예제 #1
0
async def test_alexandria_network_find_nodes_api(alice, bob,
                                                 alice_alexandria_network,
                                                 bob_alexandria_client):
    distances = {0}

    bob_alexandria_routing_table = KademliaRoutingTable(
        bob.enr.node_id, ROUTING_TABLE_BUCKET_SIZE)

    for _ in range(200):
        enr = ENRFactory()
        bob.enr_db.set_enr(enr)
        bob_alexandria_routing_table.update(enr.node_id)
        distances.add(compute_log_distance(enr.node_id, bob.node_id))
        if distances.issuperset({0, 256, 255}):
            break
    else:
        raise Exception("failed")

    async with bob_alexandria_client.subscribe(
            FindNodesMessage) as subscription:
        async with trio.open_nursery() as nursery:

            async def _respond():
                request = await subscription.receive()
                response_enrs = []
                for distance in request.message.payload.distances:
                    if distance == 0:
                        response_enrs.append(bob.enr)
                    else:
                        for (
                                node_id
                        ) in bob_alexandria_routing_table.get_nodes_at_log_distance(
                                distance):
                            response_enrs.append(bob.enr_db.get_enr(node_id))
                await bob_alexandria_client.send_found_nodes(
                    request.sender_node_id,
                    request.sender_endpoint,
                    enrs=response_enrs,
                    request_id=request.request_id,
                )

            nursery.start_soon(_respond)

            with trio.fail_after(2):
                enrs = await alice_alexandria_network.find_nodes(
                    bob.node_id, 0, 255, 256)

    assert any(enr.node_id == bob.node_id for enr in enrs)
    response_distances = {
        compute_log_distance(enr.node_id, bob.node_id)
        for enr in enrs if enr.node_id != bob.node_id
    }
    assert response_distances == {256, 255}
예제 #2
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async def test_client_request_response_find_nodes_found_nodes(
    alice,
    bob,
    alice_alexandria_client,
    bob_alexandria_client,
):
    table = KademliaRoutingTable(bob.node_id, 256)
    for i in range(1000):
        enr = ENRFactory()
        table.update(enr.node_id)
        bob.enr_db.set_enr(enr)

    checked_bucket_indexes = []

    for distance in range(256, 0, -1):
        bucket = table.buckets[distance - 1]
        if not len(bucket):
            break

        async with trio.open_nursery() as nursery:
            async with bob_alexandria_client.subscribe(
                    FindNodesMessage) as subscription:
                expected_enrs = tuple(
                    bob.enr_db.get_enr(node_id) for node_id in bucket)

                async def _send_response():
                    request = await subscription.receive()
                    checked_bucket_indexes.append(distance)
                    await bob_alexandria_client.send_found_nodes(
                        alice.node_id,
                        alice.endpoint,
                        enrs=expected_enrs,
                        request_id=request.request_id,
                    )

                nursery.start_soon(_send_response)

                with trio.fail_after(2):
                    found_nodes_messages = await alice_alexandria_client.find_nodes(
                        bob.node_id,
                        bob.endpoint,
                        distances=[distance],
                    )

                found_node_ids = {
                    enr.node_id
                    for message in found_nodes_messages
                    for enr in message.message.payload.enrs
                }
                expected_node_ids = {enr.node_id for enr in expected_enrs}
                assert found_node_ids == expected_node_ids

    assert len(checked_bucket_indexes) > 4
예제 #3
0
    def __init__(
        self,
        client: ClientAPI,
        bootnodes: Collection[ENRAPI],
    ) -> None:
        self.client = client

        self._bootnodes = tuple(bootnodes)
        self.routing_table = KademliaRoutingTable(
            self.client.enr_manager.enr.node_id,
            ROUTING_TABLE_BUCKET_SIZE,
        )
        self._routing_table_ready = trio.Event()
        self._last_pong_at = LRU(2048)
예제 #4
0
    def __init__(self, client: ClientAPI, bootnodes: Collection[ENRAPI],) -> None:
        self.logger = get_extended_debug_logger("ddht.Network")

        self.client = client

        self._bootnodes = tuple(bootnodes)
        self.routing_table = KademliaRoutingTable(
            self.client.enr_manager.enr.node_id, ROUTING_TABLE_BUCKET_SIZE,
        )
        self._routing_table_ready = trio.Event()
        self._last_pong_at = LRU(2048)

        self._talk_protocols = {}

        self._ping_handler_ready = trio.Event()
        self._find_nodes_handler_ready = trio.Event()
예제 #5
0
    def __init__(
        self,
        network: NetworkAPI,
        bootnodes: Collection[ENRAPI],
        storage: ContentStorageAPI,
    ) -> None:
        self.logger = get_extended_debug_logger("ddht.Alexandria")

        self._bootnodes = tuple(bootnodes)

        self.client = AlexandriaClient(network)

        self.routing_table = KademliaRoutingTable(
            self.enr_manager.enr.node_id, ROUTING_TABLE_BUCKET_SIZE,
        )

        self._last_pong_at = LRU(2048)
        self._routing_table_ready = trio.Event()

        self._ping_handler_ready = trio.Event()
        self._find_nodes_handler_ready = trio.Event()
        self._find_content_handler_ready = trio.Event()

        self.storage = storage
예제 #6
0
class Network(Service, NetworkAPI):
    logger = logging.getLogger("ddht.Network")

    _bootnodes: Tuple[ENRAPI, ...]

    def __init__(
        self,
        client: ClientAPI,
        bootnodes: Collection[ENRAPI],
    ) -> None:
        self.client = client

        self._bootnodes = tuple(bootnodes)
        self.routing_table = KademliaRoutingTable(
            self.client.enr_manager.enr.node_id,
            ROUTING_TABLE_BUCKET_SIZE,
        )
        self._routing_table_ready = trio.Event()
        self._last_pong_at = LRU(2048)

    #
    # Proxied ClientAPI properties
    #
    @property
    def local_node_id(self) -> NodeID:
        return self.client.local_node_id

    @property
    def events(self) -> EventsAPI:
        return self.client.events

    @property
    def dispatcher(self) -> DispatcherAPI:
        return self.client.dispatcher

    @property
    def enr_manager(self) -> ENRManagerAPI:
        return self.client.enr_manager

    @property
    def pool(self) -> PoolAPI:
        return self.client.pool

    @property
    def enr_db(self) -> ENRDatabaseAPI:
        return self.client.enr_db

