lbry-sdk/lbry/wallet/server/session.py
2021-01-21 16:08:33 -05:00

1644 lines
65 KiB
Python

import os
import ssl
import math
import time
import json
import zlib
import base64
import codecs
import typing
import asyncio
import logging
import itertools
import collections
from asyncio import Event, sleep
from collections import defaultdict
from functools import partial
from binascii import hexlify, unhexlify
from concurrent.futures import ProcessPoolExecutor, ThreadPoolExecutor
from prometheus_client import Counter, Info, Histogram, Gauge
import lbry
from lbry.utils import LRUCacheWithMetrics
from lbry.build_info import BUILD, COMMIT_HASH, DOCKER_TAG
from lbry.wallet.server.block_processor import LBRYBlockProcessor
from lbry.wallet.server.db.writer import LBRYLevelDB
from lbry.wallet.server.db import reader
from lbry.wallet.server.websocket import AdminWebSocket
from lbry.wallet.server.metrics import ServerLoadData, APICallMetrics
from lbry.wallet.rpc.framing import NewlineFramer
import lbry.wallet.server.version as VERSION
from lbry.wallet.rpc import (
RPCSession, JSONRPCAutoDetect, JSONRPCConnection,
handler_invocation, RPCError, Request, JSONRPC
)
from lbry.wallet.server import text
from lbry.wallet.server import util
from lbry.wallet.server.hash import sha256, hash_to_hex_str, hex_str_to_hash, HASHX_LEN, Base58Error
from lbry.wallet.server.daemon import DaemonError
from lbry.wallet.server.peers import PeerManager
if typing.TYPE_CHECKING:
from lbry.wallet.server.env import Env
from lbry.wallet.server.mempool import MemPool
from lbry.wallet.server.daemon import Daemon
BAD_REQUEST = 1
DAEMON_ERROR = 2
log = logging.getLogger(__name__)
def scripthash_to_hashX(scripthash: str) -> bytes:
try:
bin_hash = hex_str_to_hash(scripthash)
if len(bin_hash) == 32:
return bin_hash[:HASHX_LEN]
except Exception:
pass
raise RPCError(BAD_REQUEST, f'{scripthash} is not a valid script hash')
def non_negative_integer(value) -> int:
"""Return param value it is or can be converted to a non-negative
integer, otherwise raise an RPCError."""
try:
value = int(value)
if value >= 0:
return value
except ValueError:
pass
raise RPCError(BAD_REQUEST,
f'{value} should be a non-negative integer')
def assert_boolean(value) -> bool:
"""Return param value it is boolean otherwise raise an RPCError."""
if value in (False, True):
return value
raise RPCError(BAD_REQUEST, f'{value} should be a boolean value')
def assert_tx_hash(value: str) -> None:
"""Raise an RPCError if the value is not a valid transaction
hash."""
try:
if len(util.hex_to_bytes(value)) == 32:
return
except Exception:
pass
raise RPCError(BAD_REQUEST, f'{value} should be a transaction hash')
class Semaphores:
"""For aiorpcX's semaphore handling."""
def __init__(self, semaphores):
self.semaphores = semaphores
self.acquired = []
async def __aenter__(self):
for semaphore in self.semaphores:
await semaphore.acquire()
self.acquired.append(semaphore)
async def __aexit__(self, exc_type, exc_value, traceback):
for semaphore in self.acquired:
semaphore.release()
class SessionGroup:
def __init__(self, gid: int):
self.gid = gid
# Concurrency per group
self.semaphore = asyncio.Semaphore(20)
NAMESPACE = "wallet_server"
HISTOGRAM_BUCKETS = (
.005, .01, .025, .05, .075, .1, .25, .5, .75, 1.0, 2.5, 5.0, 7.5, 10.0, 15.0, 20.0, 30.0, 60.0, float('inf')
)
class SessionManager:
"""Holds global state about all sessions."""
version_info_metric = Info(
'build', 'Wallet server build info (e.g. version, commit hash)', namespace=NAMESPACE
)
version_info_metric.info({
'build': BUILD,
"commit": COMMIT_HASH,
"docker_tag": DOCKER_TAG,
'version': lbry.__version__,
"min_version": util.version_string(VERSION.PROTOCOL_MIN),
"cpu_count": str(os.cpu_count())
})
session_count_metric = Gauge("session_count", "Number of connected client sessions", namespace=NAMESPACE,
labelnames=("version",))
request_count_metric = Counter("requests_count", "Number of requests received", namespace=NAMESPACE,
labelnames=("method", "version"))
tx_request_count_metric = Counter("requested_transaction", "Number of transactions requested", namespace=NAMESPACE)
tx_replied_count_metric = Counter("replied_transaction", "Number of transactions responded", namespace=NAMESPACE)
urls_to_resolve_count_metric = Counter("urls_to_resolve", "Number of urls to resolve", namespace=NAMESPACE)
resolved_url_count_metric = Counter("resolved_url", "Number of resolved urls", namespace=NAMESPACE)
interrupt_count_metric = Counter("interrupt", "Number of interrupted queries", namespace=NAMESPACE)
db_operational_error_metric = Counter(
"operational_error", "Number of queries that raised operational errors", namespace=NAMESPACE
)
db_error_metric = Counter(
"internal_error", "Number of queries raising unexpected errors", namespace=NAMESPACE
)
executor_time_metric = Histogram(
"executor_time", "SQLite executor times", namespace=NAMESPACE, buckets=HISTOGRAM_BUCKETS
)
pending_query_metric = Gauge(
"pending_queries_count", "Number of pending and running sqlite queries", namespace=NAMESPACE
)
client_version_metric = Counter(
"clients", "Number of connections received per client version",
namespace=NAMESPACE, labelnames=("version",)
)
address_history_metric = Histogram(
"address_history", "Time to fetch an address history",
namespace=NAMESPACE, buckets=HISTOGRAM_BUCKETS
)
notifications_in_flight_metric = Gauge(
"notifications_in_flight", "Count of notifications in flight",
namespace=NAMESPACE
)
notifications_sent_metric = Histogram(
"notifications_sent", "Time to send an address notification",
namespace=NAMESPACE, buckets=HISTOGRAM_BUCKETS
)
def __init__(self, env: 'Env', db: LBRYLevelDB, bp: LBRYBlockProcessor, daemon: 'Daemon', mempool: 'MemPool',
shutdown_event: asyncio.Event):
env.max_send = max(350000, env.max_send)
self.env = env
self.db = db
self.bp = bp
self.daemon = daemon
self.mempool = mempool
self.peer_mgr = PeerManager(env, db)
self.shutdown_event = shutdown_event
self.logger = util.class_logger(__name__, self.__class__.__name__)
self.servers: typing.Dict[str, asyncio.AbstractServer] = {}
self.sessions: typing.Dict[int, 'SessionBase'] = {}
self.hashx_subscriptions_by_session: typing.DefaultDict[str, typing.Set[int]] = defaultdict(set)
self.mempool_statuses = {}
self.cur_group = SessionGroup(0)
self.txs_sent = 0
self.start_time = time.time()
self.history_cache = self.bp.history_cache
self.notified_height: typing.Optional[int] = None
# Cache some idea of room to avoid recounting on each subscription
self.subs_room = 0
self.session_event = Event()
async def _start_server(self, kind, *args, **kw_args):
loop = asyncio.get_event_loop()
if kind == 'RPC':
protocol_class = LocalRPC
else:
protocol_class = self.env.coin.SESSIONCLS
protocol_factory = partial(protocol_class, self, self.db,
self.mempool, self.peer_mgr, kind)
host, port = args[:2]
try:
self.servers[kind] = await loop.create_server(protocol_factory, *args, **kw_args)
except OSError as e: # don't suppress CancelledError
self.logger.error(f'{kind} server failed to listen on {host}:'
f'{port:d} :{e!r}')
else:
self.logger.info(f'{kind} server listening on {host}:{port:d}')
async def _start_external_servers(self):
"""Start listening on TCP and SSL ports, but only if the respective
port was given in the environment.
