# Copyright 2010-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. """Synchronous test suite for pymongo, bson, and gridfs.""" from __future__ import annotations import asyncio import base64 import gc import multiprocessing import os import signal import socket import subprocess import sys import threading import time import traceback import unittest import warnings from asyncio import iscoroutinefunction from test.helpers import ( COMPRESSORS, IS_SRV, MONGODB_API_VERSION, MULTI_MONGOS_LB_URI, TEST_LOADBALANCER, TEST_SERVERLESS, TLS_OPTIONS, SystemCertsPatcher, _all_users, _create_user, client_knobs, db_pwd, db_user, global_knobs, host, is_server_resolvable, port, print_running_topology, print_thread_stacks, print_thread_tracebacks, sanitize_cmd, sanitize_reply, ) try: import ipaddress HAVE_IPADDRESS = True except ImportError: HAVE_IPADDRESS = False from contextlib import contextmanager from functools import wraps from test.version import Version from typing import Any, Callable, Dict, Generator from unittest import SkipTest from urllib.parse import quote_plus import pymongo import pymongo.errors from bson.son import SON from pymongo.common import partition_node from pymongo.hello import HelloCompat from pymongo.server_api import ServerApi from pymongo.ssl_support import HAVE_SSL, _ssl # type:ignore[attr-defined] from pymongo.synchronous.database import Database from pymongo.synchronous.mongo_client import MongoClient _IS_SYNC = True class ClientContext: client: MongoClient MULTI_MONGOS_LB_URI = MULTI_MONGOS_LB_URI def __init__(self): """Create a client and grab essential information from the server.""" self.connection_attempts = [] self.connected = False self.w = None self.nodes = set() self.replica_set_name = None self.cmd_line = None self.server_status = None self.version = Version(-1) # Needs to be comparable with Version self.auth_enabled = False self.test_commands_enabled = False self.server_parameters = {} self._hello = None self.is_mongos = False self.mongoses = [] self.is_rs = False self.has_ipv6 = False self.tls = False self.tlsCertificateKeyFile = False self.server_is_resolvable = is_server_resolvable() self.default_client_options: Dict = {} self.sessions_enabled = False self.client = None # type: ignore self.conn_lock = threading.Lock() self.is_data_lake = False self.load_balancer = TEST_LOADBALANCER self.serverless = TEST_SERVERLESS self._fips_enabled = None if self.load_balancer or self.serverless: self.default_client_options["loadBalanced"] = True if COMPRESSORS: self.default_client_options["compressors"] = COMPRESSORS if MONGODB_API_VERSION: server_api = ServerApi(MONGODB_API_VERSION) self.default_client_options["server_api"] = server_api @property def client_options(self): """Return the MongoClient options for creating a duplicate client.""" opts = client_context.default_client_options.copy() opts["host"] = host opts["port"] = port if client_context.auth_enabled: opts["username"] = db_user opts["password"] = db_pwd if self.replica_set_name: opts["replicaSet"] = self.replica_set_name return opts @property def uri(self): """Return the MongoClient URI for creating a duplicate client.""" opts = client_context.default_client_options.copy() opts.pop("server_api", None) # Cannot be set from the URI opts_parts = [] for opt, val in opts.items(): strval = str(val) if isinstance(val, bool): strval = strval.lower() opts_parts.append(f"{opt}={quote_plus(strval)}") opts_part = "&".join(opts_parts) auth_part = "" if client_context.auth_enabled: auth_part = f"{quote_plus(db_user)}:{quote_plus(db_pwd)}@" pair = self.pair return f"mongodb://{auth_part}{pair}/?