#!/usr/bin/env python3 # Copyright (c) 2019-2023, 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. Neither the name of the copyright holder nor the names of its contributors may be # used to endorse or promote products derived from this software without specific # prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY # EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF # MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL # THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, # PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, # STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF # THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. from __future__ import print_function import json import util_resources import pprint from deepdiff import DeepDiff pp = pprint.PrettyPrinter(indent=2) """Test simple transfers """ from framework.daemon import Daemon from framework.wallet import Wallet seeds = [ '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', 'peeled mixture ionic radar utopia puddle buying illness nuns gadget river spout cavernous bounced paradise drunk looking cottage jump tequila melting went winter adjust spout', 'dilute gutter certain antics pamphlet macro enjoy left slid guarded bogeys upload nineteen bomb jubilee enhanced irritate turnip eggs swung jukebox loudly reduce sedan slid', ] def diff_transfers(actual_transfers, expected_transfers, ignore_order = True): # The payments containers aren't ordered; re-scanning can lead to diff orders diff = DeepDiff(actual_transfers, expected_transfers, ignore_order = ignore_order) if diff != {}: pp.pprint(diff) assert diff == {} def diff_incoming_transfers(actual_transfers, expected_transfers): # wallet2 m_transfers container is ordered and order should be the same across rescans diff_transfers(actual_transfers, expected_transfers, ignore_order = False) class TransferTest(): def run_test(self): self.reset() self.create() self.mine() self.transfer() self.check_get_bulk_payments() self.check_get_payments() self.check_double_spend_detection() self.sweep_dust() self.sweep_single() self.check_destinations() self.check_tx_notes() self.check_rescan() self.check_is_key_image_spent() self.check_multiple_submissions() self.check_scan_tx() self.check_subtract_fee_from_outputs() self.check_background_sync() self.check_background_sync_reorg_recovery() 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 wallets') self.wallet = [None] * len(seeds) for i in range(len(seeds)): self.wallet[i] = Wallet(idx = i) # close the wallet if any, will throw if none is loaded try: self.wallet[i].close_wallet() except: pass res = self.wallet[i].restore_deterministic_wallet(seed = seeds[i]) def mine(self): print("Mining some blocks") daemon = Daemon() res = daemon.get_info() height = res.height daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 100) for i in range(len(self.wallet)): self.wallet[i].refresh() res = self.wallet[i].get_height() assert res.height == height + 100 def transfer(self): daemon = Daemon() print("Creating transfer to self") dst = {'address': '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 'amount': 1000000000000} payment_id = '1234500000012345abcde00000abcdeff1234500000012345abcde00000abcde' start_balances = [0] * len(self.wallet) running_balances = [0] * len(self.wallet) for i in range(len(self.wallet)): res = self.wallet[i].get_balance() start_balances[i] = res.balance running_balances[i] = res.balance assert res.unlocked_balance <= res.balance if i == 0: assert res.blocks_to_unlock == 59 # we've been mining to it else: assert res.blocks_to_unlock == 0 print ('Checking short payment IDs cannot be used when not in an integrated address') ok = False try: self.wallet[0].transfer([dst], ring_size = 16, payment_id = '1234567812345678', get_tx_key = False) except: ok = True assert ok print ('Checking long payment IDs are rejected') ok = False try: self.wallet[0].transfer([dst], ring_size = 16, payment_id = payment_id, get_tx_key = False, get_tx_hex = True) except: ok = True assert ok print ('Checking empty destination is rejected') ok = False try: self.wallet[0].transfer([], ring_size = 16, get_tx_key = False) except: ok = True assert ok res = self.wallet[0].transfer([dst], ring_size = 16, get_tx_key = False, get_tx_hex = True) assert len(res.tx_hash) == 32*2 txid = res.tx_hash assert len(res.tx_key) == 0 assert res.amount > 0 amount = res.amount assert res.fee > 0 fee = res.fee assert len(res.tx_blob) > 0 tx_weight = res.weight assert len(res.tx_metadata) == 0 assert len(res.multisig_txset) == 0 assert len(res.unsigned_txset) == 0 unsigned_txset = res.unsigned_txset res = daemon.get_fee_estimate(10) assert res.fee > 0 assert res.quantization_mask > 0 expected_fee = (res.fee * 1 * tx_weight + res.quantization_mask - 1) // res.quantization_mask * res.quantization_mask assert abs(1 - fee / expected_fee) < 0.01 self.wallet[0].refresh() res = daemon.get_info() height = res.height res = self.wallet[0].get_transfers() assert len(res['in']) == height - 1 # coinbases assert not 'out' in res or len(res.out) == 0 # not mined yet assert len(res.pending) == 1 assert not 'pool' in res or len(res.pool) == 0 assert not 'failed' in res or len(res.failed) == 0 for e in res['in']: assert e.type == 'block' e = res.pending[0] assert e.txid == txid assert e.payment_id in ['', '0000000000000000'] assert e.type == 'pending' assert e.unlock_time == 0 assert e.subaddr_index.major == 0 assert e.subaddr_indices == [{'major': 0, 'minor': 0}] assert e.address == '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm' assert e.double_spend_seen == False assert not 'confirmations' in e or e.confirmations == 0 running_balances[0] -= fee res = self.wallet[0].get_balance() assert res.balance == running_balances[0] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 59 daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) res = daemon.getlastblockheader() running_balances[0] += res.block_header.reward self.wallet[0].refresh() res = self.wallet[0].get_transfers() assert len(res['in']) == height # coinbases assert len(res.out) == 1 # not mined yet assert not 'pending' in res or len(res.pending) == 0 assert not 'pool' in res or len(res.pool) == 0 assert not 'failed' in res or len(res.failed) == 0 for e in res['in']: assert e.type == 'block' e = res.out[0] assert e.txid == txid assert e.payment_id in ['', '0000000000000000'] assert e.type == 'out' assert e.unlock_time == 0 assert e.subaddr_index.major == 0 assert e.subaddr_indices == [{'major': 0, 'minor': 0}] assert e.address == '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm' assert e.double_spend_seen == False assert e.confirmations == 1 res = self.wallet[0].get_height() wallet_height = res.height res = self.wallet[0].get_transfer_by_txid(txid) assert len(res.transfers) == 1 assert res.transfers[0] == res.transfer t = res.transfer assert t.txid == txid assert t.payment_id in ['', '0000000000000000'] assert t.height == wallet_height - 1 assert t.timestamp > 0 assert t.amount == 0 # to self, so it's just "pay a fee" really assert t.fee == fee assert t.note == '' assert len(t.destinations) == 1 assert t.destinations[0] == {'address': '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 'amount': 1000000000000} assert t.type == 'out' assert t.unlock_time == 0 assert t.address == '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm' assert t.double_spend_seen == False assert t.confirmations == 1 res = self.wallet[0].get_balance() assert res.balance == running_balances[0] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 59 print("Creating transfer to another, manual relay") dst = {'address': '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', 'amount': 1000000000000} res = self.wallet[0].transfer([dst], ring_size = 16, get_tx_key = True, do_not_relay = True, get_tx_hex = True) assert len(res.tx_hash) == 32*2 txid = res.tx_hash assert len(res.tx_key) == 32*2 assert res.amount == 1000000000000 amount = res.amount assert res.fee > 0 fee = res.fee assert len(res.tx_blob) > 0 assert len(res.tx_metadata) == 0 assert len(res.multisig_txset) == 0 assert len(res.unsigned_txset) == 0 tx_blob = res.tx_blob res = daemon.send_raw_transaction(tx_blob) assert res.not_relayed == False assert res.low_mixin == False assert res.double_spend == False assert res.invalid_input == False assert res.invalid_output == False assert res.too_big == False assert res.overspend == False assert res.fee_too_low == False self.wallet[0].refresh() res = self.wallet[0].get_balance() assert res.balance == running_balances[0] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 59 self.wallet[1].refresh() res = self.wallet[1].get_transfers() assert not 'in' in res or len(res['in']) == 0 assert not 'out' in res or len(res.out) == 0 assert not 'pending' in res or len(res.pending) == 0 assert len(res.pool) == 1 assert not 'failed' in res or len(res.failed) == 0 e = res.pool[0] assert e.txid == txid assert e.payment_id in ["", "0000000000000000"] # long payment IDs are now ignored assert e.type == 'pool' assert e.unlock_time == 0 assert e.subaddr_index.major == 0 assert e.subaddr_indices == [{'major': 0, 'minor': 0}] assert e.address == '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW' assert e.double_spend_seen == False assert not 'confirmations' in e or e.confirmations == 0 assert e.amount == amount assert e.fee == fee daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) res = daemon.getlastblockheader() running_balances[0] -= 1000000000000 + fee running_balances[0] += res.block_header.reward self.wallet[1].refresh() running_balances[1] += 1000000000000 res = self.wallet[1].get_transfers() assert len(res['in']) == 1 assert not 'out' in res or len(res.out) == 0 assert not 'pending' in res or len(res.pending) == 0 assert not 'pool' in res or len(res.pool) == 0 assert not 'failed' in res or len(res.failed) == 0 e = res['in'][0] assert e.txid == txid assert e.payment_id in ["", "0000000000000000"] # long payment IDs are now ignored assert e.type == 'in' assert e.unlock_time == 0 assert e.subaddr_index.major == 0 assert e.subaddr_indices == [{'major': 0, 'minor': 0}] assert e.address == '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW' assert e.double_spend_seen == False assert e.confirmations == 1 assert e.amount == amount assert e.fee == fee res = self.wallet[1].get_balance() assert res.balance == running_balances[1] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 9 print('Creating multi out transfer') self.wallet[0].refresh() dst0 = {'address': '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 'amount': 1000000000000} dst1 = {'address': '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', 'amount': 1100000000000} dst2 = {'address': '46r4nYSevkfBUMhuykdK3gQ98XDqDTYW1hNLaXNvjpsJaSbNtdXh1sKMsdVgqkaihChAzEy29zEDPMR3NHQvGoZCLGwTerK', 'amount': 1200000000000} res = self.wallet[0].transfer([dst0, dst1, dst2], ring_size = 16, get_tx_key = True) assert len(res.tx_hash) == 32*2 txid = res.tx_hash assert len(res.tx_key) == 32*2 assert res.amount == 1000000000000 + 1100000000000 + 1200000000000 amount = res.amount assert res.fee > 0 fee = res.fee assert len(res.tx_blob) == 0 assert len(res.tx_metadata) == 0 assert len(res.multisig_txset) == 0 assert len(res.unsigned_txset) == 0 unsigned_txset = res.unsigned_txset running_balances[0] -= 1100000000000 + 1200000000000 + fee res = self.wallet[0].get_balance() assert res.balance == running_balances[0] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 59 daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) res = daemon.getlastblockheader() running_balances[0] += res.block_header.reward running_balances[1] += 1100000000000 running_balances[2] += 1200000000000 self.wallet[0].refresh() res = self.wallet[0].get_transfers() assert len(res['in']) == height + 2 assert len(res.out) == 3 assert not 'pending' in res or len(res.pending) == 0 assert not 'pool' in res or len(res.pool) == 1 assert not 'failed' in res or len(res.failed) == 0 e = [o for o in res.out if o.txid == txid] assert len(e) == 1 e = e[0] assert e.txid == txid assert e.payment_id in ["", "0000000000000000"] # long payment IDs are now ignored assert e.type == 'out' assert e.unlock_time == 0 assert e.subaddr_index.major == 0 assert e.subaddr_indices == [{'major': 0, 'minor': 0}] assert e.address == '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm' assert e.double_spend_seen == False assert e.confirmations == 1 assert e.amount == amount assert e.fee == fee res = self.wallet[0].get_balance() assert res.balance == running_balances[0] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 59 self.wallet[1].refresh() res = self.wallet[1].get_transfers() assert len(res['in']) == 2 assert not 'out' in res or len(res.out) == 0 assert not 'pending' in res or len(res.pending) == 0 assert not 'pool' in res or len(res.pool) == 0 assert not 'failed' in res or len(res.failed) == 0 e = [o for o in res['in'] if o.txid == txid] assert len(e) == 1 e = e[0] assert e.txid == txid assert e.payment_id in ["", "0000000000000000"] # long payment IDs are now ignored assert e.type == 'in' assert e.unlock_time == 0 assert e.subaddr_index.major == 0 assert e.subaddr_indices == [{'major': 0, 'minor': 0}] assert e.address == '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW' assert e.double_spend_seen == False assert e.confirmations == 1 assert e.amount == 1100000000000 assert e.fee == fee res = self.wallet[1].get_balance() assert res.balance == running_balances[1] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 9 self.wallet[2].refresh() res = self.wallet[2].get_transfers() assert len(res['in']) == 1 assert not 'out' in res or len(res.out) == 0 assert not 'pending' in res or len(res.pending) == 0 assert not 'pool' in res or len(res.pool) == 0 assert not 'failed' in res or len(res.failed) == 0 e = [o for o in res['in'] if o.txid == txid] assert len(e) == 1 e = e[0] assert e.txid == txid assert e.payment_id in ["", "0000000000000000"] # long payment IDs are now ignored assert e.type == 'in' assert e.unlock_time == 0 assert e.subaddr_index.major == 0 assert e.subaddr_indices == [{'major': 0, 'minor': 0}] assert e.address == '46r4nYSevkfBUMhuykdK3gQ98XDqDTYW1hNLaXNvjpsJaSbNtdXh1sKMsdVgqkaihChAzEy29zEDPMR3NHQvGoZCLGwTerK' assert e.double_spend_seen == False assert e.confirmations == 1 assert e.amount == 1200000000000 assert e.fee == fee res = self.wallet[2].get_balance() assert res.balance == running_balances[2] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 9 print('Sending to integrated address') self.wallet[0].refresh() res = self.wallet[0].get_balance() i_pid = '1111111122222222' res = self.wallet[0].make_integrated_address(standard_address = '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', payment_id = i_pid) i_address = res.integrated_address res = self.wallet[0].transfer([{'address': i_address, 'amount': 200000000}]) assert len(res.tx_hash) == 32*2 i_txid = res.tx_hash assert len(res.tx_key) == 32*2 assert