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duality-group
duality-group / pymongo python
Repository URL to install this package:
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Version:
3.12.2 ▾
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# Copyright 2012-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.
"""Utilities for testing pymongo
"""
import contextlib
import copy
import functools
import os
import re
import shutil
import sys
import threading
import time
import unittest
import warnings
from collections import defaultdict
from functools import partial
from bson import json_util, py3compat
from bson.objectid import ObjectId
from bson.py3compat import abc, iteritems, string_type
from bson.son import SON
from pymongo import (MongoClient,
monitoring, operations, read_preferences)
from pymongo.collection import ReturnDocument
from pymongo.errors import ConfigurationError, OperationFailure
from pymongo.hello_compat import HelloCompat
from pymongo.monitoring import _SENSITIVE_COMMANDS
from pymongo.pool import (_CancellationContext,
PoolOptions,
_PoolGeneration)
from pymongo.read_concern import ReadConcern
from pymongo.read_preferences import ReadPreference
from pymongo.server_selectors import (any_server_selector,
writable_server_selector)
from pymongo.server_type import SERVER_TYPE
from pymongo.write_concern import WriteConcern
from pymongo.uri_parser import parse_uri
from test import (client_context,
db_user,
db_pwd)
if sys.version_info[0] < 3:
# Python 2.7, use our backport.
from test.barrier import Barrier
else:
from threading import Barrier
IMPOSSIBLE_WRITE_CONCERN = WriteConcern(w=50)
class BaseListener(object):
def __init__(self):
self.events = []
def reset(self):
self.events = []
def add_event(self, event):
self.events.append(event)
def event_count(self, event_type):
return len(self.events_by_type(event_type))
def events_by_type(self, event_type):
"""Return the matching events by event class.
event_type can be a single class or a tuple of classes.
"""
return self.matching(lambda e: isinstance(e, event_type))
def matching(self, matcher):
"""Return the matching events."""
return [event for event in self.events[:] if matcher(event)]
def wait_for_event(self, event, count):
"""Wait for a number of events to be published, or fail."""
wait_until(lambda: self.event_count(event) >= count,
'find %s %s event(s)' % (count, event))
class CMAPListener(BaseListener, monitoring.ConnectionPoolListener):
def connection_created(self, event):
self.add_event(event)
def connection_ready(self, event):
self.add_event(event)
def connection_closed(self, event):
self.add_event(event)
def connection_check_out_started(self, event):
self.add_event(event)
def connection_check_out_failed(self, event):
self.add_event(event)
def connection_checked_out(self, event):
self.add_event(event)
def connection_checked_in(self, event):
self.add_event(event)
def pool_created(self, event):
self.add_event(event)
def pool_cleared(self, event):
self.add_event(event)
def pool_closed(self, event):
self.add_event(event)
class EventListener(monitoring.CommandListener):
def __init__(self):
self.results = defaultdict(list)
def started(self, event):
self.results['started'].append(event)
def succeeded(self, event):
self.results['succeeded'].append(event)
def failed(self, event):
self.results['failed'].append(event)
def started_command_names(self):
"""Return list of command names started."""
return [event.command_name for event in self.results['started']]
def reset(self):
"""Reset the state of this listener."""
self.results.clear()
class TopologyEventListener(monitoring.TopologyListener):
def __init__(self):
self.results = defaultdict(list)
def closed(self, event):
self.results['closed'].append(event)
def description_changed(self, event):
self.results['description_changed'].append(event)
def opened(self, event):
self.results['opened'].append(event)
def reset(self):
"""Reset the state of this listener."""
self.results.clear()
class AllowListEventListener(EventListener):
def __init__(self, *commands):
self.commands = set(commands)
super(AllowListEventListener, self).__init__()
def started(self, event):
if event.command_name in self.commands:
super(AllowListEventListener, self).started(event)
def succeeded(self, event):
if event.command_name in self.commands:
super(AllowListEventListener, self).succeeded(event)
def failed(self, event):
if event.command_name in self.commands:
super(AllowListEventListener, self).failed(event)
class OvertCommandListener(EventListener):
"""A CommandListener that ignores sensitive commands."""
def started(self, event):
if event.command_name.lower() not in _SENSITIVE_COMMANDS:
super(OvertCommandListener, self).started(event)
def succeeded(self, event):
if event.command_name.lower() not in _SENSITIVE_COMMANDS:
super(OvertCommandListener, self).succeeded(event)
def failed(self, event):
if event.command_name.lower() not in _SENSITIVE_COMMANDS:
super(OvertCommandListener, self).failed(event)
class _ServerEventListener(object):
"""Listens to all events."""