    #
    # High Level API
    #
    async def bond(self,
                   node_id: NodeID,
                   *,
                   endpoint: Optional[Endpoint] = None) -> bool:
        try:
            pong = await self.ping(node_id, endpoint=endpoint)
        except trio.TooSlowError:
            self.logger.debug("Bonding with %s timed out during ping",
                              humanize_node_id(node_id))
            return False

        try:
            enr = self.enr_db.get_enr(node_id)
        except KeyError:
            try:
                enr = await self.get_enr(node_id, endpoint=endpoint)
            except trio.TooSlowError:
                self.logger.debug(
                    "Bonding with %s timed out during ENR retrieval",
                    humanize_node_id(node_id),
                )
                return False
        else:
            if pong.enr_seq > enr.sequence_number:
                try:
                    enr = await self.get_enr(node_id, endpoint=endpoint)
                except trio.TooSlowError:
                    self.logger.debug(
                        "Bonding with %s timed out during ENR retrieval",
                        humanize_node_id(node_id),
                    )
                else:
                    self.enr_db.set_enr(enr)

        self.routing_table.update(enr.node_id)

        self._routing_table_ready.set()
        return True

    async def _bond(self, node_id: NodeID, endpoint: Endpoint) -> None:
        await self.bond(node_id, endpoint=endpoint)

    async def ping(self,
                   node_id: NodeID,
                   *,
                   endpoint: Optional[Endpoint] = None) -> PongMessage:
        if endpoint is None:
            endpoint = self._endpoint_for_node_id(node_id)
        response = await self.client.ping(endpoint, node_id)
        return response.message

    async def find_nodes(
        self,
        node_id: NodeID,
        *distances: int,
        endpoint: Optional[Endpoint] = None,
    ) -> Tuple[ENRAPI, ...]:
        if not distances:
            raise TypeError("Must provide at least one distance")

        if endpoint is None:
            endpoint = self._endpoint_for_node_id(node_id)
        responses = await self.client.find_nodes(endpoint,
                                                 node_id,
                                                 distances=distances)
        return tuple(enr for response in responses
                     for enr in response.message.enrs)

    async def get_enr(self,
                      node_id: NodeID,
                      *,
                      endpoint: Optional[Endpoint] = None) -> ENRAPI:
        enrs = await self.find_nodes(node_id, 0, endpoint=endpoint)
        if not enrs:
            raise Exception("Invalid response")
        # This reduce accounts for
        return _reduce_enrs(enrs)[0]

    async def recursive_find_nodes(self, target: NodeID) -> Tuple[ENRAPI, ...]:
        self.logger.debug("Recursive find nodes: %s", humanize_node_id(target))

        queried_node_ids = set()
        unresponsive_node_ids = set()
        received_enrs: List[ENRAPI] = []
        received_node_ids: Set[NodeID] = set()

        async def do_lookup(node_id: NodeID) -> None:
            queried_node_ids.add(node_id)

            distance = compute_log_distance(node_id, target)
            try:
                enrs = await self.find_nodes(node_id, distance)
            except trio.TooSlowError:
                unresponsive_node_ids.add(node_id)
                return

            for enr in enrs:
                received_node_ids.add(enr.node_id)
                try:
                    self.enr_db.set_enr(enr)
                except OldSequenceNumber:
                    received_enrs.append(self.enr_db.get_enr(enr.node_id))
                else:
                    received_enrs.append(enr)

        for lookup_round_counter in itertools.count():
            candidates = iter_closest_nodes(target, self.routing_table,
                                            received_node_ids)
            responsive_candidates = itertools.dropwhile(
                lambda node: node in unresponsive_node_ids, candidates)
            closest_k_candidates = take(self.routing_table.bucket_size,
                                        responsive_candidates)
            closest_k_unqueried_candidates = (
                candidate for candidate in closest_k_candidates
                if candidate not in queried_node_ids)
            nodes_to_query = tuple(take(3, closest_k_unqueried_candidates))

            if nodes_to_query:
                self.logger.debug(
                    "Starting lookup round %d for %s",
                    lookup_round_counter + 1,
                    humanize_node_id(target),
                )
                async with trio.open_nursery() as nursery:
                    for peer in nodes_to_query:
                        nursery.start_soon(do_lookup, peer)
            else:
                self.logger.debug(
                    "Lookup for %s finished in %d rounds",
                    humanize_node_id(target),
                    lookup_round_counter,
                )
                break

        # now sort and return the ENR records in order of closesness to the target.
        return tuple(
            sorted(
                _reduce_enrs(received_enrs),
                key=lambda enr: compute_distance(enr.node_id, target),
            ))

    #
    # Long Running Processes
    #
    async def run(self) -> None:
        self.manager.run_daemon_child_service(self.client)
        await self.client.wait_listening()

        self.manager.run_daemon_task(self._ping_oldest_routing_table_entry)
        self.manager.run_daemon_task(self._track_last_pong)
        self.manager.run_daemon_task(self._manage_routing_table)
        self.manager.run_daemon_task(self._pong_when_pinged)
        self.manager.run_daemon_task(self._serve_find_nodes)

        await self.manager.wait_finished()

    async def _periodically_report_routing_table(self) -> None:
        async for _ in every(30, initial_delay=30):
            non_empty_buckets = tuple((idx, bucket)
                                      for idx, bucket in enumerate(
                                          reversed(self.routing_table.buckets))
                                      if bucket)
            total_size = sum(len(bucket) for idx, bucket in non_empty_buckets)
            bucket_info = "|".join(
                tuple(f"{idx}:{len(bucket)}"
                      for idx, bucket in non_empty_buckets))
            self.logger.debug(
                "routing-table-info: size=%d  buckets=%s",
                total_size,
                bucket_info,
            )

    async def _ping_oldest_routing_table_entry(self) -> None:
        await self._routing_table_ready.wait()

        while self.manager.is_running:
            # Here we preserve the lazy iteration while still checking that the
            # iterable is not empty before passing it into `min` below which
            # throws an ambiguous `ValueError` otherwise if the iterable is
            # empty.
            nodes_iter = self.routing_table.iter_all_random()
            try:
                first_node_id = first(nodes_iter)
            except StopIteration:
                await trio.sleep(ROUTING_TABLE_KEEP_ALIVE)
                continue
            else:
                least_recently_ponged_node_id = min(
                    cons(first_node_id, nodes_iter),
                    key=lambda node_id: self._last_pong_at.get(node_id, 0),
                )

            too_old_at = trio.current_time() - ROUTING_TABLE_KEEP_ALIVE
            try:
                last_pong_at = self._last_pong_at[
                    least_recently_ponged_node_id]
            except KeyError:
                pass
            else:
                if last_pong_at > too_old_at:
                    await trio.sleep(last_pong_at - too_old_at)
                    continue

            did_bond = await self.bond(least_recently_ponged_node_id)
            if not did_bond:
                self.routing_table.remove(least_recently_ponged_node_id)

    async def _track_last_pong(self) -> None:
        async with self.dispatcher.subscribe(PongMessage) as subscription:
            async for message in subscription:
                self._last_pong_at[
                    message.sender_node_id] = trio.current_time()

    async def _manage_routing_table(self) -> None:
        # First load all the bootnode ENRs into our database
        for enr in self._bootnodes:
            try:
                self.enr_db.set_enr(enr)
            except OldSequenceNumber:
                pass

        # Now repeatedly try to bond with each bootnode until one succeeds.
        async with trio.open_nursery() as nursery:
            while self.manager.is_running:
                for enr in self._bootnodes:
                    if enr.node_id == self.local_node_id:
                        continue
                    endpoint = self._endpoint_for_enr(enr)
                    nursery.start_soon(self._bond, enr.node_id, endpoint)

                with trio.move_on_after(10):
                    await self._routing_table_ready.wait()
                    break