res.amount == 200000000 i_amount = res.amount assert res.fee > 0 fee = res.fee assert len(res.tx_blob) == 0 assert len(res.tx_metadata) == 0 assert len(res.multisig_txset) == 0 assert len(res.unsigned_txset) == 0 running_balances[0] -= 200000000 + fee res = self.wallet[0].get_balance() assert res.balance == running_balances[0] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 59 daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) res = daemon.getlastblockheader() running_balances[0] += res.block_header.reward running_balances[1] += 200000000 self.wallet[0].refresh() res = self.wallet[0].get_balance() assert res.balance == running_balances[0] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 59 self.wallet[1].refresh() res = self.wallet[1].get_balance() assert res.balance == running_balances[1] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 9 self.wallet[2].refresh() res = self.wallet[2].get_balance() assert res.balance == running_balances[2] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 8 daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) res = daemon.getlastblockheader() running_balances[0] += res.block_header.reward self.wallet[0].refresh() res = self.wallet[0].get_balance() assert res.balance == running_balances[0] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 59 self.wallet[1].refresh() res = self.wallet[1].get_balance() assert res.balance == running_balances[1] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 8 self.wallet[2].refresh() res = self.wallet[2].get_balance() assert res.balance == running_balances[2] assert res.unlocked_balance <= res.balance assert res.blocks_to_unlock == 7 def check_get_bulk_payments(self): print('Checking get_bulk_payments') daemon = Daemon() res = daemon.get_info() height = res.height self.wallet[0].refresh() res = self.wallet[0].get_bulk_payments() assert len(res.payments) >= 83 # at least 83 coinbases res = self.wallet[0].get_bulk_payments(payment_ids = ['1234500000012345abcde00000abcdeff1234500000012345abcde00000abcde']) assert 'payments' not in res or len(res.payments) == 0 res = self.wallet[0].get_bulk_payments(min_block_height = height) assert 'payments' not in res or len(res.payments) == 0 res = self.wallet[0].get_bulk_payments(min_block_height = height - 40) assert len(res.payments) >= 39 # coinbases self.wallet[1].refresh() res = self.wallet[1].get_bulk_payments() assert len(res.payments) >= 3 # two txes to standard address were sent, plus one to integrated address res = self.wallet[1].get_bulk_payments(payment_ids = ['1234500000012345abcde00000abcdeff1234500000012345abcde00000abcde']) assert not 'payments' in res or len(res.payments) == 0 # long payment IDs are now ignored on receipt res = self.wallet[1].get_bulk_payments(payment_ids = ['ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff']) assert 'payments' not in res or len(res.payments) == 0 # none with that payment id res = self.wallet[1].get_bulk_payments(payment_ids = ['1111111122222222' + '0'*48]) assert len(res.payments) >= 1 # one tx to integrated address self.wallet[2].refresh() res = self.wallet[2].get_bulk_payments() assert len(res.payments) >= 1 # one tx was sent res = self.wallet[2].get_bulk_payments(payment_ids = ['1'*64, '1234500000012345abcde00000abcdeff1234500000012345abcde00000abcde', '2'*64]) assert not 'payments' in res or len(res.payments) == 0 # long payment IDs are now ignored res = self.wallet[1].get_bulk_payments(["1111111122222222"]) assert len(res.payments) >= 1 # we have one of these def check_get_payments(self): print('Checking get_payments') daemon = Daemon() res = daemon.get_info() height = res.height self.wallet[0].refresh() self.wallet[1].refresh() res = self.wallet[0].get_payments('1234500000012345abcde00000abcdeff1234500000012345abcde00000abcde') assert 'payments' not in res or len(res.payments) == 0 res = self.wallet[1].get_payments('1234500000012345abcde00000abcdeff1234500000012345abcde00000abcde') assert 'payments' not in res or len(res.payments) == 0 res = self.wallet[1].get_payments('ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff') assert 'payments' not in res or len(res.payments) == 0 res = self.wallet[1].get_payments(payment_id = '1111111122222222' + '0'*48) assert len(res.payments) >= 1 # one tx to integrated address def check_double_spend_detection(self): print('Checking double spend detection') txes = [[None, None], [None, None]] for i in range(2): self.wallet[0].restore_deterministic_wallet(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') self.wallet[0].refresh() res = self.wallet[0].get_balance() unlocked_balance = res.unlocked_balance res = self.wallet[0].sweep_all(address = '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', do_not_relay = True, get_tx_hex = True) assert len(res.tx_hash_list) == 1 assert len(res.tx_hash_list[0]) == 32*2 txes[i][0] = res.tx_hash_list[0] assert len(res.fee_list) == 1 assert res.fee_list[0] > 0 assert len(res.amount_list) == 1 assert res.amount_list[0] == unlocked_balance - res.fee_list[0] assert len(res.tx_blob_list) > 0 assert len(res.tx_blob_list[0]) > 0 assert not 'tx_metadata_list' in res or len(res.tx_metadata_list) == 0 assert not 'multisig_txset' in res or len(res.multisig_txset) == 0 assert not 'unsigned_txset' in res or len(res.unsigned_txset) == 0 assert len(res.tx_blob_list) == 1 txes[i][1] = res.tx_blob_list[0] daemon = Daemon() res = daemon.send_raw_transaction(txes[0][1]) assert res.not_relayed == False assert res.low_mixin == False assert res.double_spend == False assert res.invalid_input == False assert res.invalid_output == False assert res.too_big == False assert res.overspend == False assert res.fee_too_low == False res = daemon.get_transactions([txes[0][0]]) assert len(res.txs) >= 1 tx = [tx for tx in res.txs if tx.tx_hash == txes[0][0]][0] assert tx.in_pool assert not tx.double_spend_seen res = daemon.send_raw_transaction(txes[1][1]) assert res.not_relayed == False assert res.low_mixin == False assert res.double_spend == True assert res.invalid_input == False assert res.invalid_output == False assert res.too_big == False assert res.overspend == False assert res.fee_too_low == False assert res.too_few_outputs == False res = daemon.get_transactions([txes[0][0]]) assert len(res.txs) >= 1 tx = [tx for tx in res.txs if tx.tx_hash == txes[0][0]][0] assert tx.in_pool assert tx.double_spend_seen def sweep_dust(self): print("Sweeping dust") daemon = Daemon() self.wallet[0].refresh() res = self.wallet[0].sweep_dust() assert not 'tx_hash_list' in res or len(res.tx_hash_list) == 0 # there's just one, but it cannot meet the fee def sweep_single(self): daemon = Daemon() print("Sending single output") daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) self.wallet[0].refresh() res = self.wallet[0].incoming_transfers(transfer_type = 'available') for t in res.transfers: assert not t.spent assert len(res.transfers) > 8 # we mined a lot index = 8 assert not res.transfers[index].spent assert res.transfers[index].amount > 0 ki = res.transfers[index].key_image amount = res.transfers[index].amount daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 10) # ensure unlocked self.wallet[0].refresh() res = self.wallet[0].get_balance() balance = res.balance res = daemon.is_key_image_spent([ki]) assert len(res.spent_status) == 1 assert res.spent_status[0] == 0 res = self.wallet[0].sweep_single('44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', key_image = ki) assert len(res.tx_hash) == 64 tx_hash = res.tx_hash