# Copyright 2013-present MongoDB, Inc. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Test the mongo_client module.""" from __future__ import annotations import _thread as thread import asyncio import base64 import contextlib import copy import datetime import gc import logging import os import re import signal import socket import struct import subprocess import sys import threading import time import uuid from typing import Any, Iterable, Type, no_type_check from unittest import mock, skipIf from unittest.mock import patch import pytest import pytest_asyncio from bson.binary import CSHARP_LEGACY, JAVA_LEGACY, PYTHON_LEGACY, Binary, UuidRepresentation from pymongo.operations import _Op sys.path[0:0] = [""] from test.asynchronous import ( HAVE_IPADDRESS, AsyncIntegrationTest, AsyncMockClientTest, AsyncUnitTest, SkipTest, async_client_context, client_knobs, connected, db_pwd, db_user, remove_all_users, unittest, ) from test.asynchronous.pymongo_mocks import AsyncMockClient from test.asynchronous.utils import ( async_get_pool, async_wait_until, asyncAssertRaisesExactly, ) from test.test_binary import BinaryData from test.utils_shared import ( NTHREADS, CMAPListener, FunctionCallRecorder, delay, gevent_monkey_patched, is_greenthread_patched, lazy_client_trial, one, ) import bson import pymongo from bson import encode from bson.codec_options import ( CodecOptions, DatetimeConversion, TypeEncoder, TypeRegistry, ) from bson.son import SON from bson.tz_util import utc from pymongo import event_loggers, message, monitoring from pymongo.asynchronous.command_cursor import AsyncCommandCursor from pymongo.asynchronous.cursor import AsyncCursor, CursorType from pymongo.asynchronous.database import AsyncDatabase from pymongo.asynchronous.helpers import anext from pymongo.asynchronous.mongo_client import AsyncMongoClient from pymongo.asynchronous.pool import ( AsyncConnection, ) from pymongo.asynchronous.settings import TOPOLOGY_TYPE from pymongo.asynchronous.topology import _ErrorContext from pymongo.client_options import ClientOptions from pymongo.common import _UUID_REPRESENTATIONS, CONNECT_TIMEOUT, MIN_SUPPORTED_WIRE_VERSION, has_c from pymongo.compression_support import _have_snappy, _have_zstd from pymongo.driver_info import DriverInfo from pymongo.errors import ( AutoReconnect, ConfigurationError, ConnectionFailure, InvalidName, InvalidOperation, InvalidURI, NetworkTimeout, OperationFailure, ServerSelectionTimeoutError, WaitQueueTimeoutError, WriteConcernError, ) from pymongo.monitoring import ServerHeartbeatListener, ServerHeartbeatStartedEvent from pymongo.pool_options import _MAX_METADATA_SIZE, _METADATA, ENV_VAR_K8S, PoolOptions from pymongo.read_preferences import ReadPreference from pymongo.server_description import ServerDescription from pymongo.server_selectors import readable_server_selector, writable_server_selector from pymongo.server_type import SERVER_TYPE from pymongo.topology_description import TopologyDescription from pymongo.write_concern import WriteConcern _IS_SYNC = False class AsyncClientUnitTest(AsyncUnitTest): """AsyncMongoClient tests that don't require a server.""" client: AsyncMongoClient async def asyncSetUp(self) -> None: self.client = await self.async_rs_or_single_client( connect=False, serverSelectionTimeoutMS=100 ) @pytest.fixture(autouse=True) def inject_fixtures(self, caplog): self._caplog = caplog async def test_keyword_arg_defaults(self): client = self.simple_client( socketTimeoutMS=None, connectTimeoutMS=20000, waitQueueTimeoutMS=None, replicaSet=None, read_preference=ReadPreference.PRIMARY, ssl=False, tlsCertificateKeyFile=None, tlsAllowInvalidCertificates=True, tlsCAFile=None, connect=False, serverSelectionTimeoutMS=12000, ) options = client.options pool_opts = options.pool_options self.assertEqual(None, pool_opts.socket_timeout) # socket.Socket.settimeout takes a float in seconds self.assertEqual(20.0, pool_opts.connect_timeout) self.assertEqual(None, pool_opts.wait_queue_timeout) self.assertEqual(None, pool_opts._ssl_context) self.assertEqual(None, options.replica_set_name) self.assertEqual(ReadPreference.PRIMARY, client.read_preference) self.assertAlmostEqual(12, client.options.server_selection_timeout) async def test_connect_timeout(self): client = self.simple_client(connect=False, connectTimeoutMS=None, socketTimeoutMS=None) pool_opts = client.options.pool_options self.assertEqual(None, pool_opts.socket_timeout) self.assertEqual(None, pool_opts.connect_timeout) client = self.simple_client(connect=False, connectTimeoutMS=0, socketTimeoutMS=0) pool_opts = client.options.pool_options self.assertEqual(None, pool_opts.socket_timeout) self.assertEqual(None, pool_opts.connect_timeout) client = self.simple_client( "mongodb://localhost/?connectTimeoutMS=0&socketTimeoutMS=0", connect=False ) pool_opts = client.options.pool_options self.assertEqual(None, pool_opts.socket_timeout) self.assertEqual(None, pool_opts.connect_timeout) def test_types(self): self.assertRaises(TypeError, AsyncMongoClient, 1) self.assertRaises(TypeError, AsyncMongoClient, 1.14) self.assertRaises(TypeError, AsyncMongoClient, "localhost", "27017") self.assertRaises(TypeError, AsyncMongoClient, "localhost", 1.14) self.assertRaises(TypeError, AsyncMongoClient, "localhost", []) self.assertRaises(ConfigurationError, AsyncMongoClient, []) async def test_max_pool_size_zero(self): self.simple_client(maxPoolSize=0) def test_uri_detection(self): self.assertRaises(ConfigurationError, AsyncMongoClient, "/foo") self.assertRaises(ConfigurationError, AsyncMongoClient, "://") self.assertRaises(ConfigurationError, AsyncMongoClient, "foo/") def test_get_db(self): def make_db(base, name): return base[name] self.assertRaises(InvalidName, make_db, self.client, "") self.assertRaises(InvalidName, make_db, self.client, "te$t") self.assertRaises(InvalidName, make_db, self.client, "te.t") self.assertRaises(InvalidName, make_db, self.client, "te\\t") self.assertRaises(InvalidName, make_db, self.client, "te/t") self.assertRaises(InvalidName, make_db, self.client, "te st") self.assertIsInstance(self.client.test, AsyncDatabase) self.assertEqual(self.client.test, self.client["test"]) self.assertEqual(self.client.test, AsyncDatabase(self.client, "test")) def test_get_database(self): codec_options = CodecOptions(tz_aware=True) write_concern = WriteConcern(w=2, j=True) db = self.client.get_database("foo", codec_options, ReadPreference.SECONDARY, write_concern) self.assertEqual("foo", db.name) self.assertEqual(codec_options, db.codec_options) self.assertEqual(ReadPreference.SECONDARY, db.read_preference) self.assertEqual(write_concern, db.write_concern) def test_getattr(self): self.assertIsInstance(self.client["_does_not_exist"], AsyncDatabase) with self.assertRaises(AttributeError) as context: self.client._does_not_exist # Message should be: # "AttributeError: AsyncMongoClient has no attribute '_does_not_exist'. To # access the _does_not_exist database, use client['_does_not_exist']". self.assertIn("has no attribute '_does_not_exist'", str(context.exception)) def test_iteration(self): client = self.client msg = "'AsyncMongoClient' object is not iterable" # Iteration fails with self.assertRaisesRegex(TypeError, msg): for _ in client: # type: ignore[misc] # error: "None" not callable [misc] break # Index fails with self.assertRaises(TypeError): _ = client[0] # next fails with self.assertRaisesRegex(TypeError, "'AsyncMongoClient' object is not iterable"): _ = next(client) # .next() fails with self.assertRaisesRegex(TypeError, "'AsyncMongoClient' object is not iterable"): _ = client.next() # Do not implement typing.Iterable. self.assertNotIsInstance(client, Iterable) async def test_get_default_database(self): c = await self.async_rs_or_single_client( "mongodb://%s:%d/foo" % (await async_client_context.host, await async_client_context.port), connect=False, ) self.assertEqual(AsyncDatabase(c, "foo"), c.get_default_database()) # Test that default doesn't override the URI value. self.assertEqual(AsyncDatabase(c, "foo"), c.get_default_database("bar")) codec_options = CodecOptions(tz_aware=True) write_concern = WriteConcern(w=2, j=True) db = c.get_default_database(None, codec_options, ReadPreference.SECONDARY, write_concern) self.assertEqual("foo", db.name) self.assertEqual(codec_options, db.codec_options) self.assertEqual(ReadPreference.SECONDARY, db.read_preference) self.assertEqual(write_concern, db.write_concern) c = await self.async_rs_or_single_client( "mongodb://%s:%d/" % (await async_client_context.host, await async_client_context.port), connect=False, ) self.assertEqual(AsyncDatabase(c, "foo"), c.get_default_database("foo")) async def test_get_default_database_error(self): # URI with no database. c = await self.async_rs_or_single_client( "mongodb://%s:%d/" % (await async_client_context.host, await async_client_context.port), connect=False, ) self.assertRaises(ConfigurationError, c.get_default_database) async def test_get_default_database_with_authsource(self): # Ensure we distinguish database name from authSource. uri = "mongodb://%s:%d/foo?authSource=src" % ( await async_client_context.host, await async_client_context.port, ) c = await self.async_rs_or_single_client(uri, connect=False) self.assertEqual(AsyncDatabase(c, "foo"), c.get_default_database()) async def test_get_database_default(self): c = await self.async_rs_or_single_client( "mongodb://%s:%d/foo" % (await async_client_context.host, await async_client_context.port), connect=False, ) self.assertEqual(AsyncDatabase(c, "foo"), c.get_database()) async def test_get_database_default_error(self): # URI with no database. c = await