def __init__(self):
self.results = []
def opened(self, event):
self.results.append(event)
def description_changed(self, event):
self.results.append(event)
def closed(self, event):
self.results.append(event)
def matching(self, matcher):
"""Return the matching events."""
results = self.results[:]
return [event for event in results if matcher(event)]
def reset(self):
self.results = []
class ServerEventListener(_ServerEventListener,
monitoring.ServerListener):
"""Listens to Server events."""
class ServerAndTopologyEventListener(ServerEventListener,
monitoring.TopologyListener):
"""Listens to Server and Topology events."""
class HeartbeatEventListener(BaseListener, monitoring.ServerHeartbeatListener):
"""Listens to only server heartbeat events."""
def started(self, event):
self.add_event(event)
def succeeded(self, event):
self.add_event(event)
def failed(self, event):
self.add_event(event)
class MockSocketInfo(object):
def __init__(self):
self.cancel_context = _CancellationContext()
self.more_to_come = False
def close_socket(self, reason):
pass
def __enter__(self):
return self
def __exit__(self, exc_type, exc_val, exc_tb):
pass
class MockPool(object):
def __init__(self, address, options, handshake=True):
self.gen = _PoolGeneration()
self._lock = threading.Lock()
self.opts = PoolOptions()
def stale_generation(self, gen, service_id):
return self.gen.stale(gen, service_id)
def get_socket(self, all_credentials, handler=None):
return MockSocketInfo()
def return_socket(self, *args, **kwargs):
pass
def _reset(self, service_id=None):
with self._lock:
self.gen.inc(service_id)
def reset(self, service_id=None):
self._reset()
def close(self):
self._reset()
def update_is_writable(self, is_writable):
pass
def remove_stale_sockets(self, *args, **kwargs):
pass
class ScenarioDict(dict):
"""Dict that returns {} for any unknown key, recursively."""
def __init__(self, data):
def convert(v):
if isinstance(v, abc.Mapping):
return ScenarioDict(v)
if isinstance(v, (py3compat.string_type, bytes)):
return v
if isinstance(v, abc.Sequence):
return [convert(item) for item in v]
return v
dict.__init__(self, [(k, convert(v)) for k, v in data.items()])
def __getitem__(self, item):
try:
return dict.__getitem__(self, item)
except KeyError:
# Unlike a defaultdict, don't set the key, just return a dict.
return ScenarioDict({})
class CompareType(object):
"""Class that compares equal to any object of the given type."""
def __init__(self, type):
self.type = type
def __eq__(self, other):
return isinstance(other, self.type)
def __ne__(self, other):
"""Needed for Python 2."""
return not self.__eq__(other)
class FunctionCallRecorder(object):
"""Utility class to wrap a callable and record its invocations."""
def __init__(self, function):
self._function = function
self._call_list = []
def __call__(self, *args, **kwargs):
self._call_list.append((args, kwargs))
return self._function(*args, **kwargs)
def reset(self):
"""Wipes the call list."""
self._call_list = []
def call_list(self):
"""Returns a copy of the call list."""
return self._call_list[:]
@property
def call_count(self):
"""Returns the number of times the function has been called."""
return len(self._call_list)
class TestCreator(object):
"""Class to create test cases from specifications."""
def __init__(self, create_test, test_class, test_path):
"""Create a TestCreator object.
:Parameters:
- `create_test`: callback that returns a test case. The callback
must accept the following arguments - a dictionary containing the
entire test specification (the `scenario_def`), a dictionary
containing the specification for which the test case will be
generated (the `test_def`).
- `test_class`: the unittest.TestCase class in which to create the
test case.
- `test_path`: path to the directory containing the JSON files with
the test specifications.
