async def _make_protocol(self, other_peer, node_id, address, udp_port, tcp_port):
proto = KademliaProtocol(
self.loop, PeerManager(self.loop), node_id, address, udp_port, tcp_port
)
await self.loop.create_datagram_endpoint(lambda: proto, (address, 4444))
proto.start()
return proto, make_kademlia_peer(node_id, address, udp_port=udp_port)
async def test_add_peer_after_handle_request(self):
with dht_mocks.mock_network_loop(self.loop):
node_id1 = constants.generate_id()
node_id2 = constants.generate_id()
node_id3 = constants.generate_id()
node_id4 = constants.generate_id()
peer1 = KademliaProtocol(
self.loop, PeerManager(self.loop), node_id1, '1.2.3.4', 4444, 3333
)
await self.loop.create_datagram_endpoint(lambda: peer1, ('1.2.3.4', 4444))
peer1.start()
peer2, peer_2_from_peer_1 = await self._make_protocol(peer1, node_id2, '1.2.3.5', 4444, 3333)
peer3, peer_3_from_peer_1 = await self._make_protocol(peer1, node_id3, '1.2.3.6', 4444, 3333)
peer4, peer_4_from_peer_1 = await self._make_protocol(peer1, node_id4, '1.2.3.7', 4444, 3333)
# peers who reply should be added
await peer1.get_rpc_peer(peer_2_from_peer_1).ping()
await asyncio.sleep(0.5)
self.assertListEqual([peer_2_from_peer_1], peer1.routing_table.get_peers())
peer1.routing_table.remove_peer(peer_2_from_peer_1)
# peers not known by be good/bad should be enqueued to maybe-ping
peer1_from_peer3 = peer3.get_rpc_peer(make_kademlia_peer(node_id1, '1.2.3.4', 4444))
self.assertEqual(0, len(peer1.ping_queue._pending_contacts))
pong = await peer1_from_peer3.ping()
self.assertEqual(b'pong', pong)
self.assertEqual(1, len(peer1.ping_queue._pending_contacts))
peer1.ping_queue._pending_contacts.clear()
# peers who are already good should be added
peer1_from_peer4 = peer4.get_rpc_peer(make_kademlia_peer(node_id1, '1.2.3.4', 4444))
peer1.peer_manager.update_contact_triple(node_id4,'1.2.3.7', 4444)
peer1.peer_manager.report_last_replied('1.2.3.7', 4444)
self.assertEqual(0, len(peer1.ping_queue._pending_contacts))
pong = await peer1_from_peer4.ping()
self.assertEqual(b'pong', pong)
await asyncio.sleep(0.5)
self.assertEqual(1, len(peer1.routing_table.get_peers()))
self.assertEqual(0, len(peer1.ping_queue._pending_contacts))
peer1.routing_table.buckets[0].peers.clear()
# peers who are known to be bad recently should not be added or maybe-pinged
peer1_from_peer4 = peer4.get_rpc_peer(make_kademlia_peer(node_id1, '1.2.3.4', 4444))
peer1.peer_manager.update_contact_triple(node_id4,'1.2.3.7', 4444)
peer1.peer_manager.report_failure('1.2.3.7', 4444)
peer1.peer_manager.report_failure('1.2.3.7', 4444)
self.assertEqual(0, len(peer1.ping_queue._pending_contacts))
pong = await peer1_from_peer4.ping()
self.assertEqual(b'pong', pong)
self.assertEqual(0, len(peer1.routing_table.get_peers()))
self.assertEqual(0, len(peer1.ping_queue._pending_contacts))
for p in [peer1, peer2, peer3, peer4]:
p.stop()
p.disconnect()
def __init__(self, loop: asyncio.AbstractEventLoop, peer_manager: 'PeerManager', node_id: bytes, udp_port: int,
internal_udp_port: int, peer_port: int, external_ip: str, rpc_timeout: float = constants.rpc_timeout,
split_buckets_under_index: int = constants.split_buckets_under_index):
self.loop = loop
self.internal_udp_port = internal_udp_port
self.protocol = KademliaProtocol(loop, peer_manager, node_id, external_ip, udp_port, peer_port, rpc_timeout,
split_buckets_under_index)
self.listening_port: asyncio.DatagramTransport = None
self.joined = asyncio.Event(loop=self.loop)
self._join_task: asyncio.Task = None
self._refresh_task: asyncio.Task = None
def __init__(self, loop: asyncio.AbstractEventLoop, peer_manager: 'PeerManager', node_id: bytes, udp_port: int,