self.async_rs_or_single_client( "mongodb://%s:%d/" % (await async_client_context.host, await async_client_context.port), connect=False, ) self.assertRaises(ConfigurationError, c.get_database) async def test_get_database_default_with_authsource(self): # Ensure we distinguish database name from authSource. uri = "mongodb://%s:%d/foo?authSource=src" % ( await async_client_context.host, await async_client_context.port, ) c = await self.async_rs_or_single_client(uri, connect=False) self.assertEqual(AsyncDatabase(c, "foo"), c.get_database()) async def test_primary_read_pref_with_tags(self): # No tags allowed with "primary". with self.assertRaises(ConfigurationError): await self.async_single_client("mongodb://host/?readpreferencetags=dc:east") with self.assertRaises(ConfigurationError): await self.async_single_client( "mongodb://host/?readpreference=primary&readpreferencetags=dc:east" ) async def test_read_preference(self): c = await self.async_rs_or_single_client( "mongodb://host", connect=False, readpreference=ReadPreference.NEAREST.mongos_mode ) self.assertEqual(c.read_preference, ReadPreference.NEAREST) async def test_metadata(self): metadata = copy.deepcopy(_METADATA) if has_c(): metadata["driver"]["name"] = "PyMongo|c|async" else: metadata["driver"]["name"] = "PyMongo|async" metadata["application"] = {"name": "foobar"} client = self.simple_client("mongodb://foo:27017/?appname=foobar&connect=false") options = client.options self.assertEqual(options.pool_options.metadata, metadata) client = self.simple_client("foo", 27017, appname="foobar", connect=False) options = client.options self.assertEqual(options.pool_options.metadata, metadata) # No error self.simple_client(appname="x" * 128) with self.assertRaises(ValueError): self.simple_client(appname="x" * 129) # Bad "driver" options. self.assertRaises(TypeError, DriverInfo, "Foo", 1, "a") self.assertRaises(TypeError, DriverInfo, version="1", platform="a") self.assertRaises(TypeError, DriverInfo) with self.assertRaises(TypeError): self.simple_client(driver=1) with self.assertRaises(TypeError): self.simple_client(driver="abc") with self.assertRaises(TypeError): self.simple_client(driver=("Foo", "1", "a")) # Test appending to driver info. if has_c(): metadata["driver"]["name"] = "PyMongo|c|async|FooDriver" else: metadata["driver"]["name"] = "PyMongo|async|FooDriver" metadata["driver"]["version"] = "{}|1.2.3".format(_METADATA["driver"]["version"]) client = self.simple_client( "foo", 27017, appname="foobar", driver=DriverInfo("FooDriver", "1.2.3", None), connect=False, ) options = client.options self.assertEqual(options.pool_options.metadata, metadata) metadata["platform"] = "{}|FooPlatform".format(_METADATA["platform"]) client = self.simple_client( "foo", 27017, appname="foobar", driver=DriverInfo("FooDriver", "1.2.3", "FooPlatform"), connect=False, ) options = client.options self.assertEqual(options.pool_options.metadata, metadata) # Test truncating driver info metadata. client = self.simple_client( driver=DriverInfo(name="s" * _MAX_METADATA_SIZE), connect=False, ) options = client.options self.assertLessEqual( len(bson.encode(options.pool_options.metadata)), _MAX_METADATA_SIZE, ) client = self.simple_client( driver=DriverInfo(name="s" * _MAX_METADATA_SIZE, version="s" * _MAX_METADATA_SIZE), connect=False, ) options = client.options self.assertLessEqual( len(bson.encode(options.pool_options.metadata)), _MAX_METADATA_SIZE, ) @mock.patch.dict("os.environ", {ENV_VAR_K8S: "1"}) def test_container_metadata(self): metadata = copy.deepcopy(_METADATA) metadata["driver"]["name"] = "PyMongo|async" metadata["env"] = {} metadata["env"]["container"] = {"orchestrator": "kubernetes"} client = self.simple_client("mongodb://foo:27017/?appname=foobar&connect=false") options = client.options self.assertEqual(options.pool_options.metadata["env"], metadata["env"]) async def test_kwargs_codec_options(self): class MyFloatType: def __init__(self, x): self.__x = x @property def x(self): return self.__x class MyFloatAsIntEncoder(TypeEncoder): python_type = MyFloatType def transform_python(self, value): return int(value) # Ensure codec options are passed in correctly document_class: Type[SON] = SON type_registry = TypeRegistry([MyFloatAsIntEncoder()]) tz_aware = True uuid_representation_label = "javaLegacy" unicode_decode_error_handler = "ignore" tzinfo = utc c = self.simple_client( document_class=document_class, type_registry=type_registry, tz_aware=tz_aware, uuidrepresentation=uuid_representation_label, unicode_decode_error_handler=unicode_decode_error_handler, tzinfo=tzinfo, connect=False, ) self.assertEqual(c.codec_options.document_class, document_class) self.assertEqual(c.codec_options.type_registry, type_registry) self.assertEqual(c.codec_options.tz_aware, tz_aware) self.assertEqual( c.codec_options.uuid_representation, _UUID_REPRESENTATIONS[uuid_representation_label], ) self.assertEqual(c.codec_options.unicode_decode_error_handler, unicode_decode_error_handler) self.assertEqual(c.codec_options.tzinfo, tzinfo) async def test_uri_codec_options(self): # Ensure codec options are passed in correctly uuid_representation_label = "javaLegacy" unicode_decode_error_handler = "ignore" datetime_conversion = "DATETIME_CLAMP" uri = ( "mongodb://%s:%d/foo?tz_aware=true&uuidrepresentation=" "%s&unicode_decode_error_handler=%s" "&datetime_conversion=%s" % ( await async_client_context.host, await async_client_context.port, uuid_representation_label, unicode_decode_error_handler, datetime_conversion, ) ) c = self.simple_client(uri, connect=False) self.assertEqual(c.codec_options.tz_aware, True) self.assertEqual( c.codec_options.uuid_representation, _UUID_REPRESENTATIONS[uuid_representation_label], ) self.assertEqual(c.codec_options.unicode_decode_error_handler, unicode_decode_error_handler) self.assertEqual( c.codec_options.datetime_conversion, DatetimeConversion[datetime_conversion] ) # Change the passed datetime_conversion to a number and re-assert. uri = uri.replace(datetime_conversion, f"{int(DatetimeConversion[datetime_conversion])}") c = self.simple_client(uri, connect=False) self.assertEqual( c.codec_options.datetime_conversion, DatetimeConversion[datetime_conversion] ) async def test_uri_option_precedence(self): # Ensure kwarg options override connection string options. uri = "mongodb://localhost/?ssl=true&replicaSet=name&readPreference=primary" c = self.simple_client( uri, ssl=False, replicaSet="newname", readPreference="secondaryPreferred" ) clopts = c.options opts = clopts._options self.assertEqual(opts["tls"], False) self.assertEqual(clopts.replica_set_name, "newname") self.assertEqual(clopts.read_preference, ReadPreference.SECONDARY_PREFERRED) @unittest.skip("no connection") async def test_connection_timeout_ms_propagates_to_DNS_resolver(self): # Patch the resolver. from pymongo.asynchronous.srv_resolver import _resolve patched_resolver = FunctionCallRecorder(_resolve) pymongo.asynchronous.srv_resolver._resolve = patched_resolver def reset_resolver(): pymongo.asynchronous.srv_resolver._resolve = _resolve self.addCleanup(reset_resolver) # Setup. base_uri = "mongodb+srv://test5.test.build.10gen.cc" connectTimeoutMS = 5000 expected_kw_value = 5.0 uri_with_timeout = base_uri + "/?connectTimeoutMS=6000" expected_uri_value = 6.0 async def test_scenario(args, kwargs, expected_value): patched_resolver.reset() self.simple_client(*args, **kwargs) for _, kw in patched_resolver.call_list(): self.assertAlmostEqual(kw["lifetime"], expected_value) # No timeout specified. await test_scenario((base_uri,), {}, CONNECT_TIMEOUT) # Timeout only specified in connection string. await test_scenario((uri_with_timeout,), {}, expected_uri_value) # Timeout only specified in keyword arguments. kwarg = {"connectTimeoutMS": connectTimeoutMS} await test_scenario((base_uri,), kwarg, expected_kw_value) # Timeout specified in both kwargs and connection string. await test_scenario((uri_with_timeout,), kwarg, expected_kw_value) async def test_uri_security_options(self): # Ensure that we don't silently override security-related options. with self.assertRaises(InvalidURI): self.simple_client("mongodb://localhost/?ssl=true", tls=False, connect=False) # Matching SSL and TLS options should not cause errors. c = self.simple_client("mongodb://localhost/?ssl=false", tls=False, connect=False) self.assertEqual(c.options._options["tls"], False) # Conflicting tlsInsecure options should raise an error. with self.assertRaises(InvalidURI): self.simple_client( "mongodb://localhost/?tlsInsecure=true", connect=False, tlsAllowInvalidHostnames=True, ) # Conflicting legacy tlsInsecure options should also raise an error. with self.assertRaises(InvalidURI): self.simple_client( "mongodb://localhost/?tlsInsecure=true", connect=False, tlsAllowInvalidCertificates=False, ) # Conflicting kwargs should raise InvalidURI with self.assertRaises(InvalidURI): self.simple_client(ssl=True, tls=False) async def test_event_listeners(self): c = self.simple_client(event_listeners=[], connect=False) self.assertEqual(c.options.event_listeners, []) listeners = [ event_loggers.CommandLogger(), event_loggers.HeartbeatLogger(), event_loggers.ServerLogger(), event_loggers.TopologyLogger(), event_loggers.ConnectionPoolLogger(), ] c = self.simple_client(event_listeners=listeners, connect=False) self.assertEqual(c.options.event_listeners, listeners) async def test_client_options(self): c = self.simple_client(connect=False) self.assertIsInstance(c.options, ClientOptions) self.assertIsInstance(c.options.pool_options, PoolOptions) self.assertEqual(c.options.server_selection_timeout, 30) self.assertEqual(c.options.pool_options.max_idle_time_seconds, None) self.assertIsInstance(c.options.retry_writes, bool) self.assertIsInstance(c.options.retry_reads, bool) def