res = daemon.is_key_image_spent([ki]) assert len(res.spent_status) == 1 assert res.spent_status[0] == 2 daemon.generateblocks('44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', 1) res = daemon.is_key_image_spent([ki]) assert len(res.spent_status) == 1 assert res.spent_status[0] == 1 self.wallet[0].refresh() res = self.wallet[0].get_balance() new_balance = res.balance res = daemon.get_transactions([tx_hash], decode_as_json = True) assert len(res.txs) == 1 tx = res.txs[0] assert tx.tx_hash == tx_hash assert not tx.in_pool assert len(tx.as_json) > 0 try: j = json.loads(tx.as_json) except: j = None assert j assert new_balance == balance - amount assert len(j['vin']) == 1 assert j['vin'][0]['key']['k_image'] == ki self.wallet[0].refresh() res = self.wallet[0].incoming_transfers(transfer_type = 'available') assert len([t for t in res.transfers if t.key_image == ki]) == 0 res = self.wallet[0].incoming_transfers(transfer_type = 'unavailable') assert len([t for t in res.transfers if t.key_image == ki]) == 1 def check_destinations(self): daemon = Daemon() print("Checking transaction destinations") dst = {'address': '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 'amount': 1000000000000} res = self.wallet[0].transfer([dst]) assert len(res.tx_hash) == 64 tx_hash = res.tx_hash for i in range(2): res = self.wallet[0].get_transfers(pending = True, out = True) l = [x for x in (res.pending if i == 0 else res.out) if x.txid == tx_hash] assert len(l) == 1 e = l[0] assert len(e.destinations) == 1 assert e.destinations[0].amount == 1000000000000 assert e.destinations[0].address == '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm' if i == 0: daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) self.wallet[0].refresh() dst = {'address': '8AsN91rznfkBGTY8psSNkJBg9SZgxxGGRUhGwRptBhgr5XSQ1XzmA9m8QAnoxydecSh5aLJXdrgXwTDMMZ1AuXsN1EX5Mtm', 'amount': 1000000000000} res = self.wallet[0].transfer([dst]) assert len(res.tx_hash) == 64 tx_hash = res.tx_hash for i in range(2): res = self.wallet[0].get_transfers(pending = True, out = True) l = [x for x in (res.pending if i == 0 else res.out) if x.txid == tx_hash] assert len(l) == 1 e = l[0] assert len(e.destinations) == 1 assert e.destinations[0].amount == 1000000000000 assert e.destinations[0].address == '8AsN91rznfkBGTY8psSNkJBg9SZgxxGGRUhGwRptBhgr5XSQ1XzmA9m8QAnoxydecSh5aLJXdrgXwTDMMZ1AuXsN1EX5Mtm' if i == 0: daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) self.wallet[0].refresh() dst = {'address': '4BxSHvcgTwu25WooY4BVmgdcKwZu5EksVZSZkDd6ooxSVVqQ4ubxXkhLF6hEqtw96i9cf3cVfLw8UWe95bdDKfRQeYtPwLm1Jiw7AKt2LY', 'amount': 1000000000000} res = self.wallet[0].transfer([dst]) assert len(res.tx_hash) == 64 tx_hash = res.tx_hash for i in range(2): res = self.wallet[0].get_transfers(pending = True, out = True) l = [x for x in (res.pending if i == 0 else res.out) if x.txid == tx_hash] assert len(l) == 1 e = l[0] assert len(e.destinations) == 1 assert e.destinations[0].amount == 1000000000000 assert e.destinations[0].address == '4BxSHvcgTwu25WooY4BVmgdcKwZu5EksVZSZkDd6ooxSVVqQ4ubxXkhLF6hEqtw96i9cf3cVfLw8UWe95bdDKfRQeYtPwLm1Jiw7AKt2LY' if i == 0: daemon.generateblocks('42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 1) self.wallet[0].refresh() def check_tx_notes(self): daemon = Daemon() print('Testing tx notes') res = self.wallet[0].get_transfers() assert len(res['in']) > 0 in_txid = res['in'][0].txid assert len(res['out']) > 0 out_txid = res['out'][0].txid res = self.wallet[0].get_tx_notes([in_txid, out_txid]) assert res.notes == ['', ''] res = self.wallet[0].set_tx_notes([in_txid, out_txid], ['in txid', 'out txid']) res = self.wallet[0].get_tx_notes([in_txid, out_txid]) assert res.notes == ['in txid', 'out txid'] res = self.wallet[0].get_tx_notes([out_txid, in_txid]) assert res.notes == ['out txid', 'in txid'] def check_rescan(self): daemon = Daemon() print('Testing rescan_spent') res = self.wallet[0].incoming_transfers(transfer_type = 'all') transfers = res.transfers res = self.wallet[0].rescan_spent() res = self.wallet[0].incoming_transfers(transfer_type = 'all') assert transfers == res.transfers for hard in [False, True]: print('Testing %s rescan_blockchain' % ('hard' if hard else 'soft')) res = self.wallet[0].incoming_transfers(transfer_type = 'all') transfers = res.transfers res = self.wallet[0].get_transfers() t_in = res['in'] t_out = res.out res = self.wallet[0].rescan_blockchain(hard = hard) res = self.wallet[0].incoming_transfers(transfer_type = 'all') assert transfers == res.transfers res = self.wallet[0].get_transfers() assert t_in == res['in'] # some information can not be recovered for out txes unrecoverable_fields = ['payment_id', 'destinations', 'note'] old_t_out = [] for x in t_out: e = {} for k in x.keys(): if not k in unrecoverable_fields: e[k] = x[k] old_t_out.append(e) new_t_out = [] for x in res.out: e = {} for k in x.keys(): if not k in unrecoverable_fields: e[k] = x[k] new_t_out.append(e) assert sorted(old_t_out, key = lambda k: k['txid']) == sorted(new_t_out, key = lambda k: k['txid']) def check_is_key_image_spent(self): daemon = Daemon() print('Testing is_key_image_spent') res = self.wallet[0].incoming_transfers(transfer_type = 'all') transfers = res.transfers ki = [x.key_image for x in transfers] expected = [1 if x.spent else 0 for x in transfers] res = daemon.is_key_image_spent(ki) assert res.spent_status == expected res = self.wallet[0].incoming_transfers(transfer_type = 'available') transfers = res.transfers ki = [x.key_image for x in transfers] expected = [0 for x in transfers] res = daemon.is_key_image_spent(ki) assert res.spent_status == expected res = self.wallet[0].incoming_transfers(transfer_type = 'unavailable') transfers = res.transfers ki = [x.key_image for x in transfers] expected = [1 for x in transfers] res = daemon.is_key_image_spent(ki) assert res.spent_status == expected ki = [ki[-1]] * 5 expected = [1] * len(ki) res = daemon.is_key_image_spent(ki) assert res.spent_status == expected ki = ['2'*64, '1'*64] expected = [0, 0] res = daemon.is_key_image_spent(ki) assert res.spent_status == expected def check_multiple_submissions(self): daemon = Daemon() print('Testing multiple submissions') dst = {'address': '42ey1afDFnn4886T7196doS9GPMzexD9gXpsZJDwVjeRVdFCSoHnv7KPbBeGpzJBzHRCAs9UxqeoyFQMYbqSWYTfJJQAWDm', 'amount': 1000000000000} self.wallet[0].refresh() res = self.wallet[0].get_balance() balance = res.balance res = self.wallet[0].transfer([dst], ring_size = 16, get_tx_key = False, get_tx_hex = False, get_tx_metadata = True) tx_hex = res.tx_metadata tx_fee = res.fee res = self.wallet[0].relay_tx(tx_hex) # submit again before mined res = self.wallet[0].relay_tx(tx_hex) daemon.generateblocks('44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', 1) self.wallet[0].refresh() res = self.wallet[0].get_balance() assert res.balance == balance - tx_fee balance = res.balance # submit again after mined res = self.wallet[0].relay_tx(tx_hex) daemon.generateblocks('44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', 1) self.wallet[0].refresh() res = self.wallet[0].get_balance() assert res.balance == balance def check_scan_tx(self): daemon = Daemon() print('Testing scan_tx') # set up sender_wallet sender_wallet = self.wallet[0] try: sender_wallet.close_wallet() except: pass sender_wallet.restore_deterministic_wallet(seed = seeds[0]) sender_wallet.auto_refresh(enable = False) sender_wallet.refresh() res = sender_wallet.get_transfers() out_len = 0 if 'out' not in res else