        # TODO: Need better logic here for more quickly populating the
        # routing table.  Should start off aggressively filling in the
        # table, only backing off once the table contains some minimum
        # number of records **or** searching for new records fails to find
        # new nodes.  Maybe use a TokenBucket
        async for _ in every(30):
            async with trio.open_nursery() as nursery:
                target_node_id = NodeID(secrets.token_bytes(32))
                found_enrs = await self.recursive_find_nodes(target_node_id)
                for enr in found_enrs:
                    endpoint = self._endpoint_for_enr(enr)
                    nursery.start_soon(self._bond, enr.node_id, endpoint)

    async def _pong_when_pinged(self) -> None:
        async with self.dispatcher.subscribe(PingMessage) as subscription:
            async for request in subscription:
                await self.dispatcher.send_message(
                    request.to_response(
                        PongMessage(
                            request.message.request_id,
                            self.enr_manager.enr.sequence_number,
                            request.sender_endpoint.ip_address,
                            request.sender_endpoint.port,
                        )))

    async def _serve_find_nodes(self) -> None:
        async with self.dispatcher.subscribe(FindNodeMessage) as subscription:
            async for request in subscription:
                response_enrs: List[ENRAPI] = []
                distances = set(request.message.distances)
                if len(distances) != len(request.message.distances):
                    self.logger.debug(
                        "Ignoring invalid FindNodeMessage from %s@%s: duplicate distances",
                        humanize_node_id(request.sender_node_id),
                        request.sender_endpoint,
                    )
                    continue
                elif not distances:
                    self.logger.debug(
                        "Ignoring invalid FindNodeMessage from %s@%s: empty distances",
                        humanize_node_id(request.sender_node_id),
                        request.sender_endpoint,
                    )
                    continue
                elif any(distance > self.routing_table.num_buckets
                         for distance in distances):
                    self.logger.debug(
                        "Ignoring invalid FindNodeMessage from %s@%s: distances: %s",
                        humanize_node_id(request.sender_node_id),
                        request.sender_endpoint,
                        distances,
                    )
                    continue

                for distance in distances:
                    if distance == 0:
                        response_enrs.append(self.enr_manager.enr)
                    elif distance <= self.routing_table.num_buckets:
                        node_ids_at_distance = self.routing_table.get_nodes_at_log_distance(
                            distance, )
                        for node_id in node_ids_at_distance:
                            response_enrs.append(self.enr_db.get_enr(node_id))
                    else:
                        raise Exception("Should be unreachable")

                await self.client.send_found_nodes(
                    request.sender_endpoint,
                    request.sender_node_id,
                    enrs=response_enrs,
                    request_id=request.message.request_id,
                )

    #
    # Utility
    #
    def _endpoint_for_enr(self, enr: ENRAPI) -> Endpoint:
        try:
            ip_address = enr[IP_V4_ADDRESS_ENR_KEY]
            port = enr[UDP_PORT_ENR_KEY]
        except KeyError:
            raise Exception("Missing endpoint address information: ")

        return Endpoint(ip_address, port)

    def _endpoint_for_node_id(self, node_id: NodeID) -> Endpoint:
        enr = self.enr_db.get_enr(node_id)
        return self._endpoint_for_enr(enr)
예제 #7
0
class Network(Service, NetworkAPI):
    _bootnodes: Tuple[ENRAPI, ...]
    _talk_protocols: Dict[bytes, TalkProtocolAPI]

    def __init__(self, client: ClientAPI, bootnodes: Collection[ENRAPI],) -> None:
        self.logger = get_extended_debug_logger("ddht.Network")

        self.client = client

        self._bootnodes = tuple(bootnodes)
        self.routing_table = KademliaRoutingTable(
            self.client.enr_manager.enr.node_id, ROUTING_TABLE_BUCKET_SIZE,
        )
        self._routing_table_ready = trio.Event()
        self._last_pong_at = LRU(2048)

        self._talk_protocols = {}

        self._ping_handler_ready = trio.Event()
        self._find_nodes_handler_ready = trio.Event()

    async def ready(self) -> None:
        await self._ping_handler_ready.wait()
        await self._find_nodes_handler_ready.wait()

    #
    # Proxied ClientAPI properties
    #
    @property
    def local_node_id(self) -> NodeID:
        return self.client.local_node_id

    @property
    def events(self) -> EventsAPI:
        return self.client.events

    @property
    def dispatcher(self) -> DispatcherAPI:
        return self.client.dispatcher

    @property
    def enr_manager(self) -> ENRManagerAPI:
        return self.client.enr_manager

    @property
    def pool(self) -> PoolAPI:
        return self.client.pool

    @property
    def enr_db(self) -> QueryableENRDatabaseAPI:
        return self.client.enr_db

    #
    # TALK API
    #
    def add_talk_protocol(self, protocol: TalkProtocolAPI) -> None:
        if protocol.protocol_id in self._talk_protocols:
            raise DuplicateProtocol(
                f"A protocol is already registered for '{protocol.protocol_id!r}'"
            )
        self._talk_protocols[protocol.protocol_id] = protocol

    #
    # High Level API
    #
    async def bond(
        self, node_id: NodeID, *, endpoint: Optional[Endpoint] = None
    ) -> bool:
        self.logger.debug2(
            "Bonding with %s", node_id.hex(),
        )

        try:
            pong = await self.ping(node_id, endpoint=endpoint)
        except trio.TooSlowError:
            self.logger.debug("Bonding with %s timed out during ping", node_id.hex())
            return False
        except MissingEndpointFields:
            self.logger.debug(
                "Bonding with %s failed due to missing endpoint information",
                node_id.hex(),
            )
            return False

        try:
            enr = await self.lookup_enr(
                node_id, enr_seq=pong.enr_seq, endpoint=endpoint
            )
        except trio.TooSlowError:
            self.logger.debug(
                "Bonding with %s timed out during ENR retrieval", node_id.hex(),
            )
            return False
        except EmptyFindNodesResponse:
            self.logger.debug(
                "Bonding with %s failed due to them not returing their ENR record",
                node_id.hex(),
            )
            return False

        self.routing_table.update(enr.node_id)

        self.logger.debug(
            "Bonded with %s successfully", node_id.hex(),
        )

        self._routing_table_ready.set()
        return True

    async def _bond(self, node_id: NodeID, endpoint: Optional[Endpoint] = None) -> None:
        await self.bond(node_id, endpoint=endpoint)

    async def ping(
        self,
        node_id: NodeID,
        *,
        endpoint: Optional[Endpoint] = None,
        request_id: Optional[bytes] = None,
    ) -> PongMessage:
        if endpoint is None:
            endpoint = await self.endpoint_for_node_id(node_id)
        response = await self.client.ping(node_id, endpoint, request_id=request_id)
        return response.message

    async def find_nodes(
        self,
        node_id: NodeID,
        *distances: int,
        endpoint: Optional[Endpoint] = None,
        request_id: Optional[bytes] = None,
    ) -> Tuple[ENRAPI, ...]:
        if not distances:
            raise TypeError("Must provide at least one distance")

        if endpoint is None:
            endpoint = await self.endpoint_for_node_id(node_id)
        responses = await self.client.find_nodes(
            node_id, endpoint, distances=distances, request_id=request_id
        )