"""
env = self.env
host = env.cs_host(for_rpc=False)
if env.tcp_port is not None:
await self._start_server('TCP', host, env.tcp_port)
if env.ssl_port is not None:
sslc = ssl.SSLContext(ssl.PROTOCOL_TLS)
sslc.load_cert_chain(env.ssl_certfile, keyfile=env.ssl_keyfile)
await self._start_server('SSL', host, env.ssl_port, ssl=sslc)
async def _close_servers(self, kinds):
"""Close the servers of the given kinds (TCP etc.)."""
if kinds:
self.logger.info('closing down {} listening servers'
.format(', '.join(kinds)))
for kind in kinds:
server = self.servers.pop(kind, None)
if server:
server.close()
await server.wait_closed()
async def _manage_servers(self):
paused = False
max_sessions = self.env.max_sessions
low_watermark = int(max_sessions * 0.95)
while True:
await self.session_event.wait()
self.session_event.clear()
if not paused and len(self.sessions) >= max_sessions:
self.bp.status_server.set_unavailable()
self.logger.info(f'maximum sessions {max_sessions:,d} '
f'reached, stopping new connections until '
f'count drops to {low_watermark:,d}')
await self._close_servers(['TCP', 'SSL'])
paused = True
# Start listening for incoming connections if paused and
# session count has fallen
if paused and len(self.sessions) <= low_watermark:
self.bp.status_server.set_available()
self.logger.info('resuming listening for incoming connections')
await self._start_external_servers()
paused = False
async def _log_sessions(self):
"""Periodically log sessions."""
log_interval = self.env.log_sessions
if log_interval:
while True:
await sleep(log_interval)
data = self._session_data(for_log=True)
for line in text.sessions_lines(data):
self.logger.info(line)
self.logger.info(json.dumps(self._get_info()))
def _group_map(self):
group_map = defaultdict(list)
for session in self.sessions.values():
group_map[session.group].append(session)
return group_map
def _sub_count(self) -> int:
return sum(s.sub_count() for s in self.sessions.values())
def _lookup_session(self, session_id):
try:
session_id = int(session_id)
except Exception:
pass
else:
for session in self.sessions.values():
if session.session_id == session_id:
return session
return None
async def _for_each_session(self, session_ids, operation):
if not isinstance(session_ids, list):
raise RPCError(BAD_REQUEST, 'expected a list of session IDs')
result = []
for session_id in session_ids:
session = self._lookup_session(session_id)
if session:
result.append(await operation(session))
else:
result.append(f'unknown session: {session_id}')
return result
async def _clear_stale_sessions(self):
"""Cut off sessions that haven't done anything for 10 minutes."""
session_timeout = self.env.session_timeout
while True:
await sleep(session_timeout // 10)
stale_cutoff = time.perf_counter() - session_timeout
stale_sessions = [session for session in self.sessions.values()
if session.last_recv < stale_cutoff]
if stale_sessions:
text = ', '.join(str(session.session_id)
for session in stale_sessions)
self.logger.info(f'closing stale connections {text}')
# Give the sockets some time to close gracefully
if stale_sessions:
await asyncio.wait([
session.close(force_after=session_timeout // 10) for session in stale_sessions
])
# Consolidate small groups
group_map = self._group_map()
groups = [group for group, sessions in group_map.items()
if len(sessions) <= 5] # fixme: apply session cost here
if len(groups) > 1:
new_group = groups[-1]
for group in groups:
for session in group_map[group]:
session.group = new_group
def _get_info(self):
"""A summary of server state."""
group_map = self._group_map()
method_counts = collections.defaultdict(int)
error_count = 0
logged = 0
paused = 0
pending_requests = 0
closing = 0
for s in self.sessions.values():
error_count += s.errors
if s.log_me:
logged += 1
if not s._can_send.is_set():
paused += 1
pending_requests += s.count_pending_items()
if s.is_closing():
closing += 1
for request, _ in s.connection._requests.values():
method_counts[request.method] += 1
return {
'closing': closing,
'daemon': self.daemon.logged_url(),
'daemon_height': self.daemon.cached_height(),
'db_height': self.db.db_height,
'errors': error_count,
'groups': len(group_map),
'logged': logged,
'paused': paused,
'pid': os.getpid(),
'peers': self.peer_mgr.info(),
'requests': pending_requests,
'method_counts': method_counts,
'sessions': self.session_count(),
'subs': self._sub_count(),
'txs_sent': self.txs_sent,
'uptime': util.formatted_time(time.time() - self.start_time),
'version': lbry.__version__,
}
def _session_data(self, for_log):
"""Returned to the RPC 'sessions' call."""
now = time.time()
sessions = sorted(self.sessions.values(), key=lambda s: s.start_time)
return [(session.session_id,
session.flags(),
session.peer_address_str(for_log=for_log),
session.client_version,
session.protocol_version_string(),
session.count_pending_items(),
session.txs_sent,
session.sub_count(),
session.recv_count, session.recv_size,
session.send_count, session.send_size,
now - session.start_time)
for session in sessions]
def _group_data(self):
"""Returned to the RPC 'groups' call."""
result = []
group_map = self._group_map()
for group, sessions in group_map.items():
result.append([group.gid,
len(sessions),
sum(s.bw_charge for s in sessions),
sum(s.count_pending_items() for s in sessions),
sum(s.txs_sent for s in sessions),
sum(s.sub_count() for s in sessions),
sum(s.recv_count for s in sessions),
sum(s.recv_size for s in sessions),
sum(s.send_count for s in sessions),
sum(s.send_size for s in sessions),
])
return result
async def _electrum_and_raw_headers(self, height):
raw_header = await self.raw_header(height)
electrum_header = self.env.coin.electrum_header(raw_header, height)
return electrum_header, raw_header
async def _refresh_hsub_results(self, height):
"""Refresh the cached header subscription responses to be for height,
and record that as notified_height.
