# -*- coding:utf-8 -*- # Copyright (c) 2010-2012 OpenStack Foundation # # 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. """Tests for swift.common.utils""" from collections import defaultdict import errno from hashlib import md5 import io import logging import six import socket import time import unittest from uuid import uuid4 import os import mock from eventlet import GreenPool, sleep, Queue from eventlet.pools import Pool from swift.common import memcached from mock import patch, MagicMock from test.unit import debug_logger class MockedMemcachePool(memcached.MemcacheConnPool): def __init__(self, mocks): Pool.__init__(self, max_size=2) self.mocks = mocks # setting this for the eventlet workaround in the MemcacheConnPool self._parent_class_getter = super(memcached.MemcacheConnPool, self).get def create(self): return self.mocks.pop(0) class ExplodingMockMemcached(object): exploded = False def sendall(self, string): self.exploded = True raise socket.error(errno.EPIPE, os.strerror(errno.EPIPE)) def readline(self): self.exploded = True raise socket.error(errno.EPIPE, os.strerror(errno.EPIPE)) def read(self, size): self.exploded = True raise socket.error(errno.EPIPE, os.strerror(errno.EPIPE)) def close(self): pass class MockMemcached(object): # See https://github.com/memcached/memcached/blob/master/doc/protocol.txt # In particular, the "Storage commands" section may be interesting. def __init__(self): self.inbuf = b'' self.outbuf = b'' self.cache = {} self.down = False self.exc_on_delete = False self.read_return_none = False self.read_return_empty_str = False self.close_called = False def sendall(self, string): if self.down: raise Exception('mock is down') self.inbuf += string while b'\n' in self.inbuf: cmd, self.inbuf = self.inbuf.split(b'\n', 1) parts = cmd.split() cmd_name = parts[0].decode('ascii').lower() handler = getattr(self, 'handle_%s' % cmd_name, None) if handler: handler(*parts[1:]) else: raise ValueError('Unhandled command: %s' % parts[0]) def handle_set(self, key, flags, exptime, num_bytes, noreply=b''): self.cache[key] = flags, exptime, self.inbuf[:int(num_bytes)] self.inbuf = self.inbuf[int(num_bytes) + 2:] if noreply != b'noreply': self.outbuf += b'STORED\r\n' def handle_add(self, key, flags, exptime, num_bytes, noreply=b''): value = self.inbuf[:int(num_bytes)] self.inbuf = self.inbuf[int(num_bytes) + 2:] if key in self.cache: if noreply != b'noreply': self.outbuf += b'NOT_STORED\r\n' else: self.cache[key] = flags, exptime, value if noreply != b'noreply': self.outbuf += b'STORED\r\n' def handle_delete(self, key, noreply=b''): if self.exc_on_delete: raise Exception('mock is has exc_on_delete set') if key in self.cache: del self.cache[key] if noreply != b'noreply': self.outbuf += b'DELETED\r\n' elif noreply != b'noreply': self.outbuf += b'NOT_FOUND\r\n' def handle_get(self, *keys): for key in keys: if key in self.cache: val = self.cache[key] self.outbuf += b' '.join([ b'VALUE', key, val[0], str(len(val[2])).encode('ascii') ]) + b'\r\n' self.outbuf += val[2] + b'\r\n' self.outbuf += b'END\r\n' def handle_incr(self, key, value, noreply=b''): if key in self.cache: current = self.cache[key][2] new_val = str(int(current) + int(value)).encode('ascii') self.cache[key] = self.cache[key][:2] + (new_val, ) self.outbuf += new_val + b'\r\n' else: self.outbuf += b'NOT_FOUND\r\n' def handle_decr(self, key, value, noreply=b''): if key in self.cache: current = self.cache[key][2] new_val = str(int(current) - int(value)).encode('ascii') if new_val[:1] == b'-': # ie, val is negative new_val = b'0' self.cache[key] = self.cache[key][:2] + (new_val, ) self.outbuf += new_val + b'\r\n' else: self.outbuf += b'NOT_FOUND\r\n' def readline(self): if self.read_return_empty_str: return b'' if self.read_return_none: return None if self.down: raise Exception('mock is