lbry-sdk/lbrynet/dht/protocol/protocol.py

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import logging
import socket
import functools
import hashlib
import asyncio
import typing
import binascii
from asyncio.protocols import DatagramProtocol
from asyncio.transports import DatagramTransport
from lbrynet.dht import constants
from lbrynet.dht.serialization.datagram import decode_datagram, ErrorDatagram, ResponseDatagram, RequestDatagram
from lbrynet.dht.serialization.datagram import RESPONSE_TYPE, ERROR_TYPE
from lbrynet.dht.error import RemoteException, TransportNotConnected
from lbrynet.dht.protocol.routing_table import TreeRoutingTable
from lbrynet.dht.protocol.data_store import DictDataStore
if typing.TYPE_CHECKING:
from lbrynet.dht.peer import PeerManager, KademliaPeer
log = logging.getLogger(__name__)
old_protocol_errors = {
"findNode() takes exactly 2 arguments (5 given)": "0.19.1",
"findValue() takes exactly 2 arguments (5 given)": "0.19.1"
}
class KademliaRPC:
def __init__(self, protocol: 'KademliaProtocol', loop: asyncio.BaseEventLoop, peer_port: int = 3333):
self.protocol = protocol
self.loop = loop
self.peer_port = peer_port
self.old_token_secret: bytes = None
self.token_secret = constants.generate_id()
def compact_address(self):
compact_ip = functools.reduce(lambda buff, x: buff + bytearray([int(x)]),
self.protocol.external_ip.split('.'), bytearray())
compact_port = self.peer_port.to_bytes(2, 'big')
return compact_ip + compact_port + self.protocol.node_id
@staticmethod
def ping():
return b'pong'
def store(self, rpc_contact: 'KademliaPeer', blob_hash: bytes, token: bytes, port: int,
original_publisher_id: bytes, age: int) -> bytes:
if original_publisher_id is None:
original_publisher_id = rpc_contact.node_id
rpc_contact.update_tcp_port(port)
if self.loop.time() - self.protocol.started_listening_time < constants.token_secret_refresh_interval:
pass
elif not self.verify_token(token, rpc_contact.compact_ip()):
raise ValueError("Invalid token")
now = int(self.loop.time())
originally_published = now - age
self.protocol.data_store.add_peer_to_blob(
rpc_contact, blob_hash, rpc_contact.compact_address_tcp(), now, originally_published, original_publisher_id
)
return b'OK'
def find_node(self, rpc_contact: 'KademliaPeer', key: bytes) -> typing.List[typing.Tuple[bytes, str, int]]:
if len(key) != constants.hash_length:
raise ValueError("invalid contact node_id length: %i" % len(key))
contacts = self.protocol.routing_table.find_close_peers(key, sender_node_id=rpc_contact.node_id)
contact_triples = []
for contact in contacts:
contact_triples.append((contact.node_id, contact.address, contact.udp_port))
return contact_triples
def find_value(self, rpc_contact: 'KademliaPeer', key: bytes):
if len(key) != constants.hash_length:
raise ValueError("invalid blob_exchange hash length: %i" % len(key))
response = {
b'token': self.make_token(rpc_contact.compact_ip()),
}
if self.protocol.protocol_version:
response[b'protocolVersion'] = self.protocol.protocol_version
# get peers we have stored for this blob_exchange
has_other_peers = self.protocol.data_store.has_peers_for_blob(key)
peers = []
if has_other_peers:
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peers.extend([peer.compact_address_tcp() for peer in self.protocol.data_store.get_peers_for_blob(key)])
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# if we don't have k storing peers to return and we have this hash locally, include our contact information
if len(peers) < constants.k and binascii.hexlify(key).decode() in self.protocol.data_store.completed_blobs:
peers.append(self.compact_address())
if peers:
response[key] = peers
else:
response[b'contacts'] = self.find_node(rpc_contact, key)
return response
def refresh_token(self): # TODO: this needs to be called periodically
self.old_token_secret = self.token_secret
self.token_secret = constants.generate_id()
def make_token(self, compact_ip):
h = hashlib.new('sha384')
h.update(self.token_secret + compact_ip)
return h.digest()
def verify_token(self, token, compact_ip):
h = hashlib.new('sha384')
h.update(self.token_secret + compact_ip)
if self.old_token_secret and not token == h.digest(): # TODO: why should we be accepting the previous token?
