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3b8b3e254a
* instantsend: Avoid writing IS locks for unknown txes * instantsend: Allow a competing tx into mempool if there is an islock waiting for it * use try_emplace * Hold cs_main while calling ResetBlockFailureFlags
353 lines
15 KiB
Python
Executable File
353 lines
15 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2015-2021 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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from codecs import encode
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from decimal import Decimal
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import struct
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from test_framework.blocktools import get_masternode_payment, create_coinbase, create_block
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from test_framework.messages import CCbTx, CInv, COIN, CTransaction, FromHex, hash256, msg_clsig, msg_inv, ser_string, ToHex, uint256_from_str, uint256_to_string
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from test_framework.mininode 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, get_bip9_status, 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_islock(self, islock, deterministic=False):
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hash = uint256_from_str(hash256(islock.serialize()))
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self.islocks[hash] = islock
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inv = msg_inv([CInv(31 if deterministic else 30, 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(4, 3, fast_dip3_enforcement=True)
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#disable_mocktime()
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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].spork("SPORK_17_QUORUM_DKG_ENABLED", 0)
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self.wait_for_sporks_same()
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self.mine_quorum()
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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(False)
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self.test_chainlock_overrides_islock_overrides_nonchainlock(True)
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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 = encode(hash256(hex_str_to_bytes(rawtx2))[::-1], 'hex_codec').decode('ascii')
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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 = self.create_block(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, deterministic):
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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 = encode(hash256(hex_str_to_bytes(rawtx1))[::-1], 'hex_codec').decode('ascii')
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rawtx2_txid = encode(hash256(hex_str_to_bytes(rawtx2))[::-1], 'hex_codec').decode('ascii')
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# Create an ISLOCK but don't broadcast it yet
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islock = self.create_islock(rawtx2, deterministic)
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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].spork("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, "Missing inputs", 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 = self.create_block(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_islock(islock, deterministic)
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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 islock 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].spork("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_block(self, node, vtx=[]):
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bt = node.getblocktemplate()
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height = bt['height']
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tip_hash = bt['previousblockhash']
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coinbasevalue = bt['coinbasevalue']
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miner_address = node.getnewaddress()
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mn_payee = bt['masternode'][0]['payee']
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# calculate fees that the block template included (we'll have to remove it from the coinbase as we won't
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# include the template's transactions
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bt_fees = 0
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for tx in bt['transactions']:
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bt_fees += tx['fee']
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new_fees = 0
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for tx in vtx:
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in_value = 0
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out_value = 0
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for txin in tx.vin:
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txout = node.gettxout(uint256_to_string(txin.prevout.hash), txin.prevout.n, False)
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in_value += int(txout['value'] * COIN)
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for txout in tx.vout:
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out_value += txout.nValue
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new_fees += in_value - out_value
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# fix fees
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coinbasevalue -= bt_fees
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coinbasevalue += new_fees
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realloc_info = get_bip9_status(self.nodes[0], 'realloc')
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realloc_height = 99999999
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if realloc_info['status'] == 'active':
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realloc_height = realloc_info['since']
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mn_amount = get_masternode_payment(height, coinbasevalue, realloc_height)
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miner_amount = coinbasevalue - mn_amount
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outputs = {miner_address: str(Decimal(miner_amount) / COIN)}
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if mn_amount > 0:
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outputs[mn_payee] = str(Decimal(mn_amount) / COIN)
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coinbase = FromHex(CTransaction(), node.createrawtransaction([], outputs))
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coinbase.vin = create_coinbase(height).vin
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# We can't really use this one as it would result in invalid merkle roots for masternode lists
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if len(bt['coinbase_payload']) != 0:
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cbtx = FromHex(CCbTx(version=1), bt['coinbase_payload'])
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coinbase.nVersion = 3
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coinbase.nType = 5 # CbTx
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coinbase.vExtraPayload = cbtx.serialize()
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coinbase.calc_sha256()
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block = create_block(int(tip_hash, 16), coinbase, ntime=bt['curtime'])
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block.vtx += vtx
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# Add quorum commitments from template
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for tx in bt['transactions']:
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tx2 = FromHex(CTransaction(), tx['data'])
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if tx2.nType == 6:
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block.vtx.append(tx2)
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block.hashMerkleRoot = block.calc_merkle_root()
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block.solve()
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return block
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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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quorum_member = None
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for mn in self.mninfo:
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res = mn.node.quorum('sign', 100, request_id, message_hash)
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if res and quorum_member is None:
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quorum_member = mn
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recSig = self.get_recovered_sig(request_id, message_hash, node=quorum_member.node)
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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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