down') if b'\n' in self.outbuf: response, self.outbuf = self.outbuf.split(b'\n', 1) return response + b'\n' def read(self, size): if self.down: raise Exception('mock is down') if len(self.outbuf) >= size: response = self.outbuf[:size] self.outbuf = self.outbuf[size:] return response def close(self): self.close_called = True pass class TestMemcached(unittest.TestCase): """Tests for swift.common.memcached""" def setUp(self): self.logger = debug_logger() def test_logger_kwarg(self): server_socket = '%s:%s' % ('[::1]', 11211) client = memcached.MemcacheRing([server_socket]) self.assertIs(client.logger, logging.getLogger()) client = memcached.MemcacheRing([server_socket], logger=self.logger) self.assertIs(client.logger, self.logger) def test_get_conns(self): sock1 = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock1.bind(('127.0.0.1', 0)) sock1.listen(1) sock1ipport = '%s:%s' % sock1.getsockname() sock2 = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock2.bind(('127.0.0.1', 0)) sock2.listen(1) orig_port = memcached.DEFAULT_MEMCACHED_PORT try: sock2ip, memcached.DEFAULT_MEMCACHED_PORT = sock2.getsockname() sock2ipport = '%s:%s' % (sock2ip, memcached.DEFAULT_MEMCACHED_PORT) # We're deliberately using sock2ip (no port) here to test that the # default port is used. memcache_client = memcached.MemcacheRing([sock1ipport, sock2ip], logger=self.logger) one = two = True while one or two: # Run until we match hosts one and two key = uuid4().hex.encode('ascii') for conn in memcache_client._get_conns(key): if 'b' not in getattr(conn[1], 'mode', ''): self.assertIsInstance(conn[1], ( io.RawIOBase, io.BufferedIOBase)) peeripport = '%s:%s' % conn[2].getpeername() self.assertTrue(peeripport in (sock1ipport, sock2ipport)) if peeripport == sock1ipport: one = False if peeripport == sock2ipport: two = False self.assertEqual(len(memcache_client._errors[sock1ipport]), 0) self.assertEqual(len(memcache_client._errors[sock2ip]), 0) finally: memcached.DEFAULT_MEMCACHED_PORT = orig_port def test_get_conns_v6(self): if not socket.has_ipv6: return try: sock = socket.socket(socket.AF_INET6, socket.SOCK_STREAM) sock.bind(('::1', 0, 0, 0)) sock.listen(1) sock_addr = sock.getsockname() server_socket = '[%s]:%s' % (sock_addr[0], sock_addr[1]) memcache_client = memcached.MemcacheRing([server_socket], logger=self.logger) key = uuid4().hex.encode('ascii') for conn in memcache_client._get_conns(key): peer_sockaddr = conn[2].getpeername() peer_socket = '[%s]:%s' % (peer_sockaddr[0], peer_sockaddr[1]) self.assertEqual(peer_socket, server_socket) self.assertEqual(len(memcache_client._errors[server_socket]), 0) finally: sock.close() def test_get_conns_v6_default(self): if not socket.has_ipv6: return try: sock = socket.socket(socket.AF_INET6, socket.SOCK_STREAM) sock.bind(('::1', 0)) sock.listen(1) sock_addr = sock.getsockname() server_socket = '[%s]:%s' % (sock_addr[0], sock_addr[1]) server_host = '[%s]' % sock_addr[0] memcached.DEFAULT_MEMCACHED_PORT = sock_addr[1] memcache_client = memcached.MemcacheRing([server_host], logger=self.logger) key = uuid4().hex.encode('ascii') for conn in memcache_client._get_conns(key): peer_sockaddr = conn[2].getpeername() peer_socket = '[%s]:%s' % (peer_sockaddr[0], peer_sockaddr[1]) self.assertEqual(peer_socket, server_socket) self.assertEqual(len(memcache_client._errors[server_host]), 0) finally: sock.close() def test_get_conns_bad_v6(self): with self.assertRaises(ValueError): # IPv6 address with missing [] is invalid server_socket = '%s:%s' % ('::1', 11211) memcached.MemcacheRing([server_socket], logger=self.logger) def test_get_conns_hostname(self): with patch('swift.common.memcached.socket.getaddrinfo') as addrinfo: try: sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock.bind(('127.0.0.1', 0)) sock.listen(1) sock_addr = sock.getsockname() fqdn = socket.getfqdn() server_socket = '%s:%s' % (fqdn, sock_addr[1]) addrinfo.return_value = [(socket.AF_INET, socket.SOCK_STREAM, 0, '', ('127.0.0.1', sock_addr[1]))] memcache_client = memcached.MemcacheRing([server_socket], logger=self.logger) key = uuid4().hex.encode('ascii') for conn in memcache_client._get_conns(key): peer_sockaddr = conn[2].getpeername() peer_socket = '%s:%s' % (peer_sockaddr[0], peer_sockaddr[1]) self.assertEqual(peer_socket, '127.0.0.1:%d' % sock_addr[1]) self.assertEqual(len(memcache_client._errors[server_socket]), 0) finally: sock.close() def test_get_conns_hostname6(self): with patch('swift.common.memcached.socket.getaddrinfo') as addrinfo: try: sock = socket.socket(socket.AF_INET6, socket.SOCK_STREAM) sock.bind(('::1', 0)) sock.listen(1) sock_addr = sock.getsockname() fqdn = socket.getfqdn() server_socket = '%s:%s' % (fqdn, sock_addr[1]) addrinfo.return_value = [(socket.AF_INET6, socket.SOCK_STREAM, 0, '', ('::1', sock_addr[1]))] memcache_client = memcached.MemcacheRing([server_socket], logger=self.logger) key = uuid4().hex.encode('ascii') for conn in memcache_client._get_conns(key): peer_sockaddr = conn[2].getpeername() peer_socket = '[%s]:%s' % (peer_sockaddr[0], peer_sockaddr[1]) self.assertEqual(peer_socket, '[::1]:%d' % sock_addr[1]) self.assertEqual(len(memcache_client._errors[server_socket]), 0) finally: sock.close() def test_set_get_json(self): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211'], logger=self.logger) mock = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock, mock)] * 2) cache_key = md5(b'some_key').hexdigest().encode('ascii') memcache_client.set('some_key', [1, 2, 3]) self.assertEqual(memcache_client.get('some_key'), [1, 2, 3]) # See JSON_FLAG self.assertEqual(mock.cache, {cache_key: (b'2', b'0', b'[1, 2, 3]')}) memcache_client.set('some_key', [4, 5, 6]) self.assertEqual(memcache_client.get('some_key'), [4, 5, 6]) self.assertEqual(mock.cache, {cache_key: (b'2', b'0', b'[4, 5, 6]')}) memcache_client.set('some_key', ['simple str', 'utf8 str éà']) # As per http://wiki.openstack.org/encoding, # we should expect to have unicode self.assertEqual( memcache_client.get('some_key'), ['simple str', u'utf8 str éà']) self.assertEqual(mock.cache, {cache_key: ( b'2', b'0', b'["simple str", "utf8 str \\u00e9\\u00e0"]')}) memcache_client.set('some_key', [1, 2, 3], time=20) self.assertEqual(mock.cache, {cache_key: (b'2', b'20', b'[1, 2, 3]')}) sixtydays = 60 * 24 * 60 * 60 esttimeout = time.time() + sixtydays memcache_client.set('some_key', [1, 2, 3], time=sixtydays) _junk, cache_timeout, _junk = mock.cache[cache_key] self.assertAlmostEqual(float(cache_timeout), esttimeout, delta=1) def test_get_failed_connection_mid_request(self): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211'], logger=self.logger) mock = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock, mock)] * 2) memcache_client.set('some_key', [1, 2, 3]) self.assertEqual(memcache_client.get('some_key'), [1, 2, 3]) self.assertEqual(list(mock.cache.values()), [(b'2', b'0', b'[1, 2, 3]')]) # Now lets return an empty string, and make sure we aren't logging # the error. fake_stdout = six.StringIO() # force the logging through the DebugLogger instead of the nose # handler. This will use stdout, so we can assert that no stack trace # is logged. with patch("sys.stdout", fake_stdout): mock.read_return_empty_str = True self.assertIsNone(memcache_client.get('some_key')) log_lines = self.logger.get_lines_for_level('error') self.assertIn('Error talking to memcached', log_lines[0]) self.assertFalse(log_lines[1:]) self.assertNotIn("Traceback", fake_stdout.getvalue()) def test_incr(self): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211'], logger=self.logger) mock = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock, mock)] * 