forked from LBRYCommunity/lbry-sdk
495 lines
21 KiB
Python
495 lines
21 KiB
Python
import logging
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import asyncio
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import json
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import socket
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import random
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from time import perf_counter
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from collections import defaultdict
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from typing import Dict, Optional, Tuple
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import aiohttp
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import grpc
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from lbry.schema.types.v2 import hub_pb2_grpc
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from lbry.schema.types.v2.hub_pb2 import SearchRequest
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from lbry import __version__
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from lbry.utils import resolve_host
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from lbry.error import IncompatibleWalletServerError
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from lbry.wallet.rpc import RPCSession as BaseClientSession, Connector, RPCError, ProtocolError
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from lbry.wallet.stream import StreamController
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from lbry.wallet.server.udp import SPVStatusClientProtocol, SPVPong
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from lbry.conf import KnownHubsList
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log = logging.getLogger(__name__)
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class ClientSession(BaseClientSession):
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def __init__(self, *args, network: 'Network', server, timeout=30, concurrency=32, **kwargs):
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self.network = network
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self.server = server
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super().__init__(*args, **kwargs)
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self.framer.max_size = self.max_errors = 1 << 32
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self.timeout = timeout
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self.max_seconds_idle = timeout * 2
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self.response_time: Optional[float] = None
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self.connection_latency: Optional[float] = None
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self._response_samples = 0
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self._concurrency = asyncio.Semaphore(concurrency)
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@property
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def concurrency(self):
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return self._concurrency._value
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@property
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def available(self):
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return not self.is_closing() and self.response_time is not None
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@property
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def server_address_and_port(self) -> Optional[Tuple[str, int]]:
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if not self.transport:
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return None
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return self.transport.get_extra_info('peername')
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async def send_timed_server_version_request(self, args=(), timeout=None):
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timeout = timeout or self.timeout
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log.debug("send version request to %s:%i", *self.server)
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start = perf_counter()
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result = await asyncio.wait_for(
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super().send_request('server.version', args), timeout=timeout
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)
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current_response_time = perf_counter() - start
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response_sum = (self.response_time or 0) * self._response_samples + current_response_time
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self.response_time = response_sum / (self._response_samples + 1)
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self._response_samples += 1
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return result
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async def send_request(self, method, args=()):
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log.debug("send %s%s to %s:%i (%i timeout)", method, tuple(args), self.server[0], self.server[1], self.timeout)
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try:
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await self._concurrency.acquire()
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if method == 'server.version':
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return await self.send_timed_server_version_request(args, self.timeout)
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request = asyncio.ensure_future(super().send_request(method, args))
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while not request.done():
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done, pending = await asyncio.wait([request], timeout=self.timeout)
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if pending:
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log.debug("Time since last packet: %s", perf_counter() - self.last_packet_received)
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if (perf_counter() - self.last_packet_received) < self.timeout:
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continue
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log.warning("timeout sending %s to %s:%i", method, *self.server)
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raise asyncio.TimeoutError
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if done:
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try:
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return request.result()
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except ConnectionResetError:
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log.error(
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"wallet server (%s) reset connection upon our %s request, json of %i args is %i bytes",
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self.server[0], method, len(args), len(json.dumps(args))
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)
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raise
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except (RPCError, ProtocolError) as e:
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log.warning("Wallet server (%s:%i) returned an error. Code: %s Message: %s",
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*self.server, *e.args)
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raise e
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except ConnectionError:
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log.warning("connection to %s:%i lost", *self.server)
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self.synchronous_close()
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raise
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except asyncio.CancelledError:
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log.warning("cancelled sending %s to %s:%i", method, *self.server)
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# self.synchronous_close()
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raise
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finally:
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self._concurrency.release()
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async def ensure_server_version(self, required=None, timeout=3):
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required = required or self.network.PROTOCOL_VERSION
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response = await asyncio.wait_for(
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self.send_request('server.version', [__version__, required]), timeout=timeout
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)
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if tuple(int(piece) for piece in response[0].split(".")) < self.network.MINIMUM_REQUIRED:
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raise IncompatibleWalletServerError(*self.server)
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return response
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async def keepalive_loop(self, timeout=3, max_idle=60):
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try:
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while True:
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now = perf_counter()
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if min(self.last_send, self.last_packet_received) + max_idle < now:
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await asyncio.wait_for(
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self.send_request('server.ping', []), timeout=timeout
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)
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else:
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await asyncio.sleep(max(0, max_idle - (now - self.last_send)))
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except Exception as err:
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if isinstance(err, asyncio.CancelledError):
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log.warning("closing connection to %s:%i", *self.server)
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else:
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log.exception("lost connection to spv")