"""
# Paranoia: a reorg could race and leave db_height lower
height = min(height, self.db.db_height)
electrum, raw = await self._electrum_and_raw_headers(height)
self.hsub_results = (electrum, {'hex': raw.hex(), 'height': height})
self.notified_height = height
# --- LocalRPC command handlers
async def rpc_add_peer(self, real_name):
"""Add a peer.
real_name: "bch.electrumx.cash t50001 s50002" for example
"""
await self.peer_mgr.add_localRPC_peer(real_name)
return f"peer '{real_name}' added"
async def rpc_disconnect(self, session_ids):
"""Disconnect sessions.
session_ids: array of session IDs
"""
async def close(session):
"""Close the session's transport."""
await session.close(force_after=2)
return f'disconnected {session.session_id}'
return await self._for_each_session(session_ids, close)
async def rpc_log(self, session_ids):
"""Toggle logging of sessions.
session_ids: array of session IDs
"""
async def toggle_logging(session):
"""Toggle logging of the session."""
session.toggle_logging()
return f'log {session.session_id}: {session.log_me}'
return await self._for_each_session(session_ids, toggle_logging)
async def rpc_daemon_url(self, daemon_url):
"""Replace the daemon URL."""
daemon_url = daemon_url or self.env.daemon_url
try:
self.daemon.set_url(daemon_url)
except Exception as e:
raise RPCError(BAD_REQUEST, f'an error occurred: {e!r}')
return f'now using daemon at {self.daemon.logged_url()}'
async def rpc_stop(self):
"""Shut down the server cleanly."""
self.shutdown_event.set()
return 'stopping'
async def rpc_getinfo(self):
"""Return summary information about the server process."""
return self._get_info()
async def rpc_groups(self):
"""Return statistics about the session groups."""
return self._group_data()
async def rpc_peers(self):
"""Return a list of data about server peers."""
return self.peer_mgr.rpc_data()
async def rpc_query(self, items, limit):
"""Return a list of data about server peers."""
coin = self.env.coin
db = self.db
lines = []
def arg_to_hashX(arg):
try:
script = bytes.fromhex(arg)
lines.append(f'Script: {arg}')
return coin.hashX_from_script(script)
except ValueError:
pass
try:
hashX = coin.address_to_hashX(arg)
except Base58Error as e:
lines.append(e.args[0])
return None
lines.append(f'Address: {arg}')
return hashX
for arg in items:
hashX = arg_to_hashX(arg)
if not hashX:
continue
n = None
history = await db.limited_history(hashX, limit=limit)
for n, (tx_hash, height) in enumerate(history):
lines.append(f'History #{n:,d}: height {height:,d} '
f'tx_hash {hash_to_hex_str(tx_hash)}')
if n is None:
lines.append('No history found')
n = None
utxos = await db.all_utxos(hashX)
for n, utxo in enumerate(utxos, start=1):
lines.append(f'UTXO #{n:,d}: tx_hash '
f'{hash_to_hex_str(utxo.tx_hash)} '
f'tx_pos {utxo.tx_pos:,d} height '
f'{utxo.height:,d} value {utxo.value:,d}')
if n == limit:
break
if n is None:
lines.append('No UTXOs found')
balance = sum(utxo.value for utxo in utxos)
lines.append(f'Balance: {coin.decimal_value(balance):,f} '
f'{coin.SHORTNAME}')
return lines
async def rpc_sessions(self):
"""Return statistics about connected sessions."""
return self._session_data(for_log=False)
async def rpc_reorg(self, count):
"""Force a reorg of the given number of blocks.
count: number of blocks to reorg
"""
count = non_negative_integer(count)
if not self.bp.force_chain_reorg(count):
raise RPCError(BAD_REQUEST, 'still catching up with daemon')
return f'scheduled a reorg of {count:,d} blocks'
# --- External Interface
async def serve(self, notifications, server_listening_event):
"""Start the RPC server if enabled. When the event is triggered,
start TCP and SSL servers."""
try:
if self.env.rpc_port is not None:
await self._start_server('RPC', self.env.cs_host(for_rpc=True),
self.env.rpc_port)
self.logger.info(f'max session count: {self.env.max_sessions:,d}')
self.logger.info(f'session timeout: '
f'{self.env.session_timeout:,d} seconds')
self.logger.info(f'max response size {self.env.max_send:,d} bytes')
if self.env.drop_client is not None:
self.logger.info(f'drop clients matching: {self.env.drop_client.pattern}')
# Start notifications; initialize hsub_results
await notifications.start(self.db.db_height, self._notify_sessions)
await self.start_other()
await self._start_external_servers()
server_listening_event.set()
self.bp.status_server.set_available()
# Peer discovery should start after the external servers
# because we connect to ourself
await asyncio.wait([
self.peer_mgr.discover_peers(),
self._clear_stale_sessions(),
self._log_sessions(),
self._manage_servers()
])
finally:
await self._close_servers(list(self.servers.keys()))
log.warning("disconnect %i sessions", len(self.sessions))
if self.sessions:
await asyncio.wait([
session.close(force_after=1) for session in self.sessions.values()
])
await self.stop_other()
async def start_other(self):
pass
async def stop_other(self):
pass
def session_count(self) -> int:
"""The number of connections that we've sent something to."""
return len(self.sessions)
async def daemon_request(self, method, *args):
"""Catch a DaemonError and convert it to an RPCError."""
try:
return await getattr(self.daemon, method)(*args)
except DaemonError as e:
raise RPCError(DAEMON_ERROR, f'daemon error: {e!r}') from None
async def raw_header(self, height):
"""Return the binary header at the given height."""
try:
return self.db.raw_header(height)
except IndexError:
raise RPCError(BAD_REQUEST, f'height {height:,d} '
'out of range') from None
async def electrum_header(self, height):
"""Return the deserialized header at the given height."""
electrum_header, _ = await self._electrum_and_raw_headers(height)
return electrum_header
async def broadcast_transaction(self, raw_tx):
hex_hash = await self.daemon.broadcast_transaction(raw_tx)
self.txs_sent += 1
return hex_hash
async def limited_history(self, hashX):
"""A caching layer."""
if hashX not in self.history_cache:
# History DoS limit. Each element of history is about 99
# bytes when encoded as JSON. This limits resource usage
# on bloated history requests, and uses a smaller divisor
# so large requests are logged before refusing them.
limit = self.env.max_send // 97
self.history_cache[hashX] = await self.db.limited_history(hashX, limit=limit)
return self.history_cache[hashX]
async def _notify_sessions(self, height, touched, new_touched):
"""Notify sessions about height changes and touched addresses."""
