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

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