"""
self._create_test = create_test
self._test_class = test_class
self.test_path = test_path
def _ensure_min_max_server_version(self, scenario_def, method):
"""Test modifier that enforces a version range for the server on a
test case."""
if 'minServerVersion' in scenario_def:
min_ver = tuple(
int(elt) for
elt in scenario_def['minServerVersion'].split('.'))
if min_ver is not None:
method = client_context.require_version_min(*min_ver)(method)
if 'maxServerVersion' in scenario_def:
max_ver = tuple(
int(elt) for
elt in scenario_def['maxServerVersion'].split('.'))
if max_ver is not None:
method = client_context.require_version_max(*max_ver)(method)
if 'serverless' in scenario_def:
serverless = scenario_def['serverless']
if serverless == "require":
serverless_satisfied = client_context.serverless
elif serverless == "forbid":
serverless_satisfied = not client_context.serverless
else: # unset or "allow"
serverless_satisfied = True
method = unittest.skipUnless(
serverless_satisfied,
"Serverless requirement not satisfied")(method)
return method
@staticmethod
def valid_topology(run_on_req):
return client_context.is_topology_type(
run_on_req.get('topology', ['single', 'replicaset', 'sharded',
'load-balanced']))
@staticmethod
def min_server_version(run_on_req):
version = run_on_req.get('minServerVersion')
if version:
min_ver = tuple(int(elt) for elt in version.split('.'))
return client_context.version >= min_ver
return True
@staticmethod
def max_server_version(run_on_req):
version = run_on_req.get('maxServerVersion')
if version:
max_ver = tuple(int(elt) for elt in version.split('.'))
return client_context.version <= max_ver
return True
@staticmethod
def valid_auth_enabled(run_on_req):
if 'authEnabled' in run_on_req:
if run_on_req['authEnabled']:
return client_context.auth_enabled
return not client_context.auth_enabled
return True
@staticmethod
def serverless_ok(run_on_req):
serverless = run_on_req['serverless']
if serverless == "require":
return client_context.serverless
elif serverless == "forbid":
return not client_context.serverless
else: # unset or "allow"
return True
def should_run_on(self, scenario_def):
run_on = scenario_def.get('runOn', [])
if not run_on:
# Always run these tests.
return True
for req in run_on:
if (self.valid_topology(req) and
self.min_server_version(req) and
self.max_server_version(req) and
self.valid_auth_enabled(req) and
self.serverless_ok(req)):
return True
return False
def ensure_run_on(self, scenario_def, method):
"""Test modifier that enforces a 'runOn' on a test case."""
return client_context._require(
lambda: self.should_run_on(scenario_def),
"runOn not satisfied",
method)
def tests(self, scenario_def):
"""Allow CMAP spec test to override the location of test."""
return scenario_def['tests']
def create_tests(self):
for dirpath, _, filenames in os.walk(self.test_path):
dirname = os.path.split(dirpath)[-1]
for filename in filenames:
with open(os.path.join(dirpath, filename)) as scenario_stream:
# Use tz_aware=False to match how CodecOptions decodes
# dates.
opts = json_util.JSONOptions(tz_aware=False)
scenario_def = ScenarioDict(
json_util.loads(scenario_stream.read(),
json_options=opts))
test_type = os.path.splitext(filename)[0]
# Construct test from scenario.
for test_def in self.tests(scenario_def):
test_name = 'test_%s_%s_%s' % (
dirname,
test_type.replace("-", "_").replace('.', '_'),
str(test_def['description'].replace(" ", "_").replace(
'.', '_')))
new_test = self._create_test(
scenario_def, test_def, test_name)
new_test = self._ensure_min_max_server_version(
scenario_def, new_test)
new_test = self.ensure_run_on(
scenario_def, new_test)
new_test.__name__ = test_name
setattr(self._test_class, new_test.__name__, new_test)
def _connection_string(h):
if h.startswith("mongodb://") or h.startswith("mongodb+srv://"):
return h
return "mongodb://%s" % (str(h),)
def _mongo_client(host, port, authenticate=True, directConnection=False,
**kwargs):
"""Create a new client over SSL/TLS if necessary."""
host = host or client_context.host
port = port or client_context.port
client_options = client_context.default_client_options.copy()
if client_context.replica_set_name and not directConnection:
client_options['replicaSet'] = client_context.replica_set_name
client_options.update(kwargs)
uri = _connection_string(host)
if client_context.auth_enabled and authenticate:
# Only add the default username or password if one is not provided.
res = parse_uri(uri)
if (not res['username'] and not res['password'] and
'username' not in client_options and
'password' not in client_options):
client_options['username'] = db_user
client_options['password'] = db_pwd
return MongoClient(uri, port, **client_options)
def single_client_noauth(h=None, p=None, **kwargs):
"""Make a direct connection. Don't authenticate."""