        # Validate that all responses are indeed at one of the
        # specified distances.
        for response in responses:
            validate_found_nodes_distances(response.message.enrs, node_id, distances)

        return tuple(enr for response in responses for enr in response.message.enrs)

    def stream_find_nodes(
        self,
        node_id: NodeID,
        endpoint: Endpoint,
        distances: Collection[int],
        *,
        request_id: Optional[bytes] = None,
    ) -> AsyncContextManager[trio.abc.ReceiveChannel[ENRAPI]]:
        return common_network_stream_find_nodes(
            self, node_id, endpoint, distances, request_id=request_id
        )

    async def talk(
        self,
        node_id: NodeID,
        *,
        protocol: bytes,
        payload: bytes,
        endpoint: Optional[Endpoint] = None,
        request_id: Optional[bytes] = None,
    ) -> bytes:
        if endpoint is None:
            endpoint = await self.endpoint_for_node_id(node_id)
        response = await self.client.talk(
            node_id, endpoint, protocol, payload, request_id=request_id
        )
        payload = response.message.payload
        if not payload:
            raise ProtocolNotSupported(protocol)
        return response.message.payload

    async def lookup_enr(
        self, node_id: NodeID, *, enr_seq: int = 0, endpoint: Optional[Endpoint] = None
    ) -> ENRAPI:
        if node_id == self.local_node_id:
            raise Exception(f"Cannot lookup local ENR: node_id={node_id.hex()}")

        try:
            enr = self.enr_db.get_enr(node_id)
        except KeyError:
            if endpoint is None:
                # Try to use a recursive network lookup to find the desired
                # node.
                async with self.recursive_find_nodes(node_id) as enr_aiter:
                    async for found_enr in enr_aiter:
                        if found_enr.node_id == node_id:
                            endpoint = Endpoint.from_enr(found_enr)
                            break
                    else:
                        # we weren't given an endpoint and we don't have an enr which would give
                        # us an endpoint, there's no way to reach this node.
                        raise KeyError(f"Could not find ENR: node_id={node_id.hex()}")
        else:
            if enr.sequence_number >= enr_seq:
                return enr

        enr = await self._fetch_enr(node_id, endpoint=endpoint)
        try:
            self.enr_db.set_enr(enr)
        except OldSequenceNumber:
            pass

        return enr

    async def _fetch_enr(
        self, node_id: NodeID, *, endpoint: Optional[Endpoint]
    ) -> ENRAPI:
        enrs = await self.find_nodes(node_id, 0, endpoint=endpoint)
        if not enrs:
            raise EmptyFindNodesResponse(f"{node_id.hex()} did not return its ENR")

        # Assuming we're given enrs for a single node, this reduce returns the enr for
        # that node with the highest sequence number
        return reduce_enrs(enrs)[0]

    def recursive_find_nodes(
        self, target: NodeID
    ) -> AsyncContextManager[trio.abc.ReceiveChannel[ENRAPI]]:
        return common_recursive_find_nodes(self, target)

    @asynccontextmanager
    async def explore(
        self, target: NodeID, concurrency: int = 3,
    ) -> AsyncIterator[trio.abc.ReceiveChannel[ENRAPI]]:
        explorer = Explorer(self, target, concurrency)
        with trio.move_on_after(300) as scope:
            async with background_trio_service(explorer):
                await explorer.ready()

                async with explorer.stream() as receive_channel:
                    yield receive_channel

        if scope.cancelled_caught:
            self.logger.error("Timeout from `stream_locate`")

    #
    # Long Running Processes
    #
    async def run(self) -> None:
        self.manager.run_daemon_child_service(self.client)
        await self.client.wait_listening()

        self.manager.run_daemon_task(self._periodically_report_routing_table)
        self.manager.run_daemon_task(self._ping_oldest_routing_table_entry)
        self.manager.run_daemon_task(self._track_last_pong)
        self.manager.run_daemon_task(self._manage_routing_table)
        self.manager.run_daemon_task(self._pong_when_pinged)
        self.manager.run_daemon_task(self._serve_find_nodes)
        self.manager.run_daemon_task(self._handle_unhandled_talk_requests)

        await self.manager.wait_finished()

    async def _periodically_report_routing_table(self) -> None:
        async for _ in every(30, initial_delay=10):
            non_empty_buckets = tuple(
                reversed(
                    tuple(
                        (idx, bucket)
                        for idx, bucket in enumerate(self.routing_table.buckets, 1)
                        if bucket
                    )
                )
            )
            total_size = sum(len(bucket) for idx, bucket in non_empty_buckets)
            bucket_info = "|".join(
                tuple(
                    f"{idx}:{'F' if len(bucket) == self.routing_table.bucket_size else len(bucket)}"
                    for idx, bucket in non_empty_buckets
                )
            )
            self.logger.debug(
                "routing-table-info: size=%d  buckets=%s", total_size, bucket_info,
            )

    async def _ping_oldest_routing_table_entry(self) -> None:
        await self._routing_table_ready.wait()

        while self.manager.is_running:
            # Here we preserve the lazy iteration while still checking that the
            # iterable is not empty before passing it into `min` below which
            # throws an ambiguous `ValueError` otherwise if the iterable is
            # empty.
            nodes_iter = self.routing_table.iter_all_random()
            try:
                first_node_id = first(nodes_iter)
            except StopIteration:
                await trio.sleep(ROUTING_TABLE_KEEP_ALIVE)
                continue
            else:
                least_recently_ponged_node_id = min(
                    cons(first_node_id, nodes_iter),
                    key=lambda node_id: self._last_pong_at.get(node_id, 0),
                )

            too_old_at = trio.current_time() - ROUTING_TABLE_KEEP_ALIVE
            try:
                last_pong_at = self._last_pong_at[least_recently_ponged_node_id]
            except KeyError:
                pass
            else:
                if last_pong_at > too_old_at:
                    await trio.sleep(last_pong_at - too_old_at)
                    continue

            did_bond = await self.bond(least_recently_ponged_node_id)
            if not did_bond:
                self.routing_table.remove(least_recently_ponged_node_id)

    async def _track_last_pong(self) -> None:
        async with self.dispatcher.subscribe(PongMessage) as subscription:
            async for message in subscription:
                self._last_pong_at[message.sender_node_id] = trio.current_time()

    async def _manage_routing_table(self) -> None:
        # First load all the bootnode ENRs into our database
        for enr in self._bootnodes:
            try:
                self.enr_db.set_enr(enr)
            except OldSequenceNumber:
                pass