height_changed = height != self.notified_height
if height_changed:
await self._refresh_hsub_results(height)
if not self.sessions:
return
if height_changed:
header_tasks = [
session.send_notification('blockchain.headers.subscribe', (self.hsub_results[session.subscribe_headers_raw], ))
for session in self.sessions.values() if session.subscribe_headers
]
if header_tasks:
self.logger.info(f'notify {len(header_tasks)} sessions of new header')
asyncio.create_task(asyncio.wait(header_tasks))
for hashX in touched.intersection(self.mempool_statuses.keys()):
self.mempool_statuses.pop(hashX, None)
touched.intersection_update(self.hashx_subscriptions_by_session.keys())
if touched or (height_changed and self.mempool_statuses):
notified_hashxs = 0
notified_sessions = 0
to_notify = touched if height_changed else new_touched
for hashX in to_notify:
for session_id in self.hashx_subscriptions_by_session[hashX]:
asyncio.create_task(self.sessions[session_id].send_history_notification(hashX))
notified_sessions += 1
notified_hashxs += 1
if notified_sessions:
self.logger.info(f'notified {notified_sessions} sessions/{notified_hashxs:,d} touched addresses')
def add_session(self, session):
self.sessions[id(session)] = session
self.session_event.set()
gid = int(session.start_time - self.start_time) // 900
if self.cur_group.gid != gid:
self.cur_group = SessionGroup(gid)
return self.cur_group
def remove_session(self, session):
"""Remove a session from our sessions list if there."""
session_id = id(session)
for hashX in session.hashX_subs:
sessions = self.hashx_subscriptions_by_session[hashX]
sessions.remove(session_id)
if not sessions:
self.hashx_subscriptions_by_session.pop(hashX)
self.sessions.pop(session_id)
self.session_event.set()
class SessionBase(RPCSession):
"""Base class of ElectrumX JSON sessions.
Each session runs its tasks in asynchronous parallelism with other
sessions.
"""
MAX_CHUNK_SIZE = 40960
session_counter = itertools.count()
request_handlers: typing.Dict[str, typing.Callable] = {}
version = '0.5.7'
def __init__(self, session_mgr, db, mempool, peer_mgr, kind):
connection = JSONRPCConnection(JSONRPCAutoDetect)
self.env = session_mgr.env
super().__init__(connection=connection)
self.logger = util.class_logger(__name__, self.__class__.__name__)
self.session_mgr = session_mgr
self.db = db
self.mempool = mempool
self.peer_mgr = peer_mgr
self.kind = kind # 'RPC', 'TCP' etc.
self.coin = self.env.coin
self.anon_logs = self.env.anon_logs
self.txs_sent = 0
self.log_me = False
self.daemon_request = self.session_mgr.daemon_request
# Hijack the connection so we can log messages
self._receive_message_orig = self.connection.receive_message
self.connection.receive_message = self.receive_message
def default_framer(self):
return NewlineFramer(self.env.max_receive)
def peer_address_str(self, *, for_log=True):
"""Returns the peer's IP address and port as a human-readable
string, respecting anon logs if the output is for a log."""
if for_log and self.anon_logs:
return 'xx.xx.xx.xx:xx'
return super().peer_address_str()
def receive_message(self, message):
if self.log_me:
self.logger.info(f'processing {message}')
return self._receive_message_orig(message)
def toggle_logging(self):
self.log_me = not self.log_me
def flags(self):
"""Status flags."""
status = self.kind[0]
if self.is_closing():
status += 'C'
if self.log_me:
status += 'L'
status += str(self._concurrency.max_concurrent)
return status
def connection_made(self, transport):
"""Handle an incoming client connection."""
super().connection_made(transport)
self.session_id = next(self.session_counter)
context = {'conn_id': f'{self.session_id}'}
self.logger = util.ConnectionLogger(self.logger, context)
self.group = self.session_mgr.add_session(self)
self.session_mgr.session_count_metric.labels(version=self.client_version).inc()
peer_addr_str = self.peer_address_str()
self.logger.info(f'{self.kind} {peer_addr_str}, '
f'{self.session_mgr.session_count():,d} total')
def connection_lost(self, exc):
"""Handle client disconnection."""
super().connection_lost(exc)
self.session_mgr.remove_session(self)
self.session_mgr.session_count_metric.labels(version=self.client_version).dec()
msg = ''
if not self._can_send.is_set():
msg += ' whilst paused'
if self.send_size >= 1024*1024:
msg += ('. Sent {:,d} bytes in {:,d} messages'
.format(self.send_size, self.send_count))
if msg:
msg = 'disconnected' + msg
self.logger.info(msg)
def count_pending_items(self):
return len(self.connection.pending_requests())
def semaphore(self):
return Semaphores([self.group.semaphore])
def sub_count(self):
return 0
async def handle_request(self, request):
"""Handle an incoming request. ElectrumX doesn't receive
notifications from client sessions.
"""
self.session_mgr.request_count_metric.labels(method=request.method, version=self.client_version).inc()
if isinstance(request, Request):
handler = self.request_handlers.get(request.method)
handler = partial(handler, self)
else:
handler = None
coro = handler_invocation(handler, request)()
return await coro
class LBRYSessionManager(SessionManager):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.query_executor = None
self.websocket = None
self.metrics = ServerLoadData()
self.metrics_loop = None
self.running = False
if self.env.websocket_host is not None and self.env.websocket_port is not None:
self.websocket = AdminWebSocket(self)
self.search_cache = self.bp.search_cache
self.search_cache['search'] = LRUCacheWithMetrics(2 ** 14, metric_name='search', namespace=NAMESPACE)
self.search_cache['resolve'] = LRUCacheWithMetrics(2 ** 16, metric_name='resolve', namespace=NAMESPACE)
async def process_metrics(self):
while self.running:
data = self.metrics.to_json_and_reset({
'sessions': self.session_count(),
'height': self.db.db_height,
})
if self.websocket is not None:
self.websocket.send_message(data)
await asyncio.sleep(1)
async def start_other(self):
self.running = True
path = os.path.join(self.env.db_dir, 'claims.db')
args = dict(
initializer=reader.initializer,
initargs=(
self.logger, path, self.env.coin.NET, self.env.database_query_timeout,
self.env.track_metrics, (
self.db.sql.blocked_streams, self.db.sql.blocked_channels,
self.db.sql.filtered_streams, self.db.sql.filtered_channels
)
)
)
if self.env.max_query_workers is not None and self.env.max_query_workers == 0:
self.query_executor = ThreadPoolExecutor(max_workers=1, **args)
else:
self.query_executor = ProcessPoolExecutor(
max_workers=self.env.max_query_workers or max(os.cpu_count(), 4), **args
)
if self.websocket is not None:
await self.websocket.start()
if self.env.track_metrics:
self.metrics_loop = asyncio.create_task(self.process_metrics())
async def stop_other(self):
self.running = False
if self.env.track_metrics:
self.metrics_loop.cancel()
if self.websocket is not None:
await self.websocket.stop()
self.query_executor.shutdown()
class LBRYElectrumX(SessionBase):
"""A TCP server that handles incoming Electrum connections."""