h = hashlib.new('sha384')
h.update(self.old_token_secret + compact_ip)
if not token == h.digest():
return False
return True
class RemoteKademliaRPC:
"""
Encapsulates RPC calls to remote Peers
"""
def __init__(self, loop: asyncio.BaseEventLoop, peer_tracker: 'PeerManager', protocol: 'KademliaProtocol',
peer: 'KademliaPeer'):
self.loop = loop
self.peer_tracker = peer_tracker
self.protocol = protocol
self.peer = peer
async def ping(self) -> bytes:
"""
:return: b'pong'
"""
response = await self.protocol.send_request(
self.peer, RequestDatagram.make_ping(self.protocol.node_id)
)
return response.response
async def store(self, blob_hash: bytes) -> bytes:
"""
:param blob_hash: blob hash as bytes
:return: b'OK'
"""
if len(blob_hash) != constants.hash_bits // 8:
raise ValueError(f"invalid length of blob hash: {len(blob_hash)}")
if not self.protocol.peer_port or not 0 < self.protocol.peer_port < 65535:
raise ValueError(f"invalid tcp port: {self.protocol.peer_port}")
token = self.peer_tracker.get_node_token(self.peer.node_id)
if not token:
find_value_resp = await self.find_value(blob_hash)
token = find_value_resp[b'token']
response = await self.protocol.send_request(
self.peer, RequestDatagram.make_store(self.protocol.node_id, blob_hash, token, self.protocol.peer_port)
)
return response.response
async def find_node(self, key: bytes) -> typing.List[typing.Tuple[bytes, str, int]]:
"""
:return: [(node_id, address, udp_port), ...]
"""
if len(key) != constants.hash_bits // 8:
raise ValueError(f"invalid length of find node key: {len(key)}")
response = await self.protocol.send_request(
self.peer, RequestDatagram.make_find_node(self.protocol.node_id, key)
)
return [(node_id, address.decode(), udp_port) for node_id, address, udp_port in response.response]
async def find_value(self, key: bytes) -> typing.Union[typing.Dict]:
"""
:return: {
b'token': <token bytes>,
b'contacts': [(node_id, address, udp_port), ...]
<key bytes>: [<blob_peer_compact_address, ...]
}
"""
if len(key) != constants.hash_bits // 8:
raise ValueError(f"invalid length of find value key: {len(key)}")
response = await self.protocol.send_request(
self.peer, RequestDatagram.make_find_value(self.protocol.node_id, key)
)
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self.peer_tracker.update_token(self.peer.node_id, response.response[b'token'])
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return response.response
class PingQueue:
def __init__(self, loop: asyncio.BaseEventLoop, protocol: 'KademliaProtocol'):
self._loop = loop
self._protocol = protocol
self._enqueued_contacts: typing.List['KademliaPeer'] = []
self._pending_contacts: typing.Dict['KademliaPeer', float] = {}
self._process_task: asyncio.Task = None
self._next_task: asyncio.Future = None
self._next_timer: asyncio.TimerHandle = None
self._lock = asyncio.Lock()
self._running = False
@property
def running(self):
return self._running
async def enqueue_maybe_ping(self, *peers: 'KademliaPeer', delay: typing.Optional[float] = None):
delay = constants.check_refresh_interval if delay is None else delay
async with self._lock:
for peer in peers:
if delay and peer not in self._enqueued_contacts:
self._pending_contacts[peer] = self._loop.time() + delay
elif peer not in self._enqueued_contacts:
self._enqueued_contacts.append(peer)
if peer in self._pending_contacts:
del self._pending_contacts[peer]
async def _process(self):
async def _ping(p: 'KademliaPeer'):
try:
if self._protocol.peer_manager.peer_is_good(p):
await self._protocol.add_peer(p)
return
await self._protocol.get_rpc_peer(p).ping()
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except asyncio.TimeoutError:
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pass
while True:
tasks = []
async with self._lock:
if self._enqueued_contacts or self._pending_contacts:
now = self._loop.time()
scheduled = [k for k, d in self._pending_contacts.items() if now >= d]
for k in scheduled:
del self._pending_contacts[k]
if k not in self._enqueued_contacts:
self._enqueued_contacts.append(k)
while self._enqueued_contacts:
peer = self._enqueued_contacts.pop()
tasks.append(self._loop.create_task(_ping(peer)))
if tasks:
await asyncio.wait(tasks, loop=self._loop)
f = self._loop.create_future()
self._loop.call_later(1.0, lambda: None if f.done() else f.set_result(None))
await f
def start(self):
assert not self._running
self._running = True
if not self._process_task:
self._process_task = self._loop.create_task(self._process())
def stop(self):
assert self._running
self._running = False
if self._process_task:
self._process_task.cancel()
self._process_task = None
if self._next_task:
self._next_task.cancel()
self._next_task = None
if self._next_timer:
self._next_timer.cancel()
self._next_timer = None
class KademliaProtocol(DatagramProtocol):
def __init__(self, loop: asyncio.BaseEventLoop, peer_manager: 'PeerManager', node_id: bytes, external_ip: str,
udp_port: int, peer_port: int, rpc_timeout: float = 5.0):
self.peer_manager = peer_manager
self.loop = loop
self.node_id = node_id
self.external_ip = external_ip
self.udp_port = udp_port
self.peer_port = peer_port
self.is_seed_node = False
self.partial_messages: typing.Dict[bytes, typing.Dict[bytes, bytes]] = {}
self.sent_messages: typing.Dict[bytes, typing.Tuple['KademliaPeer', asyncio.Future, RequestDatagram]] = {}
self.protocol_version = constants.protocol_version
self.started_listening_time = 0
self.transport: DatagramTransport = None
self.old_token_secret = constants.generate_id()
self.token_secret = constants.generate_id()
self.routing_table = TreeRoutingTable(self.loop, self.peer_manager, self.node_id)
self.data_store = DictDataStore(self.loop, self.peer_manager)
self.ping_queue = PingQueue(self.loop, self)
self.node_rpc = KademliaRPC(self, self.loop, self.peer_port)
self.lock = asyncio.Lock(loop=self.loop)
self.rpc_timeout = rpc_timeout
self._split_lock = asyncio.Lock(loop=self.loop)
def get_rpc_peer(self, peer: 'KademliaPeer') -> RemoteKademliaRPC:
return RemoteKademliaRPC(self.loop, self.peer_manager, self, peer)
def stop(self):
if self.transport:
self.disconnect()
def disconnect(self):
self.transport.close()
def connection_made(self, transport: DatagramTransport):
self.transport = transport
def connection_lost(self, exc):
self.stop()
@staticmethod
def _migrate_incoming_rpc_args(peer: 'KademliaPeer', method: bytes, *args) -> typing.Tuple[typing.Tuple,
typing.Dict]:
if method == b'store' and peer.protocol_version == 0:
if isinstance(args[1], dict):
blob_hash = args[0]
token = args[1].pop(b'token', None)
port = args[1].pop(b'port', -1)
original_publisher_id = args[1].pop(b'lbryid', None)
age = 0
return (blob_hash, token, port, original_publisher_id, age), {}
return args, {}
async def _add_peer(self, peer: 'KademliaPeer'):
bucket_index = self.routing_table.kbucket_index(peer.node_id)
if self.routing_table.buckets[bucket_index].add_peer(peer):
return True
# The bucket is full; see if it can be split (by checking if its range includes the host node's node_id)
if self.routing_table.should_split(bucket_index, peer.node_id):
self.routing_table.split_bucket(bucket_index)
# Retry the insertion attempt
result = await self._add_peer(peer)
self.routing_table.join_buckets()
return result
else:
# We can't split the k-bucket
#
# The 13 page kademlia paper specifies that the least recently contacted node in the bucket
# shall be pinged. If it fails to reply it is replaced with the new contact. If the ping is successful
# the new contact is ignored and not added to the bucket (sections 2.2 and 2.4).
#
# A reasonable extension to this is BEP 0005, which extends the above:
#
# Not all nodes that we learn about are equal. Some are "good" and some are not.
# Many nodes using the DHT are able to send queries and receive responses,
# but are not able to respond to queries from other nodes. It is important that
# each node's routing table must contain only known good nodes. A good node is
# a node has responded to one of our queries within the last 15 minutes. A node
# is also good if it has ever responded to one of our queries and has sent us a
# query within the last 15 minutes. After 15 minutes of inactivity, a node becomes
# questionable. Nodes become bad when they fail to respond to multiple queries
# in a row. Nodes that we know are good are given priority over nodes with unknown status.
#
# When there are bad or questionable nodes in the bucket, the least recent is selected for
# potential replacement (BEP 0005). When all nodes in the bucket are fresh, the head (least recent)
# contact is selected as described in section 2.2 of the kademlia paper. In both cases the new contact
# is ignored if the pinged node replies.
not_good_contacts = self.routing_table.buckets[bucket_index].get_bad_or_unknown_peers()
not_recently_replied = []
for p in not_good_contacts:
last_replied = self.peer_manager.get_last_replied(p.address, p.udp_port)
if not last_replied or last_replied + 60 < self.loop.time():
not_recently_replied.append(p)
if not_recently_replied:
to_replace = not_recently_replied[0]
else:
to_replace = self.routing_table.buckets[bucket_index].peers[0]
last_replied = self.peer_manager.get_last_replied(to_replace.address, to_replace.udp_port)
if last_replied and last_replied + 60 > self.loop.time():
return False
log.debug("pinging %s:%s", to_replace.address, to_replace.udp_port)
try:
to_replace_rpc = self.get_rpc_peer(to_replace)
await to_replace_rpc.ping()
return False
except asyncio.TimeoutError:
log.debug("Replacing dead contact in bucket %i: %s:%i with %s:%i ", bucket_index,
to_replace.address, to_replace.udp_port, peer.address, peer.udp_port)
if to_replace in self.routing_table.buckets[bucket_index]:
self.routing_table.buckets[bucket_index].remove_peer(to_replace)
return await self._add_peer(peer)
async def add_peer(self, peer: 'KademliaPeer') -> bool:
if peer.node_id == self.node_id:
return False
async with self._split_lock:
return await self._add_peer(peer)
async def _handle_rpc(self, sender_contact: 'KademliaPeer', message: RequestDatagram):
assert sender_contact.node_id != self.node_id, (binascii.hexlify(sender_contact.node_id)[:8].decode(),
binascii.hexlify(self.node_id)[:8].decode())
method = message.method
if method not in [b'ping', b'store', b'findNode', b'findValue']:
raise AttributeError('Invalid method: %s' % message.method.decode())
if message.args and isinstance(message.args[-1], dict) and b'protocolVersion' in message.args[-1]:
# args don't need reformatting
a, kw = tuple(message.args[:-1]), message.args[-1]
else:
a, kw = self._migrate_incoming_rpc_args(sender_contact, message.method, *message.args)
log.debug("%s:%i RECV CALL %s %s:%i", self.external_ip, self.udp_port, message.method.decode(),
sender_contact.address, sender_contact.udp_port)
if method == b'ping':
result = self.node_rpc.ping()
elif method == b'store':
blob_hash, token, port, original_publisher_id, age = a
result = self.node_rpc.store(sender_contact, blob_hash, token, port, original_publisher_id, age)
elif method == b'findNode':
key, = a
result = self.node_rpc.find_node(sender_contact, key)
else:
assert method == b'findValue'
key, = a
result = self.node_rpc.find_value(sender_contact, key)
await self.send_response(
sender_contact, ResponseDatagram(RESPONSE_TYPE, message.rpc_id, self.node_id, result),
)
async def handle_request_datagram(self, address, request_datagram: RequestDatagram):
# This is an RPC method request
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self.peer_manager.report_last_requested(address[0], address[1])
self.peer_manager.update_contact_triple(request_datagram.node_id, address[0], address[1])
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# only add a requesting contact to the routing table if it has replied to one of our requests