        # Now repeatedly try to bond with each bootnode until one succeeds.
        while self.manager.is_running:
            with trio.move_on_after(20):
                async with trio.open_nursery() as nursery:
                    for enr in self._bootnodes:
                        if enr.node_id == self.local_node_id:
                            continue
                        endpoint = Endpoint.from_enr(enr)
                        nursery.start_soon(self._bond, enr.node_id, endpoint)

                    await self._routing_table_ready.wait()
                    break

        # Now we enter into an infinite loop that continually probes the
        # network to beep the routing table fresh.  We both perform completely
        # random lookups, as well as targeted lookups on the outermost routing
        # table buckets which are not full.
        #
        # The `TokenBucket` allows us to burst at the beginning, making quick
        # successive probes, then slowing down once the
        #
        # TokenBucket starts with 10 tokens, refilling at 1 token every 30
        # seconds.
        token_bucket = TokenBucket(1 / 30, 10)

        async with trio.open_nursery() as nursery:
            while self.manager.is_running:
                await token_bucket.take()

                # Get the logarithmic distance to the "largest" buckets
                # that are not full.
                non_full_bucket_distances = tuple(
                    idx + 1
                    for idx, bucket in enumerate(self.routing_table.buckets)
                    if len(bucket) < self.routing_table.bucket_size  # noqa: E501
                )[-16:]

                # Probe one of the not-full-buckets with a weighted preference
                # towards the largest buckets.
                distance_to_probe = weighted_choice(non_full_bucket_distances)
                target_node_id = at_log_distance(self.local_node_id, distance_to_probe)

                async with self.recursive_find_nodes(target_node_id) as enr_aiter:
                    async for enr in enr_aiter:
                        if enr.node_id == self.local_node_id:
                            continue

                        try:
                            self.enr_db.set_enr(enr)
                        except OldSequenceNumber:
                            pass

                        nursery.start_soon(self._bond, enr.node_id)

    async def _pong_when_pinged(self) -> None:
        async def _maybe_add_to_routing_table(
            request: InboundMessage[PingMessage],
        ) -> None:
            try:
                enr = await self.lookup_enr(
                    request.sender_node_id,
                    enr_seq=request.message.enr_seq,
                    endpoint=request.sender_endpoint,
                )
            except (trio.TooSlowError, EmptyFindNodesResponse):
                return

            self.routing_table.update(enr.node_id)
            self._routing_table_ready.set()

        async with trio.open_nursery() as nursery:
            async with self.dispatcher.subscribe(PingMessage) as subscription:
                self._ping_handler_ready.set()

                async for request in subscription:
                    await self.dispatcher.send_message(
                        request.to_response(
                            PongMessage(
                                request.request_id,
                                self.enr_manager.enr.sequence_number,
                                request.sender_endpoint.ip_address,
                                request.sender_endpoint.port,
                            )
                        )
                    )
                    nursery.start_soon(_maybe_add_to_routing_table, request)

    async def _serve_find_nodes(self) -> None:
        async with self.dispatcher.subscribe(FindNodeMessage) as subscription:
            self._find_nodes_handler_ready.set()

            async for request in subscription:
                response_enrs: List[ENRAPI] = []
                distances = set(request.message.distances)
                if len(distances) != len(request.message.distances):
                    self.logger.debug(
                        "Ignoring invalid FindNodeMessage from %s@%s: duplicate distances",
                        request.sender_node_id.hex(),
                        request.sender_endpoint,
                    )
                    continue
                elif not distances:
                    self.logger.debug(
                        "Ignoring invalid FindNodeMessage from %s@%s: empty distances",
                        request.sender_node_id.hex(),
                        request.sender_endpoint,
                    )
                    continue
                elif any(
                    distance > self.routing_table.num_buckets for distance in distances
                ):
                    self.logger.debug(
                        "Ignoring invalid FindNodeMessage from %s@%s: distances: %s",
                        request.sender_node_id.hex(),
                        request.sender_endpoint,
                        distances,
                    )
                    continue

                for distance in distances:
                    if distance == 0:
                        response_enrs.append(self.enr_manager.enr)
                    elif distance <= self.routing_table.num_buckets:
                        node_ids_at_distance = self.routing_table.get_nodes_at_log_distance(
                            distance,
                        )
                        for node_id in node_ids_at_distance:
                            response_enrs.append(self.enr_db.get_enr(node_id))
                    else:
                        raise Exception("Should be unreachable")

                await self.client.send_found_nodes(
                    request.sender_node_id,
                    request.sender_endpoint,
                    enrs=response_enrs,
                    request_id=request.request_id,
                )

    async def _handle_unhandled_talk_requests(self) -> None:
        async with self.dispatcher.subscribe(TalkRequestMessage) as subscription:
            async for request in subscription:
                if request.message.protocol not in self._talk_protocols:
                    await self.client.send_talk_response(
                        request.sender_node_id,
                        request.sender_endpoint,
                        payload=b"",
                        request_id=request.message.request_id,
                    )

    #
    # Utility
    #
    async def endpoint_for_node_id(self, node_id: NodeID) -> Endpoint:
        try:
            enr = self.enr_db.get_enr(node_id)
        except KeyError:
            enr = await self.lookup_enr(node_id)

        return Endpoint.from_enr(enr)
예제 #8
0
def routing_table(center_node_id, bucket_size):
    return KademliaRoutingTable(center_node_id, bucket_size)
예제 #9
0
파일: app.py 프로젝트: Tubbz-alt/ddht
    async def run(self) -> None:
        identity_scheme_registry = default_identity_scheme_registry
        message_type_registry = v5_registry

        enr_database_dir = self._boot_info.base_dir / ENR_DATABASE_DIR_NAME
        enr_database_dir.mkdir(exist_ok=True)
        enr_db = ENRDB(LevelDB(enr_database_dir), identity_scheme_registry)
        self.enr_db = enr_db

        local_private_key = get_local_private_key(self._boot_info)

        enr_manager = ENRManager(
            private_key=local_private_key,
            enr_db=enr_db,
        )

        port = self._boot_info.port

        if b"udp" not in enr_manager.enr:
            enr_manager.update((b"udp", port))

        listen_on: AnyIPAddress
        if self._boot_info.listen_on is None:
            listen_on = DEFAULT_LISTEN
        else:
            listen_on = self._boot_info.listen_on
            # Update the ENR if an explicit listening address was provided
            enr_manager.update((IP_V4_ADDRESS_ENR_KEY, listen_on.packed))

        if self._boot_info.is_upnp_enabled:
            upnp_service = UPnPService(port)
            self.manager.run_daemon_child_service(upnp_service)

        routing_table = KademliaRoutingTable(enr_manager.enr.node_id,
                                             ROUTING_TABLE_BUCKET_SIZE)
        self.routing_table = routing_table

        for enr in self._boot_info.bootnodes:
            try:
                enr_db.set_enr(enr)
            except OldSequenceNumber:
                pass
            routing_table.update(enr.node_id)

        sock = trio.socket.socket(family=trio.socket.AF_INET,
                                  type=trio.socket.SOCK_DGRAM)
        outbound_datagram_channels = trio.open_memory_channel[
            OutboundDatagram](0)
        inbound_datagram_channels = trio.open_memory_channel[InboundDatagram](
            0)
        outbound_packet_channels = trio.open_memory_channel[OutboundPacket](0)
        inbound_packet_channels = trio.open_memory_channel[InboundPacket](0)
        outbound_message_channels = trio.open_memory_channel[
            AnyOutboundMessage](0)
        inbound_message_channels = trio.open_memory_channel[AnyInboundMessage](
            0)
        endpoint_vote_channels = trio.open_memory_channel[EndpointVote](0)