PROTOCOL_MIN = VERSION.PROTOCOL_MIN
PROTOCOL_MAX = VERSION.PROTOCOL_MAX
max_errors = math.inf # don't disconnect people for errors! let them happen...
session_mgr: LBRYSessionManager
version = lbry.__version__
cached_server_features = {}
@classmethod
def initialize_request_handlers(cls):
cls.request_handlers.update({
'blockchain.block.get_chunk': cls.block_get_chunk,
'blockchain.block.get_header': cls.block_get_header,
'blockchain.estimatefee': cls.estimatefee,
'blockchain.relayfee': cls.relayfee,
'blockchain.scripthash.get_balance': cls.scripthash_get_balance,
'blockchain.scripthash.get_history': cls.scripthash_get_history,
'blockchain.scripthash.get_mempool': cls.scripthash_get_mempool,
'blockchain.scripthash.listunspent': cls.scripthash_listunspent,
'blockchain.scripthash.subscribe': cls.scripthash_subscribe,
'blockchain.transaction.broadcast': cls.transaction_broadcast,
'blockchain.transaction.get': cls.transaction_get,
'blockchain.transaction.get_batch': cls.transaction_get_batch,
'blockchain.transaction.info': cls.transaction_info,
'blockchain.transaction.get_merkle': cls.transaction_merkle,
'server.add_peer': cls.add_peer,
'server.banner': cls.banner,
'server.payment_address': cls.payment_address,
'server.donation_address': cls.donation_address,
'server.features': cls.server_features_async,
'server.peers.subscribe': cls.peers_subscribe,
'server.version': cls.server_version,
'blockchain.transaction.get_height': cls.transaction_get_height,
'blockchain.claimtrie.search': cls.claimtrie_search,
'blockchain.claimtrie.resolve': cls.claimtrie_resolve,
'blockchain.claimtrie.getclaimsbyids': cls.claimtrie_getclaimsbyids,
'blockchain.block.get_server_height': cls.get_server_height,
'mempool.get_fee_histogram': cls.mempool_compact_histogram,
'blockchain.block.headers': cls.block_headers,
'server.ping': cls.ping,
'blockchain.headers.subscribe': cls.headers_subscribe_False,
'blockchain.address.get_balance': cls.address_get_balance,
'blockchain.address.get_history': cls.address_get_history,
'blockchain.address.get_mempool': cls.address_get_mempool,
'blockchain.address.listunspent': cls.address_listunspent,
'blockchain.address.subscribe': cls.address_subscribe,
'blockchain.address.unsubscribe': cls.address_unsubscribe,
})
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
if not LBRYElectrumX.request_handlers:
LBRYElectrumX.initialize_request_handlers()
if not LBRYElectrumX.cached_server_features:
LBRYElectrumX.set_server_features(self.env)
self.subscribe_headers = False
self.subscribe_headers_raw = False
self.connection.max_response_size = self.env.max_send
self.hashX_subs = {}
self.sv_seen = False
self.protocol_tuple = self.PROTOCOL_MIN
self.daemon = self.session_mgr.daemon
self.bp: LBRYBlockProcessor = self.session_mgr.bp
self.db: LBRYLevelDB = self.bp.db
@classmethod
def protocol_min_max_strings(cls):
return [util.version_string(ver)
for ver in (cls.PROTOCOL_MIN, cls.PROTOCOL_MAX)]
@classmethod
def set_server_features(cls, env):
"""Return the server features dictionary."""
min_str, max_str = cls.protocol_min_max_strings()
cls.cached_server_features.update({
'hosts': env.hosts_dict(),
'pruning': None,
'server_version': cls.version,
'protocol_min': min_str,
'protocol_max': max_str,
'genesis_hash': env.coin.GENESIS_HASH,
'description': env.description,
'payment_address': env.payment_address,
'donation_address': env.donation_address,
'daily_fee': env.daily_fee,
'hash_function': 'sha256',
'trending_algorithm': env.trending_algorithms[0]
})
async def server_features_async(self):
return self.cached_server_features
@classmethod
def server_version_args(cls):
"""The arguments to a server.version RPC call to a peer."""
return [cls.version, cls.protocol_min_max_strings()]
def protocol_version_string(self):
return util.version_string(self.protocol_tuple)
def sub_count(self):
return len(self.hashX_subs)
async def send_history_notification(self, hashX):
start = time.perf_counter()
alias = self.hashX_subs[hashX]
if len(alias) == 64:
method = 'blockchain.scripthash.subscribe'
else:
method = 'blockchain.address.subscribe'
try:
self.session_mgr.notifications_in_flight_metric.inc()
status = await self.address_status(hashX)
self.session_mgr.address_history_metric.observe(time.perf_counter() - start)
start = time.perf_counter()
await self.send_notification(method, (alias, status))
self.session_mgr.notifications_sent_metric.observe(time.perf_counter() - start)
finally:
self.session_mgr.notifications_in_flight_metric.dec()
def get_metrics_or_placeholder_for_api(self, query_name):
""" Do not hold on to a reference to the metrics
returned by this method past an `await` or
you may be working with a stale metrics object.