test_validate_suggestion(self): """Validate kwargs in constructor.""" for typo in ["auth", "Auth", "AUTH"]: expected = f"Unknown option: {typo}. Did you mean one of (authsource, authmechanism, authoidcallowedhosts) or maybe a camelCase version of one? Refer to docstring." expected = re.escape(expected) with self.assertRaisesRegex(ConfigurationError, expected): AsyncMongoClient(**{typo: "standard"}) # type: ignore[arg-type] @patch("pymongo.asynchronous.srv_resolver._SrvResolver.get_hosts") def test_detected_environment_logging(self, mock_get_hosts): normal_hosts = [ "normal.host.com", "host.cosmos.azure.com", "host.docdb.amazonaws.com", "host.docdb-elastic.amazonaws.com", ] srv_hosts = ["mongodb+srv://:@" + s for s in normal_hosts] multi_host = ( "host.cosmos.azure.com,host.docdb.amazonaws.com,host.docdb-elastic.amazonaws.com" ) with self.assertLogs("pymongo", level="INFO") as cm: for host in normal_hosts: AsyncMongoClient(host, connect=False) for host in srv_hosts: mock_get_hosts.return_value = [(host, 1)] AsyncMongoClient(host, connect=False) AsyncMongoClient(multi_host, connect=False) logs = [record.getMessage() for record in cm.records if record.name == "pymongo.client"] self.assertEqual(len(logs), 7) @skipIf(os.environ.get("DEBUG_LOG"), "Enabling debug logs breaks this test") @patch("pymongo.asynchronous.srv_resolver._SrvResolver.get_hosts") async def test_detected_environment_warning(self, mock_get_hosts): with self._caplog.at_level(logging.WARN): normal_hosts = [ "host.cosmos.azure.com", "host.docdb.amazonaws.com", "host.docdb-elastic.amazonaws.com", ] srv_hosts = ["mongodb+srv://:@" + s for s in normal_hosts] multi_host = ( "host.cosmos.azure.com,host.docdb.amazonaws.com,host.docdb-elastic.amazonaws.com" ) for host in normal_hosts: with self.assertWarns(UserWarning): self.simple_client(host) for host in srv_hosts: mock_get_hosts.return_value = [(host, 1)] with self.assertWarns(UserWarning): self.simple_client(host) with self.assertWarns(UserWarning): self.simple_client(multi_host) class TestClient(AsyncIntegrationTest): def test_multiple_uris(self): with self.assertRaises(ConfigurationError): AsyncMongoClient( host=[ "mongodb+srv://cluster-a.abc12.mongodb.net", "mongodb+srv://cluster-b.abc12.mongodb.net", "mongodb+srv://cluster-c.abc12.mongodb.net", ] ) async def test_max_idle_time_reaper_default(self): with client_knobs(kill_cursor_frequency=0.1): # Assert reaper doesn't remove connections when maxIdleTimeMS not set client = await self.async_rs_or_single_client() server = await (await client._get_topology()).select_server( readable_server_selector, _Op.TEST ) async with server._pool.checkout() as conn: pass self.assertEqual(1, len(server._pool.conns)) self.assertIn(conn, server._pool.conns) async def test_max_idle_time_reaper_removes_stale_minPoolSize(self): with client_knobs(kill_cursor_frequency=0.1): # Assert reaper removes idle socket and replaces it with a new one client = await self.async_rs_or_single_client(maxIdleTimeMS=500, minPoolSize=1) server = await (await client._get_topology()).select_server( readable_server_selector, _Op.TEST ) async with server._pool.checkout() as conn: pass # When the reaper runs at the same time as the get_socket, two # connections could be created and checked into the pool. self.assertGreaterEqual(len(server._pool.conns), 1) await async_wait_until(lambda: conn not in server._pool.conns, "remove stale socket") await async_wait_until(lambda: len(server._pool.conns) >= 1, "replace stale socket") async def test_max_idle_time_reaper_does_not_exceed_maxPoolSize(self): with client_knobs(kill_cursor_frequency=0.1): # Assert reaper respects maxPoolSize when adding new connections. client = await self.async_rs_or_single_client( maxIdleTimeMS=500, minPoolSize=1, maxPoolSize=1 ) server = await (await client._get_topology()).select_server( readable_server_selector, _Op.TEST ) async with server._pool.checkout() as conn: pass # When the reaper runs at the same time as the get_socket, # maxPoolSize=1 should prevent two connections from being created. self.assertEqual(1, len(server._pool.conns)) await async_wait_until(lambda: conn not in server._pool.conns, "remove stale socket") await async_wait_until(lambda: len(server._pool.conns) == 1, "replace stale socket") async def test_max_idle_time_reaper_removes_stale(self): with client_knobs(kill_cursor_frequency=0.1): # Assert reaper has removed idle socket and NOT replaced it client = await self.async_rs_or_single_client(maxIdleTimeMS=500) server = await (await client._get_topology()).select_server( readable_server_selector, _Op.TEST ) async with server._pool.checkout() as conn_one: pass # Assert that the pool does not close connections prematurely. await asyncio.sleep(0.300) async with server._pool.checkout() as conn_two: pass self.assertIs(conn_one, conn_two) await async_wait_until( lambda: len(server._pool.conns) == 0, "stale socket reaped and new one NOT added to the pool", ) async def test_min_pool_size(self): with client_knobs(kill_cursor_frequency=0.1): client = await self.async_rs_or_single_client() server = await (await client._get_topology()).select_server( readable_server_selector, _Op.TEST ) self.assertEqual(0, len(server._pool.conns)) # Assert that pool started up at minPoolSize client = await self.async_rs_or_single_client(minPoolSize=10) server = await (await client._get_topology()).select_server( readable_server_selector, _Op.TEST ) await async_wait_until( lambda: len(server._pool.conns) == 10, "pool initialized with 10 connections", ) # Assert that if a socket is closed, a new one takes its place async with server._pool.checkout() as conn: await conn.close_conn(None) await async_wait_until( lambda: len(server._pool.conns) == 10, "a closed socket gets replaced from the pool", ) self.assertNotIn(conn, server._pool.conns) async def test_max_idle_time_checkout(self): # Use high frequency to test _get_socket_no_auth. with client_knobs(kill_cursor_frequency=99999999): client = await self.async_rs_or_single_client(maxIdleTimeMS=500) server = await (await client._get_topology()).select_server( readable_server_selector, _Op.TEST ) async with server._pool.checkout() as conn: pass self.assertEqual(1, len(server._pool.conns)) await asyncio.sleep(1) # Sleep so that the socket becomes stale. async with server._pool.checkout() as new_con: self.assertNotEqual(conn, new_con) self.assertEqual(1, len(server._pool.conns)) self.assertNotIn(conn, server._pool.conns) self.assertIn(new_con, server._pool.conns) # Test that connections are reused if maxIdleTimeMS is not set. client = await self.async_rs_or_single_client() server = await (await client._get_topology()).select_server( readable_server_selector, _Op.TEST ) async with server._pool.checkout() as conn: pass self.assertEqual(1, len(server._pool.conns)) await asyncio.sleep(1) async with server._pool.checkout() as new_con: self.assertEqual(conn, new_con) self.assertEqual(1, len(server._pool.conns)) async def test_constants(self): """This test uses AsyncMongoClient explicitly to make sure that host and port are not overloaded. """ host, port = await async_client_context.host, await async_client_context.port kwargs: dict = async_client_context.default_client_options.copy() if async_client_context.auth_enabled: kwargs["username"] = db_user kwargs["password"] = db_pwd # Set bad defaults. AsyncMongoClient.HOST = "somedomainthatdoesntexist.org" AsyncMongoClient.PORT = 123456789 with self.assertRaises(AutoReconnect): c = self.simple_client(serverSelectionTimeoutMS=10, **kwargs) await connected(c) c = self.simple_client(host, port, **kwargs) # Override the defaults. No error. await connected(c) # Set good defaults. AsyncMongoClient.HOST = host AsyncMongoClient.PORT = port # No error. c = self.simple_client(**kwargs) await connected(c) async def test_init_disconnected(self): host, port = await async_client_context.host, await async_client_context.port c = await self.async_rs_or_single_client(connect=False) # is_primary causes client to block until connected self.assertIsInstance(await c.is_primary, bool) c = await self.async_rs_or_single_client(connect=False) self.assertIsInstance(await c.is_mongos, bool) c = await self.async_rs_or_single_client(connect=False) self.assertIsInstance(c.options.pool_options.max_pool_size, int) self.assertIsInstance(c.nodes, frozenset) c = await self.async_rs_or_single_client(connect=False) self.assertEqual(c.codec_options, CodecOptions()) c = await self.async_rs_or_single_client(connect=False) self.assertFalse(await c.primary) self.assertFalse(await c.secondaries) c = await self.async_rs_or_single_client(connect=False) self.assertIsInstance(c.topology_description, TopologyDescription) self.assertEqual(c.topology_description, c._topology._description) if async_client_context.is_rs: # The primary's host and port are from the replica set config. self.assertIsNotNone(await c.address) else: self.assertEqual(await c.address, (host, port)) bad_host = "somedomainthatdoesntexist.org" c = self.simple_client(bad_host, port, connectTimeoutMS=1, serverSelectionTimeoutMS=10) with self.assertRaises(ConnectionFailure): await c.pymongo_test.test.find_one() async def test_init_disconnected_with_auth(self): uri = "mongodb://user:pass@somedomainthatdoesntexist" c = self.simple_client(uri, connectTimeoutMS=1, serverSelectionTimeoutMS=10) with self.assertRaises(ConnectionFailure): await c.pymongo_test.test.find_one() @async_client_context.require_replica_set @async_client_context.require_no_load_balancer @async_client_context.require_tls async def test_init_disconnected_with_srv(self): c = await self.async_rs_or_single_client( "mongodb+srv://test1.test.build.10gen.cc", connect=False, tlsInsecure=True ) # nodes returns an empty set if not connected self.assertEqual(c.nodes, frozenset()) # topology_description returns the initial seed description if not connected topology_description = c.topology_description self.assertEqual(topology_description.topology_type, TOPOLOGY_TYPE.Unknown) self.assertEqual( { ("test1.test.build.10gen.cc", None): ServerDescription( ("test1.test.build.10gen.cc", None) ) }, topology_description.server_descriptions(), ) # address causes client to block until connected self.assertIsNotNone(await c.address) # Initial seed topology and connected topology have the same ID self.assertEqual( c._topology._topology_id, topology_description._topology_settings._topology_id ) await c.close() c = await self.async_rs_or_single_client( "mongodb+srv://test1.test.build.10gen.cc", connect=False, tlsInsecure=True ) # primary causes client to block until connected await c.primary self.assertIsNotNone(c._topology) await c.close() c = await self.async_rs_or_single_client( "mongodb+srv://test1.test.build.10gen.cc", connect=False, tlsInsecure=True ) # secondaries causes client to block until connected await c.secondaries self.assertIsNotNone(c._topology) await c.close() c = await self.async_rs_or_single_client( "mongodb+srv://test1.test.build.10gen.cc", connect=False, tlsInsecure=True ) # arbiters causes client to block until connected await c.arbiters self.assertIsNotNone(c._topology) async def test_equality(self): seed = "{}:{}".format(*list(self.client._topology_settings.seeds)[0]) c = await self.async_rs_or_single_client(seed, connect=False) self.assertEqual(async_client_context.client, c) # Explicitly test inequality self.assertFalse(async_client_context.client != c) c = await self.async_rs_or_single_client("invalid.com", connect=False) self.assertNotEqual(async_client_context.client, c) self.assertTrue(async_client_context.client != c) c1 = self.simple_client("a", connect=False) c2 = self.simple_client("b", connect=False) # Seeds differ: self.assertNotEqual(c1, c2) c1 = self.simple_client(["a", "b", "c"], connect=False) c2 = self.simple_client(["c", "a", "b"], connect=False) # Same seeds but out of order still compares equal: self.assertEqual(c1, c2) async def test_hashable(self): seed = "{}:{}".format(*list(self.client._topology_settings.seeds)[0]) c = await self.async_rs_or_single_client(seed, connect=False) self.assertIn(c, {async_client_context.client}) c = await self.async_rs_or_single_client("invalid.com", connect=False) self.assertNotIn(c, {async_client_context.client}) async def test_host_w_port(self): with self.assertRaises(ValueError): host = await async_client_context.host await connected( AsyncMongoClient( f"{host}:1234567", connectTimeoutMS=1, serverSelectionTimeoutMS=10, ) ) async def test_repr(self): # Used to test 'eval' below. import bson client = AsyncMongoClient( # type: ignore[type-var] "mongodb://localhost:27017,localhost:27018/?replicaSet=replset" "&connectTimeoutMS=12345&w=1&wtimeoutms=100", connect=False, document_class=SON, ) the_repr = repr(client) self.assertIn("AsyncMongoClient(host=", the_repr) self.assertIn("document_class=bson.son.SON, tz_aware=False, connect=False, ", the_repr) self.assertIn("connecttimeoutms=12345", the_repr) self.assertIn("replicaset='replset'", the_repr) self.assertIn("w=1", the_repr) self.assertIn("wtimeoutms=100", the_repr) async with eval(the_repr) as client_two: self.assertEqual(client_two, client) client = self.simple_client( "localhost:27017,localhost:27018", replicaSet="replset", connectTimeoutMS=12345, socketTimeoutMS=None, w=1, wtimeoutms=100, connect=False, ) the_repr = repr(client) self.assertIn("AsyncMongoClient(host=", the_repr) self.assertIn("document_class=dict, tz_aware=False, connect=False, ", the_repr) self.assertIn("connecttimeoutms=12345", the_repr) self.assertIn("replicaset='replset'", the_repr) self.assertIn("sockettimeoutms=None", the_repr) self.assertIn("w=1", the_repr) self.assertIn("wtimeoutms=100", the_repr) async with eval(the_repr) as client_two: self.assertEqual(client_two, client) async def test_repr_srv_host(self): client = AsyncMongoClient("mongodb+srv://test1.test.build.10gen.cc/", connect=False) # before srv resolution self.assertIn("host='mongodb+srv://test1.test.build.10gen.cc'", repr(client)) await client.aconnect() # after srv resolution self.assertIn("host=['localhost.test.build.10gen.cc:", repr(client)) await client.close() async def test_getters(self): await async_wait_until( lambda: async_client_context.nodes == self.client.nodes, "find all nodes" ) async def test_list_databases(self): cmd_docs = (await self.client.admin.command("listDatabases"))["databases"] cursor = await self.client.list_databases() self.assertIsInstance(cursor, AsyncCommandCursor) helper_docs = await cursor.to_list() self.assertGreater(len(helper_docs), 0) self.assertEqual(len(helper_docs), len(cmd_docs)) # PYTHON-3529 Some fields may change between calls, just compare names. for helper_doc, cmd_doc in zip(helper_docs, cmd_docs): self.assertIs(type(helper_doc), dict) self.assertEqual(helper_doc.keys(), cmd_doc.keys()) client = await self.async_rs_or_single_client(document_class=SON) async for doc in await client.list_databases(): self.assertIs(type(doc), dict) await self.client.pymongo_test.test.insert_one({}) cursor = await self.client.list_databases(filter={"name": "admin"}) docs = await cursor.to_list() self.assertEqual(1, len(docs)) self.assertEqual(docs[0]["name"], "admin") cursor = await self.client.list_databases(nameOnly=True) async for doc in cursor: self.assertEqual(["name"], list(doc)) async def test_list_database_names(self): await self.client.pymongo_test.test.insert_one({"dummy": "object"}) await self.client.pymongo_test_mike.test.insert_one({"dummy": "object"}) cmd_docs = (await self.client.admin.command("listDatabases"))["databases"] cmd_names = [doc["name"] for doc in cmd_docs] db_names = await self.client.list_database_names() self.assertIn("pymongo_test", db_names) self.assertIn("pymongo_test_mike", db_names) self.assertEqual(db_names, cmd_names) async def test_drop_database(self): with self.assertRaises(TypeError): await self.client.drop_database(5) # type: ignore[arg-type] with self.assertRaises(TypeError): await self.client.drop_database(None) # type: ignore[arg-type] await self.client.pymongo_test.test.insert_one({"dummy": "object"}) await self.client.pymongo_test2.test.insert_one({"dummy": "object"}) dbs = await self.client.list_database_names() self.assertIn("pymongo_test", dbs) self.assertIn("pymongo_test2", dbs) await self.client.drop_database("pymongo_test") if async_client_context.is_rs: wc_client = await self.async_rs_or_single_client(w=len(async_client_context.nodes) + 1) with self.assertRaises(WriteConcernError): await wc_client.drop_database("pymongo_test2") await self.client.drop_database(self.client.pymongo_test2) dbs = await self.client.list_database_names() self.assertNotIn("pymongo_test", dbs) self.assertNotIn("pymongo_test2", dbs) async def test_close(self): test_client = await self.async_rs_or_single_client() coll = test_client.pymongo_test.bar await test_client.close() with self.assertRaises(InvalidOperation): await coll.count_documents({}) async def test_close_kills_cursors(self): if sys.platform.startswith("java"): # We can't figure out how to make this test reliable with Jython. raise SkipTest("Can't test with Jython") test_client = await self.async_rs_or_single_client() # Kill any cursors possibly queued up by previous tests. gc.collect() await test_client._process_periodic_tasks() # Add some test data. coll = test_client.pymongo_test.test_close_kills_cursors docs_inserted = 1000 await coll.insert_many([{"i": i} for i in range(docs_inserted)]) # Open a cursor and leave it open on the server. cursor = coll.find().batch_size(10) self.assertTrue(bool(await anext(cursor))) self.assertLess(cursor.retrieved, docs_inserted) # Open a command cursor and leave it open on the server. cursor = await coll.aggregate([], batchSize=10) self.assertTrue(bool(await anext(cursor))) del cursor # Required for PyPy, Jython and other Python implementations that # don't use reference counting garbage collection. gc.collect() # Close the client and ensure the topology is closed. self.assertTrue(test_client._topology._opened) await test_client.close() self.assertFalse(test_client._topology._opened) test_client = await self.async_rs_or_single_client() # The killCursors task should not need to re-open the topology. await test_client._process_periodic_tasks() self.assertTrue(test_client._topology._opened) async def test_close_stops_kill_cursors_thread(self): client = await self.async_rs_client() await client.test.test.find_one() self.assertFalse(client._kill_cursors_executor._stopped) # Closing the client should stop the thread. await client.close() self.assertTrue(client._kill_cursors_executor._stopped) # Reusing the closed client should raise an InvalidOperation error. with self.assertRaises(InvalidOperation): await client.admin.command("ping") # Thread is still stopped. self.assertTrue(client._kill_cursors_executor._stopped) async def test_uri_connect_option(self): # Ensure that topology is not opened if connect=False. client = await self.async_rs_client(connect=False) self.assertFalse(client._topology._opened) # Ensure kill cursors thread has not been started. if _IS_SYNC: kc_thread = client._kill_cursors_executor._thread self.assertFalse(kc_thread and kc_thread.is_alive()) else: kc_task = client._kill_cursors_executor._task self.assertFalse(kc_task and not