internal_udp_port: int, peer_port: int, external_ip: str, rpc_timeout: float = constants.RPC_TIMEOUT,
split_buckets_under_index: int = constants.SPLIT_BUCKETS_UNDER_INDEX,
storage: typing.Optional['SQLiteStorage'] = None):
self.loop = loop
self.internal_udp_port = internal_udp_port
self.protocol = KademliaProtocol(loop, peer_manager, node_id, external_ip, udp_port, peer_port, rpc_timeout,
split_buckets_under_index)
self.listening_port: asyncio.DatagramTransport = None
self.joined = asyncio.Event(loop=self.loop)
self._join_task: asyncio.Task = None
self._refresh_task: asyncio.Task = None
self._storage = storage
class Node:
def __init__(self,
loop: asyncio.BaseEventLoop,
peer_manager: 'PeerManager',
node_id: bytes,
udp_port: int,
internal_udp_port: int,
peer_port: int,
external_ip: str,
rpc_timeout: float = constants.rpc_timeout,
split_buckets_under_index: int = constants.
split_buckets_under_index):
self.loop = loop
self.internal_udp_port = internal_udp_port
self.protocol = KademliaProtocol(loop, peer_manager, node_id,
external_ip, udp_port, peer_port,
rpc_timeout,
split_buckets_under_index)
self.listening_port: asyncio.DatagramTransport = None
self.joined = asyncio.Event(loop=self.loop)
self._join_task: asyncio.Task = None
self._refresh_task: asyncio.Task = None
async def refresh_node(self, force_once=False):
while True:
# remove peers with expired blob announcements from the datastore
self.protocol.data_store.removed_expired_peers()
total_peers: typing.List['KademliaPeer'] = []
# add all peers in the routing table
total_peers.extend(self.protocol.routing_table.get_peers())
# add all the peers who have announed blobs to us
total_peers.extend(self.protocol.data_store.get_storing_contacts())
# get ids falling in the midpoint of each bucket that hasn't been recently updated
node_ids = self.protocol.routing_table.get_refresh_list(0, True)
# if we have 3 or fewer populated buckets get two random ids in the range of each to try and
# populate/split the buckets further
buckets_with_contacts = self.protocol.routing_table.buckets_with_contacts(
)
if buckets_with_contacts <= 3:
for i in range(buckets_with_contacts):
node_ids.append(
self.protocol.routing_table.random_id_in_bucket_range(
i))
node_ids.append(
self.protocol.routing_table.random_id_in_bucket_range(
i))
if self.protocol.routing_table.get_peers():
# if we have node ids to look up, perform the iterative search until we have k results
while node_ids:
peers = await self.peer_search(node_ids.pop())
total_peers.extend(peers)
else:
if force_once:
break
fut = asyncio.Future(loop=self.loop)
self.loop.call_later(constants.refresh_interval // 4,
fut.set_result, None)
await fut
continue
# ping the set of peers; upon success/failure the routing able and last replied/failed time will be updated
to_ping = [
peer for peer in set(total_peers)
if self.protocol.peer_manager.peer_is_good(peer) is not True
]
if to_ping:
self.protocol.ping_queue.enqueue_maybe_ping(*to_ping, delay=0)
if force_once:
break
fut = asyncio.Future(loop=self.loop)
self.loop.call_later(constants.refresh_interval, fut.set_result,
None)
await fut
async def announce_blob(self, blob_hash: str) -> typing.List[bytes]:
hash_value = binascii.unhexlify(blob_hash.encode())
assert len(hash_value) == constants.hash_length
peers = await self.peer_search(hash_value)
if not self.protocol.external_ip:
raise Exception("Cannot determine external IP")
log.debug("Store to %i peers", len(peers))
for peer in peers:
log.debug("store to %s %s %s", peer.address, peer.udp_port,
peer.tcp_port)
stored_to_tup = await asyncio.gather(
*(self.protocol.store_to_peer(hash_value, peer) for peer in peers),
