"""Tests for network connections""" import ipaddress import logging import os import random import unittest import tempfile import time from contextlib import contextmanager from minode import connection, main, shared from minode.listener import Listener from minode.manager import Manager from .test_process import TestProcessProto logging.basicConfig( level=logging.INFO, format='[%(asctime)s] [%(levelname)s] %(message)s') @contextmanager def time_offset(offset): """ Replace time.time() by a mock returning a constant value with given offset from current time. """ started = time.time() time_call = time.time try: time.time = lambda: started + offset yield time_call finally: time.time = time_call @contextmanager def run_listener(host='localhost', port=8444): """ Run the Listener with zero connection limit and reset variables in shared after its stop. """ connection_limit = shared.connection_limit shared.connection_limit = 0 try: listener = Listener(host, port) listener.start() yield listener except OSError: yield finally: shared.connection_limit = connection_limit shared.connections.clear() shared.shutting_down = True time.sleep(1) class TestNetwork(unittest.TestCase): """Test case starting connections""" @classmethod def setUpClass(cls): shared.data_directory = tempfile.gettempdir() def setUp(self): shared.core_nodes.clear() shared.unchecked_node_pool.clear() shared.objects = {} try: os.remove(os.path.join(shared.data_directory, 'objects.pickle')) except FileNotFoundError: pass def _make_initial_nodes(self): Manager.load_data() core_nodes_len = len(shared.core_nodes) self.assertGreaterEqual(core_nodes_len, 3) main.bootstrap_from_dns() self.assertGreaterEqual(len(shared.core_nodes), core_nodes_len) for host, _ in shared.core_nodes: try: ipaddress.IPv4Address(host) except ipaddress.AddressValueError: try: ipaddress.IPv6Address(host) except ipaddress.AddressValueError: self.fail('Found not an IP address in the core nodes') break else: self.fail('No IPv6 address found in the core nodes') def test_bootstrap(self): """Start bootstrappers and check node pool""" if shared.core_nodes: shared.core_nodes = set() if shared.unchecked_node_pool: shared.unchecked_node_pool = set() self._make_initial_nodes() self.assertEqual(len(shared.unchecked_node_pool), 0) for node in shared.core_nodes: c = connection.Bootstrapper(*node) c.start() c.join() if len(shared.unchecked_node_pool) > 2: break else: self.fail( 'Failed to find at least 3 nodes' ' after running %s bootstrappers' % len(shared.core_nodes)) def test_connection(self): """Check a normal connection - should receive objects""" self._make_initial_nodes() started = time.time() nodes = list(shared.core_nodes.union(shared.unchecked_node_pool)) random.shuffle(nodes) for node in nodes: # unknown = node not in shared.node_pool # self.assertTrue(unknown) unknown = True shared.node_pool.discard(node) c = connection.Connection(*node) c.start() connection_started = time.time() while c.status not in ('disconnected', 'failed'): # The addr of established connection is added to nodes pool if unknown and c.status == 'fully_established': unknown = False self.assertIn(node, shared.node_pool) if shared.objects or time.time() - connection_started > 90: c.status = 'disconnecting' if time.time() - started > 300: c.status = 'disconnecting' self.fail('Failed to receive an object in %s sec' % 300) time.sleep(0.2) if shared.objects: # got some objects break else: self.fail('Failed to establish a proper connection') def test_time_offset(self): """Assert the network bans for large time offset""" def try_connect(nodes, timeout, call): started = call() for node in nodes: c = connection.Connection(*node) c.start() while call() < started + timeout: if c.status == 'fully_established': return 'Established a connection' if c.status in ('disconnected', 'failed'): break time.sleep(0.2) else: return 'Spent too much time trying to connect' def time_offset_connections(nodes, offset): """Spoof time.time and open connections with given time offset""" with time_offset(offset) as time_call: result = try_connect(nodes, 200, time_call) if result: self.fail(result) self._make_initial_nodes() nodes = random.sample( tuple(shared.core_nodes.union(shared.unchecked_node_pool)), 5) time_offset_connections(nodes, 4000) time_offset_connections(nodes, -4000) class TestListener(TestProcessProto): """A separate test case for Listener with a process with --trusted-peer""" _process_cmd = ['minode', '--trusted-peer', '127.0.0.1'] def setUp(self): shared.shutting_down = False @classmethod def tearDownClass(cls): super().tearDownClass() shared.shutting_down = False def test_listener(self): """Start Listener and try to connect""" with run_listener() as listener: if not listener: self.fail('Failed to start listener') c = connection.Connection('127.0.0.1', 8444) shared.connections.add(c) for _ in range(30): if len(shared.connections) > 1: self.fail('The listener ignored connection limit') time.sleep(0.5) shared.connection_limit = 2 c.start() started = time.time() while c.status not in ('disconnected', 'failed'): if c.status == 'fully_established': self.fail('Connected to itself') if time.time() - started > 90: c.status = 'disconnecting' time.sleep(0.2) server = None started = time.time() while not server: time.sleep(0.2) if time.time() - started > 90: self.fail('Failed to establish the connection') for c in shared.connections: if c.status == 'fully_established': server = c self.assertTrue(server.server) while not self.process.connections(): time.sleep(0.2) if time.time() - started > 90: self.fail('Failed to connect to listener') client = self.process.connections()[0] self.assertEqual(client.raddr[0], '127.0.0.1') self.assertEqual(client.raddr[1], 8444) self.assertEqual(server.host, client.laddr[0]) # self.assertEqual(server.port, client.laddr[1]) server.status = 'disconnecting' self.assertFalse(listener.is_alive()) def test_listener_timeoffset(self): """Run listener with a large time offset - shouldn't connect""" with time_offset(4000): with run_listener() as listener: if not listener: self.fail('Failed to start listener') shared.connection_limit = 2 for _ in range(30): for c in shared.connections: if c.status == 'fully_established': self.fail('Established a connection') time.sleep(0.5)