238 lines
8.2 KiB
Python
238 lines
8.2 KiB
Python
# Copyright 2015 MongoDB, Inc.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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"""Test the topology module."""
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import json
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import os
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import sys
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sys.path[0:0] = [""]
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from pymongo import read_preferences
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from pymongo.common import clean_node
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from pymongo.errors import AutoReconnect
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from pymongo.ismaster import IsMaster
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from pymongo.server_description import ServerDescription
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from pymongo.settings import TopologySettings
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from pymongo.server_selectors import writable_server_selector
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from pymongo.topology import Topology
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from test import unittest
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# Location of JSON test specifications.
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_TEST_PATH = os.path.join(
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os.path.dirname(os.path.realpath(__file__)),
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os.path.join('server_selection', 'server_selection'))
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class MockSocketInfo(object):
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def close(self):
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pass
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def __enter__(self):
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return self
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def __exit__(self, exc_type, exc_val, exc_tb):
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pass
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class MockPool(object):
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def __init__(self, *args, **kwargs):
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pass
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def reset(self):
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pass
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def remove_stale_sockets(self):
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pass
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class MockMonitor(object):
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def __init__(self, server_description, topology, pool, topology_settings):
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pass
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def open(self):
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pass
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def request_check(self):
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pass
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def close(self):
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pass
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def get_addresses(server_list):
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seeds = []
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hosts = []
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for server in server_list:
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seeds.append(clean_node(server['address']))
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hosts.append(server['address'])
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return seeds, hosts
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def make_server_description(server, hosts):
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"""Make ServerDescription from server info from JSON file."""
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ismaster_response = {}
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ismaster_response['tags'] = server['tags']
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ismaster_response['ok'] = True
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ismaster_response['hosts'] = hosts
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server_type = server['type']
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if server_type != "Standalone" and server_type != "Mongos":
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ismaster_response['setName'] = True
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if server_type == "RSPrimary":
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ismaster_response['ismaster'] = True
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elif server_type == "RSSecondary":
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ismaster_response['secondary'] = True
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elif server_type == "Mongos":
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ismaster_response['msg'] = 'isdbgrid'
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return ServerDescription(clean_node(server['address']),
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IsMaster(ismaster_response),
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round_trip_time=server['avg_rtt_ms'])
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class TestAllScenarios(unittest.TestCase):
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pass
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def create_test(scenario_def):
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def run_scenario(self):
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# Initialize topologies.
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seeds, hosts = get_addresses(
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scenario_def['topology_description']['servers'])
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# "Eligible servers" is defined in the server selection spec as
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# the set of servers matching both the ReadPreference's mode
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# and tag sets.
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top_latency = Topology(
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TopologySettings(seeds=seeds, monitor_class=MockMonitor,
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pool_class=MockPool))
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# "In latency window" is defined in the server selection
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# spec as the subset of suitable_servers that falls within the
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# allowable latency window.
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top_suitable = Topology(
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TopologySettings(seeds=seeds, local_threshold_ms=1000000,
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monitor_class=MockMonitor,
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pool_class=MockPool))
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# Update topologies with server descriptions.
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for server in scenario_def['topology_description']['servers']:
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server_description = make_server_description(server, hosts)
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top_suitable.on_change(server_description)
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top_latency.on_change(server_description)
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# Create server selector.
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if scenario_def["operation"] == "write":
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instance = writable_server_selector
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else:
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# Make first letter lowercase to match read_pref's modes.
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mode_string = scenario_def['read_preference']['mode']
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if mode_string:
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mode_string = mode_string[:1].lower() + mode_string[1:]
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mode = read_preferences.read_pref_mode_from_name(mode_string)
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tag_sets = None
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if scenario_def['read_preference']['tag_sets'][0]:
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tag_sets = scenario_def['read_preference']['tag_sets']
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instance = read_preferences.make_read_preference(mode, tag_sets)
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# Select servers.
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if not scenario_def['suitable_servers']:
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self.assertRaises(AutoReconnect, top_suitable.select_server,
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instance,
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server_selection_timeout=0)
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return
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if not scenario_def['in_latency_window']:
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self.assertRaises(AutoReconnect, top_latency.select_server,
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instance,
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server_selection_timeout=0)
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return
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actual_suitable_s = top_suitable.select_servers(instance,
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server_selection_timeout=0)
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actual_latency_s = top_latency.select_servers(instance,
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server_selection_timeout=0)
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expected_suitable_servers = {}
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for server in scenario_def['suitable_servers']:
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server_description = make_server_description(server, hosts)
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expected_suitable_servers[server['address']] = server_description
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actual_suitable_servers = {}
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for s in actual_suitable_s:
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actual_suitable_servers["%s:%d" % (s.description.address[0],
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s.description.address[1])] = s.description
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self.assertEqual(len(actual_suitable_servers),
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len(expected_suitable_servers))
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for k, actual in actual_suitable_servers.items():
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expected = expected_suitable_servers[k]
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self.assertEqual(expected.address, actual.address)
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self.assertEqual(expected.server_type, actual.server_type)
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self.assertEqual(expected.round_trip_time, actual.round_trip_time)
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self.assertEqual(expected.tags, actual.tags)
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self.assertEqual(expected.all_hosts, actual.all_hosts)
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expected_latency_servers = {}
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for server in scenario_def['in_latency_window']:
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server_description = make_server_description(server, hosts)
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expected_latency_servers[server['address']] = server_description
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actual_latency_servers = {}
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for s in actual_latency_s:
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actual_latency_servers["%s:%d" %
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(s.description.address[0],
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s.description.address[1])] = s.description
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self.assertEqual(len(actual_latency_servers),
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len(expected_latency_servers))
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for k, actual in actual_latency_servers.items():
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expected = expected_latency_servers[k]
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self.assertEqual(expected.address, actual.address)
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self.assertEqual(expected.server_type, actual.server_type)
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self.assertEqual(expected.round_trip_time, actual.round_trip_time)
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self.assertEqual(expected.tags, actual.tags)
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self.assertEqual(expected.all_hosts, actual.all_hosts)
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return run_scenario
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def create_tests():
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for dirpath, _, filenames in os.walk(_TEST_PATH):
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dirname = os.path.split(dirpath)
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dirname = os.path.split(dirname[-2])[-1] + '_' + dirname[-1]
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for filename in filenames:
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with open(os.path.join(dirpath, filename)) as scenario_stream:
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scenario_def = json.load(scenario_stream)
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# Construct test from scenario.
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new_test = create_test(scenario_def)
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test_name = 'test_%s_%s' % (
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dirname, os.path.splitext(filename)[0])
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new_test.__name__ = test_name
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setattr(TestAllScenarios, new_test.__name__, new_test)
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create_tests()
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if __name__ == "__main__":
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unittest.main()
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