loop=self.loop)
stored_to = [
node_id for node_id, contacted in stored_to_tup if contacted
]
if stored_to:
log.info("Stored %s to %i of %i attempted peers",
binascii.hexlify(hash_value).decode()[:8], len(stored_to),
len(peers))
else:
log.warning("Failed announcing %s, stored to 0 peers",
blob_hash[:8])
return stored_to
def stop(self) -> None:
if self.joined.is_set():
self.joined.clear()
if self._join_task:
self._join_task.cancel()
if self._refresh_task and not (self._refresh_task.done()
or self._refresh_task.cancelled()):
self._refresh_task.cancel()
if self.protocol and self.protocol.ping_queue.running:
self.protocol.ping_queue.stop()
self.protocol.stop()
if self.listening_port is not None:
self.listening_port.close()
self._join_task = None
self.listening_port = None
log.info("Stopped DHT node")
async def start_listening(self, interface: str = '') -> None:
if not self.listening_port:
self.listening_port, _ = await self.loop.create_datagram_endpoint(
lambda: self.protocol, (interface, self.internal_udp_port))
log.info("DHT node listening on UDP %s:%i", interface,
self.internal_udp_port)
self.protocol.start()
else:
log.warning("Already bound to port %s", self.listening_port)
async def join_network(self,
interface: typing.Optional[str] = '',
known_node_urls: typing.Optional[typing.List[
typing.Tuple[str, int]]] = None):
if not self.listening_port:
await self.start_listening(interface)
self.protocol.ping_queue.start()
self._refresh_task = self.loop.create_task(self.refresh_node())
# resolve the known node urls
known_node_addresses = []
url_to_addr = {}
if known_node_urls:
for host, port in known_node_urls:
address = await resolve_host(host, port, proto='udp')
if (address, port) not in known_node_addresses and\
(address, port) != (self.protocol.external_ip, self.protocol.udp_port):
known_node_addresses.append((address, port))
url_to_addr[address] = host
if known_node_addresses:
peers = [
KademliaPeer(self.loop, address, udp_port=port)
for (address, port) in known_node_addresses
]
while True:
if not self.protocol.routing_table.get_peers():
if self.joined.is_set():
self.joined.clear()
self.protocol.peer_manager.reset()
self.protocol.ping_queue.enqueue_maybe_ping(*peers,
delay=0.0)
peers.extend(await self.peer_search(self.protocol.node_id,
shortlist=peers,
count=32))
if self.protocol.routing_table.get_peers():
self.joined.set()
log.info(
"Joined DHT, %i peers known in %i buckets",
len(self.protocol.routing_table.get_peers()),
self.protocol.routing_table.buckets_with_contacts(
))
else:
continue
await asyncio.sleep(1, loop=self.loop)
log.info("Joined DHT, %i peers known in %i buckets",
len(self.protocol.routing_table.get_peers()),
self.protocol.routing_table.buckets_with_contacts())
self.joined.set()
def start(self, interface: str,
known_node_urls: typing.List[typing.Tuple[str, int]]):
self._join_task = self.loop.create_task(
self.join_network(interface=interface,
known_node_urls=known_node_urls))
def get_iterative_node_finder(
self,
key: bytes,
shortlist: typing.Optional[typing.List['KademliaPeer']] = None,
bottom_out_limit: int = constants.bottom_out_limit,
max_results: int = constants.k) -> IterativeNodeFinder:
return IterativeNodeFinder(self.loop, self.protocol.peer_manager,
self.protocol.routing_table, self.protocol,
key, bottom_out_limit, max_results, None,
shortlist)
def get_iterative_value_finder(
self,
key: bytes,
shortlist: typing.Optional[typing.List['KademliaPeer']] = None,
bottom_out_limit: int = 40,
max_results: int = -1) -> IterativeValueFinder:
return IterativeValueFinder(self.loop, self.protocol.peer_manager,
self.protocol.routing_table, self.protocol,