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finally:
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if not self.is_closing():
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self._close()
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async def create_connection(self, timeout=6):
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connector = Connector(lambda: self, *self.server)
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start = perf_counter()
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await asyncio.wait_for(connector.create_connection(), timeout=timeout)
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self.connection_latency = perf_counter() - start
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async def handle_request(self, request):
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controller = self.network.subscription_controllers[request.method]
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controller.add(request.args)
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def connection_lost(self, exc):
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log.warning("Connection lost: %s:%d", *self.server)
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super().connection_lost(exc)
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self.response_time = None
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self.connection_latency = None
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self._response_samples = 0
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# self._on_disconnect_controller.add(True)
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if self.network:
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self.network.disconnect()
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class Network:
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PROTOCOL_VERSION = __version__
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MINIMUM_REQUIRED = (0, 65, 0)
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def __init__(self, ledger):
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self.ledger = ledger
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self.client: Optional[ClientSession] = None
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self.server_features = None
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# self._switch_task: Optional[asyncio.Task] = None
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self.running = False
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self.remote_height: int = 0
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self._on_connected_controller = StreamController()
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self.on_connected = self._on_connected_controller.stream
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self._on_header_controller = StreamController(merge_repeated_events=True)
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self.on_header = self._on_header_controller.stream
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self._on_status_controller = StreamController(merge_repeated_events=True)
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self.on_status = self._on_status_controller.stream
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self._on_hub_controller = StreamController(merge_repeated_events=True)
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self.on_hub = self._on_hub_controller.stream
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self.subscription_controllers = {
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'blockchain.headers.subscribe': self._on_header_controller,
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'blockchain.address.subscribe': self._on_status_controller,
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'blockchain.peers.subscribe': self._on_hub_controller,
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}
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self.aiohttp_session: Optional[aiohttp.ClientSession] = None
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self._urgent_need_reconnect = asyncio.Event()
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self._loop_task: Optional[asyncio.Task] = None
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self._keepalive_task: Optional[asyncio.Task] = None
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@property
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def config(self):
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return self.ledger.config
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@property
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def known_hubs(self):
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if 'known_hubs' not in self.config:
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return KnownHubsList()
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return self.config['known_hubs']
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@property
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def jurisdiction(self):
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return self.config.get("jurisdiction")
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def disconnect(self):
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if self._keepalive_task and not self._keepalive_task.done():
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self._keepalive_task.cancel()
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self._keepalive_task = None
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async def start(self):
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if not self.running:
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self.running = True
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self.aiohttp_session = aiohttp.ClientSession()
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self.on_header.listen(self._update_remote_height)
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self.on_hub.listen(self._update_hubs)
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self._loop_task = asyncio.create_task(self.network_loop())
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self._urgent_need_reconnect.set()
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def loop_task_done_callback(f):
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try:
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f.result()
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except Exception:
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if self.running:
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log.exception("wallet server connection loop crashed")
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self._loop_task.add_done_callback(loop_task_done_callback)
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async def resolve_spv_dns(self):
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hostname_to_ip = {}
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ip_to_hostnames = defaultdict(list)
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async def resolve_spv(server, port):
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try:
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server_addr = await resolve_host(server, port, 'udp')
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hostname_to_ip[server] = (server_addr, port)
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ip_to_hostnames[(server_addr, port)].append(server)
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except socket.error:
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log.warning("error looking up dns for spv server %s:%i", server, port)
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except Exception:
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log.exception("error looking up dns for spv server %s:%i", server, port)
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# accumulate the dns results
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if self.config['explicit_servers']:
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hubs = self.config['explicit_servers']
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elif self.known_hubs:
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hubs = self.known_hubs
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else:
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hubs = self.config['default_servers']
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await asyncio.gather(*(resolve_spv(server, port) for (server, port) in hubs))
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return hostname_to_ip, ip_to_hostnames
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async def get_n_fastest_spvs(self, timeout=3.0) -> Dict[Tuple[str, int], Optional[SPVPong]]:
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loop = asyncio.get_event_loop()
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pong_responses = asyncio.Queue()
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connection = SPVStatusClientProtocol(pong_responses)
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sent_ping_timestamps = {}
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_, ip_to_hostnames = await self.resolve_spv_dns()
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n = len(ip_to_hostnames)
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log.info("%i possible spv servers to try (%i urls in config)", n, len(self.config['explicit_servers']))
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pongs = {}
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known_hubs = self.known_hubs
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try:
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await loop.create_datagram_endpoint(lambda: connection, ('0.0.0.0', 0))
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# could raise OSError if it cant bind
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start = perf_counter()
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for server in ip_to_hostnames:
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connection.ping(server)
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sent_ping_timestamps[server] = perf_counter()
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while len(pongs) < n:
