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f34889dcf4
d5800da5199527a366024bc80cad7fcca17d5c4a [test] Remove final references to mininode (John Newbery) 5e8df3312e47a73e747ee892face55ed9ababeea test: resort imports (John Newbery) 85165d4332b0f72d30e0c584b476249b542338e6 scripted-diff: Rename mininode to p2p (John Newbery) 9e2897d020b114a10c860f90c5405be029afddba scripted-diff: Rename mininode_lock to p2p_lock (John Newbery) Pull request description: New contributors are often confused by the terminology in the test framework, and what the difference between a _node_ and a _peer_ is. To summarize: - a 'node' is a bitcoind instance. This is the thing whose behavior is being tested. Each bitcoind node is managed by a python `TestNode` object which is used to start/stop the node, manage the node's data directory, read state about the node (eg process status, log file), and interact with the node over different interfaces. - one of the interfaces that we can use to interact with the node is the p2p interface. Each connection to a node using this interface is managed by a python `P2PInterface` or derived object (which is owned by the `TestNode` object). We can open zero, one or many p2p connections to each bitcoind node. The node sees these connections as 'peers'. For historic reasons, the word 'mininode' has been used to refer to those p2p interface objects that we use to connect to the bitcoind node (the code was originally taken from the 'mini-node' branch of https://github.com/jgarzik/pynode/tree/mini-node). However that name has proved to be confusing for new contributors, so rename the remaining references. ACKs for top commit: amitiuttarwar: ACK d5800da519 MarcoFalke: ACK d5800da5199527a366024bc80cad7fcca17d5c4a 🚞 Tree-SHA512: 2c46c2ac3c4278b6e3c647cfd8108428a41e80788fc4f0e386e5b0c47675bc687d94779496c09a3e5ea1319617295be10c422adeeff2d2bd68378e00e0eeb5de
288 lines
12 KiB
Python
Executable File
288 lines
12 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2015-2022 The Dash 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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'''
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feature_llmq_is_cl_conflicts.py
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Checks conflict handling between ChainLocks and InstantSend
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'''
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import struct
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from test_framework.blocktools import create_block_with_mnpayments
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from test_framework.messages import CInv, CTransaction, FromHex, hash256, msg_clsig, msg_inv, ser_string, ToHex, uint256_from_str
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from test_framework.p2p import P2PInterface
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from test_framework.test_framework import DashTestFramework
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from test_framework.util import assert_equal, assert_raises_rpc_error, hex_str_to_bytes, wait_until
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class TestP2PConn(P2PInterface):
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def __init__(self):
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super().__init__()
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self.clsigs = {}
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self.islocks = {}
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def send_clsig(self, clsig):
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hash = uint256_from_str(hash256(clsig.serialize()))
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self.clsigs[hash] = clsig
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inv = msg_inv([CInv(29, hash)])
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self.send_message(inv)
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def send_isdlock(self, isdlock):
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hash = uint256_from_str(hash256(isdlock.serialize()))
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self.islocks[hash] = isdlock
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inv = msg_inv([CInv(31, hash)])
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self.send_message(inv)
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def on_getdata(self, message):
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for inv in message.inv:
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if inv.hash in self.clsigs:
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self.send_message(self.clsigs[inv.hash])
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if inv.hash in self.islocks:
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self.send_message(self.islocks[inv.hash])
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class LLMQ_IS_CL_Conflicts(DashTestFramework):
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def set_test_params(self):
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self.set_dash_test_params(5, 4, fast_dip3_enforcement=True)
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self.set_dash_llmq_test_params(4, 4)
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self.supports_cli = False
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def run_test(self):
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self.activate_dip8()
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self.test_node = self.nodes[0].add_p2p_connection(TestP2PConn())
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self.nodes[0].sporkupdate("SPORK_17_QUORUM_DKG_ENABLED", 0)
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self.wait_for_sporks_same()
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self.activate_v19(expected_activation_height=900)
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self.log.info("Activated v19 at height:" + str(self.nodes[0].getblockcount()))
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self.move_to_next_cycle()
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self.log.info("Cycle H height:" + str(self.nodes[0].getblockcount()))
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self.move_to_next_cycle()
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self.log.info("Cycle H+C height:" + str(self.nodes[0].getblockcount()))
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self.move_to_next_cycle()
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self.log.info("Cycle H+2C height:" + str(self.nodes[0].getblockcount()))
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self.mine_cycle_quorum(llmq_type_name='llmq_test_dip0024', llmq_type=103)
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# mine single block, wait for chainlock
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self.nodes[0].generate(1)
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self.wait_for_chainlocked_block_all_nodes(self.nodes[0].getbestblockhash())
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self.test_chainlock_overrides_islock(False)
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self.test_chainlock_overrides_islock(True, False)
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self.test_chainlock_overrides_islock(True, True)
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self.test_chainlock_overrides_islock_overrides_nonchainlock()
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def test_chainlock_overrides_islock(self, test_block_conflict, mine_confllicting=False):
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if not test_block_conflict:
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assert not mine_confllicting
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# create three raw TXs, they will conflict with each other
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rawtx1 = self.create_raw_tx(self.nodes[0], self.nodes[0], 1, 1, 100)['hex']
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rawtx2 = self.create_raw_tx(self.nodes[0], self.nodes[0], 1, 1, 100)['hex']