key, bottom_out_limit, max_results, None,
shortlist)
async def peer_search(
self,
node_id: bytes,
count=constants.k,
max_results=constants.k * 2,
bottom_out_limit=20,
shortlist: typing.Optional[typing.List['KademliaPeer']] = None
) -> typing.List['KademliaPeer']:
peers = []
async for iteration_peers in self.get_iterative_node_finder(
node_id,
shortlist=shortlist,
bottom_out_limit=bottom_out_limit,
max_results=max_results):
peers.extend(iteration_peers)
distance = Distance(node_id)
peers.sort(key=lambda peer: distance(peer.node_id))
return peers[:count]
async def _accumulate_search_junction(self, search_queue: asyncio.Queue,
result_queue: asyncio.Queue):
tasks = []
try:
while True:
blob_hash = await search_queue.get()
tasks.append(
self.loop.create_task(
self._value_producer(blob_hash, result_queue)))
finally:
for task in tasks:
task.cancel()
async def _value_producer(self, blob_hash: str,
result_queue: asyncio.Queue):
async for results in self.get_iterative_value_finder(
binascii.unhexlify(blob_hash.encode())):
result_queue.put_nowait(results)
def accumulate_peers(
self,
search_queue: asyncio.Queue,
peer_queue: typing.Optional[asyncio.Queue] = None
) -> typing.Tuple[asyncio.Queue, asyncio.Task]:
q = peer_queue or asyncio.Queue(loop=self.loop)
return q, self.loop.create_task(
self._accumulate_search_junction(search_queue, q))
class Node:
def __init__(self,
loop: asyncio.AbstractEventLoop,
peer_manager: 'PeerManager',
node_id: bytes,
udp_port: int,
internal_udp_port: int,
peer_port: int,
external_ip: str,
rpc_timeout: float = constants.RPC_TIMEOUT,
split_buckets_under_index: int = constants.
SPLIT_BUCKETS_UNDER_INDEX,
storage: typing.Optional['SQLiteStorage'] = None):
self.loop = loop
self.internal_udp_port = internal_udp_port
self.protocol = KademliaProtocol(loop, peer_manager, node_id,
external_ip, udp_port, peer_port,
rpc_timeout,
split_buckets_under_index)
self.listening_port: asyncio.DatagramTransport = None
self.joined = asyncio.Event(loop=self.loop)
self._join_task: asyncio.Task = None
self._refresh_task: asyncio.Task = None
self._storage = storage
async def refresh_node(self, force_once=False):
while True:
# remove peers with expired blob announcements from the datastore
self.protocol.data_store.removed_expired_peers()
total_peers: typing.List['KademliaPeer'] = []
# add all peers in the routing table
total_peers.extend(self.protocol.routing_table.get_peers())
# add all the peers who have announced blobs to us
total_peers.extend(self.protocol.data_store.get_storing_contacts())
# get ids falling in the midpoint of each bucket that hasn't been recently updated
node_ids = self.protocol.routing_table.get_refresh_list(0, True)
# if we have 3 or fewer populated buckets get two random ids in the range of each to try and
# populate/split the buckets further
buckets_with_contacts = self.protocol.routing_table.buckets_with_contacts(
)
if buckets_with_contacts <= 3:
for i in range(buckets_with_contacts):
node_ids.append(
self.protocol.routing_table.random_id_in_bucket_range(
i))
node_ids.append(
self.protocol.routing_table.random_id_in_bucket_range(
i))
if self.protocol.routing_table.get_peers():
# if we have node ids to look up, perform the iterative search until we have k results
while node_ids:
peers = await self.peer_search(node_ids.pop())
total_peers.extend(peers)
else:
if force_once:
break
fut = asyncio.Future(loop=self.loop)
self.loop.call_later(constants.REFRESH_INTERVAL // 4,
fut.set_result, None)
await fut
continue
# ping the set of peers; upon success/failure the routing able and last replied/failed time will be updated
to_ping = [