        # types ignored due to https://github.com/ethereum/async-service/issues/5
        datagram_sender = DatagramSender(  # type: ignore
            outbound_datagram_channels[1], sock)
        datagram_receiver = DatagramReceiver(  # type: ignore
            sock, inbound_datagram_channels[0])

        packet_encoder = PacketEncoder(  # type: ignore
            outbound_packet_channels[1], outbound_datagram_channels[0])
        packet_decoder = PacketDecoder(  # type: ignore
            inbound_datagram_channels[1], inbound_packet_channels[0])

        packer = Packer(
            local_private_key=local_private_key.to_bytes(),
            local_node_id=enr_manager.enr.node_id,
            enr_db=enr_db,
            message_type_registry=message_type_registry,
            inbound_packet_receive_channel=inbound_packet_channels[1],
            inbound_message_send_channel=inbound_message_channels[0],
            outbound_message_receive_channel=outbound_message_channels[1],
            outbound_packet_send_channel=outbound_packet_channels[0],
        )

        message_dispatcher = MessageDispatcher(
            enr_db=enr_db,
            inbound_message_receive_channel=inbound_message_channels[1],
            outbound_message_send_channel=outbound_message_channels[0],
        )

        endpoint_tracker = EndpointTracker(
            local_private_key=local_private_key.to_bytes(),
            local_node_id=enr_manager.enr.node_id,
            enr_db=enr_db,
            identity_scheme_registry=identity_scheme_registry,
            vote_receive_channel=endpoint_vote_channels[1],
        )

        routing_table_manager = RoutingTableManager(
            local_node_id=enr_manager.enr.node_id,
            routing_table=routing_table,
            message_dispatcher=message_dispatcher,
            enr_db=enr_db,
            outbound_message_send_channel=outbound_message_channels[0],
            endpoint_vote_send_channel=endpoint_vote_channels[0],
        )

        self.logger.info(f"DDHT base dir: {self._boot_info.base_dir}")
        self.logger.info("Starting discovery service...")
        self.logger.info(f"Listening on {listen_on}:{port}")
        self.logger.info(
            f"Local Node ID: {encode_hex(enr_manager.enr.node_id)}")
        self.logger.info(f"Local ENR: {enr_manager.enr}")

        services = (
            datagram_sender,
            datagram_receiver,
            packet_encoder,
            packet_decoder,
            packer,
            message_dispatcher,
            endpoint_tracker,
            routing_table_manager,
        )
        await sock.bind((str(listen_on), port))
        with sock:
            for service in services:
                self.manager.run_daemon_child_service(service)
            await self.manager.wait_finished()
예제 #10
0
파일: app.py 프로젝트: njgheorghita/ddht
    async def run(self) -> None:
        identity_scheme_registry = default_identity_scheme_registry

        enr_database_file = self._boot_info.base_dir / ENR_DATABASE_FILENAME
        enr_db = QueryableENRDB(sqlite3.connect(enr_database_file),
                                identity_scheme_registry)
        self.enr_db = enr_db

        local_private_key = get_local_private_key(self._boot_info)

        enr_manager = ENRManager(
            private_key=local_private_key,
            enr_db=enr_db,
        )

        port = self._boot_info.port

        if b"udp" not in enr_manager.enr:
            enr_manager.update((b"udp", port))

        listen_on: AnyIPAddress
        if self._boot_info.listen_on is None:
            listen_on = DEFAULT_LISTEN
        else:
            listen_on = self._boot_info.listen_on
            # Update the ENR if an explicit listening address was provided
            enr_manager.update((IP_V4_ADDRESS_ENR_KEY, listen_on.packed))

        if self._boot_info.is_upnp_enabled:
            upnp_service = UPnPService(port)
            self.manager.run_daemon_child_service(upnp_service)

        routing_table = KademliaRoutingTable(enr_manager.enr.node_id,
                                             ROUTING_TABLE_BUCKET_SIZE)
        self.routing_table = routing_table

        for enr in self._boot_info.bootnodes:
            try:
                enr_db.set_enr(enr)
            except OldSequenceNumber:
                pass
            routing_table.update(enr.node_id)

        sock = trio.socket.socket(family=trio.socket.AF_INET,
                                  type=trio.socket.SOCK_DGRAM)

        client = Client(local_private_key, enr_db, enr_manager.enr.node_id,
                        sock)

        endpoint_vote_channels = trio.open_memory_channel[EndpointVote](0)

        endpoint_tracker = EndpointTracker(
            local_private_key=local_private_key.to_bytes(),
            local_node_id=enr_manager.enr.node_id,
            enr_db=enr_db,
            identity_scheme_registry=identity_scheme_registry,
            vote_receive_channel=endpoint_vote_channels[1],
        )

        routing_table_manager = RoutingTableManager(
            local_node_id=enr_manager.enr.node_id,
            routing_table=routing_table,
            message_dispatcher=client.message_dispatcher,
            enr_db=enr_db,
            outbound_message_send_channel=client.outbound_message_send_channel,
            endpoint_vote_send_channel=endpoint_vote_channels[0],
        )

        self.logger.info(f"DDHT base dir: {self._boot_info.base_dir}")
        self.logger.info("Starting discovery service...")
        self.logger.info(f"Listening on {listen_on}:{port}")
        self.logger.info(
            f"Local Node ID: {encode_hex(enr_manager.enr.node_id)}")
        self.logger.info(f"Local ENR: {enr_manager.enr}")

        services = (
            client,
            endpoint_tracker,
            routing_table_manager,
        )
        await sock.bind((str(listen_on), port))
        with sock:
            for service in services:
                self.manager.run_daemon_child_service(service)
            await self.manager.wait_finished()
예제 #11
0
def empty_routing_table(local_enr):
    routing_table = KademliaRoutingTable(local_enr.node_id, 16)
    return routing_table
예제 #12
0
def routing_table(enr):
    return KademliaRoutingTable(enr.node_id, ROUTING_TABLE_BUCKET_SIZE)
예제 #13
0
class AlexandriaNetwork(Service, AlexandriaNetworkAPI):
    # Delegate to the AlexandriaClient for determining `protocol_id`
    protocol_id = AlexandriaClient.protocol_id

    def __init__(
        self,
        network: NetworkAPI,
        bootnodes: Collection[ENRAPI],
        storage: ContentStorageAPI,
    ) -> None:
        self.logger = get_extended_debug_logger("ddht.Alexandria")

        self._bootnodes = tuple(bootnodes)

        self.client = AlexandriaClient(network)

        self.routing_table = KademliaRoutingTable(
            self.enr_manager.enr.node_id, ROUTING_TABLE_BUCKET_SIZE,
        )

        self._last_pong_at = LRU(2048)
        self._routing_table_ready = trio.Event()

        self._ping_handler_ready = trio.Event()
        self._find_nodes_handler_ready = trio.Event()
        self._find_content_handler_ready = trio.Event()

        self.storage = storage

    async def routing_table_ready(self) -> None:
        await self._routing_table_ready.wait()

    async def ready(self) -> None:
        await self._ping_handler_ready.wait()
        await self._find_nodes_handler_ready.wait()
        await self._find_content_handler_ready.wait()