peer = self.peer_manager.get_kademlia_peer(request_datagram.node_id, address[0], address[1])
try:
await self._handle_rpc(peer, request_datagram)
# if the contact is not known to be bad (yet) and we haven't yet queried it, send it a ping so that it
# will be added to our routing table if successful
is_good = self.peer_manager.peer_is_good(peer)
if is_good is None:
await self.ping_queue.enqueue_maybe_ping(peer)
elif is_good is True:
await self.add_peer(peer)
except Exception as err:
log.warning("error raised handling %s request from %s:%i - %s(%s)",
request_datagram.method, peer.address, peer.udp_port, str(type(err)),
str(err))
await self.send_error(
peer,
ErrorDatagram(ERROR_TYPE, request_datagram.rpc_id, self.node_id, str(type(err)).encode(),
str(err).encode())
)
async def handle_response_datagram(self, address: typing.Tuple[str, int], response_datagram: ResponseDatagram):
# Find the message that triggered this response
if response_datagram.rpc_id in self.sent_messages:
peer, df, request = self.sent_messages[response_datagram.rpc_id]
if peer.address != address[0]:
df.set_exception(RemoteException(
f"response from {address[0]}:{address[1]}, "
f"expected {peer.address}:{peer.udp_port}")
)
return
peer.set_id(response_datagram.node_id)
# We got a result from the RPC
if peer.node_id == self.node_id:
df.set_exception(RemoteException("node has our node id"))
return
elif response_datagram.node_id == self.node_id:
df.set_exception(RemoteException("incoming message is from our node id"))
return
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self.peer_manager.report_last_replied(address[0], address[1])
self.peer_manager.update_contact_triple(peer.node_id, address[0], address[1])
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if not df.cancelled():
df.set_result(response_datagram)
await self.add_peer(peer)
else:
log.warning("%s:%i replied, but after we cancelled the request attempt",
peer.address, peer.udp_port)
else:
# If the original message isn't found, it must have timed out
# TODO: we should probably do something with this...
pass
def handle_error_datagram(self, address, error_datagram: ErrorDatagram):
# The RPC request raised a remote exception; raise it locally
remote_exception = RemoteException(f"{error_datagram.exception_type}({error_datagram.response})")
if error_datagram.rpc_id in self.sent_messages:
peer, df, request = self.sent_messages.pop(error_datagram.rpc_id)
error_msg = f"" \
f"Error sending '{request.method}' to {peer.address}:{peer.udp_port}\n" \
f"Args: {request.args}\n" \
f"Raised: {str(remote_exception)}"
if error_datagram.response not in old_protocol_errors:
log.warning(error_msg)
else:
log.warning("known dht protocol backwards compatibility error with %s:%i (lbrynet v%s)",
peer.address, peer.udp_port, old_protocol_errors[error_datagram.response])
# reject replies coming from a different address than what we sent our request to
if (peer.address, peer.udp_port) != address:
log.error("node id mismatch in reply")
remote_exception = TimeoutError(peer.node_id)
df.set_exception(remote_exception)
return
else:
if error_datagram.response not in old_protocol_errors:
msg = f"Received error from {address[0]}:{address[1]}, but it isn't in response to a " \
f"pending request: {str(remote_exception)}"
log.warning(msg)
else:
log.warning("known dht protocol backwards compatibility error with %s:%i (lbrynet v%s)",
address[0], address[1], old_protocol_errors[error_datagram.response])
def datagram_received(self, datagram: bytes, address: typing.Tuple[str, int]) -> None:
try:
message = decode_datagram(datagram)
except (ValueError, TypeError):
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self.peer_manager.report_failure(address[0], address[1])
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log.warning("Couldn't decode dht datagram from %s: %s", address, binascii.hexlify(datagram).decode())
return
if isinstance(message, RequestDatagram):
self.loop.create_task(self.handle_request_datagram(address, message))
elif isinstance(message, ErrorDatagram):
self.handle_error_datagram(address, message)
else:
assert isinstance(message, ResponseDatagram), "sanity"
self.loop.create_task(self.handle_response_datagram(address, message))
async def send_request(self, peer: 'KademliaPeer', request: RequestDatagram) -> ResponseDatagram:
await self._send(peer, request)
response_fut = self.sent_messages[request.rpc_id][1]
try:
response = await asyncio.wait_for(response_fut, self.rpc_timeout)
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self.peer_manager.report_last_replied(peer.address, peer.udp_port)