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rawtx1_obj = FromHex(CTransaction(), rawtx1)
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rawtx2_obj = FromHex(CTransaction(), rawtx2)
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rawtx1_txid = self.nodes[0].sendrawtransaction(rawtx1)
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rawtx2_txid = hash256(hex_str_to_bytes(rawtx2))[::-1].hex()
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# Create a chained TX on top of tx1
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inputs = []
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n = 0
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for out in rawtx1_obj.vout:
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if out.nValue == 100000000:
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inputs.append({"txid": rawtx1_txid, "vout": n})
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n += 1
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rawtx4 = self.nodes[0].createrawtransaction(inputs, {self.nodes[0].getnewaddress(): 0.999})
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rawtx4 = self.nodes[0].signrawtransactionwithwallet(rawtx4)['hex']
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rawtx4_txid = self.nodes[0].sendrawtransaction(rawtx4)
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# wait for transactions to propagate
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self.sync_mempools()
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for node in self.nodes:
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self.wait_for_instantlock(rawtx1_txid, node)
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self.wait_for_instantlock(rawtx4_txid, node)
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block = create_block_with_mnpayments(self.mninfo, self.nodes[0], [rawtx2_obj])
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if test_block_conflict:
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# The block shouldn't be accepted/connected but it should be known to node 0 now
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submit_result = self.nodes[0].submitblock(ToHex(block))
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assert submit_result == "conflict-tx-lock"
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cl = self.create_chainlock(self.nodes[0].getblockcount() + 1, block)
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if mine_confllicting:
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islock_tip = self.nodes[0].generate(1)[-1]
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# Make sure we won't sent clsig too early
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self.sync_blocks()
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self.test_node.send_clsig(cl)
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for node in self.nodes:
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self.wait_for_best_chainlock(node, block.hash)
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self.sync_blocks()
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if mine_confllicting:
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# The tip with IS-locked txes should be marked conflicting now
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found1 = False
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found2 = False
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for tip in self.nodes[0].getchaintips(2):
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if tip["hash"] == islock_tip:
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assert tip["status"] == "conflicting"
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found1 = True
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elif tip["hash"] == block.hash:
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assert tip["status"] == "active"
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found2 = True
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assert found1 and found2
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# At this point all nodes should be in sync and have the same "best chainlock"
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submit_result = self.nodes[1].submitblock(ToHex(block))
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if test_block_conflict:
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# Node 1 should receive the block from node 0 and should not accept it again via submitblock
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assert submit_result == "duplicate"
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else:
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# The block should get accepted now, and at the same time prune the conflicting ISLOCKs
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assert submit_result is None
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self.wait_for_chainlocked_block_all_nodes(block.hash)
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# Create a chained TX on top of tx2
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inputs = []
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n = 0
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for out in rawtx2_obj.vout:
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if out.nValue == 100000000:
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inputs.append({"txid": rawtx2_txid, "vout": n})
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n += 1
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rawtx5 = self.nodes[0].createrawtransaction(inputs, {self.nodes[0].getnewaddress(): 0.999})
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rawtx5 = self.nodes[0].signrawtransactionwithwallet(rawtx5)['hex']
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rawtx5_txid = self.nodes[0].sendrawtransaction(rawtx5)
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# wait for the transaction to propagate
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self.sync_mempools()
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for node in self.nodes:
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self.wait_for_instantlock(rawtx5_txid, node)
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if mine_confllicting:
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# Lets verify that the ISLOCKs got pruned and conflicting txes were mined but never confirmed
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for node in self.nodes:
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rawtx = node.getrawtransaction(rawtx1_txid, True)
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assert not rawtx['chainlock']
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assert not rawtx['instantlock']
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assert not rawtx['instantlock_internal']
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assert_equal(rawtx['confirmations'], 0)
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assert_equal(rawtx['height'], -1)
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rawtx = node.getrawtransaction(rawtx4_txid, True)
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assert not rawtx['chainlock']
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assert not rawtx['instantlock']
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assert not rawtx['instantlock_internal']
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assert_equal(rawtx['confirmations'], 0)
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assert_equal(rawtx['height'], -1)
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rawtx = node.getrawtransaction(rawtx2_txid, True)
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assert rawtx['chainlock']
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assert rawtx['instantlock']
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assert not rawtx['instantlock_internal']