    @property
    def network(self) -> NetworkAPI:
        return self.client.network

    @property
    def local_node_id(self) -> NodeID:
        return self.network.local_node_id

    @property
    def enr_manager(self) -> ENRManagerAPI:
        return self.network.enr_manager

    @property
    def enr_db(self) -> QueryableENRDatabaseAPI:
        return self.network.enr_db

    async def run(self) -> None:
        # Long running processes
        self.manager.run_daemon_task(self._periodically_report_routing_table)
        self.manager.run_daemon_task(self._ping_oldest_routing_table_entry)
        self.manager.run_daemon_task(self._track_last_pong)
        self.manager.run_daemon_task(self._manage_routing_table)
        self.manager.run_daemon_task(self._pong_when_pinged)
        self.manager.run_daemon_task(self._serve_find_nodes)
        self.manager.run_daemon_task(self._serve_find_content)

        # Child services
        self.manager.run_daemon_child_service(self.client)
        # self.manager.run_daemon_child_service(self.radius_tracker)

        await self.manager.wait_finished()

    #
    # Local properties
    #
    @property
    def local_advertisement_radius(self) -> int:
        return MAX_RADIUS

    #
    # High Level API
    #
    async def bond(
        self, node_id: NodeID, *, endpoint: Optional[Endpoint] = None
    ) -> bool:
        self.logger.debug2(
            "Bonding with %s", node_id.hex(),
        )

        try:
            pong = await self.ping(node_id, endpoint=endpoint)
        except trio.TooSlowError:
            self.logger.debug("Bonding with %s timed out during ping", node_id.hex())
            return False
        except KeyError:
            self.logger.debug(
                "Unable to lookup endpoint information for node: %s", node_id.hex()
            )
            return False

        try:
            enr = await self.lookup_enr(
                node_id, enr_seq=pong.enr_seq, endpoint=endpoint
            )
        except trio.TooSlowError:
            self.logger.debug(
                "Bonding with %s timed out during ENR retrieval", node_id.hex(),
            )
            return False

        self.routing_table.update(enr.node_id)

        self.logger.debug(
            "Bonded with %s successfully", node_id.hex(),
        )

        self._routing_table_ready.set()
        return True

    async def _bond(self, node_id: NodeID, endpoint: Optional[Endpoint] = None) -> None:
        await self.bond(node_id, endpoint=endpoint)

    async def lookup_enr(
        self, node_id: NodeID, *, enr_seq: int = 0, endpoint: Optional[Endpoint] = None
    ) -> ENRAPI:
        return await self.network.lookup_enr(
            node_id, enr_seq=enr_seq, endpoint=endpoint
        )

    async def ping(
        self,
        node_id: NodeID,
        *,
        enr_seq: Optional[int] = None,
        advertisement_radius: Optional[int] = None,
        endpoint: Optional[Endpoint] = None,
        request_id: Optional[bytes] = None,
    ) -> PongPayload:
        if endpoint is None:
            endpoint = await self.network.endpoint_for_node_id(node_id)
        if enr_seq is None:
            enr_seq = self.network.enr_manager.enr.sequence_number
        if advertisement_radius is None:
            advertisement_radius = self.local_advertisement_radius

        response = await self.client.ping(
            node_id,
            enr_seq=enr_seq,
            advertisement_radius=advertisement_radius,
            endpoint=endpoint,
            request_id=request_id,
        )
        return response.payload

    async def find_nodes(
        self,
        node_id: NodeID,
        *distances: int,
        endpoint: Optional[Endpoint] = None,
        request_id: Optional[bytes] = None,
    ) -> Tuple[ENRAPI, ...]:
        if not distances:
            raise TypeError("Must provide at least one distance")

        if endpoint is None:
            endpoint = await self.network.endpoint_for_node_id(node_id)
        responses = await self.client.find_nodes(
            node_id, endpoint, distances=distances, request_id=request_id
        )
        return tuple(
            enr for response in responses for enr in response.message.payload.enrs
        )

    def recursive_find_nodes(
        self, target: Union[NodeID, ContentID],
    ) -> AsyncContextManager[trio.abc.ReceiveChannel[ENRAPI]]:
        return common_recursive_find_nodes(self, NodeID(target))

    @asynccontextmanager
    async def explore(
        self, target: NodeID, concurrency: int = 3,
    ) -> AsyncIterator[trio.abc.ReceiveChannel[ENRAPI]]:
        explorer = Explorer(self, target, concurrency)
        with trio.move_on_after(300) as scope:
            async with background_trio_service(explorer):
                await explorer.ready()

                async with explorer.stream() as receive_channel:
                    yield receive_channel

        if scope.cancelled_caught:
            self.logger.error("Timeout from explore")

    async def find_content(
        self,
        node_id: NodeID,
        *,
        content_key: ContentKey,
        endpoint: Optional[Endpoint] = None,
        request_id: Optional[bytes] = None,
    ) -> FoundContentPayload:
        if endpoint is None:
            endpoint = await self.network.endpoint_for_node_id(node_id)

        response = await self.client.find_content(
            node_id, endpoint, content_key=content_key, request_id=request_id,
        )
        if response.payload.is_content and response.payload.encoded_enrs:
            raise ValidationError("Content response with non-empty ENR payload")
        elif response.payload.is_content and not response.payload.content:
            raise ValidationError("Content response with empty content")

        return response.payload

    @asynccontextmanager
    async def recursive_find_content(
        self, content_key: ContentKey,
    ) -> AsyncIterator[trio.abc.ReceiveChannel[bytes]]:
        seeker = Seeker(self, content_key)

        async with background_trio_service(seeker):
            yield seeker.content_receive

    async def retrieve_content(self, content_key: ContentKey) -> bytes:
        async with self.recursive_find_content(content_key) as content_aiter:
            return await content_aiter.receive()