return _mongo_client(h, p, authenticate=False,
directConnection=True, **kwargs)
def single_client(h=None, p=None, **kwargs):
"""Make a direct connection, and authenticate if necessary."""
return _mongo_client(h, p, directConnection=True, **kwargs)
def rs_client_noauth(h=None, p=None, **kwargs):
"""Connect to the replica set. Don't authenticate."""
return _mongo_client(h, p, authenticate=False, **kwargs)
def rs_client(h=None, p=None, **kwargs):
"""Connect to the replica set and authenticate if necessary."""
return _mongo_client(h, p, **kwargs)
def rs_or_single_client_noauth(h=None, p=None, **kwargs):
"""Connect to the replica set if there is one, otherwise the standalone.
Like rs_or_single_client, but does not authenticate.
"""
return _mongo_client(h, p, authenticate=False, **kwargs)
def rs_or_single_client(h=None, p=None, **kwargs):
"""Connect to the replica set if there is one, otherwise the standalone.
Authenticates if necessary.
"""
return _mongo_client(h, p, **kwargs)
def ensure_all_connected(client):
"""Ensure that the client's connection pool has socket connections to all
members of a replica set. Raises ConfigurationError when called with a
non-replica set client.
Depending on the use-case, the caller may need to clear any event listeners
that are configured on the client.
"""
hello = client.admin.command(HelloCompat.LEGACY_CMD)
if 'setName' not in hello:
raise ConfigurationError("cluster is not a replica set")
target_host_list = set(hello['hosts'])
connected_host_list = set([hello['me']])
admindb = client.get_database('admin')
# Run legacy hello until we have connected to each host at least once.
while connected_host_list != target_host_list:
hello = admindb.command(HelloCompat.LEGACY_CMD,
read_preference=ReadPreference.SECONDARY)
connected_host_list.update([hello["me"]])
def one(s):
"""Get one element of a set"""
return next(iter(s))
def oid_generated_on_process(oid):
"""Makes a determination as to whether the given ObjectId was generated
by the current process, based on the 5-byte random number in the ObjectId.
"""
return ObjectId._random() == oid.binary[4:9]
def delay(sec):
return '''function() { sleep(%f * 1000); return true; }''' % sec
def get_command_line(client):
command_line = client.admin.command('getCmdLineOpts')
assert command_line['ok'] == 1, "getCmdLineOpts() failed"
return command_line
def camel_to_snake(camel):
# Regex to convert CamelCase to snake_case.
snake = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', camel)
return re.sub('([a-z0-9])([A-Z])', r'\1_\2', snake).lower()
def camel_to_upper_camel(camel):
return camel[0].upper() + camel[1:]
def camel_to_snake_args(arguments):
for arg_name in list(arguments):
c2s = camel_to_snake(arg_name)
arguments[c2s] = arguments.pop(arg_name)
return arguments
def snake_to_camel(snake):
# Regex to convert snake_case to lowerCamelCase.
return re.sub(r'_([a-z])', lambda m: m.group(1).upper(), snake)
def parse_collection_options(opts):
if 'readPreference' in opts:
opts['read_preference'] = parse_read_preference(
opts.pop('readPreference'))
if 'writeConcern' in opts:
opts['write_concern'] = WriteConcern(
**dict(opts.pop('writeConcern')))
if 'readConcern' in opts:
opts['read_concern'] = ReadConcern(
**dict(opts.pop('readConcern')))
return opts
def server_started_with_option(client, cmdline_opt, config_opt):
"""Check if the server was started with a particular option.
:Parameters:
- `cmdline_opt`: The command line option (i.e. --nojournal)
- `config_opt`: The config file option (i.e. nojournal)
"""
command_line = get_command_line(client)
if 'parsed' in command_line:
parsed = command_line['parsed']
if config_opt in parsed:
return parsed[config_opt]
argv = command_line['argv']
return cmdline_opt in argv
def server_started_with_auth(client):
try:
command_line = get_command_line(client)
except OperationFailure as e:
msg = e.details.get('errmsg', '')
if e.code == 13 or 'unauthorized' in msg or 'login' in msg:
# Unauthorized.
return True
raise
# MongoDB >= 2.0
if 'parsed' in command_line:
parsed = command_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 = command_line['argv']
return '--auth' in argv or '--keyFile' in argv
def server_started_with_nojournal(client):
command_line = get_command_line(client)