{opts_part}" @property def hello(self): if not self._hello: if self.serverless or self.load_balancer: self._hello = self.client.admin.command(HelloCompat.CMD) else: self._hello = self.client.admin.command(HelloCompat.LEGACY_CMD) return self._hello def _connect(self, host, port, **kwargs): kwargs.update(self.default_client_options) client: MongoClient = pymongo.MongoClient( host, port, serverSelectionTimeoutMS=5000, **kwargs ) try: try: client.admin.command("ping") # Can we connect? except pymongo.errors.OperationFailure as exc: # SERVER-32063 self.connection_attempts.append( f"connected client {client!r}, but legacy hello failed: {exc}" ) else: self.connection_attempts.append(f"successfully connected client {client!r}") # If connected, then return client with default timeout return pymongo.MongoClient(host, port, **kwargs) except pymongo.errors.ConnectionFailure as exc: self.connection_attempts.append(f"failed to connect client {client!r}: {exc}") return None finally: client.close() def _init_client(self): self.client = self._connect(host, port) if self.client is not None: # Return early when connected to dataLake as mongohoused does not # support the getCmdLineOpts command and is tested without TLS. if os.environ.get("TEST_DATA_LAKE"): self.is_data_lake = True self.auth_enabled = True self.client = self._connect(host, port, username=db_user, password=db_pwd) self.connected = True return if HAVE_SSL and not self.client: # Is MongoDB configured for SSL? self.client = self._connect(host, port, **TLS_OPTIONS) if self.client: self.tls = True self.default_client_options.update(TLS_OPTIONS) self.tlsCertificateKeyFile = True if self.client: self.connected = True if self.serverless: self.auth_enabled = True else: try: self.cmd_line = self.client.admin.command("getCmdLineOpts") except pymongo.errors.OperationFailure as e: assert e.details is not None msg = e.details.get("errmsg", "") if e.code == 13 or "unauthorized" in msg or "login" in msg: # Unauthorized. self.auth_enabled = True else: raise else: self.auth_enabled = self._server_started_with_auth() if self.auth_enabled: if not self.serverless and not IS_SRV: # See if db_user already exists. if not self._check_user_provided(): _create_user(self.client.admin, db_user, db_pwd) self.client = self._connect( host, port, username=db_user, password=db_pwd, replicaSet=self.replica_set_name, **self.default_client_options, ) # May not have this if OperationFailure was raised earlier. self.cmd_line = self.client.admin.command("getCmdLineOpts") if self.serverless: self.server_status = {} else: self.server_status = self.client.admin.command("serverStatus") if self.storage_engine == "mmapv1": # MMAPv1 does not support retryWrites=True. self.default_client_options["retryWrites"] = False hello = self.hello self.sessions_enabled = "logicalSessionTimeoutMinutes" in hello if "setName" in hello: self.replica_set_name = str(hello["setName"]) self.is_rs = True if self.auth_enabled: # It doesn't matter which member we use as the seed here. self.client = pymongo.MongoClient( host, port, username=db_user, password=db_pwd, replicaSet=self.replica_set_name, **self.default_client_options, ) else: self.client = pymongo.MongoClient( host, port, replicaSet=self.replica_set_name, **self.default_client_options ) # Get the authoritative hello result from the primary. self._hello = None hello = self.hello nodes = [partition_node(node.lower()) for node in hello.get("hosts", [])] nodes.extend([partition_node(node.lower()) for node in hello.get("passives", [])]) nodes.extend([partition_node(node.lower()) for node in hello.get("arbiters", [])]) self.nodes = set(nodes) else: self.nodes = {(host, port)} self.w = len(hello.get("hosts", [])) or 1 self.version = Version.from_client(self.client) if self.serverless: self.server_parameters = { "requireApiVersion": False, "enableTestCommands": True, } self.test_commands_enabled = True self.has_ipv6 = False else: self.server_parameters = self.client.admin.command("getParameter", "*") assert self.cmd_line is not None if self.server_parameters["enableTestCommands"]: self.test_commands_enabled = True elif "parsed" in self.cmd_line: params = self.cmd_line["parsed"].get("setParameter", []) if "enableTestCommands=1" in params: self.test_commands_enabled = True else: params = self.cmd_line["parsed"].get("setParameter", {}) if params.get("enableTestCommands") == "1": self.test_commands_enabled = True self.has_ipv6 = self._server_started_with_ipv6() self.is_mongos = (self.hello).get("msg") == "isdbgrid" if