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return response
except (asyncio.TimeoutError, RemoteException):
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self.peer_manager.report_failure(peer.address, peer.udp_port)
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if self.peer_manager.peer_is_good(peer) is False:
self.routing_table.remove_peer(peer)
raise
async def send_response(self, peer: 'KademliaPeer', response: ResponseDatagram):
await self._send(peer, response)
async def send_error(self, peer: 'KademliaPeer', error: ErrorDatagram):
await self._send(peer, error)
async def _send(self, peer: 'KademliaPeer', message: typing.Union[RequestDatagram, ResponseDatagram,
ErrorDatagram]):
if not self.transport:
raise TransportNotConnected()
data = message.bencode()
if len(data) > constants.msg_size_limit:
log.exception("unexpected: %i vs %i", len(data), constants.msg_size_limit)
raise ValueError()
if isinstance(message, (RequestDatagram, ResponseDatagram)):
assert message.node_id == self.node_id, message
if isinstance(message, RequestDatagram):
assert self.node_id != peer.node_id
def pop_from_sent_messages(_):
if message.rpc_id in self.sent_messages:
self.sent_messages.pop(message.rpc_id)
async with self.lock:
if isinstance(message, RequestDatagram):
response_fut = self.loop.create_future()
response_fut.add_done_callback(pop_from_sent_messages)
self.sent_messages[message.rpc_id] = (peer, response_fut, message)
try:
self.transport.sendto(data, (peer.address, peer.udp_port))
except OSError as err:
# TODO: handle ENETUNREACH
if err.errno == socket.EWOULDBLOCK:
# i'm scared this may swallow important errors, but i get a million of these
# on Linux and it doesn't seem to affect anything -grin
log.warning("Can't send data to dht: EWOULDBLOCK")
else:
log.error("DHT socket error sending %i bytes to %s:%i - %s (code %i)",
len(data), peer.address, peer.udp_port, str(err), err.errno)
if isinstance(message, RequestDatagram):
self.sent_messages[message.rpc_id][1].set_exception(err)
else:
raise err
if isinstance(message, RequestDatagram):
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self.peer_manager.report_last_sent(peer.address, peer.udp_port)
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elif isinstance(message, ErrorDatagram):
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self.peer_manager.report_failure(peer.address, peer.udp_port)
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def change_token(self):
self.old_token_secret = self.token_secret
self.token_secret = constants.generate_id()
def make_token(self, compact_ip):
return constants.digest(self.token_secret + compact_ip)
def verify_token(self, token, compact_ip):
h = constants.hash_class()
h.update(self.token_secret + compact_ip)
if self.old_token_secret and not token == h.digest(): # TODO: why should we be accepting the previous token?
h = constants.hash_class()
h.update(self.old_token_secret + compact_ip)
if not token == h.digest():
return False
return True
async def store_to_peer(self, hash_value: bytes, peer: 'KademliaPeer') -> typing.Tuple[bytes, bool]:
try:
res = await self.get_rpc_peer(peer).store(hash_value)
if res != b"OK":
raise ValueError(res)
log.info("Stored %s to %s", binascii.hexlify(hash_value).decode()[:8], peer)
return peer.node_id, True
except asyncio.TimeoutError:
log.debug("Timeout while storing blob_hash %s at %s", binascii.hexlify(hash_value).decode()[:8], peer)
except ValueError as err:
log.error("Unexpected response: %s" % err)
except Exception as err:
if 'Invalid token' in str(err):
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self.peer_manager.clear_token(peer.node_id)
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else:
log.exception("Unexpected error while storing blob_hash")
return peer.node_id, False
def _write(self, data: bytes, address: typing.Tuple[str, int]):
if self.transport:
try:
self.transport.sendto(data, address)
except OSError as err:
if err.errno == socket.EWOULDBLOCK:
# i'm scared this may swallow important errors, but i get a million of these
# on Linux and it doesn't seem to affect anything -grin
log.warning("Can't send data to dht: EWOULDBLOCK")
# elif err.errno == socket.ENETUNREACH:
# # this should probably try to retransmit when the network connection is back
# log.error("Network is unreachable")
else:
log.error("DHT socket error sending %i bytes to %s:%i - %s (code %i)",
len(data), address[0], address[1], str(err), err.errno)
raise err
else:
raise TransportNotConnected()