# MongoDB 2.6.
if 'parsed' in command_line:
parsed = command_line['parsed']
if 'storage' in parsed:
storage = parsed['storage']
if 'journal' in storage:
return not storage['journal']['enabled']
return server_started_with_option(client, '--nojournal', 'nojournal')
def drop_collections(db):
# Drop all non-system collections in this database.
for coll in db.list_collection_names(
filter={"name": {"$regex": r"^(?!system\.)"}}):
db.drop_collection(coll)
def remove_all_users(db):
db.command("dropAllUsersFromDatabase", 1,
writeConcern={"w": client_context.w})
def joinall(threads):
"""Join threads with a 5-minute timeout, assert joins succeeded"""
for t in threads:
t.join(300)
assert not t.is_alive(), "Thread %s hung" % t
def connected(client):
"""Convenience to wait for a newly-constructed client to connect."""
with warnings.catch_warnings():
# Ignore warning that "ping" is always routed to primary even
# if client's read preference isn't PRIMARY.
warnings.simplefilter("ignore", UserWarning)
client.admin.command('ping') # Force connection.
return client
def wait_until(predicate, success_description, timeout=10):
"""Wait up to 10 seconds (by default) for predicate to be true.
E.g.:
wait_until(lambda: client.primary == ('a', 1),
'connect to the primary')
If the lambda-expression isn't true after 10 seconds, we raise
AssertionError("Didn't ever connect to the primary").
Returns the predicate's first true value.
"""
start = time.time()
interval = min(float(timeout)/100, 0.1)
while True:
retval = predicate()
if retval:
return retval
if time.time() - start > timeout:
raise AssertionError("Didn't ever %s" % success_description)
time.sleep(interval)
def repl_set_step_down(client, **kwargs):
"""Run replSetStepDown, first unfreezing a secondary with replSetFreeze."""
cmd = SON([('replSetStepDown', 1)])
cmd.update(kwargs)
# Unfreeze a secondary to ensure a speedy election.
client.admin.command(
'replSetFreeze', 0, read_preference=ReadPreference.SECONDARY)
client.admin.command(cmd)
def is_mongos(client):
res = client.admin.command(HelloCompat.LEGACY_CMD)
return res.get('msg', '') == 'isdbgrid'
def assertRaisesExactly(cls, fn, *args, **kwargs):
"""
Unlike the standard assertRaises, this checks that a function raises a
specific class of exception, and not a subclass. E.g., check that
MongoClient() raises ConnectionFailure but not its subclass, AutoReconnect.
"""
try:
fn(*args, **kwargs)
except Exception as e:
assert e.__class__ == cls, "got %s, expected %s" % (
e.__class__.__name__, cls.__name__)
else:
raise AssertionError("%s not raised" % cls)
@contextlib.contextmanager
def _ignore_deprecations():
with warnings.catch_warnings():
warnings.simplefilter("ignore", DeprecationWarning)
yield
def ignore_deprecations(wrapped=None):
"""A context manager or a decorator."""
if wrapped:
@functools.wraps(wrapped)
def wrapper(*args, **kwargs):
with _ignore_deprecations():
return wrapped(*args, **kwargs)
return wrapper
else:
return _ignore_deprecations()
class DeprecationFilter(object):
def __init__(self, action="ignore"):
"""Start filtering deprecations."""
self.warn_context = warnings.catch_warnings()
self.warn_context.__enter__()
warnings.simplefilter(action, DeprecationWarning)
def stop(self):
"""Stop filtering deprecations."""
self.warn_context.__exit__()
self.warn_context = None
def get_pool(client):
"""Get the standalone, primary, or mongos pool."""
topology = client._get_topology()
server = topology.select_server(writable_server_selector)
return server.pool
def get_pools(client):
"""Get all pools."""
return [
server.pool for server in
client._get_topology().select_servers(any_server_selector)]
# Constants for run_threads and lazy_client_trial.
NTRIALS = 5
NTHREADS = 10
def run_threads(collection, target):
"""Run a target function in many threads.
target is a function taking a Collection and an integer.
