import asyncio import typing import logging from lbrynet.utils import cache_concurrent from lbrynet.blob_exchange.client import request_blob if typing.TYPE_CHECKING: from lbrynet.conf import Config from lbrynet.dht.node import Node from lbrynet.dht.peer import KademliaPeer from lbrynet.blob.blob_manager import BlobManager from lbrynet.blob.blob_file import AbstractBlob log = logging.getLogger(__name__) class BlobDownloader: BAN_FACTOR = 2.0 # fixme: when connection manager gets implemented, move it out from here def __init__(self, loop: asyncio.BaseEventLoop, config: 'Config', blob_manager: 'BlobManager', peer_queue: asyncio.Queue): self.loop = loop self.config = config self.blob_manager = blob_manager self.peer_queue = peer_queue self.active_connections: typing.Dict['KademliaPeer', asyncio.Task] = {} # active request_blob calls self.ignored: typing.Dict['KademliaPeer', int] = {} self.scores: typing.Dict['KademliaPeer', int] = {} self.failures: typing.Dict['KademliaPeer', int] = {} self.connections: typing.Dict['KademliaPeer', asyncio.Transport] = {} def should_race_continue(self, blob: 'AbstractBlob'): if len(self.active_connections) >= self.config.max_connections_per_download: return False return not (blob.get_is_verified() or not blob.is_writeable()) async def request_blob_from_peer(self, blob: 'AbstractBlob', peer: 'KademliaPeer'): if blob.get_is_verified(): return self.scores[peer] = self.scores.get(peer, 0) - 1 # starts losing score, to account for cancelled ones transport = self.connections.get(peer) start = self.loop.time() bytes_received, transport = await request_blob( self.loop, blob, peer.address, peer.tcp_port, self.config.peer_connect_timeout, self.config.blob_download_timeout, connected_transport=transport ) if not transport and peer not in self.ignored: self.ignored[peer] = self.loop.time() log.debug("drop peer %s:%i", peer.address, peer.tcp_port) self.failures[peer] = self.failures.get(peer, 0) + 1 if peer in self.connections: del self.connections[peer] elif transport: log.debug("keep peer %s:%i", peer.address, peer.tcp_port) self.failures[peer] = 0 self.connections[peer] = transport elapsed = self.loop.time - start self.scores[peer] = bytes_received / elapsed if bytes_received and elapsed else 0 async def new_peer_or_finished(self): active_tasks = list(self.active_connections.values()) + [asyncio.sleep(1)] await asyncio.wait(active_tasks, loop=self.loop, return_when='FIRST_COMPLETED') def cleanup_active(self): to_remove = [peer for (peer, task) in self.active_connections.items() if task.done()] for peer in to_remove: del self.active_connections[peer] self.clearbanned() def clearbanned(self): now = self.loop.time() self.ignored = dict(( (peer, when) for (peer, when) in self.ignored.items() if (now - when) < min(30.0, (self.failures.get(peer, 0) ** self.BAN_FACTOR)) )) @cache_concurrent async def download_blob(self, blob_hash: str, length: typing.Optional[int] = None) -> 'AbstractBlob': blob = self.blob_manager.get_blob(blob_hash, length) if blob.get_is_verified(): return blob try: while not blob.get_is_verified(): batch: typing.Set['KademliaPeer'] = set() while not self.peer_queue.empty(): batch.update(self.peer_queue.get_nowait()) if batch: self.peer_queue.put_nowait(list(batch)) log.debug( "running, %d peers, %d ignored, %d active", len(batch), len(self.ignored), len(self.active_connections) ) for peer in sorted(batch, key=lambda peer: self.scores.get(peer, 0), reverse=True): if not self.should_race_continue(blob): break if peer not in self.active_connections and peer not in self.ignored: log.debug("request %s from %s:%i", blob_hash[:8], peer.address, peer.tcp_port) t = self.loop.create_task(self.request_blob_from_peer(blob, peer)) self.active_connections[peer] = t await self.new_peer_or_finished() self.cleanup_active() log.debug("downloaded %s", blob_hash[:8]) return blob finally: blob.close() def close(self): self.scores.clear() self.ignored.clear() for transport in self.connections.values(): transport.close() async def download_blob(loop, config: 'Config', blob_manager: 'BlobManager', node: 'Node', blob_hash: str) -> 'AbstractBlob': search_queue = asyncio.Queue(loop=loop, maxsize=config.max_connections_per_download) search_queue.put_nowait(blob_hash) peer_queue, accumulate_task = node.accumulate_peers(search_queue) downloader = BlobDownloader(loop, config, blob_manager, peer_queue) try: return await downloader.download_blob(blob_hash) finally: if accumulate_task and not accumulate_task.done(): accumulate_task.cancel() downloader.close()