from binascii import hexlify from twisted.internet import task from twisted.trial import unittest from lbrynet.core.utils import generate_id from lbrynet.dht.contact import ContactManager from lbrynet.dht import constants class ContactTest(unittest.TestCase): """ Basic tests case for boolean operators on the Contact class """ def setUp(self): self.contact_manager = ContactManager() self.node_ids = [generate_id(), generate_id(), generate_id()] make_contact = self.contact_manager.make_contact self.first_contact = make_contact(self.node_ids[1], '127.0.0.1', 1000, None, 1) self.second_contact = make_contact(self.node_ids[0], '192.168.0.1', 1000, None, 32) self.second_contact_second_reference = make_contact(self.node_ids[0], '192.168.0.1', 1000, None, 32) self.first_contact_different_values = make_contact(self.node_ids[1], '192.168.1.20', 1000, None, 50) def test_make_contact_error_cases(self): self.assertRaises( ValueError, self.contact_manager.make_contact, self.node_ids[1], '192.168.1.20', 100000, None) self.assertRaises( ValueError, self.contact_manager.make_contact, self.node_ids[1], '192.168.1.20.1', 1000, None) self.assertRaises( ValueError, self.contact_manager.make_contact, self.node_ids[1], 'this is not an ip', 1000, None) self.assertRaises( ValueError, self.contact_manager.make_contact, b'not valid node id', '192.168.1.20.1', 1000, None) def test_no_duplicate_contact_objects(self): self.assertIs(self.second_contact, self.second_contact_second_reference) self.assertIsNot(self.first_contact, self.first_contact_different_values) def test_boolean(self): """ Test "equals" and "not equals" comparisons """ self.assertNotEqual( self.first_contact, self.contact_manager.make_contact( self.first_contact.id, self.first_contact.address, self.first_contact.port + 1, None, 32 ) ) self.assertNotEqual( self.first_contact, self.contact_manager.make_contact( self.first_contact.id, '193.168.1.1', self.first_contact.port, None, 32 ) ) self.assertNotEqual( self.first_contact, self.contact_manager.make_contact( generate_id(), self.first_contact.address, self.first_contact.port, None, 32 ) ) self.assertEqual(self.second_contact, self.second_contact_second_reference) def test_compact_ip(self): self.assertEqual(self.first_contact.compact_ip(), b'\x7f\x00\x00\x01') self.assertEqual(self.second_contact.compact_ip(), b'\xc0\xa8\x00\x01') def test_id_log(self): self.assertEqual(self.first_contact.log_id(False), hexlify(self.node_ids[1])) self.assertEqual(self.first_contact.log_id(True), hexlify(self.node_ids[1])[:8]) class TestContactLastReplied(unittest.TestCase): def setUp(self): self.clock = task.Clock() self.contact_manager = ContactManager(self.clock.seconds) self.contact = self.contact_manager.make_contact(generate_id(), "127.0.0.1", 4444, None) self.clock.advance(3600) self.assertIsNone(self.contact.contact_is_good) def test_stale_replied_to_us(self): self.contact.update_last_replied() self.assertIs(self.contact.contact_is_good, True) def test_stale_requested_from_us(self): self.contact.update_last_requested() self.assertIsNone(self.contact.contact_is_good) def test_stale_then_fail(self): self.contact.update_last_failed() self.assertIsNone(self.contact.contact_is_good) self.clock.advance(1) self.contact.update_last_failed() self.assertIs(self.contact.contact_is_good, False) def test_good_turned_stale(self): self.contact.update_last_replied() self.assertIs(self.contact.contact_is_good, True) self.clock.advance(constants.checkRefreshInterval - 1) self.assertIs(self.contact.contact_is_good, True) self.clock.advance(1) self.assertIsNone(self.contact.contact_is_good) def test_good_then_fail(self): self.contact.update_last_replied() self.assertIs(self.contact.contact_is_good, True) self.clock.advance(1) self.contact.update_last_failed() self.assertIs(self.contact.contact_is_good, True) self.clock.advance(59) self.assertIs(self.contact.contact_is_good, True) self.contact.update_last_failed() self.assertIs(self.contact.contact_is_good, False) for _ in range(7200): self.clock.advance(60) self.assertIs(self.contact.contact_is_good, False) def test_good_then_fail_then_good(self): # it replies self.contact.update_last_replied() self.assertIs(self.contact.contact_is_good, True) self.clock.advance(1) # it fails twice in a row self.contact.update_last_failed() self.clock.advance(1) self.contact.update_last_failed() self.assertIs(self.contact.contact_is_good, False) self.clock.advance(1) # it replies self.contact.update_last_replied() self.clock.advance(1) self.assertIs(self.contact.contact_is_good, True) # it goes stale self.clock.advance(constants.checkRefreshInterval - 2) self.assertIs(self.contact.contact_is_good, True) self.clock.advance(1) self.assertIsNone(self.contact.contact_is_good) class TestContactLastRequested(unittest.TestCase): def setUp(self): self.clock = task.Clock() self.contact_manager = ContactManager(self.clock.seconds) self.contact = self.contact_manager.make_contact(generate_id(), "127.0.0.1", 4444, None) self.clock.advance(1) self.contact.update_last_replied() self.clock.advance(3600) self.assertIsNone(self.contact.contact_is_good) def test_previous_replied_then_requested(self): # it requests self.contact.update_last_requested() self.assertIs(self.contact.contact_is_good, True) # it goes stale self.clock.advance(constants.checkRefreshInterval - 1) self.assertIs(self.contact.contact_is_good, True) self.clock.advance(1) self.assertIsNone(self.contact.contact_is_good) def test_previous_replied_then_requested_then_failed(self): # it requests self.contact.update_last_requested() self.assertIs(self.contact.contact_is_good, True) self.clock.advance(1) # it fails twice in a row self.contact.update_last_failed() self.clock.advance(1) self.contact.update_last_failed() self.assertIs(self.contact.contact_is_good, False) self.clock.advance(1) # it requests self.contact.update_last_requested() self.clock.advance(1) self.assertIs(self.contact.contact_is_good, False) # it goes stale self.clock.advance((constants.refreshTimeout / 4) - 2) self.assertIs(self.contact.contact_is_good, False) self.clock.advance(1) self.assertIs(self.contact.contact_is_good, False)