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else:
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# Lets verify that the ISLOCKs got pruned
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for node in self.nodes:
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assert_raises_rpc_error(-5, "No such mempool or blockchain transaction", node.getrawtransaction, rawtx1_txid, True)
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assert_raises_rpc_error(-5, "No such mempool or blockchain transaction", node.getrawtransaction, rawtx4_txid, True)
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rawtx = node.getrawtransaction(rawtx2_txid, True)
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assert rawtx['chainlock']
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assert rawtx['instantlock']
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assert not rawtx['instantlock_internal']
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def test_chainlock_overrides_islock_overrides_nonchainlock(self):
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# create two raw TXs, they will conflict with each other
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rawtx1 = self.create_raw_tx(self.nodes[0], self.nodes[0], 1, 1, 100)['hex']
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rawtx2 = self.create_raw_tx(self.nodes[0], self.nodes[0], 1, 1, 100)['hex']
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rawtx1_txid = hash256(hex_str_to_bytes(rawtx1))[::-1].hex()
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rawtx2_txid = hash256(hex_str_to_bytes(rawtx2))[::-1].hex()
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# Create an ISLOCK but don't broadcast it yet
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isdlock = self.create_isdlock(rawtx2)
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# Ensure spork uniqueness in multiple function runs
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self.bump_mocktime(1)
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# Disable ChainLocks to avoid accidental locking
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self.nodes[0].sporkupdate("SPORK_19_CHAINLOCKS_ENABLED", 4070908800)
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self.wait_for_sporks_same()
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# Send tx1, which will later conflict with the ISLOCK
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self.nodes[0].sendrawtransaction(rawtx1)
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# fast forward 11 minutes, so that the TX is considered safe and included in the next block
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self.bump_mocktime(int(60 * 11))
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# Mine the conflicting TX into a block
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good_tip = self.nodes[0].getbestblockhash()
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self.nodes[0].generate(2)
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self.sync_all()
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# Assert that the conflicting tx got mined and the locked TX is not valid
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assert self.nodes[0].getrawtransaction(rawtx1_txid, True)['confirmations'] > 0
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assert_raises_rpc_error(-25, "bad-txns-inputs-missingorspent", self.nodes[0].sendrawtransaction, rawtx2)
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# Create the block and the corresponding clsig but do not relay clsig yet
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cl_block = create_block_with_mnpayments(self.mninfo, self.nodes[0])
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cl = self.create_chainlock(self.nodes[0].getblockcount() + 1, cl_block)
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self.nodes[0].submitblock(ToHex(cl_block))
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self.sync_all()
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assert self.nodes[0].getbestblockhash() == cl_block.hash
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# Send the ISLOCK, which should result in the last 2 blocks to be disconnected,
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# even though the nodes don't know the locked transaction yet
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self.test_node.send_isdlock(isdlock)
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for node in self.nodes:
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wait_until(lambda: node.getbestblockhash() == good_tip, timeout=10, sleep=0.5)
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# islock for tx2 is incomplete, tx1 should return in mempool now that blocks are disconnected
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assert rawtx1_txid in set(node.getrawmempool())
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# Should drop tx1 and accept tx2 because there is an isdlock waiting for it
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self.nodes[0].sendrawtransaction(rawtx2)
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# bump mocktime to force tx relay
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self.bump_mocktime(60)
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for node in self.nodes:
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self.wait_for_instantlock(rawtx2_txid, node)
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# Should not allow competing txes now
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assert_raises_rpc_error(-26, "tx-txlock-conflict", self.nodes[0].sendrawtransaction, rawtx1)
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islock_tip = self.nodes[0].generate(1)[0]
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self.sync_all()
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for node in self.nodes:
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self.wait_for_instantlock(rawtx2_txid, node)
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assert_equal(node.getrawtransaction(rawtx2_txid, True)['confirmations'], 1)
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assert_equal(node.getbestblockhash(), islock_tip)
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# Check that the CL-ed block overrides the one with islocks
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self.nodes[0].sporkupdate("SPORK_19_CHAINLOCKS_ENABLED", 0) # Re-enable ChainLocks to accept clsig
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self.test_node.send_clsig(cl) # relay clsig ASAP to prevent nodes from locking islock-ed tip
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self.wait_for_sporks_same()
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for node in self.nodes:
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self.wait_for_chainlocked_block(node, cl_block.hash)
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# Previous tip should be marked as conflicting now
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assert_equal(node.getchaintips(2)[1]["status"], "conflicting")
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def create_chainlock(self, height, block):
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request_id_buf = ser_string(b"clsig") + struct.pack("<I", height)
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request_id = hash256(request_id_buf)[::-1].hex()
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message_hash = block.hash
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recSig = self.get_recovered_sig(request_id, message_hash)
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clsig = msg_clsig(height, block.sha256, hex_str_to_bytes(recSig['sig']))
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return clsig
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if __name__ == '__main__':
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LLMQ_IS_CL_Conflicts().main()
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