len(res.out) sender_starting_balance = sender_wallet.get_balance().balance amount = 1000000000000 assert sender_starting_balance > amount # set up receiver_wallet receiver_wallet = self.wallet[1] try: receiver_wallet.close_wallet() except: pass receiver_wallet.restore_deterministic_wallet(seed = seeds[1]) receiver_wallet.auto_refresh(enable = False) receiver_wallet.refresh() res = receiver_wallet.get_transfers() in_len = 0 if 'in' not in res else len(res['in']) receiver_starting_balance = receiver_wallet.get_balance().balance # transfer from sender_wallet to receiver_wallet dst = {'address': '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', 'amount': amount} res = sender_wallet.transfer([dst]) assert len(res.tx_hash) == 32*2 txid = res.tx_hash assert res.amount == amount assert res.fee > 0 fee = res.fee expected_sender_balance = sender_starting_balance - (amount + fee) expected_receiver_balance = receiver_starting_balance + amount test = 'Checking scan_tx on outgoing pool tx' for attempt in range(2): # test re-scanning print(test + ' (' + ('first attempt' if attempt == 0 else 're-scanning tx') + ')') sender_wallet.scan_tx([txid]) res = sender_wallet.get_transfers() assert 'pool' not in res or len(res.pool) == 0 if out_len == 0: assert 'out' not in res else: assert len(res.out) == out_len assert len(res.pending) == 1 tx = [x for x in res.pending if x.txid == txid] assert len(tx) == 1 tx = tx[0] assert tx.amount == amount assert tx.fee == fee assert len(tx.destinations) == 1 assert tx.destinations[0].amount == amount assert tx.destinations[0].address == dst['address'] assert sender_wallet.get_balance().balance == expected_sender_balance test = 'Checking scan_tx on incoming pool tx' for attempt in range(2): # test re-scanning print(test + ' (' + ('first attempt' if attempt == 0 else 're-scanning tx') + ')') receiver_wallet.scan_tx([txid]) res = receiver_wallet.get_transfers() assert 'pending' not in res or len(res.pending) == 0 if in_len == 0: assert 'in' not in res else: assert len(res['in']) == in_len assert 'pool' in res and len(res.pool) == 1 tx = [x for x in res.pool if x.txid == txid] assert len(tx) == 1 tx = tx[0] assert tx.amount == amount assert tx.fee == fee assert receiver_wallet.get_balance().balance == expected_receiver_balance # mine the tx height = daemon.generateblocks(dst['address'], 1).height block_header = daemon.getblockheaderbyheight(height = height).block_header miner_txid = block_header.miner_tx_hash expected_receiver_balance += block_header.reward print('Checking scan_tx on outgoing tx before refresh') sender_wallet.scan_tx([txid]) res = sender_wallet.get_transfers() assert 'pending' not in res or len(res.pending) == 0 assert 'pool' not in res or len (res.pool) == 0 assert len(res.out) == out_len + 1 tx = [x for x in res.out if x.txid == txid] assert len(tx) == 1 tx = tx[0] assert tx.amount == amount assert tx.fee == fee assert len(tx.destinations) == 1 assert tx.destinations[0].amount == amount assert tx.destinations[0].address == dst['address'] assert sender_wallet.get_balance().balance == expected_sender_balance print('Checking scan_tx on outgoing tx after refresh') sender_wallet.refresh() sender_wallet.scan_tx([txid]) diff_transfers(sender_wallet.get_transfers(), res) assert sender_wallet.get_balance().balance == expected_sender_balance print("Checking scan_tx on outgoing wallet's earliest tx") earliest_height = height earliest_txid = txid for x in res['in']: if x.height < earliest_height: earliest_height = x.height earliest_txid = x.txid sender_wallet.scan_tx([earliest_txid]) diff_transfers(sender_wallet.get_transfers(), res) assert sender_wallet.get_balance().balance == expected_sender_balance test = 'Checking scan_tx on outgoing wallet restored at current height' for i, out_tx in enumerate(res.out): if 'destinations' in out_tx: del res.out[i]['destinations'] # destinations are not expected after wallet restore out_txids = [x.txid for x in res.out] in_txids = [x.txid for x in res['in']] all_txs = out_txids + in_txids for test_type in ["all txs", "incoming first", "duplicates within", "duplicates across"]: print(test + ' (' + test_type + ')') sender_wallet.close_wallet() sender_wallet.restore_deterministic_wallet(seed = seeds[0], restore_height = height) assert sender_wallet.get_transfers() == {} if test_type == "all txs": sender_wallet.scan_tx(all_txs) elif test_type == "incoming first": sender_wallet.scan_tx(in_txids) sender_wallet.scan_tx(out_txids) # TODO: test_type == "outgoing first" elif test_type == "duplicates within": sender_wallet.scan_tx(all_txs + all_txs) elif test_type == "duplicates across": sender_wallet.scan_tx(all_txs) sender_wallet.scan_tx(all_txs) else: assert True == False diff_transfers(sender_wallet.get_transfers(), res) assert sender_wallet.get_balance().balance == expected_sender_balance print('Sanity check against outgoing wallet restored at height 0') sender_wallet.close_wallet() sender_wallet.restore_deterministic_wallet(seed = seeds[0], restore_height = 0) sender_wallet.refresh() diff_transfers(sender_wallet.get_transfers(), res) assert sender_wallet.get_balance().balance == expected_sender_balance print('Checking scan_tx on incoming txs before refresh') receiver_wallet.scan_tx([txid, miner_txid]) res = receiver_wallet.get_transfers() assert 'pending' not in res or len(res.pending) == 0 assert 'pool' not in res or len (res.pool) == 0 assert len(res['in']) == in_len + 2 tx = [x for x in res['in'] if x.txid == txid] assert len(tx) == 1 tx = tx[0] assert tx.amount == amount assert tx.fee == fee assert receiver_wallet.get_balance().balance == expected_receiver_balance print('Checking scan_tx on incoming txs after refresh') receiver_wallet.refresh() receiver_wallet.scan_tx([txid, miner_txid]) diff_transfers(receiver_wallet.get_transfers(), res) assert receiver_wallet.get_balance().balance == expected_receiver_balance print("Checking scan_tx on incoming wallet's earliest tx") earliest_height = height earliest_txid = txid for x in res['in']: if x.height < earliest_height: earliest_height = x.height earliest_txid = x.txid receiver_wallet.scan_tx([earliest_txid]) diff_transfers(receiver_wallet.get_transfers(), res) assert receiver_wallet.get_balance().balance == expected_receiver_balance print('Checking scan_tx on incoming wallet restored at current height') txids = [x.txid for x in res['in']] if 'out' in res: txids = txids + [x.txid for x in res.out] receiver_wallet.close_wallet() receiver_wallet.restore_deterministic_wallet(seed = seeds[1], restore_height = height) assert receiver_wallet.get_transfers() == {} receiver_wallet.scan_tx(txids) if 'out' in res: for i, out_tx in enumerate(res.out): if 'destinations' in out_tx: del res.out[i]['destinations'] # destinations are not expected after wallet restore diff_transfers(receiver_wallet.get_transfers(), res) assert receiver_wallet.get_balance().balance == expected_receiver_balance print('Sanity check against incoming wallet restored at height 0') receiver_wallet.close_wallet() receiver_wallet.restore_deterministic_wallet(seed = seeds[1], restore_height = 0) receiver_wallet.refresh() diff_transfers(receiver_wallet.get_transfers(), res) assert receiver_wallet.get_balance().balance == expected_receiver_balance def check_subtract_fee_from_outputs(self): daemon = Daemon() print('Testing fee-included transfers') def inner_test_external_transfer(dsts, subtract_fee_from_outputs): # refresh wallet and get balance self.wallet[0].refresh() balance1 = self.wallet[0].get_balance().balance # Check that this transaction is possible with our current balance + other preconditions dst_sum = sum(map(lambda x: x['amount'], dsts)) assert balance1 >= dst_sum if subtract_fee_from_outputs: assert max(subtract_fee_from_outputs) < len(dsts) # transfer with subtractfeefrom=all transfer_res = self.wallet[0].transfer(dsts, subtract_fee_from_outputs = subtract_fee_from_outputs, get_tx_metadata = True) tx_hex = transfer_res.tx_metadata tx_fee = transfer_res.fee amount_spent = transfer_res.amount amounts_by_dest = transfer_res.amounts_by_dest.amounts # Assert that fee and amount spent to outputs adds up assert tx_fee != 0 if subtract_fee_from_outputs: assert tx_fee + amount_spent == dst_sum else: assert amount_spent == dst_sum # Check the amounts by each destination that only the destinations set as subtractable # got subtracted and that the subtracted dests are approximately correct assert len(amounts_by_dest) == len(dsts) # if this fails... idk for i in range(len(dsts)): if i in subtract_fee_from_outputs: # dest is subtractable approx_subtraction = tx_fee // len(subtract_fee_from_outputs) assert amounts_by_dest[i] < dsts[i]['amount'] assert dsts[i]['amount'] - amounts_by_dest[i] - approx_subtraction <= 1 else: assert amounts_by_dest[i] == dsts[i]['amount'] # relay tx and generate block (not to us, to simplify balance change calculations) relay_res = self.wallet[0].relay_tx(tx_hex) daemon.generateblocks('44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', 1) # refresh and get balance again self.wallet[0].refresh() balance2 = self.wallet[0].get_balance().balance # Check that the wallet balance dropped by the correct amount balance_drop = balance1 - balance2 if subtract_fee_from_outputs: assert balance_drop == dst_sum else: assert balance_drop == dst_sum + tx_fee dst1 = {'address': '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', 'amount': 1100000000001} dst2 = {'address': '46r4nYSevkfBUMhuykdK3gQ98XDqDTYW1hNLaXNvjpsJaSbNtdXh1sKMsdVgqkaihChAzEy29zEDPMR3NHQvGoZCLGwTerK', 'amount': 1200000000000} dst3 = {'address': '46r4nYSevkfBUMhuykdK3gQ98XDqDTYW1hNLaXNvjpsJaSbNtdXh1sKMsdVgqkaihChAzEy29zEDPMR3NHQvGoZCLGwTerK', 'amount': 1} inner_test_external_transfer([dst1, dst2], [0, 1]) inner_test_external_transfer([dst1, dst2], [0]) inner_test_external_transfer([dst1, dst2], [1]) inner_test_external_transfer([dst1, dst2], []) inner_test_external_transfer([dst1], [0]) inner_test_external_transfer([dst1], []) inner_test_external_transfer([dst3], []) try: inner_test_external_transfer([dst1, dst3], [0, 1]) # Test subtractfeefrom if one of the outputs would underflow w/o good checks raise ValueError('transfer request with tiny subtractable destination should have thrown') except: pass # Check for JSONRPC error on bad index try: transfer_res = self.wallet[0].transfer([dst1], subtract_fee_from_outputs = [1]) raise ValueError('transfer request with index should have thrown') except AssertionError: pass def check_background_sync(self): daemon = Daemon() print('Testing background sync') # Some helper functions def stop_with_wrong_inputs(wallet, wallet_password, seed = ''): invalid = False try: wallet.stop_background_sync(wallet_password = wallet_password, seed = seed) except: invalid = True assert invalid def open_with_wrong_password(wallet, filename, password): invalid_password = False try: wallet.open_wallet(filename, password = password) except: invalid_password = True assert invalid_password def restore_wallet(wallet, seed, filename = '', password = ''): wallet.close_wallet() if filename != '': util_resources.remove_wallet_files(filename) wallet.restore_deterministic_wallet(seed = seed, filename = filename, password = password) wallet.auto_refresh(enable = False) assert wallet.get_transfers() == {} def assert_correct_transfers(wallet, expected_transfers, expected_inc_transfers, expected_balance): diff_transfers(wallet.get_transfers(), expected_transfers) diff_incoming_transfers(wallet.incoming_transfers(transfer_type = 'all'), expected_inc_transfers) assert wallet.get_balance().balance == expected_balance # Set up sender_wallet. Prepare to sweep single output to receiver. # We're testing a sweep because it makes sure background sync can # properly pick up txs which do not have a change output back to sender. sender_wallet = self.wallet[0] try: sender_wallet.close_wallet() except: pass sender_wallet.restore_deterministic_wallet(seed = seeds[0]) sender_wallet.auto_refresh(enable = False) sender_wallet.refresh() res = sender_wallet.incoming_transfers(transfer_type = 'available') unlocked = [x for x in res.transfers if x.unlocked and x.amount > 0] assert len(unlocked) > 0 ki = unlocked[0].key_image amount = unlocked[0].amount spent_txid = unlocked[0].tx_hash sender_wallet.refresh() res = sender_wallet.get_transfers() out_len = 0 if 'out' not in res else len(res.out) sender_starting_balance = sender_wallet.get_balance().balance # Background sync type options reuse_password = sender_wallet.background_sync_options.reuse_password custom_password = sender_wallet.background_sync_options.custom_password # set up receiver_wallet receiver_wallet = self.wallet[1] try: receiver_wallet.close_wallet() except: pass receiver_wallet.restore_deterministic_wallet(seed = seeds[1]) receiver_wallet.auto_refresh(enable = False) receiver_wallet.refresh() res = receiver_wallet.get_transfers() in_len = 0 if 'in' not in res else len(res['in']) receiver_starting_balance = receiver_wallet.get_balance().balance # transfer from sender_wallet to receiver_wallet dst = '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW' res = sender_wallet.sweep_single(dst, key_image = ki) assert len(res.tx_hash) == 32*2 txid = res.tx_hash assert res.fee > 0 fee = res.fee assert res.amount == amount - fee expected_sender_balance = sender_starting_balance - amount expected_receiver_balance = receiver_starting_balance + (amount - fee) print('Checking background sync on outgoing wallet') sender_wallet.setup_background_sync(background_sync_type = reuse_password) sender_wallet.start_background_sync() # Mine block to an uninvolved wallet daemon.generateblocks('46r4nYSevkfBUMhuykdK3gQ98XDqDTYW1hNLaXNvjpsJaSbNtdXh1sKMsdVgqkaihChAzEy29zEDPMR3NHQvGoZCLGwTerK', 1) # sender should still be able to scan the transfer normally because we # spent an output that had a known key image sender_wallet.refresh() transfers = sender_wallet.get_transfers() assert 'pending' not in transfers or len(transfers.pending) == 0 assert 'pool' not in transfers or len (transfers.pool) == 0 assert len(transfers.out) == out_len + 1 tx = [x for x in transfers.out if x.txid == txid] assert len(tx) == 1 tx = tx[0] assert tx.amount == amount - fee assert tx.fee == fee assert len(tx.destinations) == 1 assert tx.destinations[0].amount == amount - fee assert tx.destinations[0].address == dst incoming_transfers = sender_wallet.incoming_transfers(transfer_type = 'all') assert len([x for x in incoming_transfers.transfers if x.tx_hash == spent_txid and x.key_image == ki and x.spent]) == 1 assert sender_wallet.get_balance().balance == expected_sender_balance # Restore and check background syncing outgoing wallet restore_wallet(sender_wallet, seeds[0]) sender_wallet.setup_background_sync(background_sync_type = reuse_password) sender_wallet.start_background_sync() sender_wallet.refresh() for i, out_tx in enumerate(transfers.out): if 'destinations' in out_tx: del transfers.out[i]['destinations'] # destinations are not expected after wallet restore # sender's