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(remote, ts), pong = await asyncio.wait_for(pong_responses.get(), timeout - (perf_counter() - start))
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latency = ts - start
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log.info("%s:%i has latency of %sms (available: %s, height: %i)",
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'/'.join(ip_to_hostnames[remote]), remote[1], round(latency * 1000, 2),
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pong.available, pong.height)
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known_hubs.hubs.setdefault((ip_to_hostnames[remote][0], remote[1]), {}).update(
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{"country": pong.country_name}
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)
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if pong.available:
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pongs[(ip_to_hostnames[remote][0], remote[1])] = pong
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return pongs
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except asyncio.TimeoutError:
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if pongs:
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log.info("%i/%i probed spv servers are accepting connections", len(pongs), len(ip_to_hostnames))
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return pongs
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else:
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log.warning("%i spv status probes failed, retrying later. servers tried: %s",
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len(sent_ping_timestamps),
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', '.join('/'.join(hosts) + f' ({ip})' for ip, hosts in ip_to_hostnames.items()))
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random_server = random.choice(list(ip_to_hostnames.keys()))
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host, port = random_server
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log.warning("trying fallback to randomly selected spv: %s:%i", host, port)
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known_hubs.hubs.setdefault((host, port), {})
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return {(host, port): None}
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finally:
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connection.close()
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async def connect_to_fastest(self) -> Optional[ClientSession]:
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fastest_spvs = await self.get_n_fastest_spvs()
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for (host, port), pong in fastest_spvs.items():
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if (pong is not None and self.jurisdiction is not None) and \
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(pong.country_name != self.jurisdiction):
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continue
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client = ClientSession(network=self, server=(host, port), timeout=self.config['hub_timeout'],
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concurrency=self.config['concurrent_hub_requests'])
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try:
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await client.create_connection()
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log.warning("Connected to spv server %s:%i", host, port)
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await client.ensure_server_version()
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return client
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except (asyncio.TimeoutError, ConnectionError, OSError, IncompatibleWalletServerError, RPCError):
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log.warning("Connecting to %s:%d failed", host, port)
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client._close()
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return
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async def network_loop(self):
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sleep_delay = 30
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while self.running:
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await asyncio.wait(
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[asyncio.sleep(30), self._urgent_need_reconnect.wait()], return_when=asyncio.FIRST_COMPLETED
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)
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if self._urgent_need_reconnect.is_set():
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sleep_delay = 30
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self._urgent_need_reconnect.clear()
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if not self.is_connected:
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client = await self.connect_to_fastest()
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if not client:
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log.warning("failed to connect to any spv servers, retrying later")
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sleep_delay *= 2
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sleep_delay = min(sleep_delay, 300)
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continue
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log.debug("get spv server features %s:%i", *client.server)
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features = await client.send_request('server.features', [])
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self.client, self.server_features = client, features
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log.debug("discover other hubs %s:%i", *client.server)
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await self._update_hubs(await client.send_request('server.peers.subscribe', []))
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log.info("subscribe to headers %s:%i", *client.server)
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self._update_remote_height((await self.subscribe_headers(),))
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self._on_connected_controller.add(True)
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server_str = "%s:%i" % client.server
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log.info("maintaining connection to spv server %s", server_str)
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self._keepalive_task = asyncio.create_task(self.client.keepalive_loop())
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try:
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if not self._urgent_need_reconnect.is_set():
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await asyncio.wait(
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[self._keepalive_task, self._urgent_need_reconnect.wait()],
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return_when=asyncio.FIRST_COMPLETED
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)
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else:
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await self._keepalive_task
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if self._urgent_need_reconnect.is_set():
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log.warning("urgent reconnect needed")
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self._urgent_need_reconnect.clear()
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if self._keepalive_task and not self._keepalive_task.done():
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self._keepalive_task.cancel()
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except asyncio.CancelledError:
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pass
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finally:
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self._keepalive_task = None
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self.client = None
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self.server_features = None
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log.warning("connection lost to %s", server_str)
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log.info("network loop finished")
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async def stop(self):
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self.running = False
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self.disconnect()
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if self._loop_task and not self._loop_task.done():
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self._loop_task.cancel()
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self._loop_task = None
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if self.aiohttp_session:
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await self.aiohttp_session.close()
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self.aiohttp_session = None
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@property
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def is_connected(self):
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return self.client and not self.client.is_closing()
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def rpc(self, list_or_method, args, restricted=True, session: Optional[ClientSession] = None):
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if session or self.is_connected:
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session = session or self.client
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return session.send_request(list_or_method, args)
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else:
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self._urgent_need_reconnect.set()
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raise ConnectionError("Attempting to send rpc request when connection is not available.")
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async def retriable_call(self, function, *args, **kwargs):
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while self.running:
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if not self.is_connected:
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log.warning("Wallet server unavailable, waiting for it to come back and retry.")
