import struct import asyncio from lbry.utils import generate_id from lbry.dht.protocol.routing_table import KBucket from lbry.dht.peer import PeerManager, make_kademlia_peer from lbry.dht import constants from lbry.testcase import AsyncioTestCase def address_generator(address=(1, 2, 3, 4)): def increment(addr): value = struct.unpack("I", "".join([chr(x) for x in list(addr)[::-1]]).encode())[0] + 1 new_addr = [] for i in range(4): new_addr.append(value % 256) value >>= 8 return tuple(new_addr[::-1]) while True: yield "{}.{}.{}.{}".format(*address) address = increment(address) class TestKBucket(AsyncioTestCase): def setUp(self): self.loop = asyncio.get_event_loop() self.address_generator = address_generator() self.peer_manager = PeerManager(self.loop) self.kbucket = KBucket(self.peer_manager, 0, 2 ** constants.HASH_BITS, generate_id()) def test_add_peer(self): peer = make_kademlia_peer(constants.generate_id(2), "1.2.3.4", udp_port=4444) peer_update2 = make_kademlia_peer(constants.generate_id(2), "1.2.3.4", udp_port=4445) self.assertListEqual([], self.kbucket.peers) # add the peer self.kbucket.add_peer(peer) self.assertListEqual([peer], self.kbucket.peers) # re-add it self.kbucket.add_peer(peer) self.assertListEqual([peer], self.kbucket.peers) self.assertEqual(self.kbucket.peers[0].udp_port, 4444) # add a new peer object with the same id and address but a different port self.kbucket.add_peer(peer_update2) self.assertListEqual([peer_update2], self.kbucket.peers) self.assertEqual(self.kbucket.peers[0].udp_port, 4445) # modify the peer object to have a different port peer_update2.udp_port = 4444 self.kbucket.add_peer(peer_update2) self.assertListEqual([peer_update2], self.kbucket.peers) self.assertEqual(self.kbucket.peers[0].udp_port, 4444) self.kbucket.peers.clear() # Test if contacts can be added to empty list # Add k contacts to bucket for i in range(constants.K): peer = make_kademlia_peer(generate_id(), next(self.address_generator), 4444) self.assertTrue(self.kbucket.add_peer(peer)) self.assertEqual(peer, self.kbucket.peers[i]) # Test if contact is not added to full list peer = make_kademlia_peer(generate_id(), next(self.address_generator), 4444) self.assertFalse(self.kbucket.add_peer(peer)) # Test if an existing contact is updated correctly if added again existing_peer = self.kbucket.peers[0] self.assertTrue(self.kbucket.add_peer(existing_peer)) self.assertEqual(existing_peer, self.kbucket.peers[-1]) # def testGetContacts(self): # # try and get 2 contacts from empty list # result = self.kbucket.getContacts(2) # self.assertFalse(len(result) != 0, "Returned list should be empty; returned list length: %d" % # (len(result))) # # # Add k-2 contacts # node_ids = [] # if constants.k >= 2: # for i in range(constants.k-2): # node_ids.append(generate_id()) # tmpContact = self.contact_manager.make_contact(node_ids[-1], next(self.address_generator), 4444, 0, # None) # self.kbucket.addContact(tmpContact) # else: # # add k contacts # for i in range(constants.k): # node_ids.append(generate_id()) # tmpContact = self.contact_manager.make_contact(node_ids[-1], next(self.address_generator), 4444, 0, # None) # self.kbucket.addContact(tmpContact) # # # try to get too many contacts # # requested count greater than bucket size; should return at most k contacts # contacts = self.kbucket.getContacts(constants.k+3) # self.assertTrue(len(contacts) <= constants.k, # 'Returned list should not have more than k entries!') # # # verify returned contacts in list # for node_id, i in zip(node_ids, range(constants.k-2)): # self.assertFalse(self.kbucket._contacts[i].id != node_id, # "Contact in position %s not same as added contact" % (str(i))) # # # try to get too many contacts # # requested count one greater than number of contacts # if constants.k >= 2: # result = self.kbucket.getContacts(constants.k-1) # self.assertFalse(len(result) != constants.k-2, # "Too many contacts in returned list %s - should be %s" % # (len(result), constants.k-2)) # else: # result = self.kbucket.getContacts(constants.k-1) # # if the count is <= 0, it should return all of it's contats # self.assertFalse(len(result) != constants.k, # "Too many contacts in returned list %s - should be %s" % # (len(result), constants.k-2)) # result = self.kbucket.getContacts(constants.k-3) # self.assertFalse(len(result) != constants.k-3, # "Too many contacts in returned list %s - should be %s" % # (len(result), constants.k-3)) def test_remove_peer(self): # try remove contact from empty list peer = make_kademlia_peer(generate_id(), next(self.address_generator), 4444) self.assertRaises(ValueError, self.kbucket.remove_peer, peer) added = [] # Add couple contacts for i in range(constants.K - 2): peer = make_kademlia_peer(generate_id(), next(self.address_generator), 4444) self.assertTrue(self.kbucket.add_peer(peer)) added.append(peer) while added: peer = added.pop() self.assertIn(peer, self.kbucket.peers) self.kbucket.remove_peer(peer) self.assertNotIn(peer, self.kbucket.peers)