balance should be higher because can't detect spends while # background sync enabled, only receives background_bal = sender_wallet.get_balance().balance assert background_bal > expected_sender_balance background_transfers = sender_wallet.get_transfers() assert 'out' not in background_transfers or len(background_transfers.out) == 0 assert 'in' in background_transfers and len(background_transfers['in']) > 0 background_incoming_transfers = sender_wallet.incoming_transfers(transfer_type = 'all') assert len(background_incoming_transfers) == len(incoming_transfers) assert len([x for x in background_incoming_transfers.transfers if x.spent or x.key_image != '']) == 0 assert len([x for x in background_incoming_transfers.transfers if x.tx_hash == spent_txid]) == 1 # Try to stop background sync with the wrong seed stop_with_wrong_inputs(sender_wallet, wallet_password = '', seed = seeds[1]) # Stop background sync and check transfers update correctly sender_wallet.stop_background_sync(wallet_password = '', seed = seeds[0]) assert_correct_transfers(sender_wallet, transfers, incoming_transfers, expected_sender_balance) # Check stopping a wallet with wallet files saved to disk for background_sync_type in [reuse_password, custom_password]: restore_wallet(sender_wallet, seeds[0], 'test1', 'test_password') background_cache_password = None if background_sync_type == reuse_password else 'background_password' sender_wallet.setup_background_sync(background_sync_type = background_sync_type, wallet_password = 'test_password', background_cache_password = background_cache_password) sender_wallet.start_background_sync() sender_wallet.refresh() assert_correct_transfers(sender_wallet, background_transfers, background_incoming_transfers, background_bal) stop_with_wrong_inputs(sender_wallet, 'wrong_password') sender_wallet.stop_background_sync(wallet_password = 'test_password') assert_correct_transfers(sender_wallet, transfers, incoming_transfers, expected_sender_balance) # Close wallet while background syncing, then reopen for background_sync_type in [reuse_password, custom_password]: restore_wallet(sender_wallet, seeds[0], 'test1', 'test_password') background_cache_password = None if background_sync_type == reuse_password else 'background_password' sender_wallet.setup_background_sync(background_sync_type = background_sync_type, wallet_password = 'test_password', background_cache_password = background_cache_password) sender_wallet.start_background_sync() sender_wallet.refresh() assert_correct_transfers(sender_wallet, background_transfers, background_incoming_transfers, background_bal) sender_wallet.close_wallet() open_with_wrong_password(sender_wallet, 'test1', 'wrong_password') sender_wallet.open_wallet('test1', password = 'test_password') # It should reopen with spend key loaded and correctly scan all transfers assert_correct_transfers(sender_wallet, transfers, incoming_transfers, expected_sender_balance) # Close wallet while syncing normally, then reopen for background_sync_type in [reuse_password, custom_password]: restore_wallet(sender_wallet, seeds[0], 'test1', 'test_password') background_cache_password = None if background_sync_type == reuse_password else 'background_password' sender_wallet.setup_background_sync(background_sync_type = background_sync_type, wallet_password = 'test_password', background_cache_password = background_cache_password) sender_wallet.refresh() assert_correct_transfers(sender_wallet, transfers, incoming_transfers, expected_sender_balance) sender_wallet.close_wallet() open_with_wrong_password(sender_wallet, 'test1', 'wrong_password') sender_wallet.open_wallet('test1', password = 'test_password') assert_correct_transfers(sender_wallet, transfers, incoming_transfers, expected_sender_balance) # Create background cache using custom password, then use it to sync, then reopen main wallet for background_cache_password in ['background_password', '']: restore_wallet(sender_wallet, seeds[0], 'test1', 'test_password') assert not util_resources.file_exists('test1.background') assert not util_resources.file_exists('test1.background.keys') sender_wallet.setup_background_sync(background_sync_type = custom_password, wallet_password = 'test_password', background_cache_password = background_cache_password) assert util_resources.file_exists('test1.background') assert util_resources.file_exists('test1.background.keys') sender_wallet.close_wallet() open_with_wrong_password(sender_wallet, 'test1.background', 'test_password') sender_wallet.open_wallet('test1.background', password = background_cache_password) sender_wallet.refresh() assert_correct_transfers(sender_wallet, background_transfers, background_incoming_transfers, background_bal) sender_wallet.close_wallet() sender_wallet.open_wallet('test1', password = 'test_password') assert_correct_transfers(sender_wallet, transfers, incoming_transfers, expected_sender_balance) # Check that main wallet keeps background cache encrypted with custom password in sync restore_wallet(sender_wallet, seeds[0], 'test1', 'test_password') sender_wallet.setup_background_sync(background_sync_type = background_sync_type, wallet_password = 'test_password', background_cache_password = 'background_password') sender_wallet.refresh() assert_correct_transfers(sender_wallet, transfers, incoming_transfers, expected_sender_balance) sender_wallet.close_wallet() sender_wallet.open_wallet('test1.background', password = 'background_password') assert_correct_transfers(sender_wallet, transfers, incoming_transfers, expected_sender_balance) # Try using wallet password as custom background password restore_wallet(sender_wallet, seeds[0], 'test1', 'test_password') assert not util_resources.file_exists('test1.background') assert not util_resources.file_exists('test1.background.keys') same_password = False try: sender_wallet.setup_background_sync(background_sync_type = custom_password, wallet_password = 'test_password', background_cache_password = 'test_password') except: same_password = True assert same_password assert not util_resources.file_exists('test1.background') assert not util_resources.file_exists('test1.background.keys') # Turn off background sync for background_sync_type in [reuse_password, custom_password]: restore_wallet(sender_wallet, seeds[0], 'test1', 'test_password') background_cache_password = None if background_sync_type == reuse_password else 'background_password' sender_wallet.setup_background_sync(background_sync_type = background_sync_type, wallet_password = 'test_password', background_cache_password = background_cache_password) if background_sync_type == custom_password: assert util_resources.file_exists('test1.background') assert util_resources.file_exists('test1.background.keys') sender_wallet.close_wallet() assert util_resources.file_exists('test1.background') assert util_resources.file_exists('test1.background.keys') else: assert not util_resources.file_exists('test1.background') assert not util_resources.file_exists('test1.background.keys') sender_wallet.close_wallet() assert not util_resources.file_exists('test1.background') assert not util_resources.file_exists('test1.background.keys') sender_wallet.open_wallet('test1', password = 'test_password') sender_wallet.setup_background_sync(background_sync_type = sender_wallet.background_sync_options.off, wallet_password = 'test_password') assert not util_resources.file_exists('test1.background') assert not util_resources.file_exists('test1.background.keys') sender_wallet.close_wallet() assert not