forked from LBRYCommunity/lbry-sdk
385 lines
17 KiB
Python
385 lines
17 KiB
Python
import asyncio
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from binascii import hexlify
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from itertools import chain
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from collections import defaultdict
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import typing
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import logging
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from lbry.dht import constants
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from lbry.dht.error import RemoteException, TransportNotConnected
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from lbry.dht.protocol.distance import Distance
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from lbry.dht.peer import make_kademlia_peer
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from lbry.dht.serialization.datagram import PAGE_KEY
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from typing import TYPE_CHECKING
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if TYPE_CHECKING:
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from lbry.dht.protocol.routing_table import TreeRoutingTable
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from lbry.dht.protocol.protocol import KademliaProtocol
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from lbry.dht.peer import PeerManager, KademliaPeer
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log = logging.getLogger(__name__)
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class FindResponse:
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@property
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def found(self) -> bool:
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raise NotImplementedError()
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def get_close_triples(self) -> typing.List[typing.Tuple[bytes, str, int]]:
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raise NotImplementedError()
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class FindNodeResponse(FindResponse):
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def __init__(self, key: bytes, close_triples: typing.List[typing.Tuple[bytes, str, int]]):
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self.key = key
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self.close_triples = close_triples
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@property
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def found(self) -> bool:
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return self.key in [triple[0] for triple in self.close_triples]
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def get_close_triples(self) -> typing.List[typing.Tuple[bytes, str, int]]:
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return self.close_triples
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class FindValueResponse(FindResponse):
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def __init__(self, key: bytes, result_dict: typing.Dict):
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self.key = key
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self.token = result_dict[b'token']
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self.close_triples: typing.List[typing.Tuple[bytes, bytes, int]] = result_dict.get(b'contacts', [])
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self.found_compact_addresses = result_dict.get(key, [])
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self.pages = int(result_dict.get(PAGE_KEY, 0))
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@property
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def found(self) -> bool:
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return len(self.found_compact_addresses) > 0
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def get_close_triples(self) -> typing.List[typing.Tuple[bytes, str, int]]:
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return [(node_id, address.decode(), port) for node_id, address, port in self.close_triples]
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def get_shortlist(routing_table: 'TreeRoutingTable', key: bytes,
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shortlist: typing.Optional[typing.List['KademliaPeer']]) -> typing.List['KademliaPeer']:
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"""
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If not provided, initialize the shortlist of peers to probe to the (up to) k closest peers in the routing table
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:param routing_table: a TreeRoutingTable
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:param key: a 48 byte hash
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:param shortlist: optional manually provided shortlist, this is done during bootstrapping when there are no
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peers in the routing table. During bootstrap the shortlist is set to be the seed nodes.
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"""
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if len(key) != constants.hash_length:
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raise ValueError("invalid key length: %i" % len(key))
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return shortlist or routing_table.find_close_peers(key)
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class IterativeFinder:
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def __init__(self, loop: asyncio.AbstractEventLoop, peer_manager: 'PeerManager',
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routing_table: 'TreeRoutingTable', protocol: 'KademliaProtocol', key: bytes,
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bottom_out_limit: typing.Optional[int] = 2, max_results: typing.Optional[int] = constants.k,
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exclude: typing.Optional[typing.List[typing.Tuple[str, int]]] = None,
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shortlist: typing.Optional[typing.List['KademliaPeer']] = None):
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if len(key) != constants.hash_length:
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raise ValueError("invalid key length: %i" % len(key))
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self.loop = loop
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self.peer_manager = peer_manager
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self.routing_table = routing_table
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self.protocol = protocol
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self.key = key
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self.bottom_out_limit = bottom_out_limit
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self.max_results = max_results
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self.exclude = exclude or []
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self.active: typing.Set['KademliaPeer'] = set()
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self.contacted: typing.Set['KademliaPeer'] = set()
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self.distance = Distance(key)
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self.closest_peer: typing.Optional['KademliaPeer'] = None
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self.prev_closest_peer: typing.Optional['KademliaPeer'] = None
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self.iteration_queue = asyncio.Queue(loop=self.loop)
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self.running_probes: typing.Set[asyncio.Task] = set()
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self.iteration_count = 0
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self.bottom_out_count = 0
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self.running = False
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self.tasks: typing.List[asyncio.Task] = []
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self.delayed_calls: typing.List[asyncio.Handle] = []
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for peer in get_shortlist(routing_table, key, shortlist):
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if peer.node_id:
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self._add_active(peer)
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else:
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# seed nodes
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self._schedule_probe(peer)
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async def send_probe(self, peer: 'KademliaPeer') -> FindResponse:
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"""
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Send the rpc request to the peer and return an object with the FindResponse interface
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"""
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raise NotImplementedError()
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def search_exhausted(self):
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"""
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This method ends the iterator due no more peers to contact.