self.is_mongos: address = self.client.address self.mongoses.append(address) if not self.serverless: # Check for another mongos on the next port. assert address is not None next_address = address[0], address[1] + 1 mongos_client = self._connect(*next_address, **self.default_client_options) if mongos_client: hello = mongos_client.admin.command(HelloCompat.LEGACY_CMD) if hello.get("msg") == "isdbgrid": self.mongoses.append(next_address) def init(self): with self.conn_lock: if not self.client and not self.connection_attempts: self._init_client() def connection_attempt_info(self): return "\n".join(self.connection_attempts) @property def host(self): if self.is_rs and not IS_SRV: primary = self.client.primary return str(primary[0]) if primary is not None else host return host @property def port(self): if self.is_rs and not IS_SRV: primary = self.client.primary return primary[1] if primary is not None else port return port @property def pair(self): return "%s:%d" % (self.host, self.port) @property def has_secondaries(self): if not self.client: return False return bool(len(self.client.secondaries)) @property def storage_engine(self): try: return self.server_status.get("storageEngine", {}).get( # type:ignore[union-attr] "name" ) except AttributeError: # Raised if self.server_status is None. return None @property def fips_enabled(self): if self._fips_enabled is not None: return self._fips_enabled try: subprocess.check_call(["fips-mode-setup", "--is-enabled"]) self._fips_enabled = True except (subprocess.SubprocessError, FileNotFoundError): self._fips_enabled = False return self._fips_enabled def check_auth_type(self, auth_type): auth_mechs = self.server_parameters.get("authenticationMechanisms", []) return auth_type in auth_mechs def _check_user_provided(self): """Return True if db_user/db_password is already an admin user.""" client: MongoClient = pymongo.MongoClient( host, port, username=db_user, password=db_pwd, **self.default_client_options, ) try: return db_user in _all_users(client.admin) except pymongo.errors.OperationFailure as e: assert e.details is not None msg = e.details.get("errmsg", "") if e.code == 18 or "auth fails" in msg: # Auth failed. return False else: raise finally: client.close() def _server_started_with_auth(self): # MongoDB >= 2.0 assert self.cmd_line is not None if "parsed" in self.cmd_line: parsed = self.cmd_line["parsed"] # MongoDB >= 2.6 if "security" in parsed: security = parsed["security"] # >= rc3 if "authorization" in security: return security["authorization"] == "enabled" # < rc3 return security.get("auth", False) or bool(security.get("keyFile")) return parsed.get("auth", False) or bool(parsed.get("keyFile")) # Legacy argv = self.cmd_line["argv"] return "--auth" in argv or "--keyFile" in argv def _server_started_with_ipv6(self): if not socket.has_ipv6: return False assert self.cmd_line is not None if "parsed" in self.cmd_line: if not self.cmd_line["parsed"].get("net", {}).get("ipv6"): return False else: if "--ipv6" not in self.cmd_line["argv"]: return False # The server was started with --ipv6. Is there an IPv6 route to it? try: for info in socket.getaddrinfo(self.host, self.port): if info[0] == socket.AF_INET6: return True except OSError: pass return False def _require(self, condition, msg, func=None): def make_wrapper(f): if iscoroutinefunction(f): wraps_async = True else: wraps_async = False @wraps(f) def wrap(*args, **kwargs): self.init() # Always raise SkipTest if we can't connect to MongoDB if not self.connected: pair = self.pair raise SkipTest(f"Cannot connect to MongoDB on {pair}") if iscoroutinefunction(condition) and condition(): if wraps_async: return f(*args, **kwargs) else: return f(*args, **kwargs) elif condition(): if wraps_async: return f(*args, **kwargs) else: return f(*args, **kwargs) if "self.pair" in msg: new_msg = msg.replace("self.pair", self.pair) else: new_msg = msg raise SkipTest(new_msg) return wrap if func is None: def decorate(f): return make_wrapper(f) return decorate return make_wrapper(func) def create_user(self, dbname, user, pwd=None, roles=None, **kwargs): kwargs["writeConcern"] = {"w": self.w} return _create_user(self.client[dbname], user, pwd, roles, **kwargs) def drop_user(self, dbname, user): self.client[dbname].command("dropUser", user, writeConcern={"w": self.w}) def require_connection(self, func): """Run a test only if we can connect to MongoDB.""" return self._require( lambda: True, # _require checks if we're connected "Cannot connect to MongoDB on self.pair", func=func, ) def require_data_lake(self, func): """Run a test only if we are connected to Atlas Data Lake.""" return self._require( lambda: self.is_data_lake, "Not connected to Atlas Data Lake on self.pair", func=func, ) def require_no_mmap(self, func): """Run a test only if the server is not using the MMAPv1 storage engine. Only works for standalone and replica sets; tests are run regardless of storage engine on sharded clusters. """ def is_not_mmap(): if self.is_mongos: return True return self.storage_engine != "mmapv1" return self._require(is_not_mmap, "Storage engine must not be MMAPv1", func=func) def require_version_min(self, *ver): """Run a test only if the server version is at least ``version``.""" other_version = Version(*ver) return self._require( lambda: self.version >= other_version, "Server version must be at least %s" % str(other_version), ) def require_version_max(self, *ver): """Run a test only if the server version is at most ``version``.""" other_version = Version(*ver) return self._require( lambda: self.version <= other_version, "Server version must be at most %s" % str(other_version), ) def require_auth(self, func): """Run a test only if the server is running with auth enabled.""" return self._require( lambda: self.auth_enabled, "Authentication is not enabled on the server", func=func ) def require_no_fips(self, func): """Run a test only if the host does not have FIPS enabled.""" return self._require( lambda: not self.fips_enabled, "Test cannot run on a FIPS-enabled host", func=func ) def require_no_auth(self, func): """Run a test only if the server is running without auth enabled.""" return self._require( lambda: not self.auth_enabled, "Authentication must not be enabled on the server", func=func, ) def require_replica_set(self, func): """Run a test only if the client is connected to a replica set.""" return self._require(lambda: self.is_rs, "Not connected to a replica set", func=func) def require_secondaries_count(self, count): """Run a test only if the client is connected to a replica set that has `count` secondaries. """ def sec_count(): return 0 if not self.client else len(self.client.secondaries) return self._require(lambda: sec_count() >= count, "Not enough secondaries available") @property def supports_secondary_read_pref(self): if self.has_secondaries: return True if self.is_mongos: shard = self.client.config.shards.find_one()["host"] # type:ignore[index] num_members = shard.count(",") + 1 return num_members > 1 return False def require_secondary_read_pref(self): """Run a test only if the client is connected to a cluster that supports secondary read preference """ return self._require( lambda: self.supports_secondary_read_pref, "This cluster does not support secondary read preference", ) def require_no_replica_set(self, func): """Run a test if the client is *not* connected to a replica set.""" return self._require( lambda: not self.is_rs, "Connected to a replica set, not a standalone mongod", func=func ) def require_ipv6(self, func): """Run a test only if the client can connect to a server via IPv6.""" return self._require(lambda: self.has_ipv6, "No IPv6", func=func) def require_no_mongos(self, func): """Run a test only if the client is not connected to a mongos.""" return self._require( lambda: not self.is_mongos, "Must be connected to a mongod, not a mongos", func=func ) def require_mongos(self, func): """Run a test only if the client is connected to a mongos.""" return self._require(lambda: self.is_mongos, "Must be connected to a mongos", func=func) def require_multiple_mongoses(self, func): """Run a test only if the client is connected to a sharded cluster that has 