"""
if self.env.track_metrics:
return self.session_mgr.metrics.for_api(query_name)
else:
return APICallMetrics(query_name)
async def run_in_executor(self, query_name, func, kwargs):
start = time.perf_counter()
try:
self.session_mgr.pending_query_metric.inc()
result = await asyncio.get_running_loop().run_in_executor(
self.session_mgr.query_executor, func, kwargs
)
except asyncio.CancelledError:
raise
except reader.SQLiteInterruptedError as error:
metrics = self.get_metrics_or_placeholder_for_api(query_name)
metrics.query_interrupt(start, error.metrics)
self.session_mgr.interrupt_count_metric.inc()
raise RPCError(JSONRPC.QUERY_TIMEOUT, 'sqlite query timed out')
except reader.SQLiteOperationalError as error:
metrics = self.get_metrics_or_placeholder_for_api(query_name)
metrics.query_error(start, error.metrics)
self.session_mgr.db_operational_error_metric.inc()
raise RPCError(JSONRPC.INTERNAL_ERROR, 'query failed to execute')
except Exception:
log.exception("dear devs, please handle this exception better")
metrics = self.get_metrics_or_placeholder_for_api(query_name)
metrics.query_error(start, {})
self.session_mgr.db_error_metric.inc()
raise RPCError(JSONRPC.INTERNAL_ERROR, 'unknown server error')
else:
if self.env.track_metrics:
metrics = self.get_metrics_or_placeholder_for_api(query_name)
(result, metrics_data) = result
metrics.query_response(start, metrics_data)
return base64.b64encode(result).decode()
finally:
self.session_mgr.pending_query_metric.dec()
self.session_mgr.executor_time_metric.observe(time.perf_counter() - start)
async def run_and_cache_query(self, query_name, function, kwargs):
metrics = self.get_metrics_or_placeholder_for_api(query_name)
metrics.start()
cache = self.session_mgr.search_cache[query_name]
cache_key = str(kwargs)
cache_item = cache.get(cache_key)
if cache_item is None:
cache_item = cache[cache_key] = ResultCacheItem()
elif cache_item.result is not None:
metrics.cache_response()
return cache_item.result
async with cache_item.lock:
if cache_item.result is None:
cache_item.result = await self.run_in_executor(
query_name, function, kwargs
)
else:
metrics = self.get_metrics_or_placeholder_for_api(query_name)
metrics.cache_response()
return cache_item.result
async def mempool_compact_histogram(self):
return self.mempool.compact_fee_histogram()
async def claimtrie_search(self, **kwargs):
if kwargs:
return await self.run_and_cache_query('search', reader.search_to_bytes, kwargs)
async def claimtrie_resolve(self, *urls):
if urls:
count = len(urls)
try:
self.session_mgr.urls_to_resolve_count_metric.inc(count)
return await self.run_and_cache_query('resolve', reader.resolve_to_bytes, urls)
finally:
self.session_mgr.resolved_url_count_metric.inc(count)
async def get_server_height(self):
return self.bp.height
async def transaction_get_height(self, tx_hash):
self.assert_tx_hash(tx_hash)
transaction_info = await self.daemon.getrawtransaction(tx_hash, True)
if transaction_info and 'hex' in transaction_info and 'confirmations' in transaction_info:
# an unconfirmed transaction from lbrycrdd will not have a 'confirmations' field
return (self.db.db_height - transaction_info['confirmations']) + 1
elif transaction_info and 'hex' in transaction_info:
return -1
return None
async def claimtrie_getclaimsbyids(self, *claim_ids):
claims = await self.batched_formatted_claims_from_daemon(claim_ids)
return dict(zip(claim_ids, claims))
async def batched_formatted_claims_from_daemon(self, claim_ids):
claims = await self.daemon.getclaimsbyids(claim_ids)
result = []
for claim in claims:
if claim and claim.get('value'):
result.append(self.format_claim_from_daemon(claim))
return result
def format_claim_from_daemon(self, claim, name=None):
"""Changes the returned claim data to the format expected by lbry and adds missing fields."""
if not claim:
return {}
# this ISO-8859 nonsense stems from a nasty form of encoding extended characters in lbrycrd
# it will be fixed after the lbrycrd upstream merge to v17 is done
# it originated as a fear of terminals not supporting unicode. alas, they all do
if 'name' in claim:
name = claim['name'].encode('ISO-8859-1').decode()
info = self.db.sql.get_claims(claim_id=claim['claimId'])
if not info:
# raise RPCError("Lbrycrd has {} but not lbryumx, please submit a bug report.".format(claim_id))
return {}
address = info.address.decode()
# fixme: temporary
#supports = self.format_supports_from_daemon(claim.get('supports', []))
supports = []
amount = get_from_possible_keys(claim, 'amount', 'nAmount')
height = get_from_possible_keys(claim, 'height', 'nHeight')
effective_amount = get_from_possible_keys(claim, 'effective amount', 'nEffectiveAmount')
valid_at_height = get_from_possible_keys(claim, 'valid at height', 'nValidAtHeight')
result = {
"name": name,
"claim_id": claim['claimId'],
"txid": claim['txid'],
"nout": claim['n'],
"amount": amount,
"depth": self.db.db_height - height + 1,
"height": height,
"value": hexlify(claim['value'].encode('ISO-8859-1')).decode(),
"address": address, # from index
"supports": supports,
"effective_amount": effective_amount,
"valid_at_height": valid_at_height
}
if 'claim_sequence' in claim:
# TODO: ensure that lbrycrd #209 fills in this value
result['claim_sequence'] = claim['claim_sequence']
else:
result['claim_sequence'] = -1
if 'normalized_name' in claim:
result['normalized_name'] = claim['normalized_name'].encode('ISO-8859-1').decode()
return result
def assert_tx_hash(self, value):
'''Raise an RPCError if the value is not a valid transaction
hash.'''
try:
if len(util.hex_to_bytes(value)) == 32:
return
except Exception:
pass
raise RPCError(1, f'{value} should be a transaction hash')
def assert_claim_id(self, value):
'''Raise an RPCError if the value is not a valid claim id
hash.'''
try:
if len(util.hex_to_bytes(value)) == 20:
return
except Exception:
pass
raise RPCError(1, f'{value} should be a claim id hash')
async def subscribe_headers_result(self):
"""The result of a header subscription or notification."""
return self.session_mgr.hsub_results[self.subscribe_headers_raw]
async def _headers_subscribe(self, raw):
"""Subscribe to get headers of new blocks."""
self.subscribe_headers_raw = assert_boolean(raw)
self.subscribe_headers = True
return await self.subscribe_headers_result()
async def headers_subscribe(self):
"""Subscribe to get raw headers of new blocks."""
return await self._headers_subscribe(True)
async def headers_subscribe_True(self, raw=True):
"""Subscribe to get headers of new blocks."""
return await self._headers_subscribe(raw)
async def headers_subscribe_False(self, raw=False):
"""Subscribe to get headers of new blocks."""
return await self._headers_subscribe(raw)
async def add_peer(self, features):
"""Add a peer (but only if the peer resolves to the source)."""
return await self.peer_mgr.on_add_peer(features, self.peer_address())
async def peers_subscribe(self):
"""Return the server peers as a list of (ip, host, details) tuples."""
return self.peer_mgr.on_peers_subscribe(self.is_tor())
async def address_status(self, hashX):
"""Returns an address status.
Status is a hex string, but must be None if there is no history.
"""
# Note history is ordered and mempool unordered in electrum-server
# For mempool, height is -1 if it has unconfirmed inputs, otherwise 0
db_history = await self.session_mgr.limited_history(hashX)
mempool = self.mempool.transaction_summaries(hashX)
status = ''.join(f'{hash_to_hex_str(tx_hash)}:'
f'{height:d}:'
for tx_hash, height in db_history)
status += ''.join(f'{hash_to_hex_str(tx.hash)}:'
f'{-tx.has_unconfirmed_inputs:d}:'
for tx in mempool)
if status:
status = sha256(status.encode()).hex()
else:
status = None
if mempool:
self.session_mgr.mempool_statuses[hashX] = status
else:
self.session_mgr.mempool_statuses.pop(hashX, None)
return status
async def hashX_listunspent(self, hashX):
"""Return the list of UTXOs of a script hash, including mempool
effects."""
