#!/usr/bin/env python3 # Copyright (c) 2019-2024, The Monero Project # # All rights reserved. # # Redistribution and use in source and binary forms, with or without modification, are # permitted provided that the following conditions are met: # # 1. Redistributions of source code must retain the above copyright notice, this list of # conditions and the following disclaimer. # # 2. Redistributions in binary form must reproduce the above copyright notice, this list # of conditions and the following disclaimer in the documentation and/or other # materials provided with the distribution. # # 3. 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"""Test txpool """ from framework.daemon import Daemon from framework.wallet import Wallet from framework.zmq import Zmq class TransferTest(): def run_test(self): self.reset() self.create() self.mine() self.check_txpool() def reset(self): print('Resetting blockchain') daemon = Daemon() res = daemon.get_height() daemon.pop_blocks(res.height - 1) daemon.flush_txpool() def create(self): print('Creating wallet') wallet = Wallet() # close the wallet if any, will throw if none is loaded try: wallet.close_wallet() except: pass seed = 'velvet lymph giddy number token physics poetry unquoted nibs useful sabotage limits benches lifestyle eden nitrogen anvil fewest avoid batch vials washing fences goat unquoted' res = wallet.restore_deterministic_wallet(seed = seed) def mine(self): print("Mining some blocks") daemon = Daemon() wallet = Wallet() daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 80) wallet.refresh() def create_txes(self, address, ntxes): print('Creating ' + str(ntxes) + ' transactions') daemon = Daemon() wallet = Wallet() dst = {'address': address, 'amount': 1000000000000} txes = {} for i in range(ntxes): res = wallet.transfer([dst], get_tx_hex = True) txes[res.tx_hash] = res return txes def check_empty_pool(self): daemon = Daemon() res = daemon.get_transaction_pool_hashes() assert not 'tx_hashes' in res or len(res.tx_hashes) == 0 res = daemon.get_transaction_pool_stats() assert res.pool_stats.bytes_total == 0 assert res.pool_stats.bytes_min == 0 assert res.pool_stats.bytes_max == 0 assert res.pool_stats.bytes_med == 0 assert res.pool_stats.fee_total == 0 assert res.pool_stats.oldest == 0 assert res.pool_stats.txs_total == 0 assert res.pool_stats.num_failing == 0 assert res.pool_stats.num_10m == 0 assert res.pool_stats.num_not_relayed == 0 assert res.pool_stats.histo_98pc == 0 assert not 'histo' in res.pool_stats or len(res.pool_stats.histo) == 0 assert res.pool_stats.num_double_spends == 0 def check_txpool(self): daemon = Daemon() wallet = Wallet() zmq = Zmq() zmq_topic = "json-minimal-txpool_add" zmq.sub(zmq_topic) res = daemon.get_info() height = res.height txpool_size = res.tx_pool_size self.check_empty_pool() txes = self.create_txes('46r4nYSevkfBUMhuykdK3gQ98XDqDTYW1hNLaXNvjpsJaSbNtdXh1sKMsdVgqkaihChAzEy29zEDPMR3NHQvGoZCLGwTerK', 5) res = daemon.get_info() assert res.tx_pool_size == txpool_size + 5 txpool_size = res.tx_pool_size res = daemon.get_transaction_pool() assert len(res.transactions) == txpool_size total_bytes = 0 total_fee = 0 min_bytes = 99999999999999 max_bytes = 0 for txid in txes.keys(): x = [x for x in res.transactions if x.id_hash == txid] assert len(x) == 1 x = x[0] assert x.kept_by_block == False assert x.last_failed_id_hash == '0'*64 assert x.double_spend_seen == False assert x.weight >= x.blob_size assert x.blob_size * 2 == len(txes[txid].tx_blob) assert x.fee == txes[txid].fee assert x.tx_blob == txes[txid].tx_blob total_bytes += x.blob_size total_fee += x.fee min_bytes = min(min_bytes, x.blob_size) max_bytes = max(max_bytes, x.blob_size) print('Checking all txs received via zmq') for i in range(len(txes.keys())): zmq_event = zmq.recv(zmq_topic) assert len(zmq_event) == 1 zmq_tx = zmq_event[0] x = [x for x in res.transactions if x.id_hash == zmq_tx["id"]] assert len(x) == 1 x = x[0] assert x.blob_size == zmq_tx["blob_size"] assert x.weight == zmq_tx["weight"] assert x.fee == zmq_tx["fee"] res = daemon.get_transaction_pool_hashes() assert sorted(res.tx_hashes) == sorted(txes.keys()) res = daemon.get_transaction_pool_stats() assert res.pool_stats.bytes_total == total_bytes assert res.pool_stats.bytes_min == min_bytes assert res.pool_stats.bytes_max == max_bytes assert res.pool_stats.bytes_med >= min_bytes and res.pool_stats.bytes_med <= max_bytes assert res.pool_stats.fee_total == total_fee assert res.pool_stats.txs_total == len(txes) assert res.pool_stats.num_failing == 0 assert res.pool_stats.num_10m == 0 assert res.pool_stats.num_not_relayed == 0 assert res.pool_stats.num_double_spends == 0 print('Flushing 2 transactions') txes_keys = list(txes.keys()) daemon.flush_txpool([txes_keys[1], txes_keys[3]]) res = daemon.get_transaction_pool() assert len(res.transactions) == txpool_size - 2 assert len([x for x in res.transactions if x.id_hash == txes_keys[1]]) == 0 assert len([x for x in res.transactions if x.id_hash == txes_keys[3]]) == 0 new_keys = list(txes.keys()) new_keys.remove(txes_keys[1]) new_keys.remove(txes_keys[3]) res = daemon.get_transaction_pool_hashes() assert sorted(res.tx_hashes) == sorted(new_keys) res = daemon.get_transaction_pool() assert len(res.transactions) == len(new_keys) total_bytes = 0 total_fee = 0 min_bytes = 99999999999999 max_bytes = 0 for txid in new_keys: x = [x for x in res.transactions if x.id_hash == txid] assert len(x) == 1 x = x[0] assert x.kept_by_block == False assert x.last_failed_id_hash == '0'*64 assert x.double_spend_seen == False assert x.weight >= x.blob_size assert x.blob_size * 2 == len(txes[txid].tx_blob) assert x.fee == txes[txid].fee assert x.tx_blob == txes[txid].tx_blob total_bytes += x.blob_size total_fee += x.fee min_bytes = min(min_bytes, x.blob_size) max_bytes = max(max_bytes, x.blob_size) res = daemon.get_transaction_pool_stats() assert res.pool_stats.bytes_total == total_bytes assert res.pool_stats.bytes_min == min_bytes assert res.pool_stats.bytes_max == max_bytes assert res.pool_stats.bytes_med >= min_bytes and res.pool_stats.bytes_med <= max_bytes assert res.pool_stats.fee_total == total_fee assert res.pool_stats.txs_total == len(new_keys) assert res.pool_stats.num_failing == 0 assert res.pool_stats.num_10m == 0 assert res.pool_stats.num_not_relayed == 0 assert res.pool_stats.num_double_spends == 0 print('Flushing unknown transactions') unknown_txids = ['1'*64, '2'*64, '3'*64] daemon.flush_txpool(unknown_txids) res = daemon.get_transaction_pool() assert len(res.transactions) == txpool_size - 2 print('Mining transactions') daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) res = daemon.get_transaction_pool() assert not 'transactions' in res or len(res.transactions) == txpool_size - 5 res = daemon.get_transaction_pool_hashes() assert not 'tx_hashes' in res or len(res.tx_hashes) == 0 self.check_empty_pool() print('Popping block') daemon.pop_blocks(1) res = daemon.get_transaction_pool_hashes() assert sorted(res.tx_hashes) == sorted(new_keys) res = daemon.get_transaction_pool() assert len(res.transactions) == txpool_size - 2 for txid in new_keys: x = [x for x in res.transactions if x.id_hash == txid] assert len(x) == 1 x = x[0] assert x.kept_by_block == True assert x.last_failed_id_hash == '0'*64 assert x.double_spend_seen == False assert x.weight >= x.blob_size assert x.blob_size * 2 == len(txes[txid].tx_blob) assert x.fee == txes[txid].fee assert x.tx_blob == txes[txid].tx_blob print('Checking relaying txes') res = daemon.get_transaction_pool_hashes() assert len(res.tx_hashes) > 0 txid = res.tx_hashes[0] daemon.relay_tx([txid]) res = daemon.get_transactions([txid]) assert len(res.txs) == 1 assert res.txs[0].tx_hash == txid assert res.txs[0].in_pool assert res.txs[0].relayed daemon.flush_txpool() self.check_empty_pool() if __name__ == '__main__': TransferTest().run_test()