peer for peer in set(total_peers)
if self.protocol.peer_manager.peer_is_good(peer) is not True
]
if to_ping:
self.protocol.ping_queue.enqueue_maybe_ping(*to_ping, delay=0)
if self._storage:
await self._storage.save_kademlia_peers(
self.protocol.routing_table.get_peers())
if force_once:
break
fut = asyncio.Future(loop=self.loop)
self.loop.call_later(constants.REFRESH_INTERVAL, fut.set_result,
None)
await fut
async def announce_blob(self, blob_hash: str) -> typing.List[bytes]:
hash_value = binascii.unhexlify(blob_hash.encode())
assert len(hash_value) == constants.HASH_LENGTH
peers = await self.peer_search(hash_value)
if not self.protocol.external_ip:
raise Exception("Cannot determine external IP")
log.debug("Store to %i peers", len(peers))
for peer in peers:
log.debug("store to %s %s %s", peer.address, peer.udp_port,
peer.tcp_port)
stored_to_tup = await asyncio.gather(
*(self.protocol.store_to_peer(hash_value, peer) for peer in peers),
loop=self.loop)
stored_to = [
node_id for node_id, contacted in stored_to_tup if contacted
]
if stored_to:
log.debug("Stored %s to %i of %i attempted peers",
binascii.hexlify(hash_value).decode()[:8],
len(stored_to), len(peers))
else:
log.debug("Failed announcing %s, stored to 0 peers", blob_hash[:8])
return stored_to
def stop(self) -> None:
if self.joined.is_set():
self.joined.clear()
if self._join_task:
self._join_task.cancel()
if self._refresh_task and not (self._refresh_task.done()
or self._refresh_task.cancelled()):
self._refresh_task.cancel()
if self.protocol and self.protocol.ping_queue.running:
self.protocol.ping_queue.stop()
self.protocol.stop()
if self.listening_port is not None:
self.listening_port.close()
self._join_task = None
self.listening_port = None
log.info("Stopped DHT node")
async def start_listening(self, interface: str = '0.0.0.0') -> None:
if not self.listening_port:
self.listening_port, _ = await self.loop.create_datagram_endpoint(
lambda: self.protocol, (interface, self.internal_udp_port))
log.info("DHT node listening on UDP %s:%i", interface,
self.internal_udp_port)
self.protocol.start()
else:
log.warning("Already bound to port %s", self.listening_port)
async def join_network(self,
interface: str = '0.0.0.0',
known_node_urls: typing.Optional[typing.List[
typing.Tuple[str, int]]] = None):
def peers_from_urls(
urls: typing.Optional[typing.List[typing.Tuple[bytes, str, int,
int]]]):
peer_addresses = []
for node_id, address, udp_port, tcp_port in urls:
if (node_id, address, udp_port, tcp_port) not in peer_addresses and \
(address, udp_port) != (self.protocol.external_ip, self.protocol.udp_port):
peer_addresses.append(
(node_id, address, udp_port, tcp_port))
return [
make_kademlia_peer(*peer_address)
for peer_address in peer_addresses
]
if not self.listening_port:
await self.start_listening(interface)
self.protocol.ping_queue.start()
self._refresh_task = self.loop.create_task(self.refresh_node())
while True:
if self.protocol.routing_table.get_peers():
if not self.joined.is_set():
self.joined.set()
log.info(
"joined dht, %i peers known in %i buckets",
len(self.protocol.routing_table.get_peers()),
self.protocol.routing_table.buckets_with_contacts())
else:
if self.joined.is_set():
self.joined.clear()
seed_peers = peers_from_urls(
await self._storage.get_persisted_kademlia_peers(
)) if self._storage else []
if not seed_peers:
try:
seed_peers.extend(
peers_from_urls([
(None, await
resolve_host(address, udp_port,
'udp'), udp_port, None)
for address, udp_port in known_node_urls or []
]))
except socket.gaierror:
await asyncio.sleep(30, loop=self.loop)
continue
self.protocol.peer_manager.reset()
self.protocol.ping_queue.enqueue_maybe_ping(*seed_peers,