utxos = await self.db.all_utxos(hashX)
utxos = sorted(utxos)
utxos.extend(await self.mempool.unordered_UTXOs(hashX))
spends = await self.mempool.potential_spends(hashX)
return [{'tx_hash': hash_to_hex_str(utxo.tx_hash),
'tx_pos': utxo.tx_pos,
'height': utxo.height, 'value': utxo.value}
for utxo in utxos
if (utxo.tx_hash, utxo.tx_pos) not in spends]
async def hashX_subscribe(self, hashX, alias):
self.hashX_subs[hashX] = alias
self.session_mgr.hashx_subscriptions_by_session[hashX].add(id(self))
return await self.address_status(hashX)
async def hashX_unsubscribe(self, hashX, alias):
sessions = self.session_mgr.hashx_subscriptions_by_session[hashX]
sessions.remove(id(self))
if not sessions:
self.hashX_subs.pop(hashX, None)
def address_to_hashX(self, address):
try:
return self.coin.address_to_hashX(address)
except Exception:
pass
raise RPCError(BAD_REQUEST, f'{address} is not a valid address')
async def address_get_balance(self, address):
"""Return the confirmed and unconfirmed balance of an address."""
hashX = self.address_to_hashX(address)
return await self.get_balance(hashX)
async def address_get_history(self, address):
"""Return the confirmed and unconfirmed history of an address."""
hashX = self.address_to_hashX(address)
return await self.confirmed_and_unconfirmed_history(hashX)
async def address_get_mempool(self, address):
"""Return the mempool transactions touching an address."""
hashX = self.address_to_hashX(address)
return self.unconfirmed_history(hashX)
async def address_listunspent(self, address):
"""Return the list of UTXOs of an address."""
hashX = self.address_to_hashX(address)
return await self.hashX_listunspent(hashX)
async def address_subscribe(self, *addresses):
"""Subscribe to an address.
address: the address to subscribe to"""
if len(addresses) > 1000:
raise RPCError(BAD_REQUEST, f'too many addresses in subscription request: {len(addresses)}')
hashXes = [
(self.address_to_hashX(address), address) for address in addresses
]
return [await self.hashX_subscribe(*args) for args in hashXes]
async def address_unsubscribe(self, address):
"""Unsubscribe an address.
address: the address to unsubscribe"""
hashX = self.address_to_hashX(address)
return await self.hashX_unsubscribe(hashX, address)
async def get_balance(self, hashX):
utxos = await self.db.all_utxos(hashX)
confirmed = sum(utxo.value for utxo in utxos)
unconfirmed = await self.mempool.balance_delta(hashX)
return {'confirmed': confirmed, 'unconfirmed': unconfirmed}
async def scripthash_get_balance(self, scripthash):
"""Return the confirmed and unconfirmed balance of a scripthash."""
hashX = scripthash_to_hashX(scripthash)
return await self.get_balance(hashX)
def unconfirmed_history(self, hashX):
# Note unconfirmed history is unordered in electrum-server
# height is -1 if it has unconfirmed inputs, otherwise 0
return [{'tx_hash': hash_to_hex_str(tx.hash),
'height': -tx.has_unconfirmed_inputs,
'fee': tx.fee}
for tx in self.mempool.transaction_summaries(hashX)]
async def confirmed_and_unconfirmed_history(self, hashX):
# Note history is ordered but unconfirmed is unordered in e-s
history = await self.session_mgr.limited_history(hashX)
conf = [{'tx_hash': hash_to_hex_str(tx_hash), 'height': height}
for tx_hash, height in history]
return conf + self.unconfirmed_history(hashX)
async def scripthash_get_history(self, scripthash):
"""Return the confirmed and unconfirmed history of a scripthash."""
hashX = scripthash_to_hashX(scripthash)
return await self.confirmed_and_unconfirmed_history(hashX)
async def scripthash_get_mempool(self, scripthash):
"""Return the mempool transactions touching a scripthash."""
hashX = scripthash_to_hashX(scripthash)
return self.unconfirmed_history(hashX)
async def scripthash_listunspent(self, scripthash):
"""Return the list of UTXOs of a scripthash."""
hashX = scripthash_to_hashX(scripthash)
return await self.hashX_listunspent(hashX)
async def scripthash_subscribe(self, scripthash):
"""Subscribe to a script hash.
scripthash: the SHA256 hash of the script to subscribe to"""
hashX = scripthash_to_hashX(scripthash)
return await self.hashX_subscribe(hashX, scripthash)
async def _merkle_proof(self, cp_height, height):
max_height = self.db.db_height
if not height <= cp_height <= max_height:
raise RPCError(BAD_REQUEST,
f'require header height {height:,d} <= '
f'cp_height {cp_height:,d} <= '
f'chain height {max_height:,d}')
branch, root = await self.db.header_branch_and_root(cp_height + 1, height)
return {
'branch': [hash_to_hex_str(elt) for elt in branch],
'root': hash_to_hex_str(root),
}
async def block_headers(self, start_height, count, cp_height=0, b64=False):
"""Return count concatenated block headers as hex for the main chain;
starting at start_height.
start_height and count must be non-negative integers. At most
MAX_CHUNK_SIZE headers will be returned.
"""
start_height = non_negative_integer(start_height)
count = non_negative_integer(count)
cp_height = non_negative_integer(cp_height)
max_size = self.MAX_CHUNK_SIZE
count = min(count, max_size)
headers, count = self.db.read_headers(start_height, count)
if b64:
compressobj = zlib.compressobj(wbits=-15, level=1, memLevel=9)
headers = base64.b64encode(compressobj.compress(headers) + compressobj.flush()).decode()
else:
headers = headers.hex()
result = {
'base64' if b64 else 'hex': headers,
'count': count,
'max': max_size
}
if count and cp_height:
last_height = start_height + count - 1
result.update(await self._merkle_proof(cp_height, last_height))
return result
async def block_get_chunk(self, index):
"""Return a chunk of block headers as a hexadecimal string.
index: the chunk index"""
index = non_negative_integer(index)
size = self.coin.CHUNK_SIZE
start_height = index * size
headers, _ = self.db.read_headers(start_height, size)
return headers.hex()
async def block_get_header(self, height):
"""The deserialized header at a given height.
height: the header's height"""
height = non_negative_integer(height)
return await self.session_mgr.electrum_header(height)
def is_tor(self):
"""Try to detect if the connection is to a tor hidden service we are
running."""
peername = self.peer_mgr.proxy_peername()
if not peername:
return False
peer_address = self.peer_address()
return peer_address and peer_address[0] == peername[0]
async def replaced_banner(self, banner):
network_info = await self.daemon_request('getnetworkinfo')
ni_version = network_info['version']
major, minor = divmod(ni_version, 1000000)
minor, revision = divmod(minor, 10000)
revision //= 100
daemon_version = f'{major:d}.{minor:d}.{revision:d}'
for pair in [
('$SERVER_VERSION', self.version),
('$DAEMON_VERSION', daemon_version),
('$DAEMON_SUBVERSION', network_info['subversion']),
('$PAYMENT_ADDRESS', self.env.payment_address),
('$DONATION_ADDRESS', self.env.donation_address),
]:
banner = banner.replace(*pair)
return banner
async def payment_address(self):
"""Return the payment address as a string, empty if there is none."""
return self.env.payment_address
async def donation_address(self):
"""Return the donation address as a string, empty if there is none."""
return self.env.donation_address
async def banner(self):
"""Return the server banner text."""
banner = f'You are connected to an {self.version} server.'
if self.is_tor():
banner_file = self.env.tor_banner_file
else:
banner_file = self.env.banner_file
if banner_file:
try:
with codecs.open(banner_file, 'r', 'utf-8') as f:
banner = f.read()
except Exception as e:
self.logger.error(f'reading banner file {banner_file}: {e!r}')
else:
banner = await self.replaced_banner(banner)
return banner
async def relayfee(self):
"""The minimum fee a low-priority tx must pay in order to be accepted
to the daemon's memory pool."""
return await self.daemon_request('relayfee')
async def estimatefee(self, number):
"""The estimated transaction fee per kilobyte to be paid for a
transaction to be included within a certain number of blocks.
number: the number of blocks
"""
number = non_negative_integer(number)
return await self.daemon_request('estimatefee', number)
async def ping(self):
"""Serves as a connection keep-alive mechanism and for the client to
confirm the server is still responding.