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Override to provide last time results.
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"""
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self.iteration_queue.put_nowait(None)
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def check_result_ready(self, response: FindResponse):
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"""
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Called after adding peers from an rpc result to the shortlist.
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This method is responsible for putting a result for the generator into the Queue
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"""
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raise NotImplementedError()
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def get_initial_result(self) -> typing.List['KademliaPeer']:
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"""
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Get an initial or cached result to be put into the Queue. Used for findValue requests where the blob
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has peers in the local data store of blobs announced to us
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"""
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return []
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def _is_closer(self, peer: 'KademliaPeer') -> bool:
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return not self.closest_peer or self.distance.is_closer(peer.node_id, self.closest_peer.node_id)
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def _add_active(self, peer):
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if peer not in self.active and peer.node_id and peer.node_id != self.protocol.node_id:
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self.active.add(peer)
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if self._is_closer(peer):
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self.prev_closest_peer = self.closest_peer
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self.closest_peer = peer
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async def _handle_probe_result(self, peer: 'KademliaPeer', response: FindResponse):
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self._add_active(peer)
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for contact_triple in response.get_close_triples():
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node_id, address, udp_port = contact_triple
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try:
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self._add_active(make_kademlia_peer(node_id, address, udp_port))
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except ValueError:
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log.warning("misbehaving peer %s:%i returned peer with reserved ip %s:%i", peer.address,
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peer.udp_port, address, udp_port)
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self.check_result_ready(response)
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async def _send_probe(self, peer: 'KademliaPeer'):
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try:
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response = await self.send_probe(peer)
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except asyncio.TimeoutError:
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self.active.discard(peer)
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return
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except ValueError as err:
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log.warning(str(err))
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self.active.discard(peer)
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return
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except TransportNotConnected:
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return self.aclose()
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except RemoteException:
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return
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return await self._handle_probe_result(peer, response)
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async def _search_round(self):
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"""
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Send up to constants.alpha (5) probes to closest active peers
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"""
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added = 0
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to_probe = list(self.active - self.contacted)
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to_probe.sort(key=lambda peer: self.distance(self.key))
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for peer in to_probe:
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if added >= constants.alpha:
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break
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origin_address = (peer.address, peer.udp_port)
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if origin_address in self.exclude:
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continue
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if peer.node_id == self.protocol.node_id:
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continue
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if origin_address == (self.protocol.external_ip, self.protocol.udp_port):
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continue
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self._schedule_probe(peer)
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added += 1
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log.debug("running %d probes", len(self.running_probes))
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if not added and not self.running_probes:
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log.debug("search for %s exhausted", hexlify(self.key)[:8])
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self.search_exhausted()
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def _schedule_probe(self, peer: 'KademliaPeer'):
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self.contacted.add(peer)
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t = self.loop.create_task(self._send_probe(peer))
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def callback(_):
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self.running_probes.difference_update({
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probe for probe in self.running_probes if probe.done() or probe == t
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})
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if not self.running_probes:
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self.tasks.append(self.loop.create_task(self._search_task(0.0)))
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t.add_done_callback(callback)
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self.running_probes.add(t)
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async def _search_task(self, delay: typing.Optional[float] = constants.iterative_lookup_delay):