"""
threads = []
for i in range(NTHREADS):
bound_target = partial(target, collection, i)
threads.append(threading.Thread(target=bound_target))
for t in threads:
t.start()
for t in threads:
t.join(60)
assert not t.is_alive()
@contextlib.contextmanager
def frequent_thread_switches():
"""Make concurrency bugs more likely to manifest."""
interval = None
if not sys.platform.startswith('java'):
if hasattr(sys, 'getswitchinterval'):
interval = sys.getswitchinterval()
sys.setswitchinterval(1e-6)
else:
interval = sys.getcheckinterval()
sys.setcheckinterval(1)
try:
yield
finally:
if not sys.platform.startswith('java'):
if hasattr(sys, 'setswitchinterval'):
sys.setswitchinterval(interval)
else:
sys.setcheckinterval(interval)
def lazy_client_trial(reset, target, test, get_client):
"""Test concurrent operations on a lazily-connecting client.
`reset` takes a collection and resets it for the next trial.
`target` takes a lazily-connecting collection and an index from
0 to NTHREADS, and performs some operation, e.g. an insert.
`test` takes the lazily-connecting collection and asserts a
post-condition to prove `target` succeeded.
"""
collection = client_context.client.pymongo_test.test
with frequent_thread_switches():
for i in range(NTRIALS):
reset(collection)
lazy_client = get_client()
lazy_collection = lazy_client.pymongo_test.test
run_threads(lazy_collection, target)
test(lazy_collection)
def gevent_monkey_patched():
"""Check if gevent's monkey patching is active."""
# In Python 3.6 importing gevent.socket raises an ImportWarning.
with warnings.catch_warnings():
warnings.simplefilter("ignore", ImportWarning)
try:
import socket
import gevent.socket
return socket.socket is gevent.socket.socket
except ImportError:
return False
def eventlet_monkey_patched():
"""Check if eventlet's monkey patching is active."""
import threading
return (threading.current_thread.__module__ ==
'eventlet.green.threading')
def is_greenthread_patched():
return gevent_monkey_patched() or eventlet_monkey_patched()
def cdecimal_patched():
"""Check if Python 2.7 cdecimal patching is active."""
try:
import decimal
import cdecimal
return decimal is cdecimal
except ImportError:
return False
def disable_replication(client):
"""Disable replication on all secondaries, requires MongoDB 3.2."""
for host, port in client.secondaries:
secondary = single_client(host, port)
secondary.admin.command('configureFailPoint', 'stopReplProducer',
mode='alwaysOn')
def enable_replication(client):
"""Enable replication on all secondaries, requires MongoDB 3.2."""
for host, port in client.secondaries:
secondary = single_client(host, port)
secondary.admin.command('configureFailPoint', 'stopReplProducer',
mode='off')
class ExceptionCatchingThread(threading.Thread):
"""A thread that stores any exception encountered from run()."""
def __init__(self, *args, **kwargs):
self.exc = None
super(ExceptionCatchingThread, self).__init__(*args, **kwargs)
def run(self):
try:
super(ExceptionCatchingThread, self).run()
except BaseException as exc:
self.exc = exc
raise
def parse_read_preference(pref):
# Make first letter lowercase to match read_pref's modes.
mode_string = pref.get('mode', 'primary')
mode_string = mode_string[:1].lower() + mode_string[1:]
mode = read_preferences.read_pref_mode_from_name(mode_string)
max_staleness = pref.get('maxStalenessSeconds', -1)
tag_sets = pref.get('tag_sets')
return read_preferences.make_read_preference(
mode, tag_sets=tag_sets, max_staleness=max_staleness)
def server_name_to_type(name):
"""Convert a ServerType name to the corresponding value. For SDAM tests."""
# Special case, some tests in the spec include the PossiblePrimary
# type, but only single-threaded drivers need that type. We call
# possible primaries Unknown.
if name == 'PossiblePrimary':
return SERVER_TYPE.Unknown
return getattr(SERVER_TYPE, name)
def cat_files(dest, *sources):
"""Cat multiple files into dest."""
with open(dest, 'wb') as fdst:
for src in sources:
with open(src, 'rb') as fsrc:
shutil.copyfileobj(fsrc, fdst)
@contextlib.contextmanager
def assertion_context(msg):
"""A context manager that adds info to an assertion failure."""