"""
return None
async def server_version(self, client_name='', protocol_version=None):
"""Returns the server version as a string.
client_name: a string identifying the client
protocol_version: the protocol version spoken by the client
"""
if self.sv_seen and self.protocol_tuple >= (1, 4):
raise RPCError(BAD_REQUEST, f'server.version already sent')
self.sv_seen = True
if client_name:
client_name = str(client_name)
if self.env.drop_client is not None and \
self.env.drop_client.match(client_name):
self.close_after_send = True
raise RPCError(BAD_REQUEST,
f'unsupported client: {client_name}')
if self.client_version != client_name[:17]:
self.session_mgr.session_count_metric.labels(version=self.client_version).dec()
self.client_version = client_name[:17]
self.session_mgr.session_count_metric.labels(version=self.client_version).inc()
self.session_mgr.client_version_metric.labels(version=self.client_version).inc()
# Find the highest common protocol version. Disconnect if
# that protocol version in unsupported.
ptuple, client_min = util.protocol_version(
protocol_version, self.PROTOCOL_MIN, self.PROTOCOL_MAX)
if ptuple is None:
# FIXME: this fills the logs
# if client_min > self.PROTOCOL_MIN:
# self.logger.info(f'client requested future protocol version '
# f'{util.version_string(client_min)} '
# f'- is your software out of date?')
self.close_after_send = True
raise RPCError(BAD_REQUEST,
f'unsupported protocol version: {protocol_version}')
self.protocol_tuple = ptuple
return self.version, self.protocol_version_string()
async def transaction_broadcast(self, raw_tx):
"""Broadcast a raw transaction to the network.
raw_tx: the raw transaction as a hexadecimal string"""
# This returns errors as JSON RPC errors, as is natural
try:
hex_hash = await self.session_mgr.broadcast_transaction(raw_tx)
self.txs_sent += 1
self.mempool.wakeup.set()
self.logger.info(f'sent tx: {hex_hash}')
return hex_hash
except DaemonError as e:
error, = e.args
message = error['message']
self.logger.info(f'error sending transaction: {message}')
raise RPCError(BAD_REQUEST, 'the transaction was rejected by '
f'network rules.\n\n{message}\n[{raw_tx}]')
async def transaction_info(self, tx_hash: str):
return (await self.transaction_get_batch(tx_hash))[tx_hash]
async def transaction_get_batch(self, *tx_hashes):
self.session_mgr.tx_request_count_metric.inc(len(tx_hashes))
if len(tx_hashes) > 100:
raise RPCError(BAD_REQUEST, f'too many tx hashes in request: {len(tx_hashes)}')
for tx_hash in tx_hashes:
assert_tx_hash(tx_hash)
batch_result = await self.db.fs_transactions(tx_hashes)
needed_merkles = {}
for tx_hash in tx_hashes:
if tx_hash in batch_result and batch_result[tx_hash][0]:
continue
tx_info = await self.daemon_request('getrawtransaction', tx_hash, True)
raw_tx = tx_info['hex']
block_hash = tx_info.get('blockhash')
if block_hash:
block = await self.daemon.deserialised_block(block_hash)
height = block['height']
try:
pos = block['tx'].index(tx_hash)
except ValueError:
raise RPCError(BAD_REQUEST, f'tx hash {tx_hash} not in '
f'block {block_hash} at height {height:,d}')
needed_merkles[tx_hash] = raw_tx, block['tx'], pos, height
else:
batch_result[tx_hash] = [raw_tx, {'block_height': -1}]
def threaded_get_merkle():
for tx_hash, (raw_tx, block_txs, pos, block_height) in needed_merkles.items():
batch_result[tx_hash] = raw_tx, {
'merkle': self._get_merkle_branch(block_txs, pos),
'pos': pos,
'block_height': block_height
}
if needed_merkles:
await asyncio.get_running_loop().run_in_executor(self.db.executor, threaded_get_merkle)
self.session_mgr.tx_replied_count_metric.inc(len(tx_hashes))
return batch_result
async def transaction_get(self, tx_hash, verbose=False):
"""Return the serialized raw transaction given its hash
tx_hash: the transaction hash as a hexadecimal string
verbose: passed on to the daemon
"""
assert_tx_hash(tx_hash)
if verbose not in (True, False):
raise RPCError(BAD_REQUEST, f'"verbose" must be a boolean')
return await self.daemon_request('getrawtransaction', tx_hash, verbose)
def _get_merkle_branch(self, tx_hashes, tx_pos):
"""Return a merkle branch to a transaction.
tx_hashes: ordered list of hex strings of tx hashes in a block
tx_pos: index of transaction in tx_hashes to create branch for
"""
hashes = [hex_str_to_hash(hash) for hash in tx_hashes]
branch, root = self.db.merkle.branch_and_root(hashes, tx_pos)
branch = [hash_to_hex_str(hash) for hash in branch]
return branch
async def transaction_merkle(self, tx_hash, height):
"""Return the markle branch to a confirmed transaction given its hash
and height.
tx_hash: the transaction hash as a hexadecimal string
height: the height of the block it is in
"""
assert_tx_hash(tx_hash)
result = await self.transaction_get_batch(tx_hash)
if tx_hash not in result or result[tx_hash][1]['block_height'] <= 0:
raise RPCError(BAD_REQUEST, f'tx hash {tx_hash} not in '
f'block at height {height:,d}')
return result[tx_hash][1]
class LocalRPC(SessionBase):
"""A local TCP RPC server session."""
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.client = 'RPC'
self.connection._max_response_size = 0
def protocol_version_string(self):
return 'RPC'
class ResultCacheItem:
__slots__ = '_result', 'lock', 'has_result'
def __init__(self):
self.has_result = asyncio.Event()
self.lock = asyncio.Lock()
self._result = None
@property
def result(self) -> str:
return self._result
@result.setter
def result(self, result: str):
self._result = result
if result is not None:
self.has_result.set()
def get_from_possible_keys(dictionary, *keys):
for key in keys:
if key in dictionary:
return dictionary[key]