diff --git a/test/functional/test_runner.py b/test/functional/test_runner.py index 3792d751dee..3387132cc73 100755 --- a/test/functional/test_runner.py +++ b/test/functional/test_runner.py @@ -175,6 +175,7 @@ BASE_SCRIPTS = [ 'rpc_rawtransaction.py --legacy-wallet', 'rpc_rawtransaction.py --descriptors', 'wallet_groups.py --legacy-wallet', + 'wallet_transactiontime_rescan.py', 'p2p_addrv2_relay.py', 'wallet_groups.py --descriptors', 'p2p_compactblocks_hb.py', diff --git a/test/functional/wallet_transactiontime_rescan.py b/test/functional/wallet_transactiontime_rescan.py new file mode 100755 index 00000000000..78859e6131a --- /dev/null +++ b/test/functional/wallet_transactiontime_rescan.py @@ -0,0 +1,161 @@ +#!/usr/bin/env python3 +# Copyright (c) 2018-2019 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 time during old block rescanning +""" + +import time + +from test_framework.blocktools import COINBASE_MATURITY +from test_framework.test_framework import BitcoinTestFramework +from test_framework.util import ( + assert_equal +) + + +class TransactionTimeRescanTest(BitcoinTestFramework): + def set_test_params(self): + self.setup_clean_chain = False + self.num_nodes = 3 + + def skip_test_if_missing_module(self): + self.skip_if_no_wallet() + + def run_test(self): + self.log.info('Prepare nodes and wallet') + + minernode = self.nodes[0] # node used to mine BTC and create transactions + usernode = self.nodes[1] # user node with correct time + restorenode = self.nodes[2] # node used to restore user wallet and check time determination in ComputeSmartTime (wallet.cpp) + + # time constant + cur_time = int(time.time()) + ten_days = 10 * 24 * 60 * 60 + + # synchronize nodes and time + self.sync_all() + minernode.setmocktime(cur_time) + usernode.setmocktime(cur_time) + restorenode.setmocktime(cur_time) + + # prepare miner wallet + minernode.createwallet(wallet_name='default') + miner_wallet = minernode.get_wallet_rpc('default') + m1 = miner_wallet.getnewaddress() + + # prepare the user wallet with 3 watch only addresses + wo1 = usernode.getnewaddress() + wo2 = usernode.getnewaddress() + wo3 = usernode.getnewaddress() + + usernode.createwallet(wallet_name='wo', disable_private_keys=True) + wo_wallet = usernode.get_wallet_rpc('wo') + + wo_wallet.importaddress(wo1) + wo_wallet.importaddress(wo2) + wo_wallet.importaddress(wo3) + + self.log.info('Start transactions') + + # check blockcount + assert_equal(minernode.getblockcount(), 200) + + # generate some btc to create transactions and check blockcount + initial_mine = COINBASE_MATURITY + 1 + minernode.generatetoaddress(initial_mine, m1) + assert_equal(minernode.getblockcount(), initial_mine + 200) + + # synchronize nodes and time + self.sync_all() + minernode.setmocktime(cur_time + ten_days) + usernode.setmocktime(cur_time + ten_days) + restorenode.setmocktime(cur_time + ten_days) + # send 10 btc to user's first watch-only address + self.log.info('Send 10 btc to user') + miner_wallet.sendtoaddress(wo1, 10) + + # generate blocks and check blockcount + minernode.generatetoaddress(COINBASE_MATURITY, m1) + assert_equal(minernode.getblockcount(), initial_mine + 300) + + # synchronize nodes and time + self.sync_all() + minernode.setmocktime(cur_time + ten_days + ten_days) + usernode.setmocktime(cur_time + ten_days + ten_days) + restorenode.setmocktime(cur_time + ten_days + ten_days) + # send 5 btc to our second watch-only address + self.log.info('Send 5 btc to user') + miner_wallet.sendtoaddress(wo2, 5) + + # generate blocks and check blockcount + minernode.generatetoaddress(COINBASE_MATURITY, m1) + assert_equal(minernode.getblockcount(), initial_mine + 400) + + # synchronize nodes and time + self.sync_all() + minernode.setmocktime(cur_time + ten_days + ten_days + ten_days) + usernode.setmocktime(cur_time + ten_days + ten_days + ten_days) + restorenode.setmocktime(cur_time + ten_days + ten_days + ten_days) + # send 1 btc to our third watch-only address + self.log.info('Send 1 btc to user') + miner_wallet.sendtoaddress(wo3, 1) + + # generate more blocks and check blockcount + minernode.generatetoaddress(COINBASE_MATURITY, m1) + assert_equal(minernode.getblockcount(), initial_mine + 500) + + self.log.info('Check user\'s final balance and transaction count') + assert_equal(wo_wallet.getbalance(), 16) + assert_equal(len(wo_wallet.listtransactions()), 3) + + self.log.info('Check transaction times') + for tx in wo_wallet.listtransactions(): + if tx['address'] == wo1: + assert_equal(tx['blocktime'], cur_time + ten_days) + assert_equal(tx['time'], cur_time + ten_days) + elif tx['address'] == wo2: + assert_equal(tx['blocktime'], cur_time + ten_days + ten_days) + assert_equal(tx['time'], cur_time + ten_days + ten_days) + elif tx['address'] == wo3: + assert_equal(tx['blocktime'], cur_time + ten_days + ten_days + ten_days) + assert_equal(tx['time'], cur_time + ten_days + ten_days + ten_days) + + # restore user wallet without rescan + self.log.info('Restore user wallet on another node without rescan') + restorenode.createwallet(wallet_name='wo', disable_private_keys=True) + restorewo_wallet = restorenode.get_wallet_rpc('wo') + + restorewo_wallet.importaddress(wo1, rescan=False) + restorewo_wallet.importaddress(wo2, rescan=False) + restorewo_wallet.importaddress(wo3, rescan=False) + + # check user has 0 balance and no transactions + assert_equal(restorewo_wallet.getbalance(), 0) + assert_equal(len(restorewo_wallet.listtransactions()), 0) + + # proceed to rescan, first with an incomplete one, then with a full rescan + self.log.info('Rescan last history part') + restorewo_wallet.rescanblockchain(initial_mine + 350) + self.log.info('Rescan all history') + restorewo_wallet.rescanblockchain() + + self.log.info('Check user\'s final balance and transaction count after restoration') + assert_equal(restorewo_wallet.getbalance(), 16) + assert_equal(len(restorewo_wallet.listtransactions()), 3) + + self.log.info('Check transaction times after restoration') + for tx in restorewo_wallet.listtransactions(): + if tx['address'] == wo1: + assert_equal(tx['blocktime'], cur_time + ten_days) + assert_equal(tx['time'], cur_time + ten_days) + elif tx['address'] == wo2: + assert_equal(tx['blocktime'], cur_time + ten_days + ten_days) + assert_equal(tx['time'], cur_time + ten_days + ten_days) + elif tx['address'] == wo3: + assert_equal(tx['blocktime'], cur_time + ten_days + ten_days + ten_days) + assert_equal(tx['time'], cur_time + ten_days + ten_days + ten_days) + + +if __name__ == '__main__': + TransactionTimeRescanTest().main()