kc_task.done()) # Using the client should open topology and start the thread. await client.admin.command("ping") self.assertTrue(client._topology._opened) if _IS_SYNC: kc_thread = client._kill_cursors_executor._thread self.assertTrue(kc_thread and kc_thread.is_alive()) else: kc_task = client._kill_cursors_executor._task self.assertTrue(kc_task and not kc_task.done()) async def test_close_does_not_open_servers(self): client = await self.async_rs_client(connect=False) topology = client._topology self.assertEqual(topology._servers, {}) await client.close() self.assertEqual(topology._servers, {}) async def test_close_closes_sockets(self): client = await self.async_rs_client() await client.test.test.find_one() topology = client._topology await client.close() for server in topology._servers.values(): self.assertFalse(server._pool.conns) self.assertTrue(server._monitor._executor._stopped) self.assertTrue(server._monitor._rtt_monitor._executor._stopped) self.assertFalse(server._monitor._pool.conns) self.assertFalse(server._monitor._rtt_monitor._pool.conns) def test_bad_uri(self): with self.assertRaises(InvalidURI): AsyncMongoClient("http://localhost") @async_client_context.require_auth @async_client_context.require_no_fips async def test_auth_from_uri(self): host, port = await async_client_context.host, await async_client_context.port await async_client_context.create_user("admin", "admin", "pass") self.addAsyncCleanup(async_client_context.drop_user, "admin", "admin") self.addAsyncCleanup(remove_all_users, self.client.pymongo_test) await async_client_context.create_user( "pymongo_test", "user", "pass", roles=["userAdmin", "readWrite"] ) with self.assertRaises(OperationFailure): await connected( await self.async_rs_or_single_client_noauth("mongodb://a:b@%s:%d" % (host, port)) ) # No error. await connected( await self.async_rs_or_single_client_noauth("mongodb://admin:pass@%s:%d" % (host, port)) ) # Wrong database. uri = "mongodb://admin:pass@%s:%d/pymongo_test" % (host, port) with self.assertRaises(OperationFailure): await connected(await self.async_rs_or_single_client_noauth(uri)) # No error. await connected( await self.async_rs_or_single_client_noauth( "mongodb://user:pass@%s:%d/pymongo_test" % (host, port) ) ) # Auth with lazy connection. await ( await self.async_rs_or_single_client_noauth( "mongodb://user:pass@%s:%d/pymongo_test" % (host, port), connect=False ) ).pymongo_test.test.find_one() # Wrong password. bad_client = await self.async_rs_or_single_client_noauth( "mongodb://user:wrong@%s:%d/pymongo_test" % (host, port), connect=False ) with self.assertRaises(OperationFailure): await bad_client.pymongo_test.test.find_one() @async_client_context.require_auth async def test_username_and_password(self): await async_client_context.create_user("admin", "ad min", "pa/ss") self.addAsyncCleanup(async_client_context.drop_user, "admin", "ad min") c = await self.async_rs_or_single_client_noauth(username="ad min", password="pa/ss") # Username and password aren't in strings that will likely be logged. self.assertNotIn("ad min", repr(c)) self.assertNotIn("ad min", str(c)) self.assertNotIn("pa/ss", repr(c)) self.assertNotIn("pa/ss", str(c)) # Auth succeeds. await c.server_info() with self.assertRaises(OperationFailure): await ( await self.async_rs_or_single_client_noauth(username="ad min", password="foo") ).server_info() @async_client_context.require_auth @async_client_context.require_no_fips async def test_lazy_auth_raises_operation_failure(self): host = await async_client_context.host lazy_client = await self.async_rs_or_single_client_noauth( f"mongodb://user:wrong@{host}/pymongo_test", connect=False ) await asyncAssertRaisesExactly(OperationFailure, lazy_client.test.collection.find_one) @async_client_context.require_no_tls async def test_unix_socket(self): if not hasattr(socket, "AF_UNIX"): raise SkipTest("UNIX-sockets are not supported on this system") mongodb_socket = "/tmp/mongodb-%d.sock" % (await async_client_context.port,) encoded_socket = "%2Ftmp%2F" + "mongodb-%d.sock" % (await async_client_context.port,) if not os.access(mongodb_socket, os.R_OK): raise SkipTest("Socket file is not accessible") uri = "mongodb://%s" % encoded_socket # Confirm we can do operations via the socket. client = await self.async_rs_or_single_client(uri) await client.pymongo_test.test.insert_one({"dummy": "object"}) dbs = await client.list_database_names() self.assertIn("pymongo_test", dbs) self.assertIn(mongodb_socket, repr(client)) # Confirm it fails with a missing socket. with self.assertRaises(ConnectionFailure): c = self.simple_client( "mongodb://%2Ftmp%2Fnon-existent.sock", serverSelectionTimeoutMS=100 ) await connected(c) async def test_document_class(self): c = self.client db = c.pymongo_test await db.test.insert_one({"x": 1}) self.assertEqual(dict, c.codec_options.document_class) self.assertIsInstance(await db.test.find_one(), dict) self.assertNotIsInstance(await db.test.find_one(), SON) c = await self.async_rs_or_single_client(document_class=SON) db = c.pymongo_test self.assertEqual(SON, c.codec_options.document_class) self.assertIsInstance(await db.test.find_one(), SON) async def test_timeouts(self): client = await self.async_rs_or_single_client( connectTimeoutMS=10500, socketTimeoutMS=10500, maxIdleTimeMS=10500, serverSelectionTimeoutMS=10500, ) self.assertEqual(10.5, (await async_get_pool(client)).opts.connect_timeout) self.assertEqual(10.5, (await async_get_pool(client)).opts.socket_timeout) self.assertEqual(10.5, (await async_get_pool(client)).opts.max_idle_time_seconds) self.assertEqual(10.5, client.options.pool_options.max_idle_time_seconds) self.assertEqual(10.5, client.options.server_selection_timeout) async def test_socket_timeout_ms_validation(self): c = await self.async_rs_or_single_client(socketTimeoutMS=10 * 1000) self.assertEqual(10, (await async_get_pool(c)).opts.socket_timeout) c = await connected(await self.async_rs_or_single_client(socketTimeoutMS=None)) self.assertEqual(None, (await async_get_pool(c)).opts.socket_timeout) c = await connected(await self.async_rs_or_single_client(socketTimeoutMS=0)) self.assertEqual(None, (await async_get_pool(c)).opts.socket_timeout) with self.assertRaises(ValueError): async with await self.async_rs_or_single_client(socketTimeoutMS=-1): pass with self.assertRaises(ValueError): async with await self.async_rs_or_single_client(socketTimeoutMS=1e10): pass with self.assertRaises(ValueError): async with await self.async_rs_or_single_client(socketTimeoutMS="foo"): pass async def test_socket_timeout(self): no_timeout = self.client timeout_sec = 1 timeout = await self.async_rs_or_single_client(socketTimeoutMS=1000 * timeout_sec) await no_timeout.pymongo_test.drop_collection("test") await no_timeout.pymongo_test.test.insert_one({"x": 1}) # A $where clause that takes a second longer than the timeout where_func = delay(timeout_sec + 1) async def get_x(db): doc = await anext(db.test.find().where(where_func)) return doc["x"] self.assertEqual(1, await get_x(no_timeout.pymongo_test)) with self.assertRaises(NetworkTimeout): await get_x(timeout.pymongo_test) async def test_server_selection_timeout(self): client = AsyncMongoClient(serverSelectionTimeoutMS=100, connect=False) self.assertAlmostEqual(0.1, client.options.server_selection_timeout) await client.close() client = AsyncMongoClient(serverSelectionTimeoutMS=0, connect=False) self.assertAlmostEqual(0, client.options.server_selection_timeout) self.assertRaises( ValueError, AsyncMongoClient, serverSelectionTimeoutMS="foo", connect=False ) self.assertRaises(ValueError, AsyncMongoClient, serverSelectionTimeoutMS=-1, connect=False) self.assertRaises( ConfigurationError, AsyncMongoClient, serverSelectionTimeoutMS=None, connect=False ) await client.close() client = AsyncMongoClient( "mongodb://localhost/?serverSelectionTimeoutMS=100", connect=False ) self.assertAlmostEqual(0.1, client.options.server_selection_timeout) await client.close() client = AsyncMongoClient("mongodb://localhost/?serverSelectionTimeoutMS=0", connect=False) self.assertAlmostEqual(0, client.options.server_selection_timeout) await client.close() # Test invalid timeout in URI ignored and set to default. client = AsyncMongoClient("mongodb://localhost/?serverSelectionTimeoutMS=-1", connect=False) self.assertAlmostEqual(30, client.options.server_selection_timeout) await client.close() client = AsyncMongoClient("mongodb://localhost/?serverSelectionTimeoutMS=", connect=False) self.assertAlmostEqual(30, client.options.server_selection_timeout) async def test_waitQueueTimeoutMS(self): listener = CMAPListener() client = await self.async_rs_or_single_client( waitQueueTimeoutMS=10, maxPoolSize=1, event_listeners=[listener] ) pool = await async_get_pool(client) self.assertEqual(pool.opts.wait_queue_timeout, 0.01) async with pool.checkout(): with self.assertRaises(WaitQueueTimeoutError): await client.test.command("ping") self.assertFalse(listener.events_by_type(monitoring.PoolClearedEvent)) async def test_socketKeepAlive(self): pool = await async_get_pool(self.client) async with pool.checkout() as conn: keepalive = conn.conn.sock.getsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE) self.assertTrue(keepalive) @no_type_check async def test_tz_aware(self): self.assertRaises(ValueError, AsyncMongoClient, tz_aware="foo") aware = await self.async_rs_or_single_client(tz_aware=True) self.addAsyncCleanup(aware.close) naive = self.client await aware.pymongo_test.drop_collection("test") now = datetime.datetime.now(tz=datetime.timezone.utc) await aware.pymongo_test.test.insert_one({"x": now}) self.assertEqual(None, (await naive.pymongo_test.test.find_one())["x"].tzinfo) self.assertEqual(utc, (await