    #
    # Long Running Processes
    #
    async def _periodically_report_routing_table(self) -> None:
        async for _ in every(30, initial_delay=30):
            non_empty_buckets = tuple(
                (idx, bucket)
                for idx, bucket in enumerate(reversed(self.routing_table.buckets))
                if bucket
            )
            total_size = sum(len(bucket) for idx, bucket in non_empty_buckets)
            bucket_info = "|".join(
                tuple(f"{idx}:{len(bucket)}" for idx, bucket in non_empty_buckets)
            )
            self.logger.debug(
                "routing-table-info: size=%d  buckets=%s", total_size, bucket_info,
            )

    async def _pong_when_pinged(self) -> None:
        async with self.client.subscribe(PingMessage) as subscription:
            self._ping_handler_ready.set()

            async for request in subscription:
                await self.client.send_pong(
                    request.sender_node_id,
                    request.sender_endpoint,
                    enr_seq=self.enr_manager.enr.sequence_number,
                    advertisement_radius=self.local_advertisement_radius,
                    request_id=request.request_id,
                )
                enr = await self.lookup_enr(
                    request.sender_node_id,
                    enr_seq=request.message.payload.enr_seq,
                    endpoint=request.sender_endpoint,
                )
                self.routing_table.update(enr.node_id)
                self._routing_table_ready.set()

    def _source_nodes(self, distances: Tuple[int, ...]) -> Tuple[ENRAPI, ...]:
        response_enrs: List[ENRAPI] = []
        unique_distances = set(distances)
        if len(unique_distances) != len(distances):
            raise ValidationError("duplicate distances")
        elif not distances:
            raise ValidationError("empty distances")
        elif any(distance > self.routing_table.num_buckets for distance in distances):
            raise ValidationError("invalid distances")

        for distance in distances:
            if distance == 0:
                response_enrs.append(self.enr_manager.enr)
            elif distance <= self.routing_table.num_buckets:
                node_ids_at_distance = self.routing_table.get_nodes_at_log_distance(
                    distance,
                )
                for node_id in node_ids_at_distance:
                    response_enrs.append(self.enr_db.get_enr(node_id))
            else:
                raise Exception("Should be unreachable")

        return tuple(response_enrs)

    async def _serve_find_nodes(self) -> None:
        async with self.client.subscribe(FindNodesMessage) as subscription:
            self._find_nodes_handler_ready.set()

            async for request in subscription:
                try:
                    response_enrs = self._source_nodes(
                        request.message.payload.distances
                    )
                except ValidationError as err:
                    self.logger.debug(
                        "Ignoring invalid FindNodesMessage from %s@%s: %s",
                        request.sender_node_id.hex(),
                        request.sender_endpoint,
                        err,
                    )
                else:
                    await self.client.send_found_nodes(
                        request.sender_node_id,
                        request.sender_endpoint,
                        enrs=response_enrs,
                        request_id=request.request_id,
                    )

    async def _serve_find_content(self) -> None:
        async with self.client.subscribe(FindContentMessage) as subscription:
            self._find_content_handler_ready.set()

            async for request in subscription:
                # if content in storage, serve it....
                # else serve ENR records that we know of which are *closest*
                content_key = request.message.payload.content_key

                if self.storage.has_content(content_key):
                    content = self.storage.get_content(content_key)

                    await self.client.send_found_content(
                        request.sender_node_id,
                        request.sender_endpoint,
                        enrs=None,
                        content=content,
                        request_id=request.request_id,
                    )
                else:
                    content_id = content_key_to_content_id(content_key)
                    distance = compute_content_distance(self.local_node_id, content_id)
                    try:
                        response_enrs = self._source_nodes((distance,))
                    except ValidationError as err:
                        self.logger.debug(
                            "Ignoring invalid FindNodesMessage from %s@%s: %s",
                            request.sender_node_id.hex(),
                            request.sender_endpoint,
                            err,
                        )
                    else:
                        await self.client.send_found_content(
                            request.sender_node_id,
                            request.sender_endpoint,
                            enrs=response_enrs,
                            content=None,
                            request_id=request.request_id,
                        )

    async def _ping_oldest_routing_table_entry(self) -> None:
        await self._routing_table_ready.wait()

        while self.manager.is_running:
            # Here we preserve the lazy iteration while still checking that the
            # iterable is not empty before passing it into `min` below which
            # throws an ambiguous `ValueError` otherwise if the iterable is
            # empty.
            nodes_iter = self.routing_table.iter_all_random()
            try:
                first_node_id = first(nodes_iter)
            except StopIteration:
                await trio.sleep(ROUTING_TABLE_KEEP_ALIVE)
                continue
            else:
                least_recently_ponged_node_id = min(
                    cons(first_node_id, nodes_iter),
                    key=lambda node_id: self._last_pong_at.get(node_id, 0),
                )

            too_old_at = trio.current_time() - ROUTING_TABLE_KEEP_ALIVE
            try:
                last_pong_at = self._last_pong_at[least_recently_ponged_node_id]
            except KeyError:
                pass
            else:
                if last_pong_at > too_old_at:
                    await trio.sleep(last_pong_at - too_old_at)
                    continue

            did_bond = await self.bond(least_recently_ponged_node_id)
            if not did_bond:
                self.routing_table.remove(least_recently_ponged_node_id)

    async def _track_last_pong(self) -> None:
        async with self.client.subscribe(PongMessage) as subscription:
            async for message in subscription:
                self._last_pong_at[message.sender_node_id] = trio.current_time()

    async def _manage_routing_table(self) -> None:
        # First load all the bootnode ENRs into our database
        for enr in self._bootnodes:
            try:
                self.enr_db.set_enr(enr)
            except OldSequenceNumber:
                pass

        # Now repeatedly try to bond with each bootnode until one succeeds.
        while self.manager.is_running:
            with trio.move_on_after(10):
                async with trio.open_nursery() as nursery:
                    for enr in self._bootnodes:
                        if enr.node_id == self.local_node_id:
                            continue
                        endpoint = Endpoint.from_enr(enr)
                        nursery.start_soon(self._bond, enr.node_id, endpoint)

                    await self._routing_table_ready.wait()
                    break

        # Now we enter into an infinite loop that continually probes the
        # network to beep the routing table fresh.  We both perform completely
        # random lookups, as well as targeted lookups on the outermost routing
        # table buckets which are not full.
        #
        # The `TokenBucket` allows us to burst at the beginning, making quick
        # successive probes, then slowing down once the
        #
        # TokenBucket starts with 10 tokens, refilling at 1 token every 30
        # seconds.
        token_bucket = TokenBucket(1 / 30, 10)

        async with trio.open_nursery() as nursery:
            while self.manager.is_running:
                await token_bucket.take()

                # Get the logarithmic distance to the "largest" buckets
                # that are not full.
                non_full_bucket_distances = tuple(
                    idx + 1
                    for idx, bucket in enumerate(self.routing_table.buckets)
                    if len(bucket) < self.routing_table.bucket_size  # noqa: E501
                )[-16:]

                # Probe one of the not-full-buckets with a weighted preference
                # towards the largest buckets.
                distance_to_probe = weighted_choice(non_full_bucket_distances)
                target_node_id = at_log_distance(self.local_node_id, distance_to_probe)

                async with self.recursive_find_nodes(target_node_id) as enr_aiter:
                    async for enr in enr_aiter:
                        if enr.node_id == self.local_node_id:
                            continue

                        try:
                            self.enr_db.set_enr(enr)
                        except OldSequenceNumber:
                            pass

                        nursery.start_soon(self._bond, enr.node_id)