#!/usr/bin/env python3 # Copyright (c) 2016 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 account RPCs. RPCs tested are: - getaccountaddress - getaddressesbyaccount - listaddressgroupings - setaccount - sendfrom (with account arguments) - move (with account arguments) """ from test_framework.test_framework import BitcoinTestFramework from test_framework.util import ( assert_equal, ) class WalletAccountsTest(BitcoinTestFramework): def __init__(self): super().__init__() self.setup_clean_chain = True self.num_nodes = 1 self.extra_args = [["-paytxfee=0.0001"]] def run_test(self): node = self.nodes[0] # Check that there's no UTXO on any of the nodes assert_equal(len(node.listunspent()), 0) # Note each time we call generate, all generated coins go into # the same address, so we call twice to get two addresses w/500 each node.generate(1) node.generate(101) assert_equal(node.getbalance(), 1000) # there should be 2 address groups # each with 1 address with a balance of 500 Dash address_groups = node.listaddressgroupings() assert_equal(len(address_groups), 2) # the addresses aren't linked now, but will be after we send to the # common address linked_addresses = set() for address_group in address_groups: assert_equal(len(address_group), 1) assert_equal(len(address_group[0]), 2) assert_equal(address_group[0][1], 500) linked_addresses.add(address_group[0][0]) # send 500 from each address to a third address not in this wallet # There's some fee that will come back to us when the miner reward # matures. common_address = "yd5KMREs3GLMe6mTJYr3YrH1juwNwrFCfB" txid = node.sendmany( fromaccount="", amounts={common_address: 1000}, minconf=1, addlocked=False, comment="", subtractfeefrom=[common_address], ) tx_details = node.gettransaction(txid) fee = -tx_details['details'][0]['fee'] # there should be 1 address group, with the previously # unlinked addresses now linked (they both have 0 balance) address_groups = node.listaddressgroupings() assert_equal(len(address_groups), 1) assert_equal(len(address_groups[0]), 2) assert_equal(set([a[0] for a in address_groups[0]]), linked_addresses) assert_equal([a[1] for a in address_groups[0]], [0, 0]) node.generate(1) # we want to reset so that the "" account has what's expected. # otherwise we're off by exactly the fee amount as that's mined # and matures in the next 100 blocks node.sendfrom("", common_address, fee) accounts = ["a", "b", "c", "d", "e"] amount_to_send = 1.0 account_addresses = dict() for account in accounts: address = node.getaccountaddress(account) account_addresses[account] = address node.getnewaddress(account) assert_equal(node.getaccount(address), account) assert(address in node.getaddressesbyaccount(account)) node.sendfrom("", address, amount_to_send) node.generate(1) for i in range(len(accounts)): from_account = accounts[i] to_account = accounts[(i+1) % len(accounts)] to_address = account_addresses[to_account] node.sendfrom(from_account, to_address, amount_to_send) node.generate(1) for account in accounts: address = node.getaccountaddress(account) assert(address != account_addresses[account]) assert_equal(node.getreceivedbyaccount(account), 2) node.move(account, "", node.getbalance(account)) node.generate(101) expected_account_balances = {"": 52000} for account in accounts: expected_account_balances[account] = 0 assert_equal(node.listaccounts(), expected_account_balances) assert_equal(node.getbalance(""), 52000) for account in accounts: address = node.getaccountaddress("") node.setaccount(address, account) assert(address in node.getaddressesbyaccount(account)) assert(address not in node.getaddressesbyaccount("")) for account in accounts: addresses = [] for x in range(10): addresses.append(node.getnewaddress()) multisig_address = node.addmultisigaddress(5, addresses, account) node.sendfrom("", multisig_address, 50) node.generate(101) for account in accounts: assert_equal(node.getbalance(account), 50) if __name__ == '__main__': WalletAccountsTest().main()