import logging import asyncio from unittest.mock import Mock from torba.client.basenetwork import BaseNetwork from torba.rpc import RPCSession from torba.testcase import IntegrationTestCase, AsyncioTestCase class NetworkTests(IntegrationTestCase): async def test_remote_height_updated_automagically(self): initial_height = self.ledger.network.remote_height await self.blockchain.generate(1) await self.ledger.network.on_header.first self.assertEqual(self.ledger.network.remote_height, initial_height + 1) class ReconnectTests(IntegrationTestCase): VERBOSITY = logging.WARN async def test_connection_drop_still_receives_events_after_reconnected(self): address1 = await self.account.receiving.get_or_create_usable_address() self.ledger.network.client.connection_lost(Exception()) sendtxid = await self.blockchain.send_to_address(address1, 1.1337) await self.on_transaction_id(sendtxid) # mempool await self.blockchain.generate(1) await self.on_transaction_id(sendtxid) # confirmed await self.assertBalance(self.account, '1.1337') # is it real? are we rich!? let me see this tx... d = self.ledger.network.get_transaction(sendtxid) # what's that smoke on my ethernet cable? oh no! self.ledger.network.client.connection_lost(Exception()) with self.assertRaises(asyncio.CancelledError): await d # rich but offline? no way, no water, let's retry with self.assertRaisesRegex(ConnectionError, 'connection is not available'): await self.ledger.network.get_transaction(sendtxid) # * goes to pick some water outside... * time passes by and another donation comes in sendtxid = await self.blockchain.send_to_address(address1, 42) await self.blockchain.generate(1) # omg, the burned cable still works! torba is fire proof! await self.ledger.network.get_transaction(sendtxid) async def test_timeout_then_reconnect(self): await self.conductor.spv_node.stop() self.assertFalse(self.ledger.network.is_connected) await self.conductor.spv_node.start(self.conductor.blockchain_node) await self.ledger.network.on_connected.first self.assertTrue(self.ledger.network.is_connected) class ServerPickingTestCase(AsyncioTestCase): async def _make_fake_server(self, latency=1.0, port=1): # local fake server with artificial latency class FakeSession(RPCSession): async def handle_request(self, request): await asyncio.sleep(latency) return {"height": 1} server = await self.loop.create_server(lambda: FakeSession(), host='127.0.0.1', port=port) self.addCleanup(server.close) return '127.0.0.1', port async def _make_bad_server(self, port=42420): async def echo(reader, writer): while True: writer.write(await reader.read()) server = await asyncio.start_server(echo, host='127.0.0.1', port=port) self.addCleanup(server.close) return '127.0.0.1', port async def test_pick_fastest(self): ledger = Mock(config={ 'default_servers': [ # fast but unhealthy, should be discarded await self._make_bad_server(), ('localhost', 1), ('example.that.doesnt.resolve', 9000), await self._make_fake_server(latency=1.2, port=1340), await self._make_fake_server(latency=0.5, port=1337), await self._make_fake_server(latency=0.7, port=1339), ], 'connect_timeout': 3 }) network = BaseNetwork(ledger) self.addCleanup(network.stop) asyncio.ensure_future(network.start()) await asyncio.wait_for(network.on_connected.first, timeout=3) self.assertTrue(network.is_connected) self.assertEqual(network.client.server, ('127.0.0.1', 1337)) # ensure we are connected to all of them self.assertTrue(all([not session.is_closing() for session in network.session_pool.sessions])) self.assertEqual(len(network.session_pool.sessions), 3)