aware.pymongo_test.test.find_one())["x"].tzinfo) self.assertEqual( (await aware.pymongo_test.test.find_one())["x"].replace(tzinfo=None), (await naive.pymongo_test.test.find_one())["x"], ) @async_client_context.require_ipv6 async def test_ipv6(self): if async_client_context.tls: if not HAVE_IPADDRESS: raise SkipTest("Need the ipaddress module to test with SSL") if async_client_context.auth_enabled: auth_str = f"{db_user}:{db_pwd}@" else: auth_str = "" uri = "mongodb://%s[::1]:%d" % (auth_str, await async_client_context.port) if async_client_context.is_rs: uri += "/?replicaSet=" + (async_client_context.replica_set_name or "") client = await self.async_rs_or_single_client_noauth(uri) await client.pymongo_test.test.insert_one({"dummy": "object"}) await client.pymongo_test_bernie.test.insert_one({"dummy": "object"}) dbs = await client.list_database_names() self.assertIn("pymongo_test", dbs) self.assertIn("pymongo_test_bernie", dbs) async def test_contextlib(self): client = await self.async_rs_or_single_client() await client.pymongo_test.drop_collection("test") await client.pymongo_test.test.insert_one({"foo": "bar"}) # The socket used for the previous commands has been returned to the # pool self.assertEqual(1, len((await async_get_pool(client)).conns)) # contextlib async support was added in Python 3.10 if _IS_SYNC or sys.version_info >= (3, 10): async with contextlib.aclosing(client): self.assertEqual("bar", (await client.pymongo_test.test.find_one())["foo"]) with self.assertRaises(InvalidOperation): await client.pymongo_test.test.find_one() client = await self.async_rs_or_single_client() async with client as client: self.assertEqual("bar", (await client.pymongo_test.test.find_one())["foo"]) with self.assertRaises(InvalidOperation): await client.pymongo_test.test.find_one() @async_client_context.require_sync def test_interrupt_signal(self): if sys.platform.startswith("java"): # We can't figure out how to raise an exception on a thread that's # blocked on a socket, whether that's the main thread or a worker, # without simply killing the whole thread in Jython. This suggests # PYTHON-294 can't actually occur in Jython. raise SkipTest("Can't test interrupts in Jython") if is_greenthread_patched(): raise SkipTest("Can't reliably test interrupts with green threads") # Test fix for PYTHON-294 -- make sure AsyncMongoClient closes its # socket if it gets an interrupt while waiting to recv() from it. db = self.client.pymongo_test # A $where clause which takes 1.5 sec to execute where = delay(1.5) # Need exactly 1 document so find() will execute its $where clause once db.drop_collection("foo") db.foo.insert_one({"_id": 1}) old_signal_handler = None try: # Platform-specific hacks for raising a KeyboardInterrupt on the # main thread while find() is in-progress: On Windows, SIGALRM is # unavailable so we use a second thread. In our Evergreen setup on # Linux, the thread technique causes an error in the test at # conn.recv(): TypeError: 'int' object is not callable # We don't know what causes this, so we hack around it. if sys.platform == "win32": def interrupter(): # Raises KeyboardInterrupt in the main thread time.sleep(0.25) thread.interrupt_main() thread.start_new_thread(interrupter, ()) else: # Convert SIGALRM to SIGINT -- it's hard to schedule a SIGINT # for one second in the future, but easy to schedule SIGALRM. def sigalarm(num, frame): raise KeyboardInterrupt old_signal_handler = signal.signal(signal.SIGALRM, sigalarm) signal.alarm(1) raised = False try: # Will be interrupted by a KeyboardInterrupt. next(db.foo.find({"$where": where})) # type: ignore[call-overload] except KeyboardInterrupt: raised = True # Can't use self.assertRaises() because it doesn't catch system # exceptions self.assertTrue(raised, "Didn't raise expected KeyboardInterrupt") # Raises AssertionError due to PYTHON-294 -- Mongo's response to # the previous find() is still waiting to be read on the socket, # so the request id's don't match. self.assertEqual({"_id": 1}, next(db.foo.find())) # type: ignore[call-overload] finally: if old_signal_handler: signal.signal(signal.SIGALRM, old_signal_handler) async def test_operation_failure(self): # Ensure AsyncMongoClient doesn't close socket after it gets an error # response to getLastError. PYTHON-395. We need a new client here # to avoid race conditions caused by replica set failover or idle # socket reaping. client = await self.async_single_client() await client.pymongo_test.test.find_one() pool = await async_get_pool(client) socket_count = len(pool.conns) self.assertGreaterEqual(socket_count, 1) old_conn = next(iter(pool.conns)) await client.pymongo_test.test.drop() await client.pymongo_test.test.insert_one({"_id": "foo"}) with self.assertRaises(OperationFailure): await client.pymongo_test.test.insert_one({"_id": "foo"}) self.assertEqual(socket_count, len(pool.conns)) new_con = next(iter(pool.conns)) self.assertEqual(old_conn, new_con) async def test_lazy_connect_w0(self): # Ensure that connect-on-demand works when the first operation is # an unacknowledged write. This exercises _writable_max_wire_version(). # Use a separate collection to avoid races where we're still # completing an operation on a collection while the next test begins. await async_client_context.client.drop_database("test_lazy_connect_w0") self.addAsyncCleanup(async_client_context.client.drop_database, "test_lazy_connect_w0") client = await self.async_rs_or_single_client(connect=False, w=0) await client.test_lazy_connect_w0.test.insert_one({}) async def predicate(): return await client.test_lazy_connect_w0.test.count_documents({}) == 1 await async_wait_until(predicate, "find one document") client = await self.async_rs_or_single_client(connect=False, w=0) await client.test_lazy_connect_w0.test.update_one({}, {"$set": {"x": 1}}) async def predicate(): return (await client.test_lazy_connect_w0.test.find_one()).get("x") == 1 await async_wait_until(predicate, "update one document") client = await self.async_rs_or_single_client(connect=False, w=0) await client.test_lazy_connect_w0.test.delete_one({}) async def predicate(): return await client.test_lazy_connect_w0.test.count_documents({}) == 0 await async_wait_until(predicate, "delete one document") @async_client_context.require_no_mongos async def test_exhaust_network_error(self): # When doing an exhaust query, the socket stays checked out on success # but must be checked in on error to avoid semaphore leaks. client = await self.async_rs_or_single_client(maxPoolSize=1, retryReads=False) collection = client.pymongo_test.test pool = await async_get_pool(client) pool._check_interval_seconds = None # Never check. # Ensure a socket. await connected(client) # Cause a network error. conn = one(pool.conns) await conn.conn.close() cursor = collection.find(cursor_type=CursorType.EXHAUST) with self.assertRaises(ConnectionFailure): await anext(cursor) self.assertTrue(conn.closed) # The semaphore was decremented despite the error. self.assertEqual(0, pool.requests) @async_client_context.require_auth async def test_auth_network_error(self): # Make sure there's no semaphore leak if we get a network error # when authenticating a new socket with cached credentials. # Get a client with one socket so we detect if it's leaked. c = await connected( await self.async_rs_or_single_client( maxPoolSize=1, waitQueueTimeoutMS=1, retryReads=False ) ) # Cause a network error on the actual socket. pool = await async_get_pool(c) conn = one(pool.conns) await conn.conn.close() # AsyncConnection.authenticate logs, but gets a socket.error. Should be # reraised as AutoReconnect. with self.assertRaises(AutoReconnect): await c.test.collection.find_one() # No semaphore leak, the pool is allowed to make a new socket. await c.test.collection.find_one() @async_client_context.require_no_replica_set async def test_connect_to_standalone_using_replica_set_name(self): client = await self.async_single_client(replicaSet="anything", serverSelectionTimeoutMS=100) with self.assertRaises(AutoReconnect): await client.test.test.find_one() @async_client_context.require_replica_set async def test_stale_getmore(self): # A cursor is created, but its member goes down and is removed from # the topology before the getMore message is sent. Test that # AsyncMongoClient._run_operation_with_response handles the error. with self.assertRaises(AutoReconnect): client = await self.async_rs_client(connect=False, serverSelectionTimeoutMS=100) await client._run_operation( operation=message._GetMore( "pymongo_test", "collection", 101, 1234, client.codec_options, ReadPreference.PRIMARY, None, client, None, None, False, None, ), unpack_res=AsyncCursor(client.pymongo_test.collection)._unpack_response, address=("not-a-member", 27017), ) async def test_heartbeat_frequency_ms(self): class HeartbeatStartedListener(ServerHeartbeatListener): def __init__(self): self.results = [] def started(self, event): self.results.append(event) def succeeded(self, event): pass def failed(self, event): pass old_init = ServerHeartbeatStartedEvent.__init__ heartbeat_times = [] def init(self, *args): old_init(self, *args) heartbeat_times.append(time.time()) try: ServerHeartbeatStartedEvent.__init__ = init # type: ignore listener = HeartbeatStartedListener() uri = "mongodb://%s:%d/?heartbeatFrequencyMS=500" % ( await async_client_context.host, await async_client_context.port, ) await self.async_single_client(uri, event_listeners=[listener]) await async_wait_until( lambda: len(listener.results) >= 2, "record two ServerHeartbeatStartedEvents" ) # Default heartbeatFrequencyMS is 10 sec. Check the interval was # closer to 0.5 sec with heartbeatFrequencyMS configured. self.assertAlmostEqual(heartbeat_times[1] - heartbeat_times[0], 0.5, delta=2) finally: ServerHeartbeatStartedEvent.