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try:
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if self.running:
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await self._search_round()
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if self.running:
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self.delayed_calls.append(self.loop.call_later(delay, self._search))
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except (asyncio.CancelledError, StopAsyncIteration, TransportNotConnected):
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if self.running:
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self.loop.call_soon(self.aclose)
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def _search(self):
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self.tasks.append(self.loop.create_task(self._search_task()))
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def __aiter__(self):
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if self.running:
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raise Exception("already running")
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self.running = True
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self._search()
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return self
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async def __anext__(self) -> typing.List['KademliaPeer']:
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try:
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if self.iteration_count == 0:
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result = self.get_initial_result() or await self.iteration_queue.get()
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else:
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result = await self.iteration_queue.get()
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if not result:
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raise StopAsyncIteration
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self.iteration_count += 1
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return result
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except (asyncio.CancelledError, StopAsyncIteration):
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self.loop.call_soon(self.aclose)
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raise
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def aclose(self):
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self.running = False
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self.iteration_queue.put_nowait(None)
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for task in chain(self.tasks, self.running_probes, self.delayed_calls):
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task.cancel()
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self.tasks.clear()
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self.running_probes.clear()
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self.delayed_calls.clear()
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class IterativeNodeFinder(IterativeFinder):
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def __init__(self, loop: asyncio.AbstractEventLoop, peer_manager: 'PeerManager',
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routing_table: 'TreeRoutingTable', protocol: 'KademliaProtocol', key: bytes,
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bottom_out_limit: typing.Optional[int] = 2, max_results: typing.Optional[int] = constants.k,
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exclude: typing.Optional[typing.List[typing.Tuple[str, int]]] = None,
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shortlist: typing.Optional[typing.List['KademliaPeer']] = None):
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super().__init__(loop, peer_manager, routing_table, protocol, key, bottom_out_limit, max_results, exclude,
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shortlist)
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self.yielded_peers: typing.Set['KademliaPeer'] = set()
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async def send_probe(self, peer: 'KademliaPeer') -> FindNodeResponse:
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log.debug("probing %s:%d %s", peer.address, peer.udp_port, hexlify(peer.node_id)[:8] if peer.node_id else '')
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response = await self.protocol.get_rpc_peer(peer).find_node(self.key)
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return FindNodeResponse(self.key, response)
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def search_exhausted(self):
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self.put_result(self.active, finish=True)
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def put_result(self, from_iter: typing.Iterable['KademliaPeer'], finish=False):
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not_yet_yielded = [
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peer for peer in from_iter
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if peer not in self.yielded_peers
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and peer.node_id != self.protocol.node_id
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and self.peer_manager.peer_is_good(peer) is not False
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]
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not_yet_yielded.sort(key=lambda peer: self.distance(peer.node_id))
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to_yield = not_yet_yielded[:min(constants.k, len(not_yet_yielded))]
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if to_yield:
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self.yielded_peers.update(to_yield)
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self.iteration_queue.put_nowait(to_yield)
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if finish:
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self.iteration_queue.put_nowait(None)
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def check_result_ready(self, response: FindNodeResponse):
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found = response.found and self.key != self.protocol.node_id
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if found:
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log.debug("found")
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return self.put_result(self.active, finish=True)
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if self.prev_closest_peer and self.closest_peer and not self._is_closer(self.prev_closest_peer):
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# log.info("improving, %i %i %i %i %i", len(self.shortlist), len(self.active), len(self.contacted),
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# self.bottom_out_count, self.iteration_count)
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self.bottom_out_count = 0
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elif self.prev_closest_peer and self.closest_peer:
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self.bottom_out_count += 1
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log.info("bottom out %i %i %i", len(self.active), len(self.contacted), self.bottom_out_count)