2 mongos nodes. """ return self._require( lambda: len(self.mongoses) > 1, "Must have multiple mongoses available", func=func ) def require_standalone(self, func): """Run a test only if the client is connected to a standalone.""" return self._require( lambda: not (self.is_mongos or self.is_rs), "Must be connected to a standalone", func=func, ) def require_no_standalone(self, func): """Run a test only if the client is not connected to a standalone.""" return self._require( lambda: self.is_mongos or self.is_rs, "Must be connected to a replica set or mongos", func=func, ) def require_load_balancer(self, func): """Run a test only if the client is connected to a load balancer.""" return self._require( lambda: self.load_balancer, "Must be connected to a load balancer", func=func ) def require_no_load_balancer(self, func): """Run a test only if the client is not connected to a load balancer.""" return self._require( lambda: not self.load_balancer, "Must not be connected to a load balancer", func=func ) def require_no_serverless(self, func): """Run a test only if the client is not connected to serverless.""" return self._require( lambda: not self.serverless, "Must not be connected to serverless", func=func ) def require_change_streams(self, func): """Run a test only if the server supports change streams.""" return self.require_no_mmap(self.require_no_standalone(self.require_no_serverless(func))) def is_topology_type(self, topologies): unknown = set(topologies) - { "single", "replicaset", "sharded", "sharded-replicaset", "load-balanced", } if unknown: raise AssertionError(f"Unknown topologies: {unknown!r}") if self.load_balancer: if "load-balanced" in topologies: return True return False if "single" in topologies and not (self.is_mongos or self.is_rs): return True if "replicaset" in topologies and self.is_rs: return True if "sharded" in topologies and self.is_mongos: return True if "sharded-replicaset" in topologies and self.is_mongos: shards = (client_context.client.config.shards.find()).to_list() for shard in shards: # For a 3-member RS-backed sharded cluster, shard['host'] # will be 'replicaName/ip1:port1,ip2:port2,ip3:port3' # Otherwise it will be 'ip1:port1' host_spec = shard["host"] if not len(host_spec.split("/")) > 1: return False return True return False def require_cluster_type(self, topologies=None): """Run a test only if the client is connected to a cluster that conforms to one of the specified topologies. Acceptable topologies are 'single', 'replicaset', and 'sharded'. """ topologies = topologies or [] def _is_valid_topology(): return self.is_topology_type(topologies) return self._require(_is_valid_topology, "Cluster type not in %s" % (topologies)) def require_test_commands(self, func): """Run a test only if the server has test commands enabled.""" return self._require( lambda: self.test_commands_enabled, "Test commands must be enabled", func=func ) def require_failCommand_fail_point(self, func): """Run a test only if the server supports the failCommand fail point. """ return self._require( lambda: self.supports_failCommand_fail_point, "failCommand fail point must be supported", func=func, ) def require_failCommand_appName(self, func): """Run a test only if the server supports the failCommand appName.""" # SERVER-47195 return self._require( lambda: (self.test_commands_enabled and self.version >= (4, 4, -1)), "failCommand appName must be supported", func=func, ) def require_failCommand_blockConnection(self, func): """Run a test only if the server supports failCommand blockConnection.""" return self._require( lambda: ( self.test_commands_enabled and ( (not self.is_mongos and self.version >= (4, 2, 9)) or (self.is_mongos and self.version >= (4, 4)) ) ), "failCommand blockConnection is not supported", func=func, ) def require_tls(self, func): """Run a test only if the client can connect over TLS.""" return self._require(lambda: self.tls, "Must be able to connect via TLS", func=func) def require_no_tls(self, func): """Run a test only if the client can connect over TLS.""" return self._require(lambda: not