lbry-sdk/tests/integration/blockchain/test_wallet_server_sessions.py
2021-10-05 16:44:49 -04:00

211 lines
9.8 KiB
Python

import asyncio
import lbry
import lbry.wallet
from lbry.error import ServerPaymentFeeAboveMaxAllowedError
from lbry.wallet.network import ClientSession
from lbry.wallet.rpc import RPCError
from lbry.wallet.server.db.elasticsearch.sync import run_sync, make_es_index
from lbry.wallet.server.session import LBRYElectrumX
from lbry.testcase import IntegrationTestCase, CommandTestCase
from lbry.wallet.orchstr8.node import SPVNode
class TestSessions(IntegrationTestCase):
"""
Tests that server cleans up stale connections after session timeout and client times out too.
"""
async def test_session_bloat_from_socket_timeout(self):
await self.conductor.stop_spv()
await self.ledger.stop()
self.conductor.spv_node.session_timeout = 1
await self.conductor.start_spv()
session = ClientSession(
network=None, server=(self.conductor.spv_node.hostname, self.conductor.spv_node.port), timeout=0.2
)
await session.create_connection()
await session.send_request('server.banner', ())
self.assertEqual(len(self.conductor.spv_node.server.session_mgr.sessions), 1)
self.assertFalse(session.is_closing())
await asyncio.sleep(1.1)
with self.assertRaises(asyncio.TimeoutError):
await session.send_request('server.banner', ())
self.assertTrue(session.is_closing())
self.assertEqual(len(self.conductor.spv_node.server.session_mgr.sessions), 0)
async def test_proper_version(self):
info = await self.ledger.network.get_server_features()
self.assertEqual(lbry.__version__, info['server_version'])
async def test_client_errors(self):
# Goal is ensuring thsoe are raised and not trapped accidentally
with self.assertRaisesRegex(Exception, 'not a valid address'):
await self.ledger.network.get_history('of the world')
with self.assertRaisesRegex(Exception, 'rejected by network rules.*TX decode failed'):
await self.ledger.network.broadcast('13370042004200')
class TestUsagePayment(CommandTestCase):
async def _test_single_server_payment(self):
wallet_pay_service = self.daemon.component_manager.get_component('wallet_server_payments')
wallet_pay_service.payment_period = 1
# only starts with a positive max key fee
wallet_pay_service.max_fee = "0.0"
await wallet_pay_service.start(ledger=self.ledger, wallet=self.wallet)
self.assertFalse(wallet_pay_service.running)
wallet_pay_service.max_fee = "1.0"
await wallet_pay_service.start(ledger=self.ledger, wallet=self.wallet)
self.assertTrue(wallet_pay_service.running)
await wallet_pay_service.stop()
await wallet_pay_service.start(ledger=self.ledger, wallet=self.wallet)
address = await self.blockchain.get_raw_change_address()
_, history = await self.ledger.get_local_status_and_history(address)
self.assertEqual(history, [])
node = SPVNode(self.conductor.spv_module, node_number=2)
await node.start(self.blockchain, extraconf={"PAYMENT_ADDRESS": address, "DAILY_FEE": "1.1"})
self.addCleanup(node.stop)
self.daemon.jsonrpc_settings_set('lbryum_servers', [f"{node.hostname}:{node.port}"])
await self.daemon.jsonrpc_wallet_reconnect()
LBRYElectrumX.set_server_features(node.server.env)
features = await self.ledger.network.get_server_features()
self.assertEqual(features["payment_address"], address)
self.assertEqual(features["daily_fee"], "1.1")
with self.assertRaises(ServerPaymentFeeAboveMaxAllowedError):
await asyncio.wait_for(wallet_pay_service.on_payment.first, timeout=30)
node.server.env.daily_fee = "1.0"
node.server.env.payment_address = address
LBRYElectrumX.set_server_features(node.server.env)
# self.daemon.jsonrpc_settings_set('lbryum_servers', [f"{node.hostname}:{node.port}"])
await self.daemon.jsonrpc_wallet_reconnect()
features = await self.ledger.network.get_server_features()
self.assertEqual(features["payment_address"], address)
self.assertEqual(features["daily_fee"], "1.0")
tx = await asyncio.wait_for(wallet_pay_service.on_payment.first, timeout=30)
self.assertIsNotNone(await self.blockchain.get_raw_transaction(tx.id)) # verify its broadcasted
self.assertEqual(tx.outputs[0].amount, 100000000)
self.assertEqual(tx.outputs[0].get_address(self.ledger), address)
class TestESSync(CommandTestCase):
async def test_es_sync_utility(self):
for i in range(10):
await self.stream_create(f"stream{i}", bid='0.001')
await self.generate(1)