try:
yield
except AssertionError as exc:
msg = '%s (%s)' % (exc, msg)
py3compat.reraise(type(exc), msg, sys.exc_info()[2])
def parse_spec_options(opts):
if 'readPreference' in opts:
opts['read_preference'] = parse_read_preference(
opts.pop('readPreference'))
if 'writeConcern' in opts:
opts['write_concern'] = WriteConcern(
**dict(opts.pop('writeConcern')))
if 'readConcern' in opts:
opts['read_concern'] = ReadConcern(
**dict(opts.pop('readConcern')))
if 'maxTimeMS' in opts:
opts['max_time_ms'] = opts.pop('maxTimeMS')
if 'maxCommitTimeMS' in opts:
opts['max_commit_time_ms'] = opts.pop('maxCommitTimeMS')
if 'hint' in opts:
hint = opts.pop('hint')
if not isinstance(hint, string_type):
hint = list(iteritems(hint))
opts['hint'] = hint
# Properly format 'hint' arguments for the Bulk API tests.
if 'requests' in opts:
reqs = opts.pop('requests')
for req in reqs:
if 'name' in req:
# CRUD v2 format
args = req.pop('arguments', {})
if 'hint' in args:
hint = args.pop('hint')
if not isinstance(hint, string_type):
hint = list(iteritems(hint))
args['hint'] = hint
req['arguments'] = args
else:
# Unified test format
bulk_model, spec = next(iteritems(req))
if 'hint' in spec:
hint = spec.pop('hint')
if not isinstance(hint, string_type):
hint = list(iteritems(hint))
spec['hint'] = hint
opts['requests'] = reqs
return dict(opts)
def prepare_spec_arguments(spec, arguments, opname, entity_map,
with_txn_callback):
for arg_name in list(arguments):
c2s = camel_to_snake(arg_name)
# PyMongo accepts sort as list of tuples.
if arg_name == "sort":
sort_dict = arguments[arg_name]
arguments[arg_name] = list(iteritems(sort_dict))
# Named "key" instead not fieldName.
if arg_name == "fieldName":
arguments["key"] = arguments.pop(arg_name)
# Aggregate uses "batchSize", while find uses batch_size.
elif ((arg_name == "batchSize" or arg_name == "allowDiskUse") and
opname == "aggregate"):
continue
# Requires boolean returnDocument.
elif arg_name == "returnDocument":
arguments[c2s] = getattr(ReturnDocument, arguments.pop(arg_name).upper())
elif c2s == "requests":
# Parse each request into a bulk write model.
requests = []
for request in arguments["requests"]:
if 'name' in request:
# CRUD v2 format
bulk_model = camel_to_upper_camel(request["name"])
bulk_class = getattr(operations, bulk_model)
bulk_arguments = camel_to_snake_args(request["arguments"])
else:
# Unified test format
bulk_model, spec = next(iteritems(request))
bulk_class = getattr(operations, camel_to_upper_camel(bulk_model))
bulk_arguments = camel_to_snake_args(spec)
requests.append(bulk_class(**dict(bulk_arguments)))
arguments["requests"] = requests
elif arg_name == "session":
arguments['session'] = entity_map[arguments['session']]
elif (opname in ('command', 'run_admin_command') and
arg_name == 'command'):
# Ensure the first key is the command name.
ordered_command = SON([(spec['command_name'], 1)])
ordered_command.update(arguments['command'])
arguments['command'] = ordered_command
elif opname == 'open_download_stream' and arg_name == 'id':
arguments['file_id'] = arguments.pop(arg_name)
elif opname != 'find' and c2s == 'max_time_ms':
# find is the only method that accepts snake_case max_time_ms.
# All other methods take kwargs which must use the server's
# camelCase maxTimeMS. See PYTHON-1855.
arguments['maxTimeMS'] = arguments.pop('max_time_ms')
elif opname == 'with_transaction' and arg_name == 'callback':
if 'operations' in arguments[arg_name]:
# CRUD v2 format
callback_ops = arguments[arg_name]['operations']
else:
# Unified test format
callback_ops = arguments[arg_name]
arguments['callback'] = lambda _: with_txn_callback(
copy.deepcopy(callback_ops))
elif opname == 'drop_collection' and arg_name == 'collection':
arguments['name_or_collection'] = arguments.pop(arg_name)
elif opname == 'create_collection':
if arg_name == 'collection':
arguments['name'] = arguments.pop(arg_name)
# Any other arguments to create_collection are passed through
# **kwargs.
elif opname == 'create_index' and arg_name == 'keys':
arguments['keys'] = list(arguments.pop(arg_name).items())
elif opname == 'drop_index' and arg_name == 'name':
arguments['index_or_name'] = arguments.pop(arg_name)
else:
arguments[c2s] = arguments.pop(arg_name)