__init__ = old_init # type: ignore def test_small_heartbeat_frequency_ms(self): uri = "mongodb://example/?heartbeatFrequencyMS=499" with self.assertRaises(ConfigurationError) as context: AsyncMongoClient(uri) self.assertIn("heartbeatFrequencyMS", str(context.exception)) async def test_compression(self): def compression_settings(client): pool_options = client.options.pool_options return pool_options._compression_settings uri = "mongodb://localhost:27017/?compressors=zlib" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, ["zlib"]) uri = "mongodb://localhost:27017/?compressors=zlib&zlibCompressionLevel=4" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, ["zlib"]) self.assertEqual(opts.zlib_compression_level, 4) uri = "mongodb://localhost:27017/?compressors=zlib&zlibCompressionLevel=-1" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, ["zlib"]) self.assertEqual(opts.zlib_compression_level, -1) uri = "mongodb://localhost:27017" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, []) self.assertEqual(opts.zlib_compression_level, -1) uri = "mongodb://localhost:27017/?compressors=foobar" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, []) self.assertEqual(opts.zlib_compression_level, -1) uri = "mongodb://localhost:27017/?compressors=foobar,zlib" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, ["zlib"]) self.assertEqual(opts.zlib_compression_level, -1) # According to the connection string spec, unsupported values # just raise a warning and are ignored. uri = "mongodb://localhost:27017/?compressors=zlib&zlibCompressionLevel=10" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, ["zlib"]) self.assertEqual(opts.zlib_compression_level, -1) uri = "mongodb://localhost:27017/?compressors=zlib&zlibCompressionLevel=-2" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, ["zlib"]) self.assertEqual(opts.zlib_compression_level, -1) if not _have_snappy(): uri = "mongodb://localhost:27017/?compressors=snappy" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, []) else: uri = "mongodb://localhost:27017/?compressors=snappy" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, ["snappy"]) uri = "mongodb://localhost:27017/?compressors=snappy,zlib" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, ["snappy", "zlib"]) if not _have_zstd(): uri = "mongodb://localhost:27017/?compressors=zstd" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, []) else: uri = "mongodb://localhost:27017/?compressors=zstd" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, ["zstd"]) uri = "mongodb://localhost:27017/?compressors=zstd,zlib" client = self.simple_client(uri, connect=False) opts = compression_settings(client) self.assertEqual(opts.compressors, ["zstd", "zlib"]) options = async_client_context.default_client_options if "compressors" in options and "zlib" in options["compressors"]: for level in range(-1, 10): client = await self.async_single_client(zlibcompressionlevel=level) # No error await client.pymongo_test.test.find_one() @async_client_context.require_sync async def test_reset_during_update_pool(self): client = await self.async_rs_or_single_client(minPoolSize=10) await client.admin.command("ping") pool = await async_get_pool(client) generation = pool.gen.get_overall() # Continuously reset the pool. class ResetPoolThread(threading.Thread): def __init__(self, pool): super().__init__() self.running = True self.pool = pool def stop(self): self.running = False async def _run(self): while self.running: exc = AutoReconnect("mock pool error") ctx = _ErrorContext(exc, 0, pool.gen.get_overall(), False, None) await client._topology.handle_error(pool.address, ctx) await asyncio.sleep(0.001) def run(self): self._run() t = ResetPoolThread(pool) t.start() # Ensure that update_pool completes without error even when the pool # is reset concurrently. try: while True: for _ in range(10): await client._topology.update_pool() if generation != pool.gen.get_overall(): break finally: t.stop() t.join() await client.admin.command("ping") async def test_background_connections_do_not_hold_locks(self): min_pool_size = 10 client = await self.async_rs_or_single_client( serverSelectionTimeoutMS=3000, minPoolSize=min_pool_size, connect=False ) # Create a single connection in the pool. await client.admin.command("ping") # Cause new connections stall for a few seconds. pool = await async_get_pool(client) original_connect = pool.connect async def stall_connect(*args, **kwargs): await asyncio.sleep(2) return await original_connect(*args, **kwargs) pool.connect = stall_connect # Un-patch Pool.connect to break the cyclic reference. self.addCleanup(delattr, pool, "connect") # Wait for the background thread to start creating connections await async_wait_until(lambda: len(pool.conns) > 1, "start creating connections") # Assert that application operations do not block. for _ in range(10): start = time.monotonic() await client.admin.command("ping") total = time.monotonic() - start # Each ping command should not take more than 2 seconds self.assertLess(total, 2) async def test_background_connections_log_on_error(self): with self.assertLogs("pymongo.client", level="ERROR") as cm: client = await self.async_rs_or_single_client(minPoolSize=1) # Create a single connection in the pool. await client.admin.command("ping") # Cause new connections to fail. pool = await async_get_pool(client) async def fail_connect(*args, **kwargs): raise Exception("failed to connect") pool.connect = fail_connect # Un-patch Pool.connect to break the cyclic reference. self.addCleanup(delattr, pool, "connect") await pool.reset_without_pause() await async_wait_until( lambda: "failed to connect" in "".join(cm.output), "start creating connections" ) self.assertIn("MongoClient background task encountered an error", "".join(cm.output)) @async_client_context.require_replica_set async def test_direct_connection(self): # direct_connection=True should result in Single topology. client = await self.async_rs_or_single_client(directConnection=True) await client.admin.command("ping") self.assertEqual(len(client.nodes), 1) self.assertEqual(client._topology_settings.get_topology_type(), TOPOLOGY_TYPE.Single) # direct_connection=False should result in RS topology. client = await self.async_rs_or_single_client(directConnection=False) await client.admin.command("ping") self.assertGreaterEqual(len(client.nodes), 1) self.assertIn( client._topology_settings.get_topology_type(), [TOPOLOGY_TYPE.ReplicaSetNoPrimary, TOPOLOGY_TYPE.ReplicaSetWithPrimary], ) # directConnection=True, should error with multiple hosts as a list. with self.assertRaises(ConfigurationError): AsyncMongoClient(["host1", "host2"], directConnection=True) @unittest.skipIf("PyPy" in sys.version, "PYTHON-2927 fails often on PyPy") async def test_continuous_network_errors(self): def server_description_count(): i = 0 for obj in gc.get_objects(): try: if isinstance(obj, ServerDescription): i += 1 except ReferenceError: pass return i gc.collect() with client_knobs(min_heartbeat_interval=0.002): client = self.simple_client( "invalid:27017", heartbeatFrequencyMS=2, serverSelectionTimeoutMS=200 ) initial_count = server_description_count() with self.assertRaises(ServerSelectionTimeoutError): await client.test.test.find_one() gc.collect() final_count = server_description_count() await client.close() # If a bug like PYTHON-2433 is reintroduced then too many # ServerDescriptions will be kept alive and this test will fail: # AssertionError: 11 != 47 within 20 delta (36 difference) self.assertAlmostEqual(initial_count, final_count, delta=30) @async_client_context.require_failCommand_fail_point async def test_network_error_message(self): client = await self.async_single_client(retryReads=False) await client.admin.command("ping") # connect async with self.fail_point( {"mode": {"times": 1}, "data": {"closeConnection": True, "failCommands": ["find"]}} ): assert await client.address is not None expected = "{}:{}: ".format(*(await client.address)) with self.assertRaisesRegex(AutoReconnect, expected): await client.pymongo_test.test.find_one({}) @unittest.skipIf("PyPy" in sys.version, "PYTHON-2938 could fail on PyPy") async def test_process_periodic_tasks(self): client = await self.async_rs_or_single_client() coll = client.db.collection await coll.insert_many([{} for _ in range(5)]) cursor = coll.find(batch_size=2) await cursor.next() c_id = cursor.cursor_id self.assertIsNotNone(c_id) await client.close() # Add cursor to kill cursors queue del cursor await async_wait_until( lambda: client._kill_cursors_queue, "waited for cursor to be added to queue", ) await client._process_periodic_tasks() # This must not raise or print any exceptions with self.assertRaises(InvalidOperation): await coll.insert_many([{} for _ in range(5)]) async def test_service_name_from_kwargs(self): client = AsyncMongoClient( "mongodb+srv://user:password@test22.test.build.10gen.cc", srvServiceName="customname", connect=False, ) await client.aconnect() self.assertEqual(client._topology_settings.srv_service_name, "customname") await client.close() client = AsyncMongoClient( "mongodb+srv://user:password@test22.test.build.10gen.cc" "/?srvServiceName=shouldbeoverriden", srvServiceName="customname", connect=False, ) await client.aconnect() self.assertEqual(client._topology_settings.srv_service_name, "customname") await client.close() client = AsyncMongoClient( "mongodb+srv://user:password@test22.test.build.10gen.cc/?srvServiceName=customname", connect=False, ) await client.aconnect() self.assertEqual(client._topology_settings.srv_service_name, "customname") await