util_resources.file_exists('test1.background') assert not util_resources.file_exists('test1.background.keys') sender_wallet.open_wallet('test1', password = 'test_password') # Sanity check against outgoing wallet restored at height 0 sender_wallet.close_wallet() sender_wallet.restore_deterministic_wallet(seed = seeds[0], restore_height = 0) sender_wallet.refresh() assert_correct_transfers(sender_wallet, transfers, incoming_transfers, expected_sender_balance) print('Checking background sync on incoming wallet') receiver_wallet.setup_background_sync(background_sync_type = reuse_password) receiver_wallet.start_background_sync() receiver_wallet.refresh() transfers = receiver_wallet.get_transfers() assert 'pending' not in transfers or len(transfers.pending) == 0 assert 'pool' not in transfers or len (transfers.pool) == 0 assert len(transfers['in']) == in_len + 1 tx = [x for x in transfers['in'] if x.txid == txid] assert len(tx) == 1 tx = tx[0] assert tx.amount == amount - fee assert tx.fee == fee incoming_transfers = receiver_wallet.incoming_transfers(transfer_type = 'all') assert len([x for x in incoming_transfers.transfers if x.tx_hash == txid and x.key_image == '' and not x.spent]) == 1 assert receiver_wallet.get_balance().balance == expected_receiver_balance # Restore and check background syncing incoming wallet restore_wallet(receiver_wallet, seeds[1]) receiver_wallet.setup_background_sync(background_sync_type = reuse_password) receiver_wallet.start_background_sync() receiver_wallet.refresh() if 'out' in transfers: for i, out_tx in enumerate(transfers.out): if 'destinations' in out_tx: del transfers.out[i]['destinations'] # destinations are not expected after wallet restore background_bal = receiver_wallet.get_balance().balance assert background_bal >= expected_receiver_balance background_transfers = receiver_wallet.get_transfers() assert 'out' not in background_transfers or len(background_transfers.out) == 0 assert 'in' in background_transfers and len(background_transfers['in']) > 0 background_incoming_transfers = receiver_wallet.incoming_transfers(transfer_type = 'all') assert len(background_incoming_transfers) == len(incoming_transfers) assert len([x for x in background_incoming_transfers.transfers if x.spent or x.key_image != '']) == 0 assert len([x for x in background_incoming_transfers.transfers if x.tx_hash == txid]) == 1 # Stop background sync and check transfers update correctly receiver_wallet.stop_background_sync(wallet_password = '', seed = seeds[1]) diff_transfers(receiver_wallet.get_transfers(), transfers) incoming_transfers = receiver_wallet.incoming_transfers(transfer_type = 'all') assert len(background_incoming_transfers) == len(incoming_transfers) assert len([x for x in incoming_transfers.transfers if x.tx_hash == txid and x.key_image != '' and not x.spent]) == 1 assert receiver_wallet.get_balance().balance == expected_receiver_balance # Check a fresh incoming wallet with wallet files saved to disk and encrypted with password restore_wallet(receiver_wallet, seeds[1], 'test2', 'test_password') receiver_wallet.setup_background_sync(background_sync_type = reuse_password, wallet_password = 'test_password') receiver_wallet.start_background_sync() receiver_wallet.refresh() assert_correct_transfers(receiver_wallet, background_transfers, background_incoming_transfers, background_bal) stop_with_wrong_inputs(receiver_wallet, 'wrong_password') receiver_wallet.stop_background_sync(wallet_password = 'test_password') assert_correct_transfers(receiver_wallet, transfers, incoming_transfers, expected_receiver_balance) # Close receiver's wallet while background sync is enabled then reopen restore_wallet(receiver_wallet, seeds[1], 'test2', 'test_password') receiver_wallet.setup_background_sync(background_sync_type = reuse_password, wallet_password = 'test_password') receiver_wallet.start_background_sync() receiver_wallet.refresh() diff_transfers(receiver_wallet.get_transfers(), background_transfers) diff_incoming_transfers(receiver_wallet.incoming_transfers(transfer_type = 'all'), background_incoming_transfers) assert receiver_wallet.get_balance().balance == background_bal receiver_wallet.close_wallet() receiver_wallet.open_wallet('test2', password = 'test_password') # It should reopen with spend key loaded and correctly scan all transfers assert_correct_transfers(receiver_wallet, transfers, incoming_transfers, expected_receiver_balance) # Sanity check against incoming wallet restored at height 0 receiver_wallet.close_wallet() receiver_wallet.restore_deterministic_wallet(seed = seeds[1], restore_height = 0) receiver_wallet.refresh() assert_correct_transfers(receiver_wallet, transfers, incoming_transfers, expected_receiver_balance) # Clean up util_resources.remove_wallet_files('test1') util_resources.remove_wallet_files('test2') for i in range(2): self.wallet[i].close_wallet() self.wallet[i].restore_deterministic_wallet(seed = seeds[i]) def check_background_sync_reorg_recovery(self): daemon = Daemon() print('Testing background sync reorg recovery') # Disconnect daemon from peers daemon.out_peers(0) # Background sync type options sender_wallet = self.wallet[0] reuse_password = sender_wallet.background_sync_options.reuse_password custom_password = sender_wallet.background_sync_options.custom_password for background_sync_type in [reuse_password, custom_password]: # Set up wallet saved to disk sender_wallet.close_wallet() util_resources.remove_wallet_files('test1') sender_wallet.restore_deterministic_wallet(seed = seeds[0], filename = 'test1', password = '') sender_wallet.auto_refresh(enable = False) sender_wallet.refresh() sender_starting_balance = sender_wallet.get_balance().balance # Send tx and mine a block amount = 1000000000000 assert sender_starting_balance > amount dst = {'address': '44Kbx4sJ7JDRDV5aAhLJzQCjDz2ViLRduE3ijDZu3osWKBjMGkV1XPk4pfDUMqt1Aiezvephdqm6YD19GKFD9ZcXVUTp6BW', 'amount': amount} res = sender_wallet.transfer([dst]) assert len(res.tx_hash) == 32*2 txid = res.tx_hash daemon.generateblocks('46r4nYSevkfBUMhuykdK3gQ98XDqDTYW1hNLaXNvjpsJaSbNtdXh1sKMsdVgqkaihChAzEy29zEDPMR3NHQvGoZCLGwTerK', 1) # Make sure the wallet can see the tx sender_wallet.refresh() transfers = sender_wallet.get_transfers() assert 'pool' not in transfers or len (transfers.pool) == 0 tx = [x for x in transfers.out if x.txid == txid] assert len(tx) == 1 tx = tx[0] assert sender_wallet.get_balance().balance < (sender_starting_balance - amount) # Pop the block while background syncing background_cache_password = None if background_sync_type == reuse_password else 'background_password' sender_wallet.setup_background_sync(background_sync_type = background_sync_type, wallet_password = '', background_cache_password = background_cache_password) sender_wallet.start_background_sync() daemon.pop_blocks(1) daemon.flush_txpool() daemon.generateblocks('46r4nYSevkfBUMhuykdK3gQ98XDqDTYW1hNLaXNvjpsJaSbNtdXh1sKMsdVgqkaihChAzEy29zEDPMR3NHQvGoZCLGwTerK', 1) # Make sure the wallet can no longer see the tx sender_wallet.refresh() sender_wallet.stop_background_sync(wallet_password = '', seed = seeds[0]) transfers = sender_wallet.get_transfers() no_tx = [x for x in transfers.out if x.txid == txid] assert len(no_tx) == 0 assert sender_wallet.get_balance().balance == sender_starting_balance # Clean up daemon.out_peers(12) util_resources.remove_wallet_files('test1') self.wallet[0].close_wallet() self.wallet[0].restore_deterministic_wallet(seed = seeds[0]) if __name__ == '__main__': TransferTest().run_test()