self.assertEqual(10, len(await self.claim_search(order_by=['height'])))
db = self.conductor.spv_node.server.db
await db.search_index.delete_index()
db.search_index.clear_caches()
self.assertEqual(0, len(await self.claim_search(order_by=['height'])))
await db.search_index.stop()
self.assertTrue(await make_es_index(db.search_index))
async def resync():
await db.search_index.start()
db.search_index.clear_caches()
await run_sync(index_name=db.search_index.index, db=db)
self.assertEqual(10, len(await self.claim_search(order_by=['height'])))
self.assertEqual(0, len(await self.claim_search(order_by=['height'])))
await resync()
# this time we will test a migration from unversioned to v1
await db.search_index.sync_client.indices.delete_template(db.search_index.index)
await db.search_index.stop()
self.assertTrue(await make_es_index(db.search_index))
await db.search_index.start()
await resync()
class TestHubDiscovery(CommandTestCase):
async def test_hub_discovery(self):
us_final_node = SPVNode(self.conductor.spv_module, node_number=2)
await us_final_node.start(self.blockchain, extraconf={"COUNTRY": "US"})
self.addCleanup(us_final_node.stop)
final_node_host = f"{us_final_node.hostname}:{us_final_node.port}"
kp_final_node = SPVNode(self.conductor.spv_module, node_number=3)
await kp_final_node.start(self.blockchain, extraconf={"COUNTRY": "KP"})
self.addCleanup(kp_final_node.stop)
kp_final_node_host = f"{kp_final_node.hostname}:{kp_final_node.port}"
relay_node = SPVNode(self.conductor.spv_module, node_number=4)
await relay_node.start(self.blockchain, extraconf={
"COUNTRY": "FR",
"PEER_HUBS": ",".join([kp_final_node_host, final_node_host])
})
relay_node_host = f"{relay_node.hostname}:{relay_node.port}"
self.addCleanup(relay_node.stop)
self.assertEqual(list(self.daemon.conf.known_hubs), [])
self.assertEqual(
self.daemon.ledger.network.client.server_address_and_port,
('127.0.0.1', 50002)
)
# connect to relay hub which will tell us about the final hubs
self.daemon.jsonrpc_settings_set('lbryum_servers', [relay_node_host])
await self.daemon.jsonrpc_wallet_reconnect()
self.assertEqual(
self.daemon.conf.known_hubs.filter(), {
(relay_node.hostname, relay_node.port): {"country": "FR"},
(us_final_node.hostname, us_final_node.port): {}, # discovered from relay but not contacted yet
(kp_final_node.hostname, kp_final_node.port): {}, # discovered from relay but not contacted yet
}
)
self.assertEqual(
self.daemon.ledger.network.client.server_address_and_port, ('127.0.0.1', relay_node.port)
)
# use known_hubs to connect to final US hub
self.daemon.jsonrpc_settings_clear('lbryum_servers')
self.daemon.conf.jurisdiction = "US"
await self.daemon.jsonrpc_wallet_reconnect()
self.assertEqual(
self.daemon.conf.known_hubs.filter(), {
(relay_node.hostname, relay_node.port): {"country": "FR"},
(us_final_node.hostname, us_final_node.port): {"country": "US"},
(kp_final_node.hostname, kp_final_node.port): {"country": "KP"},
}
)
self.assertEqual(
self.daemon.ledger.network.client.server_address_and_port, ('127.0.0.1', us_final_node.port)
)
# connection to KP jurisdiction
self.daemon.conf.jurisdiction = "KP"
await self.daemon.jsonrpc_wallet_reconnect()
self.assertEqual(
self.daemon.ledger.network.client.server_address_and_port, ('127.0.0.1', kp_final_node.port)
)
kp_final_node.server.session_mgr._notify_peer('127.0.0.1:9988')
await self.daemon.ledger.network.on_hub.first
await asyncio.sleep(0.5) # wait for above event to be processed by other listeners
self.assertEqual(
self.daemon.conf.known_hubs.filter(), {
(relay_node.hostname, relay_node.port): {"country": "FR"},
(us_final_node.hostname, us_final_node.port): {"country": "US"},
(kp_final_node.hostname, kp_final_node.port): {"country": "KP"},
('127.0.0.1', 9988): {}
}
)
class TestStressFlush(CommandTestCase):
# async def test_flush_over_66_thousand(self):
# history = self.conductor.spv_node.server.db.history
# history.flush_count = 66_000
# history.flush()
# self.assertEqual(history.flush_count, 66_001)
# await self.generate(1)
# self.assertEqual(history.flush_count, 66_002)
async def test_thousands_claim_ids_on_search(self):
await self.stream_create()
with self.assertRaises(RPCError) as err:
await self.claim_search(not_channel_ids=[("%040x" % i) for i in range(8196)])
self.assertEqual(err.exception.message, 'not_channel_ids cant have more than 2048 items.')