self.tls, "Must be able to connect without TLS", func=func) def require_tlsCertificateKeyFile(self, func): """Run a test only if the client can connect with tlsCertificateKeyFile.""" return self._require( lambda: self.tlsCertificateKeyFile, "Must be able to connect with tlsCertificateKeyFile", func=func, ) def require_server_resolvable(self, func): """Run a test only if the hostname 'server' is resolvable.""" return self._require( lambda: self.server_is_resolvable, "No hosts entry for 'server'. Cannot validate hostname in the certificate", func=func, ) def require_sessions(self, func): """Run a test only if the deployment supports sessions.""" return self._require(lambda: self.sessions_enabled, "Sessions not supported", func=func) def supports_retryable_writes(self): if self.storage_engine == "mmapv1": return False if not self.sessions_enabled: return False return self.is_mongos or self.is_rs def require_retryable_writes(self, func): """Run a test only if the deployment supports retryable writes.""" return self._require( self.supports_retryable_writes, "This server does not support retryable writes", func=func, ) def supports_transactions(self): if self.storage_engine == "mmapv1": return False if self.version.at_least(4, 1, 8): return self.is_mongos or self.is_rs if self.version.at_least(4, 0): return self.is_rs return False def require_transactions(self, func): """Run a test only if the deployment might support transactions. *Might* because this does not test the storage engine or FCV. """ return self._require( self.supports_transactions, "Transactions are not supported", func=func ) def require_no_api_version(self, func): """Skip this test when testing with requireApiVersion.""" return self._require( lambda: not MONGODB_API_VERSION, "This test does not work with requireApiVersion", func=func, ) def mongos_seeds(self): return ",".join("{}:{}".format(*address) for address in self.mongoses) @property def supports_failCommand_fail_point(self): """Does the server support the failCommand fail point?""" if self.is_mongos: return self.version.at_least(4, 1, 5) and self.test_commands_enabled else: return self.version.at_least(4, 0) and self.test_commands_enabled @property def requires_hint_with_min_max_queries(self): """Does the server require a hint with min/max queries.""" # Changed in SERVER-39567. return self.version.at_least(4, 1, 10) @property def max_bson_size(self): return (self.hello)["maxBsonObjectSize"] @property def max_write_batch_size(self): return (self.hello)["maxWriteBatchSize"] # Reusable client context client_context = ClientContext() class PyMongoTestCase(unittest.TestCase): def assertEqualCommand(self, expected, actual, msg=None): self.assertEqual(sanitize_cmd(expected), sanitize_cmd(actual), msg) def assertEqualReply(self, expected, actual, msg=None): self.assertEqual(sanitize_reply(expected), sanitize_reply(actual), msg) @contextmanager def fail_point(self, command_args): cmd_on = SON([("configureFailPoint", "failCommand")]) cmd_on.update(command_args) client_context.client.admin.command(cmd_on) try: yield finally: client_context.client.admin.command( "configureFailPoint", cmd_on["configureFailPoint"], mode="off" ) @contextmanager def fork( self, target: Callable, timeout: float = 60 ) -> Generator[multiprocessing.Process, None, None]: """Helper for tests that use os.fork() Use in a with statement: with self.fork(target=lambda: print('in child')) as proc: self.assertTrue(proc.pid) # Child process was started """ def _print_threads(*args: object) -> None: if _print_threads.called: # type:ignore[attr-defined] return _print_threads.called = True # type:ignore[attr-defined] print_thread_tracebacks() _print_threads.called = False # type:ignore[attr-defined] def _target() -> None: signal.signal(signal.SIGUSR1, _print_threads) try: target() except Exception as exc: sys.stderr.write(f"Child process failed with: {exc}\n") _print_threads() # Sleep for a while to let the parent attach via GDB. time.sleep(2 * timeout) raise ctx = multiprocessing.get_context("fork") proc = ctx.Process(target=_target) proc.start() try: yield proc # type: ignore finally: proc.join(timeout) pid = proc.pid assert pid if proc.exitcode is None: # gdb to get C-level tracebacks print_thread_stacks(pid) # If it failed, SIGUSR1 to get thread tracebacks. os.kill(pid, signal.SIGUSR1) proc.join(5) if proc.exitcode is None: # SIGINT to get main thread traceback in case SIGUSR1 didn't work. os.kill(pid, signal.SIGINT) proc.join(5) if proc.exitcode is None: # SIGKILL in case SIGINT didn't work. proc.kill() proc.join(1) self.fail(f"child timed out after {timeout}s (see traceback in logs): deadlock?") self.assertEqual(proc.exitcode, 0) class IntegrationTest(PyMongoTestCase): """Async base class for TestCases that need a connection to MongoDB to pass.""" client: MongoClient[dict] db: Database credentials: Dict[str, str] @classmethod def setUpClass(cls): if _IS_SYNC: cls._setup_class() else: asyncio.run(cls._setup_class()) @classmethod @client_context.require_connection def _setup_class(cls): if client_context.load_balancer and not getattr(cls, "RUN_ON_LOAD_BALANCER", False): raise SkipTest("this test does not support load balancers") if client_context.serverless and not getattr(cls, "RUN_ON_SERVERLESS", False): raise SkipTest("this test does not support serverless") cls.client = client_context.client cls.db = cls.client.pymongo_test if client_context.auth_enabled: cls.credentials = {"username": db_user, "password": db_pwd} else: cls.credentials = {} def cleanup_colls(self, *collections): """Cleanup collections faster than drop_collection.""" for c in collections: c = self.client[c.database.name][c.name] c.delete_many({}) c.drop_indexes() def patch_system_certs(self, ca_certs): patcher = SystemCertsPatcher(ca_certs) self.addCleanup(patcher.disable) class MockClientTest(unittest.TestCase): """Base class for TestCases that use MockClient. This class is *not* an IntegrationTest: if properly written, MockClient tests do not require a running server. The class temporarily overrides HEARTBEAT_FREQUENCY to speed up tests. """ # MockClients tests that use replicaSet, directConnection=True, pass # multiple seed addresses, or wait for heartbeat events are incompatible # with loadBalanced=True. @classmethod @client_context.require_no_load_balancer def setUpClass(cls): pass def setUp(self): super().setUp() self.client_knobs = client_knobs(heartbeat_frequency=0.001, min_heartbeat_interval=0.001) self.client_knobs.enable() def tearDown(self): self.client_knobs.disable() super().tearDown() def setup(): client_context.init() warnings.resetwarnings() warnings.simplefilter("always") global_knobs.enable() def teardown(): global_knobs.disable() garbage = [] for g in gc.garbage: garbage.append(f"GARBAGE: {g!r}") garbage.append(f" gc.get_referents: {gc.get_referents(g)!r}") garbage.append(f" gc.get_referrers: {gc.get_referrers(g)!r}") if garbage: raise AssertionError("\n".join(garbage)) c = client_context.client if c: if not client_context.is_data_lake: c.drop_database("pymongo-pooling-tests") c.drop_database("pymongo_test") c.drop_database("pymongo_test1") c.drop_database("pymongo_test2") c.drop_database("pymongo_test_mike") c.drop_database("pymongo_test_bernie") c.close() print_running_clients() def test_cases(suite): """Iterator over all TestCases within a TestSuite.""" for suite_or_case in suite._tests: if isinstance(suite_or_case, unittest.TestCase): # unittest.TestCase yield suite_or_case else: # unittest.TestSuite yield from test_cases(suite_or_case) def print_running_clients(): from pymongo.synchronous.topology import Topology processed = set() # Avoid false positives on the main test client. # XXX: Can be removed after PYTHON-1634 or PYTHON-1896. c = client_context.client if c: processed.add(c._topology._topology_id) # Call collect to manually cleanup any would-be gc'd clients to avoid # false positives. gc.collect() for obj in gc.get_objects(): try: if isinstance(obj, Topology): # Avoid printing the same Topology multiple times. if obj._topology_id in processed: continue print_running_topology(obj) processed.add(obj._topology_id) except ReferenceError: pass