delay=0.0)
await self.peer_search(self.protocol.node_id,
shortlist=seed_peers,
count=32)
await asyncio.sleep(1, loop=self.loop)
def start(self,
interface: str,
known_node_urls: typing.Optional[typing.List[typing.Tuple[
str, int]]] = None):
self._join_task = self.loop.create_task(
self.join_network(interface, known_node_urls))
def get_iterative_node_finder(
self,
key: bytes,
shortlist: typing.Optional[typing.List['KademliaPeer']] = None,
bottom_out_limit: int = constants.BOTTOM_OUT_LIMIT,
max_results: int = constants.K) -> IterativeNodeFinder:
return IterativeNodeFinder(self.loop, self.protocol.peer_manager,
self.protocol.routing_table, self.protocol,
key, bottom_out_limit, max_results, None,
shortlist)
def get_iterative_value_finder(
self,
key: bytes,
shortlist: typing.Optional[typing.List['KademliaPeer']] = None,
bottom_out_limit: int = 40,
max_results: int = -1) -> IterativeValueFinder:
return IterativeValueFinder(self.loop, self.protocol.peer_manager,
self.protocol.routing_table, self.protocol,
key, bottom_out_limit, max_results, None,
shortlist)
async def peer_search(
self,
node_id: bytes,
count=constants.K,
max_results=constants.K * 2,
bottom_out_limit=20,
shortlist: typing.Optional[typing.List['KademliaPeer']] = None
) -> typing.List['KademliaPeer']:
peers = []
async for iteration_peers in self.get_iterative_node_finder(
node_id,
shortlist=shortlist,
bottom_out_limit=bottom_out_limit,
max_results=max_results):
peers.extend(iteration_peers)
distance = Distance(node_id)
peers.sort(key=lambda peer: distance(peer.node_id))
return peers[:count]
async def _accumulate_peers_for_value(self, search_queue: asyncio.Queue,
result_queue: asyncio.Queue):
tasks = []
try:
while True:
blob_hash = await search_queue.get()
tasks.append(
self.loop.create_task(
self._peers_for_value_producer(blob_hash,
result_queue)))
finally:
for task in tasks:
task.cancel()
async def _peers_for_value_producer(self, blob_hash: str,
result_queue: asyncio.Queue):
async def put_into_result_queue_after_pong(_peer):
try:
await self.protocol.get_rpc_peer(_peer).ping()
result_queue.put_nowait([_peer])
log.debug("pong from %s:%i for %s", _peer.address,
_peer.udp_port, blob_hash)
except asyncio.TimeoutError:
pass
# prioritize peers who reply to a dht ping first
# this minimizes attempting to make tcp connections that won't work later to dead or unreachable peers
async for results in self.get_iterative_value_finder(
binascii.unhexlify(blob_hash.encode())):
to_put = []
for peer in results:
if peer.address == self.protocol.external_ip and self.protocol.peer_port == peer.tcp_port:
continue
is_good = self.protocol.peer_manager.peer_is_good(peer)
if is_good:
# the peer has replied recently over UDP, it can probably be reached on the TCP port
to_put.append(peer)
elif is_good is None:
if not peer.udp_port:
# TODO: use the same port for TCP and UDP
# the udp port must be guessed
# default to the ports being the same. if the TCP port appears to be <=0.48.0 default,
# including on a network with several nodes, then assume the udp port is proportionately
# based on a starting port of 4444
udp_port_to_try = peer.tcp_port
if 3400 > peer.tcp_port > 3332:
udp_port_to_try = (peer.tcp_port - 3333) + 4444
self.loop.create_task(
put_into_result_queue_after_pong(
make_kademlia_peer(peer.node_id, peer.address,
udp_port_to_try,
peer.tcp_port)))
else:
self.loop.create_task(
put_into_result_queue_after_pong(peer))
else:
# the peer is known to be bad/unreachable, skip trying to connect to it over TCP
log.debug("skip bad peer %s:%i for %s", peer.address,
peer.tcp_port, blob_hash)
if to_put:
result_queue.put_nowait(to_put)