client.close() async def test_srv_max_hosts_kwarg(self): client = self.simple_client("mongodb+srv://test1.test.build.10gen.cc/") await client.aconnect() self.assertGreater(len(client.topology_description.server_descriptions()), 1) client = self.simple_client("mongodb+srv://test1.test.build.10gen.cc/", srvmaxhosts=1) await client.aconnect() self.assertEqual(len(client.topology_description.server_descriptions()), 1) client = self.simple_client( "mongodb+srv://test1.test.build.10gen.cc/?srvMaxHosts=1", srvmaxhosts=2 ) await client.aconnect() self.assertEqual(len(client.topology_description.server_descriptions()), 2) @unittest.skipIf( async_client_context.load_balancer, "loadBalanced clients do not run SDAM", ) @unittest.skipIf(sys.platform == "win32", "Windows does not support SIGSTOP") @async_client_context.require_sync def test_sigstop_sigcont(self): test_dir = os.path.dirname(os.path.realpath(__file__)) script = os.path.join(test_dir, "sigstop_sigcont.py") p = subprocess.Popen( [sys.executable, script, async_client_context.uri], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, ) self.addCleanup(p.wait, timeout=1) self.addCleanup(p.kill) time.sleep(1) # Stop the child, sleep for twice the streaming timeout # (heartbeatFrequencyMS + connectTimeoutMS), and restart. os.kill(p.pid, signal.SIGSTOP) time.sleep(2) os.kill(p.pid, signal.SIGCONT) time.sleep(0.5) # Tell the script to exit gracefully. outs, _ = p.communicate(input=b"q\n", timeout=10) self.assertTrue(outs) log_output = outs.decode("utf-8") self.assertIn("TEST STARTED", log_output) self.assertIn("ServerHeartbeatStartedEvent", log_output) self.assertIn("ServerHeartbeatSucceededEvent", log_output) self.assertIn("TEST COMPLETED", log_output) self.assertNotIn("ServerHeartbeatFailedEvent", log_output) async def _test_handshake(self, env_vars, expected_env): with patch.dict("os.environ", env_vars): metadata = copy.deepcopy(_METADATA) if has_c(): metadata["driver"]["name"] = "PyMongo|c|async" else: metadata["driver"]["name"] = "PyMongo|async" if expected_env is not None: metadata["env"] = expected_env if "AWS_REGION" not in env_vars: os.environ["AWS_REGION"] = "" client = await self.async_rs_or_single_client(serverSelectionTimeoutMS=10000) await client.admin.command("ping") options = client.options self.assertEqual(options.pool_options.metadata, metadata) async def test_handshake_01_aws(self): await self._test_handshake( { "AWS_EXECUTION_ENV": "AWS_Lambda_python3.9", "AWS_REGION": "us-east-2", "AWS_LAMBDA_FUNCTION_MEMORY_SIZE": "1024", }, {"name": "aws.lambda", "region": "us-east-2", "memory_mb": 1024}, ) async def test_handshake_02_azure(self): await self._test_handshake({"FUNCTIONS_WORKER_RUNTIME": "python"}, {"name": "azure.func"}) async def test_handshake_03_gcp(self): await self._test_handshake( { "K_SERVICE": "servicename", "FUNCTION_MEMORY_MB": "1024", "FUNCTION_TIMEOUT_SEC": "60", "FUNCTION_REGION": "us-central1", }, {"name": "gcp.func", "region": "us-central1", "memory_mb": 1024, "timeout_sec": 60}, ) # Extra case for FUNCTION_NAME. await self._test_handshake( { "FUNCTION_NAME": "funcname", "FUNCTION_MEMORY_MB": "1024", "FUNCTION_TIMEOUT_SEC": "60", "FUNCTION_REGION": "us-central1", }, {"name": "gcp.func", "region": "us-central1", "memory_mb": 1024, "timeout_sec": 60}, ) async def test_handshake_04_vercel(self): await self._test_handshake( {"VERCEL": "1", "VERCEL_REGION": "cdg1"}, {"name": "vercel", "region": "cdg1"} ) async def test_handshake_05_multiple(self): await self._test_handshake( {"AWS_EXECUTION_ENV": "AWS_Lambda_python3.9", "FUNCTIONS_WORKER_RUNTIME": "python"}, None, ) # Extra cases for other combos. await self._test_handshake( {"FUNCTIONS_WORKER_RUNTIME": "python", "K_SERVICE": "servicename"}, None, ) await self._test_handshake({"K_SERVICE": "servicename", "VERCEL": "1"}, None) async def test_handshake_06_region_too_long(self): await self._test_handshake( {"AWS_EXECUTION_ENV": "AWS_Lambda_python3.9", "AWS_REGION": "a" * 512}, {"name": "aws.lambda"}, ) async def test_handshake_07_memory_invalid_int(self): await self._test_handshake( {"AWS_EXECUTION_ENV": "AWS_Lambda_python3.9", "AWS_LAMBDA_FUNCTION_MEMORY_SIZE": "big"}, {"name": "aws.lambda"}, ) async def test_handshake_08_invalid_aws_ec2(self): # AWS_EXECUTION_ENV needs to start with "AWS_Lambda_". await self._test_handshake( {"AWS_EXECUTION_ENV": "EC2"}, None, ) async def test_handshake_09_container_with_provider(self): await self._test_handshake( { ENV_VAR_K8S: "1", "AWS_LAMBDA_RUNTIME_API": "1", "AWS_REGION": "us-east-1", "AWS_LAMBDA_FUNCTION_MEMORY_SIZE": "256", }, { "container": {"orchestrator": "kubernetes"}, "name": "aws.lambda", "region": "us-east-1", "memory_mb": 256, }, ) def test_dict_hints(self): self.db.t.find(hint={"x": 1}) def test_dict_hints_sort(self): result = self.db.t.find() result.sort({"x": 1}) self.db.t.find(sort={"x": 1}) async def test_dict_hints_create_index(self): await self.db.t.create_index({"x": pymongo.ASCENDING}) async def test_legacy_java_uuid_roundtrip(self): data = BinaryData.java_data docs = bson.decode_all(data, CodecOptions(SON[str, Any], False, JAVA_LEGACY)) await async_client_context.client.pymongo_test.drop_collection("java_uuid") db = async_client_context.client.pymongo_test coll = db.get_collection("java_uuid", CodecOptions(uuid_representation=JAVA_LEGACY)) await coll.insert_many(docs) self.assertEqual(5, await coll.count_documents({})) async for d in coll.find(): self.assertEqual(d["newguid"], uuid.UUID(d["newguidstring"])) coll = db.get_collection("java_uuid", CodecOptions(uuid_representation=PYTHON_LEGACY)) async for d in coll.find(): self.assertNotEqual(d["newguid"], d["newguidstring"]) await async_client_context.client.pymongo_test.drop_collection("java_uuid") async def test_legacy_csharp_uuid_roundtrip(self): data = BinaryData.csharp_data docs = bson.decode_all(data, CodecOptions(SON[str, Any], False, CSHARP_LEGACY)) await async_client_context.client.pymongo_test.drop_collection("csharp_uuid") db = async_client_context.client.pymongo_test coll = db.get_collection("csharp_uuid", CodecOptions(uuid_representation=CSHARP_LEGACY)) await coll.insert_many(docs) self.assertEqual(5, await coll.count_documents({})) async for d in coll.find(): self.assertEqual(d["newguid"], uuid.UUID(d["newguidstring"])) coll = db.get_collection("csharp_uuid", CodecOptions(uuid_representation=PYTHON_LEGACY)) async for d in coll.find(): self.assertNotEqual(d["newguid"], d["newguidstring"]) await async_client_context.client.pymongo_test.drop_collection("csharp_uuid") async def test_uri_to_uuid(self): uri = "mongodb://foo/?uuidrepresentation=csharpLegacy" client = await self.async_single_client(uri, connect=False) self.assertEqual(client.pymongo_test.test.codec_options.uuid_representation, CSHARP_LEGACY) async def test_uuid_queries(self): db = async_client_context.client.pymongo_test coll = db.test await coll.drop() uu = uuid.uuid4() await coll.insert_one({"uuid": Binary(uu.bytes, 3)}) self.assertEqual(1, await coll.count_documents({})) # Test regular UUID queries (using subtype 4). coll = db.get_collection( "test", CodecOptions(uuid_representation=UuidRepresentation.STANDARD) ) self.assertEqual(0, await coll.count_documents({"uuid": uu})) await coll.insert_one({"uuid": uu}) self.assertEqual(2, await coll.count_documents({})) docs = await coll.find({"uuid": uu}).to_list() self.assertEqual(1, len(docs)) self.assertEqual(uu, docs[0]["uuid"]) # Test both. uu_legacy = Binary.from_uuid(uu, UuidRepresentation.PYTHON_LEGACY) predicate = {"uuid": {"$in": [uu, uu_legacy]}} self.assertEqual(2, await coll.count_documents(predicate)) docs = await coll.find(predicate).to_list() self.assertEqual(2, len(docs)) await coll.drop() class TestExhaustCursor(AsyncIntegrationTest): """Test that clients properly handle errors from exhaust cursors.""" def setUp(self): super().setUp() if async_client_context.is_mongos: raise SkipTest("mongos doesn't support exhaust, SERVER-2627") async def test_exhaust_query_server_error(self): # When doing an exhaust query, the socket stays checked out on success # but must be checked in on error to avoid semaphore leaks. client = await connected(await self.async_rs_or_single_client(maxPoolSize=1)) collection = client.pymongo_test.test pool = await async_get_pool(client) conn = one(pool.conns) # This will cause OperationFailure in all mongo versions since # the value for $orderby must be a document. cursor = collection.find( SON([("$query", {}), ("$orderby", True)]), cursor_type=CursorType.EXHAUST ) with self.assertRaises(OperationFailure): await cursor.next() self.assertFalse(conn.closed) # The socket was checked in and the semaphore was decremented. self.assertIn(conn, pool.conns) self.assertEqual(0, pool.requests) async def test_exhaust_getmore_server_error(self): # When doing a getmore on an exhaust cursor, the socket stays checked # out on success but it's checked in on error to avoid semaphore leaks. client = await self.async_rs_or_single_client(maxPoolSize=1) collection = client.pymongo_test.test await collection.drop() await collection.insert_many([{} for _ in range(200)]) self.addAsyncCleanup(async_client_context.client.pymongo_test.test.drop) pool = await async_get_pool(client) pool._check_interval_seconds = None # Never check. conn = one(pool.conns) cursor = collection.find(cursor_type=CursorType.EXHAUST) # Initial query succeeds. await cursor.next() # Cause a server error on getmore. async def receive_message(request_id): # Discard the actual server response. await AsyncConnection.receive_message(conn, request_id) # responseFlags bit 1 is QueryFailure. msg = struct.pack("