import asyncio import tempfile import unittest from electrum import constants from electrum.simple_config import SimpleConfig from electrum import blockchain from electrum.interface import Interface, ServerAddr from electrum.crypto import sha256 from electrum.util import OldTaskGroup from electrum import util from . import ElectrumTestCase class MockNetwork: def __init__(self): self.asyncio_loop = util.get_asyncio_loop() self.taskgroup = OldTaskGroup() self.proxy = None class MockInterface(Interface): def __init__(self, config): self.config = config network = MockNetwork() network.config = config super().__init__(network=network, server=ServerAddr.from_str('mock-server:50000:t')) self.q = asyncio.Queue() self.blockchain = blockchain.Blockchain(config=self.config, forkpoint=0, parent=None, forkpoint_hash=constants.net.GENESIS, prev_hash=None) self.tip = 12 self.blockchain._size = self.tip + 1 async def get_block_header(self, height, assert_mode): assert self.q.qsize() > 0, (height, assert_mode) item = await self.q.get() print("step with height", height, item) assert item['block_height'] == height, (item['block_height'], height) assert assert_mode in item['mock'], (assert_mode, item) return item async def run(self): return class TestNetwork(ElectrumTestCase): @classmethod def setUpClass(cls): super().setUpClass() constants.BitcoinRegtest.set_as_network() @classmethod def tearDownClass(cls): super().tearDownClass() constants.BitcoinMainnet.set_as_network() async def asyncSetUp(self): await super().asyncSetUp() self.config = SimpleConfig({'electrum_path': self.electrum_path}) self.interface = MockInterface(self.config) async def test_fork_noconflict(self): blockchain.blockchains = {} self.interface.q.put_nowait({'block_height': 8, 'mock': {'catchup':1, 'check': lambda x: False, 'connect': lambda x: False}}) def mock_connect(height): return height == 6 self.interface.q.put_nowait({'block_height': 7, 'mock': {'backward':1,'check': lambda x: False, 'connect': mock_connect, 'fork': self.mock_fork}}) self.interface.q.put_nowait({'block_height': 2, 'mock': {'backward':1,'check':lambda x: True, 'connect': lambda x: False}}) self.interface.q.put_nowait({'block_height': 4, 'mock': {'binary':1,'check':lambda x: True, 'connect': lambda x: True}}) self.interface.q.put_nowait({'block_height': 5, 'mock': {'binary':1,'check':lambda x: True, 'connect': lambda x: True}}) self.interface.q.put_nowait({'block_height': 6, 'mock': {'binary':1,'check':lambda x: True, 'connect': lambda x: True}}) ifa = self.interface res = await ifa.sync_until(8, next_height=7) self.assertEqual(('fork', 8), res) self.assertEqual(self.interface.q.qsize(), 0) async def test_fork_conflict(self): blockchain.blockchains = {7: {'check': lambda bad_header: False}} self.interface.q.put_nowait({'block_height': 8, 'mock': {'catchup':1, 'check': lambda x: False, 'connect': lambda x: False}}) def mock_connect(height): return height == 6 self.interface.q.put_nowait({'block_height': 7, 'mock': {'backward':1,'check': lambda x: False, 'connect': mock_connect, 'fork': self.mock_fork}}) self.interface.q.put_nowait({'block_height': 2, 'mock': {'backward':1,'check':lambda x: True, 'connect': lambda x: False}}) self.interface.q.put_nowait({'block_height': 4, 'mock': {'binary':1,'check':lambda x: True, 'connect': lambda x: True}}) self.interface.q.put_nowait({'block_height': 5, 'mock': {'binary':1,'check':lambda x: True, 'connect': lambda x: True}}) self.interface.q.put_nowait({'block_height': 6, 'mock': {'binary':1,'check':lambda x: True, 'connect': lambda x: True}}) ifa = self.interface res = await ifa.sync_until(8, next_height=7) self.assertEqual(('fork', 8), res) self.assertEqual(self.interface.q.qsize(), 0) async def test_can_connect_during_backward(self): blockchain.blockchains = {} self.interface.q.put_nowait({'block_height': 8, 'mock': {'catchup':1, 'check': lambda x: False, 'connect': lambda x: False}}) def mock_connect(height): return height == 2 self.interface.q.put_nowait({'block_height': 7, 'mock': {'backward':1, 'check': lambda x: False, 'connect': mock_connect, 'fork': self.mock_fork}}) self.interface.q.put_nowait({'block_height': 2, 'mock': {'backward':1, 'check': lambda x: False, 'connect': mock_connect, 'fork': self.mock_fork}}) self.interface.q.put_nowait({'block_height': 3, 'mock': {'catchup':1, 'check': lambda x: False, 'connect': lambda x: True}}) self.interface.q.put_nowait({'block_height': 4, 'mock': {'catchup':1, 'check': lambda x: False, 'connect': lambda x: True}}) ifa = self.interface res = await ifa.sync_until(8, next_height=4) self.assertEqual(('catchup', 5), res) self.assertEqual(self.interface.q.qsize(), 0) def mock_fork(self, bad_header): forkpoint = bad_header['block_height'] b = blockchain.Blockchain(config=self.config, forkpoint=forkpoint, parent=None, forkpoint_hash=sha256(str(forkpoint)).hex(), prev_hash=sha256(str(forkpoint-1)).hex()) return b async def test_chain_false_during_binary(self): blockchain.blockchains = {} self.interface.q.put_nowait({'block_height': 8, 'mock': {'catchup':1, 'check': lambda x: False, 'connect': lambda x: False}}) mock_connect = lambda height: height == 3 self.interface.q.put_nowait({'block_height': 7, 'mock': {'backward':1, 'check': lambda x: False, 'connect': mock_connect}}) self.interface.q.put_nowait({'block_height': 2, 'mock': {'backward':1, 'check': lambda x: True, 'connect': mock_connect}}) self.interface.q.put_nowait({'block_height': 4, 'mock': {'binary':1, 'check': lambda x: False, 'fork': self.mock_fork, 'connect': mock_connect}}) self.interface.q.put_nowait({'block_height': 3, 'mock': {'binary':1, 'check': lambda x: True, 'connect': lambda x: True}}) self.interface.q.put_nowait({'block_height': 5, 'mock': {'catchup':1, 'check': lambda x: False, 'connect': lambda x: True}}) self.interface.q.put_nowait({'block_height': 6, 'mock': {'catchup':1, 'check': lambda x: False, 'connect': lambda x: True}}) ifa = self.interface res = await ifa.sync_until(8, next_height=6) self.assertEqual(('catchup', 7), res) self.assertEqual(self.interface.q.qsize(), 0) if __name__ == "__main__": constants.BitcoinRegtest.set_as_network() unittest.main()