.get_utxo() for _ in range(4)] assert all([utxo["confirmations"] > 0 for utxo in confirmed_utxos]) self.log.info("Test handling of multiple orphans with missing parents that are already being requested") # Parent of child_A only missing_parent_A = self.wallet_nonsegwit.create_self_transfer(utxo_to_spend=confirmed_utxos[0]) # Parents of child_A and child_B missing_parent_AB = self.wallet_nonsegwit.create_self_transfer(utxo_to_spend=confirmed_utxos[1]) inflight_parent_AB = self.wallet_nonsegwit.create_self_transfer(utxo_to_spend=confirmed_utxos[2]) # Parent of child_B only missing_parent_B = self.wallet_nonsegwit.create_self_transfer(utxo_to_spend=confirmed_utxos[3]) child_A = self.wallet_nonsegwit.create_self_transfer_multi( utxos_to_spend=[missing_parent_A["new_utxo"], missing_parent_AB["new_utxo"], inflight_parent_AB["new_utxo"]] ) child_B = self.wallet_nonsegwit.create_self_transfer_multi( utxos_to_spend=[missing_parent_B["new_utxo"], missing_parent_AB["new_utxo"], inflight_parent_AB["new_utxo"]] ) # The wtxid and txid need to be the same for the node to recognize that the missing input # and in-flight request for inflight_parent_AB are the same transaction. assert_equal(inflight_parent_AB["txid"], inflight_parent_AB["tx"].getwtxid()) # Announce inflight_parent_AB and wait for getdata peer_txrequest.send_and_ping(msg_inv([CInv(t=MSG_WTX, h=int(inflight_parent_AB["tx"].getwtxid(), 16))])) self.nodes[0].bumpmocktime(NONPREF_PEER_TX_DELAY) peer_txrequest.wait_for_getdata([int(inflight_parent_AB["tx"].getwtxid(), 16)]) self.log.info("Test that the node does not request a parent if it has an in-flight txrequest") # Relay orphan child_A self.relay_transaction(peer_orphans, child_A["tx"]) self.nodes[0].bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) # There are 3 missing parents. missing_parent_A and missing_parent_AB should be requested. # But inflight_parent_AB should not, because there is already an in-flight request for it. peer_orphans.wait_for_parent_requests([int(missing_parent_A["txid"], 16), int(missing_parent_AB["txid"], 16)]) self.log.info("Test that the node does not request a parent if it has an in-flight orphan parent request") # Relay orphan child_B self.relay_transaction(peer_orphans, child_B["tx"]) self.nodes[0].bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) # Only missing_parent_B should be requested. Not inflight_parent_AB or missing_parent_AB # because they are already being requested from peer_txrequest and peer_orphans respectively. peer_orphans.wait_for_parent_requests([int(missing_parent_B["txid"], 16)]) peer_orphans.assert_never_requested(int(inflight_parent_AB["txid"], 16)) @cleanup def test_orphan_of_orphan(self): node = self.nodes[0] peer = node.add_p2p_connection(PeerTxRelayer()) self.log.info("Test handling of an orphan with a parent who is another orphan") missing_grandparent = self.wallet_nonsegwit.create_self_transfer() missing_parent_orphan = self.wallet_nonsegwit.create_self_transfer(utxo_to_spend=missing_grandparent["new_utxo"]) missing_parent = self.wallet_nonsegwit.create_self_transfer() orphan = self.wallet_nonsegwit.create_self_transfer_multi(utxos_to_spend=[missing_parent["new_utxo"], missing_parent_orphan["new_utxo"]]) # The node should put missing_parent_orphan into the orphanage and request missing_grandparent self.relay_transaction(peer, missing_parent_orphan["tx"]) self.nodes[0].bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) peer.wait_for_parent_requests([int(missing_grandparent["txid"], 16)]) # The node should put the orphan into the orphanage and request missing_parent, skipping # missing_parent_orphan because it already has it in the orphanage. self.relay_transaction(peer, orphan["tx"]) self.nodes[0].bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) peer.wait_for_parent_requests([int(missing_parent["txid"], 16)]) @cleanup def test_orphan_inherit_rejection(self): node = self.nodes[0] peer1 = node.add_p2p_connection(PeerTxRelayer()) peer2 = node.add_p2p_connection(PeerTxRelayer()) peer3 = node.add_p2p_connection(PeerTxRelayer()) self.log.info("Test that an orphan with rejected parents, along with any descendants, cannot be retried with an alternate witness") parent_low_fee_nonsegwit = self.wallet_nonsegwit.create_self_transfer(fee_rate=0) assert_equal(parent_low_fee_nonsegwit["txid"], parent_low_fee_nonsegwit["tx"].getwtxid()) child = self.wallet.create_self_transfer(utxo_to_spend=parent_low_fee_nonsegwit["new_utxo"]) grandchild = self.wallet.create_self_transfer(utxo_to_spend=child["new_utxo"]) assert child["txid"] != child["tx"].getwtxid() assert grandchild["txid"] != grandchild["tx"].getwtxid() # Relay the parent. It should be rejected because it pays 0 fees. self.relay_transaction(peer1, parent_low_fee_nonsegwit["tx"]) # Relay the child. It should be rejected for having missing parents, and this rejection is # cached by txid and wtxid. with node.assert_debug_log(['not keeping orphan with rejected parents {}'.format(child["txid"])]): self.relay_transaction(peer1, child["tx"]) assert_equal(0, len(node.getrawmempool())) peer1.assert_never_requested(parent_low_fee_nonsegwit["txid"]) # Grandchild should also not be kept in orphanage because its parent has been rejected. with node.assert_debug_log(['not keeping orphan with rejected parents {}'.format(grandchild["txid"])]): self.relay_transaction(peer2, grandchild["tx"]) assert_equal(0, len(node.getrawmempool())) peer2.assert_never_requested(child["txid"]) peer2.assert_never_requested(child["tx"].getwtxid()) # The child should never be requested, even if announced again with potentially different witness. # Sync with ping to ensure orphans are reconsidered peer3.send_and_ping(msg_inv([CInv(t=MSG_TX, h=int(child["txid"], 16))])) self.nodes[0].bumpmocktime(TXREQUEST_TIME_SKIP) peer3.assert_never_requested(child["txid"]) @cleanup def test_same_txid_orphan(self): self.log.info("Check what happens when orphan with same txid is already in orphanage") node = self.nodes[0] tx_parent = self.wallet.create_self_transfer() # Create the real child tx_child = self.wallet.create_self_transfer(utxo_to_spend=tx_parent["new_utxo"]) # Create a fake version of the child tx_orphan_bad_wit = self.create_malleated_version(tx_child) bad_peer = node.add_p2p_connection(P2PInterface()) honest_peer = node.add_p2p_connection(P2PInterface()) # 1. Fake orphan is received first. It is missing an input. bad_peer.send_and_ping(msg_tx(tx_orphan_bad_wit)) # 2. Node requests the missing parent by txid. parent_txid_int = int(tx_parent["txid"], 16) node.bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) bad_peer.wait_for_getdata([parent_txid_int]) # 3. Honest peer relays the real child, which is also missing parents and should be placed # in the orphanage. with node.assert_debug_log(["missingorspent", "stored orphan tx"]): honest_peer.send_and_ping(msg_tx(tx_child["tx"])) # Time out the previous request for the parent (node will not request the same transaction # from multiple nodes at the same time) node.bumpmocktime(GETDATA_TX_INTERVAL) # 4. The parent is requested. Honest peer sends it. honest_peer.wait_for_getdata([parent_txid_int]) # Sync with ping to ensure orphans are reconsidered honest_peer.send_and_ping(msg_tx(tx_parent["tx"])) # 5. After parent is accepted, orphans should be reconsidered. # The real child should be accepted and the fake one rejected. node_mempool = node.getrawmempool() assert tx_parent["txid"] in node_mempool assert tx_child["txid"] in node_mempool assert_equal(node.getmempoolentry(tx_child["txid"])["wtxid"], tx_child["wtxid"]) @cleanup def test_same_txid_orphan_of_orphan(self): self.log.info("Check what happens when orphan's parent with same txid is already in orphanage") node = self.nodes[0] tx_grandparent = self.wallet.create_self_transfer() # Create middle tx (both parent and child) which will be in orphanage. tx_middle = self.wallet.create_self_transfer(utxo_to_spend=tx_grandparent["new_utxo"]) # Create a fake version of the middle tx tx_orphan_bad_wit = self.create_malleated_version(tx_middle) # Create grandchild spending from tx_middle (and spending from tx_orphan_bad_wit since they # have the same txid). tx_grandchild = self.wallet.create_self_transfer(utxo_to_spend=tx_middle["new_utxo"]) bad_peer = node.add_p2p_connection(P2PInterface()) honest_peer = node.add_p2p_connection(P2PInterface()) # 1. Fake orphan is received first. It is missing an input. bad_peer.send_and_ping(msg_tx(tx_orphan_bad_wit)) # 2. Node requests missing tx_grandparent by txid. grandparent_txid_int = int(tx_grandparent["txid"], 16) node.bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) bad_peer.wait_for_getdata([grandparent_txid_int]) # 3. Honest peer relays the grandchild, which is missing a parent. The parent by txid already # exists in orphanage, but should be re-requested because the node shouldn't assume that the # witness data is the same. In this case, a same-txid-different-witness transaction exists! with node.assert_debug_log(["stored orphan tx"]): honest_peer.send_and_ping(msg_tx(tx_grandchild["tx"])) middle_txid_int = int(tx_middle["txid"], 16) node.bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) honest_peer.wait_for_getdata([middle_txid_int]) # 4. Honest peer relays the real child, which is also missing parents and should be placed # in the orphanage. with node.assert_debug_log(["stored orphan tx"]): honest_peer.send_and_ping(msg_tx(tx_middle["tx"])) assert_equal(len(node.getrawmempool()), 0) # 5. Honest peer sends tx_grandparent honest_peer.send_and_ping(msg_tx(tx_grandparent["tx"])) # 6. After parent is accepted, orphans should be reconsidered. # The real child should be accepted and the fake one rejected. node_mempool = node.getrawmempool() assert tx_grandparent["txid"] in node_mempool assert tx_middle["txid"] in node_mempool assert tx_grandchild["txid"] in node_mempool assert_equal(node.getmempoolentry(tx_middle["txid"])["wtxid"], tx_middle["wtxid"]) @cleanup def test_orphan_txid_inv(self): self.log.info("Check node does not ignore announcement with same txid as tx in orphanage") node = self.nodes[0] tx_parent = self.wallet.create_self_transfer() # Create the real child and fake version tx_child = self.wallet.create_self_transfer(utxo_to_spend=tx_parent["new_utxo"]) tx_orphan_bad_wit = self.create_malleated_version(tx_child) bad_peer = node.add_p2p_connection(PeerTxRelayer()) # Must not send wtxidrelay because otherwise the inv(TX) will be ignored later honest_peer = node.add_p2p_connection(P2PInterface(wtxidrelay=False)) # 1. Fake orphan is received first. It is missing an input. bad_peer.send_and_ping(msg_tx(tx_orphan_bad_wit)) # 2. Node requests the missing parent by txid. parent_txid_int = int(tx_parent["txid"], 16) node.bumpmocktime(NONPREF_PEER_TX_DELAY + TXID_RELAY_DELAY) bad_peer.wait_for_getdata([parent_txid_int]) # 3. Honest peer announces the real child, by txid (this isn't common but the node should # still keep track of it). child_txid_int = int(tx_child["txid"], 16) honest_peer.send_and_ping(msg_inv([CInv(t=MSG_TX, h=child_txid_int)])) # 4. The child is requested. Honest peer sends it. node.bumpmocktime(TXREQUEST_TIME_SKIP) honest_peer.wait_for_getdata([child_txid_int]) with node.assert_debug_log(["stored orphan tx"]): honest_peer.send_and_ping(msg_tx(tx_child["tx"])) # 5. After first parent request times out, the node sends another one for the missing parent # of the real orphan child. node.bumpmocktime(GETDATA_TX_INTERVAL) honest_peer.wait_for_getdata([parent_txid_int]) honest_peer.send_and_ping(msg_tx(tx_parent["tx"])) # 6. After parent is accepted, orphans should be reconsidered. # The real child should be accepted and the fake one rejected. This may happen in either # order since the message-processing is randomized. If tx_orphan_bad_wit is validated first, # its consensus error leads to disconnection of bad_peer. If tx_child is validated first, # tx_orphan_bad_wit is rejected for txn-same-nonwitness-data-in-mempool (no punishment). node_mempool = node.getrawmempool() assert tx_parent["txid"] in node_mempool assert tx_child["txid"] in node_mempool assert_equal(node.getmempoolentry(tx_child["txid"])["wtxid"], tx_child["wtxid"]) def run_test(self): self.nodes[0].setmocktime(int(time.time())) self.wallet_nonsegwit = MiniWallet(self.nodes[0], mode=MiniWalletMode.RAW_P2PK) self.generate(self.wallet_nonsegwit, 10) self.wallet = MiniWallet(self.nodes[0]) self.generate(self.wallet, 160) self.test_arrival_timing_orphan() self.test_orphan_rejected_parents_exceptions() self.test_orphan_multiple_parents() self.test_orphans_overlapping_parents() self.test_orphan_of_orphan() self.test_orphan_inherit_rejection() self.test_same_txid_orphan() self.test_same_txid_orphan_of_orphan() self.test_orphan_txid_inv() if __name__ == '__main__': OrphanHandlingTest().main()