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self._urgent_need_reconnect.set()
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await self.on_connected.first
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try:
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return await function(*args, **kwargs)
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except asyncio.TimeoutError:
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log.warning("Wallet server call timed out, retrying.")
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except ConnectionError:
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log.warning("connection error")
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raise asyncio.CancelledError() # if we got here, we are shutting down
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def _update_remote_height(self, header_args):
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self.remote_height = header_args[0]["height"]
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async def _update_hubs(self, hubs):
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if hubs and hubs != ['']:
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try:
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if self.known_hubs.add_hubs(hubs):
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self.known_hubs.save()
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except Exception:
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log.exception("could not add hubs: %s", hubs)
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def get_transaction(self, tx_hash, known_height=None):
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# use any server if its old, otherwise restrict to who gave us the history
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restricted = known_height in (None, -1, 0) or 0 > known_height > self.remote_height - 10
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return self.rpc('blockchain.transaction.get', [tx_hash], restricted)
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def get_transaction_batch(self, txids, restricted=True):
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# use any server if its old, otherwise restrict to who gave us the history
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return self.rpc('blockchain.transaction.get_batch', txids, restricted)
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def get_transaction_and_merkle(self, tx_hash, known_height=None):
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# use any server if its old, otherwise restrict to who gave us the history
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restricted = known_height in (None, -1, 0) or 0 > known_height > self.remote_height - 10
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return self.rpc('blockchain.transaction.info', [tx_hash], restricted)
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def get_transaction_height(self, tx_hash, known_height=None):
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restricted = not known_height or 0 > known_height > self.remote_height - 10
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return self.rpc('blockchain.transaction.get_height', [tx_hash], restricted)
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def get_merkle(self, tx_hash, height):
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restricted = 0 > height > self.remote_height - 10
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return self.rpc('blockchain.transaction.get_merkle', [tx_hash, height], restricted)
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def get_headers(self, height, count=10000, b64=False):
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restricted = height >= self.remote_height - 100
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return self.rpc('blockchain.block.headers', [height, count, 0, b64], restricted)
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# --- Subscribes, history and broadcasts are always aimed towards the master client directly
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def get_history(self, address):
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return self.rpc('blockchain.address.get_history', [address], True)
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def broadcast(self, raw_transaction):
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return self.rpc('blockchain.transaction.broadcast', [raw_transaction], True)
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def subscribe_headers(self):
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return self.rpc('blockchain.headers.subscribe', [True], True)
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async def subscribe_address(self, address, *addresses):
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addresses = list((address, ) + addresses)
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server_addr_and_port = self.client.server_address_and_port # on disconnect client will be None
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try:
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return await self.rpc('blockchain.address.subscribe', addresses, True)
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except asyncio.TimeoutError:
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log.warning(
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"timed out subscribing to addresses from %s:%i",
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*server_addr_and_port
|
|
)
|
|
# abort and cancel, we can't lose a subscription, it will happen again on reconnect
|
|
if self.client:
|
|
self.client.abort()
|
|
raise asyncio.CancelledError()
|
|
|
|
def unsubscribe_address(self, address):
|
|
return self.rpc('blockchain.address.unsubscribe', [address], True)
|
|
|
|
def get_server_features(self):
|
|
return self.rpc('server.features', (), restricted=True)
|
|
|
|
def resolve(self, urls, session_override=None):
|
|
return self.rpc('blockchain.claimtrie.resolve', urls, False, session_override)
|
|
|
|
def claim_search(self, session_override=None, **kwargs):
|
|
return self.rpc('blockchain.claimtrie.search', kwargs, False, session_override)
|
|
|
|
async def new_resolve(self, server, urls):
|
|
message = {"method": "resolve", "params": {"urls": urls, "protobuf": True}}
|
|
async with self.aiohttp_session.post(server, json=message) as r:
|
|
result = await r.json()
|
|
return result['result']
|
|
|
|
async def new_claim_search(self, server, **kwargs):
|
|
if "offset" in kwargs and isinstance(kwargs["offset"], int):
|
|
kwargs["offset"] = {"value": kwargs["offset"]}
|
|
if "limit" in kwargs and isinstance(kwargs["limit"], int):
|
|
kwargs["limit"] = {"value": kwargs["limit"]}
|
|
async with grpc.aio.insecure_channel(server) as channel:
|
|
stub = hub_pb2_grpc.HubStub(channel)
|
|
response = await stub.Search(SearchRequest(**kwargs))
|
|
return response
|
|
|
|
async def sum_supports(self, server, **kwargs):
|
|
message = {"method": "support_sum", "params": kwargs}
|
|
async with self.aiohttp_session.post(server, json=message) as r:
|
|
result = await r.json()
|
|
return result['result']
|