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if self.bottom_out_count >= self.bottom_out_limit or self.iteration_count >= self.bottom_out_limit:
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log.info("limit hit")
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self.put_result(self.active, True)
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class IterativeValueFinder(IterativeFinder):
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def __init__(self, loop: asyncio.AbstractEventLoop, peer_manager: 'PeerManager',
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routing_table: 'TreeRoutingTable', protocol: 'KademliaProtocol', key: bytes,
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bottom_out_limit: typing.Optional[int] = 2, max_results: typing.Optional[int] = constants.k,
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exclude: typing.Optional[typing.List[typing.Tuple[str, int]]] = None,
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shortlist: typing.Optional[typing.List['KademliaPeer']] = None):
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super().__init__(loop, peer_manager, routing_table, protocol, key, bottom_out_limit, max_results, exclude,
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shortlist)
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self.blob_peers: typing.Set['KademliaPeer'] = set()
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# this tracks the index of the most recent page we requested from each peer
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self.peer_pages: typing.DefaultDict['KademliaPeer', int] = defaultdict(int)
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# this tracks the set of blob peers returned by each peer
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self.discovered_peers: typing.Dict['KademliaPeer', typing.Set['KademliaPeer']] = defaultdict(set)
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async def send_probe(self, peer: 'KademliaPeer') -> FindValueResponse:
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page = self.peer_pages[peer]
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response = await self.protocol.get_rpc_peer(peer).find_value(self.key, page=page)
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parsed = FindValueResponse(self.key, response)
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if not parsed.found:
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return parsed
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already_known = len(self.discovered_peers[peer])
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decoded_peers = set()
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for compact_addr in parsed.found_compact_addresses:
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try:
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decoded_peers.add(self.peer_manager.decode_tcp_peer_from_compact_address(compact_addr))
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except ValueError:
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log.warning("misbehaving peer %s:%i returned invalid peer for blob",
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peer.address, peer.udp_port)
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self.peer_manager.report_failure(peer.address, peer.udp_port)
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parsed.found_compact_addresses.clear()
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return parsed
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self.discovered_peers[peer].update(decoded_peers)
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log.debug("probed %s:%i page %i, %i known", peer.address, peer.udp_port, page,
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already_known + len(parsed.found_compact_addresses))
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if len(self.discovered_peers[peer]) != already_known + len(parsed.found_compact_addresses):
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log.warning("misbehaving peer %s:%i returned duplicate peers for blob", peer.address, peer.udp_port)
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parsed.found_compact_addresses.clear()
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elif len(parsed.found_compact_addresses) >= constants.k and self.peer_pages[peer] < parsed.pages:
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# the peer returned a full page and indicates it has more
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self.peer_pages[peer] += 1
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if peer in self.contacted:
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# the peer must be removed from self.contacted so that it will be probed for the next page
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self.contacted.remove(peer)
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return parsed
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def check_result_ready(self, response: FindValueResponse):
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if response.found:
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blob_peers = [self.peer_manager.decode_tcp_peer_from_compact_address(compact_addr)
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for compact_addr in response.found_compact_addresses]
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to_yield = []
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self.bottom_out_count = 0
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for blob_peer in blob_peers:
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if blob_peer not in self.blob_peers:
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self.blob_peers.add(blob_peer)
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to_yield.append(blob_peer)
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if to_yield:
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# log.info("found %i new peers for blob", len(to_yield))
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self.iteration_queue.put_nowait(to_yield)
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# if self.max_results and len(self.blob_peers) >= self.max_results:
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# log.info("enough blob peers found")
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# if not self.finished.is_set():
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# self.finished.set()
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elif self.prev_closest_peer and self.closest_peer:
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self.bottom_out_count += 1
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if self.bottom_out_count >= self.bottom_out_limit:
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log.info("blob peer search bottomed out")
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self.iteration_queue.put_nowait(None)
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def get_initial_result(self) -> typing.List['KademliaPeer']:
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if self.protocol.data_store.has_peers_for_blob(self.key):
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return self.protocol.data_store.get_peers_for_blob(self.key)
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return []
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