def accumulate_peers(
self,
search_queue: asyncio.Queue,
peer_queue: typing.Optional[asyncio.Queue] = None
) -> typing.Tuple[asyncio.Queue, asyncio.Task]:
queue = peer_queue or asyncio.Queue(loop=self.loop)
return queue, self.loop.create_task(
self._accumulate_peers_for_value(search_queue, queue))
async def test_store_to_peer(self):
loop = asyncio.get_event_loop()
with dht_mocks.mock_network_loop(loop):
node_id1 = constants.generate_id()
peer1 = KademliaProtocol(loop, PeerManager(loop), node_id1,
'1.2.3.4', 4444, 3333)
peer2 = KademliaProtocol(loop, PeerManager(loop),
constants.generate_id(), '1.2.3.5', 4444,
3333)
await loop.create_datagram_endpoint(lambda: peer1,
('1.2.3.4', 4444))
await loop.create_datagram_endpoint(lambda: peer2,
('1.2.3.5', 4444))
peer = make_kademlia_peer(node_id1, '1.2.3.4', udp_port=4444)
peer2_from_peer1 = make_kademlia_peer(peer2.node_id,
peer2.external_ip,
udp_port=peer2.udp_port)
peer2_from_peer1.update_tcp_port(3333)
peer3 = make_kademlia_peer(constants.generate_id(),
'1.2.3.6',
udp_port=4444)
store_result = await peer2.store_to_peer(b'2' * 48, peer)
self.assertEqual(store_result[0], peer.node_id)
self.assertEqual(True, store_result[1])
self.assertEqual(True,
peer1.data_store.has_peers_for_blob(b'2' * 48))
self.assertEqual(False,
peer1.data_store.has_peers_for_blob(b'3' * 48))
self.assertListEqual([peer2_from_peer1],
peer1.data_store.get_storing_contacts())
peer1.data_store.completed_blobs.add(
binascii.hexlify(b'2' * 48).decode())
find_value_response = peer1.node_rpc.find_value(peer3, b'2' * 48)
self.assertEqual(len(find_value_response[b'contacts']), 0)
self.assertSetEqual(
{b'2' * 48, b'token', b'protocolVersion', b'contacts', b'p'},
set(find_value_response.keys()))
self.assertEqual(2, len(find_value_response[b'2' * 48]))
self.assertEqual(find_value_response[b'2' * 48][0],
peer2_from_peer1.compact_address_tcp())
self.assertDictEqual(bdecode(bencode(find_value_response)),
find_value_response)
find_value_page_above_pages_response = peer1.node_rpc.find_value(
peer3, b'2' * 48, page=10)
self.assertNotIn(b'2' * 48, find_value_page_above_pages_response)
peer1.stop()
peer2.stop()
peer1.disconnect()
peer2.disconnect()
async def test_update_token(self):
loop = asyncio.get_event_loop()
with dht_mocks.mock_network_loop(loop):
node_id1 = constants.generate_id()
peer1 = KademliaProtocol(loop, PeerManager(loop), node_id1,
'1.2.3.4', 4444, 3333)
peer2 = KademliaProtocol(loop, PeerManager(loop),
constants.generate_id(), '1.2.3.5', 4444,
3333)
await loop.create_datagram_endpoint(lambda: peer1,
('1.2.3.4', 4444))
await loop.create_datagram_endpoint(lambda: peer2,
('1.2.3.5', 4444))
peer = make_kademlia_peer(node_id1, '1.2.3.4', udp_port=4444)
self.assertEqual(None,
peer2.peer_manager.get_node_token(peer.node_id))
await peer2.get_rpc_peer(peer).find_value(b'1' * 48)
self.assertNotEqual(
None, peer2.peer_manager.get_node_token(peer.node_id))
peer1.stop()
peer2.stop()
peer1.disconnect()
peer2.disconnect()
async def test_ping(self):
loop = asyncio.get_event_loop()
with dht_mocks.mock_network_loop(loop):
node_id1 = constants.generate_id()
peer1 = KademliaProtocol(loop, PeerManager(loop), node_id1,
'1.2.3.4', 4444, 3333)
peer2 = KademliaProtocol(loop, PeerManager(loop),
constants.generate_id(), '1.2.3.5', 4444,
3333)
await loop.create_datagram_endpoint(lambda: peer1,
('1.2.3.4', 4444))
await loop.create_datagram_endpoint(lambda: peer2,
('1.2.3.5', 4444))
peer = make_kademlia_peer(node_id1, '1.2.3.4', udp_port=4444)
result = await peer2.get_rpc_peer(peer).ping()
self.assertEqual(result, b'pong')
peer1.stop()
peer2.stop()
peer1.disconnect()
peer2.disconnect()