2) self.assertEqual(memcache_client.incr('some_key', delta=5), 5) self.assertEqual(memcache_client.get('some_key'), b'5') self.assertEqual(memcache_client.incr('some_key', delta=5), 10) self.assertEqual(memcache_client.get('some_key'), b'10') self.assertEqual(memcache_client.incr('some_key', delta=1), 11) self.assertEqual(memcache_client.get('some_key'), b'11') self.assertEqual(memcache_client.incr('some_key', delta=-5), 6) self.assertEqual(memcache_client.get('some_key'), b'6') self.assertEqual(memcache_client.incr('some_key', delta=-15), 0) self.assertEqual(memcache_client.get('some_key'), b'0') mock.read_return_none = True self.assertRaises(memcached.MemcacheConnectionError, memcache_client.incr, 'some_key', delta=-15) self.assertTrue(mock.close_called) def test_incr_failed_connection_mid_request(self): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211'], logger=self.logger) mock = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock, mock)] * 2) self.assertEqual(memcache_client.incr('some_key', delta=5), 5) self.assertEqual(memcache_client.get('some_key'), b'5') self.assertEqual(memcache_client.incr('some_key', delta=5), 10) self.assertEqual(memcache_client.get('some_key'), b'10') # Now lets return an empty string, and make sure we aren't logging # the error. fake_stdout = six.StringIO() # force the logging through the DebugLogger instead of the nose # handler. This will use stdout, so we can assert that no stack trace # is logged. with patch("sys.stdout", fake_stdout): mock.read_return_empty_str = True self.assertRaises(memcached.MemcacheConnectionError, memcache_client.incr, 'some_key', delta=1) log_lines = self.logger.get_lines_for_level('error') self.assertIn('Error talking to memcached', log_lines[0]) self.assertFalse(log_lines[1:]) self.assertNotIn('Traceback', fake_stdout.getvalue()) def test_incr_w_timeout(self): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211'], logger=self.logger) mock = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock, mock)] * 2) cache_key = md5(b'some_key').hexdigest().encode('ascii') memcache_client.incr('some_key', delta=5, time=55) self.assertEqual(memcache_client.get('some_key'), b'5') self.assertEqual(mock.cache, {cache_key: (b'0', b'55', b'5')}) memcache_client.delete('some_key') self.assertIsNone(memcache_client.get('some_key')) fiftydays = 50 * 24 * 60 * 60 esttimeout = time.time() + fiftydays memcache_client.incr('some_key', delta=5, time=fiftydays) self.assertEqual(memcache_client.get('some_key'), b'5') _junk, cache_timeout, _junk = mock.cache[cache_key] self.assertAlmostEqual(float(cache_timeout), esttimeout, delta=1) memcache_client.delete('some_key') self.assertIsNone(memcache_client.get('some_key')) memcache_client.incr('some_key', delta=5) self.assertEqual(memcache_client.get('some_key'), b'5') self.assertEqual(mock.cache, {cache_key: (b'0', b'0', b'5')}) memcache_client.incr('some_key', delta=5, time=55) self.assertEqual(memcache_client.get('some_key'), b'10') self.assertEqual(mock.cache, {cache_key: (b'0', b'0', b'10')}) def test_decr(self): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211'], logger=self.logger) mock = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock, mock)] * 2) self.assertEqual(memcache_client.decr('some_key', delta=5), 0) self.assertEqual(memcache_client.get('some_key'), b'0') self.assertEqual(memcache_client.incr('some_key', delta=15), 15) self.assertEqual(memcache_client.get('some_key'), b'15') self.assertEqual(memcache_client.decr('some_key', delta=4), 11) self.assertEqual(memcache_client.get('some_key'), b'11') self.assertEqual(memcache_client.decr('some_key', delta=15), 0) self.assertEqual(memcache_client.get('some_key'), b'0') mock.read_return_none = True self.assertRaises(memcached.MemcacheConnectionError, memcache_client.decr, 'some_key', delta=15) def test_retry(self): memcache_client = memcached.MemcacheRing( ['1.2.3.4:11211', '1.2.3.5:11211'], logger=self.logger) mock1 = ExplodingMockMemcached() mock2 = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock2, mock2)]) memcache_client._client_cache['1.2.3.5:11211'] = MockedMemcachePool( [(mock1, mock1), (mock1, mock1)]) memcache_client.set('some_key', [1, 2, 3]) self.assertEqual(mock1.exploded, True) self.assertEqual(self.logger.get_lines_for_level('error'), [ 'Error talking to memcached: 1.2.3.5:11211: ' '[Errno 32] Broken pipe', ]) self.logger.clear() mock1.exploded = False self.assertEqual(memcache_client.get('some_key'), [1, 2, 3]) self.assertEqual(mock1.exploded, True) self.assertEqual(self.logger.get_lines_for_level('error'), [ 'Error talking to memcached: 1.2.3.5:11211: ' '[Errno 32] Broken pipe', ]) # Check that we really did call create() twice self.assertEqual(memcache_client._client_cache['1.2.3.5:11211'].mocks, []) def test_delete(self): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211'], logger=self.logger) mock = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock, mock)] * 2) memcache_client.set('some_key', [1, 2, 3]) self.assertEqual(memcache_client.get('some_key'), [1, 2, 3]) memcache_client.delete('some_key') self.assertIsNone(memcache_client.get('some_key')) def test_multi(self): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211'], logger=self.logger) mock = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock, mock)] * 2) memcache_client.set_multi( {'some_key1': [1, 2, 3], 'some_key2': [4, 5, 6]}, 'multi_key') self.assertEqual( memcache_client.get_multi(('some_key2', 'some_key1'), 'multi_key'), [[4, 5, 6], [1, 2, 3]]) for key in (b'some_key1', b'some_key2'): key = md5(key).hexdigest().encode('ascii') self.assertIn(key, mock.cache) _junk, cache_timeout, _junk = mock.cache[key] self.assertEqual(cache_timeout, b'0') memcache_client.set_multi( {'some_key1': [1, 2, 3], 'some_key2': [4, 5, 6]}, 'multi_key', time=20) for key in (b'some_key1', b'some_key2'): key = md5(key).hexdigest().encode('ascii') _junk, cache_timeout, _junk = mock.cache[key] self.assertEqual(cache_timeout, b'20') fortydays = 50 * 24 * 60 * 60 esttimeout = time.time() + fortydays memcache_client.set_multi( {'some_key1': [1, 2, 3], 'some_key2': [4, 5, 6]}, 'multi_key', time=fortydays) for key in (b'some_key1', b'some_key2'): key = md5(key).hexdigest().encode('ascii') _junk, cache_timeout, _junk = mock.cache[key] self.assertAlmostEqual(float(cache_timeout), esttimeout, delta=1) self.assertEqual(memcache_client.get_multi( ('some_key2', 'some_key1', 'not_exists'), 'multi_key'), [[4, 5, 6], [1, 2, 3], None]) # Now lets simulate a lost connection and make sure we don't get # the index out of range stack trace when it does mock_stderr = six.StringIO() not_expected = "IndexError: list index out of range" with patch("sys.stderr", mock_stderr): mock.read_return_empty_str = True self.assertEqual(memcache_client.get_multi( ('some_key2', 'some_key1', 'not_exists'), 'multi_key'), None) self.assertFalse(not_expected in mock_stderr.getvalue()) def test_multi_delete(self): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211', '1.2.3.5:11211'], logger=self.logger) mock1 = MockMemcached() mock2 = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock1, mock1)] * 2) memcache_client._client_cache['1.2.3.5:11211'] = MockedMemcachePool( [(mock2, mock2)] * 2) # MemcacheRing will put 'some_key0' on server 1.2.3.5:11211 and # 'some_key1' and 'multi_key' on '1.2.3.4:11211' memcache_client.set_multi( {'some_key0': [1, 2, 3], 'some_key1': [4, 5, 6]}, 'multi_key') self.assertEqual( memcache_client.get_multi(('some_key1', 'some_key0'), 'multi_key'), [[4, 5, 6], [1, 2, 3]]) for key in (b'some_key0', b'some_key1'): key = md5(key).hexdigest().encode('ascii') self.assertIn(key, mock1.cache) _junk, cache_timeout, _junk = mock1.cache[key] self.assertEqual(cache_timeout, b'0') memcache_client.set('some_key0', [7, 8, 9]) self.assertEqual(memcache_client.get('some_key0'), [7, 8, 9]) key = md5(b'some_key0').hexdigest().encode('ascii') self.assertIn(key, mock2.cache) # Delete 'some_key0' with server_key='multi_key' memcache_client.delete('some_key0', server_key='multi_key') self.assertEqual(memcache_client.get_multi( ('some_key0', 'some_key1'), 'multi_key'), [None, [4, 5, 6]]) # 'some_key0' have to be available on 1.2.3.5:11211 self.assertEqual(memcache_client.get('some_key0'), [7, 8, 9]) self.assertIn(key, mock2.cache) def test_serialization(self): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211'], allow_pickle=True, logger=self.logger) mock = MockMemcached() memcache_client._client_cache['1.2.3.4:11211'] = MockedMemcachePool( [(mock, mock)] * 2) memcache_client.set('some_key', [1, 2, 3]) self.assertEqual(memcache_client.get('some_key'), [1, 2, 3]) memcache_client._allow_pickle = False memcache_client._allow_unpickle = True self.assertEqual(memcache_client.get('some_key'), [1, 2, 3]) memcache_client._allow_unpickle = False self.assertIsNone(memcache_client.get('some_key')) memcache_client.set('some_key', [1, 2, 3]) self.assertEqual(memcache_client.get('some_key'), [1, 2, 3]) memcache_client._allow_unpickle = True self.assertEqual(memcache_client.get('some_key'), [1, 2, 3]) memcache_client._allow_pickle = True self.assertEqual(memcache_client.get('some_key'), [1, 2, 3]) def test_connection_pooling(self): with patch('swift.common.memcached.socket') as mock_module: def mock_getaddrinfo(host, port, family=socket.AF_INET, socktype=socket.SOCK_STREAM, proto=0, flags=0): return [(family, socktype, proto, '', (host, port))] mock_module.getaddrinfo = mock_getaddrinfo # patch socket, stub socket.socket, mock sock mock_sock = mock_module.socket.return_value # track clients waiting for connections connected = [] connections = Queue() errors = [] def wait_connect(addr): connected.append(addr) sleep(0.1) # yield val = connections.get() if val is not None: errors.append(val) mock_sock.connect = wait_connect memcache_client = memcached.MemcacheRing(['1.2.3.4:11211'], connect_timeout=10, logger=self.logger) # sanity self.assertEqual(1, len(memcache_client._client_cache)) for server, pool in memcache_client._client_cache.items(): self.assertEqual(2, pool.max_size) # make 10 requests "at the same time" p = GreenPool() for i in range(10): p.spawn(memcache_client.set, 'key', 'value') for i in range(3): sleep(0.1) self.assertEqual(2, len(connected)) # give out a connection connections.put(None) # at this point, only one connection should have actually been # created, the other is in the creation step, and the rest of the # clients are not attempting to connect. we let this play out a # bit to verify. for i in range(3): sleep(0.1) self.assertEqual(2, len(connected)) # finish up, this allows the final connection to be created, so # that all the other clients can use the two existing connections # and no others will be created. connections.put(None) connections.put('nono') self.assertEqual(2, len(connected)) p.waitall() self.assertEqual(2, len(connected)) self.assertEqual(0, len(errors), "A client was allowed a third connection") connections.get_nowait() self.assertTrue(connections.empty()) def test_connection_pool_timeout(self): connections = defaultdict(Queue) pending = defaultdict(int) served = defaultdict(int) class MockConnectionPool(memcached.MemcacheConnPool): def get(self): pending[self.host] += 1 conn = connections[self.host].get() pending[self.host] -= 1 return conn def put(self, *args, **kwargs): connections[self.host].put(*args, **kwargs) served[self.host] += 1 with mock.patch.object(memcached, 'MemcacheConnPool', MockConnectionPool): memcache_client = memcached.MemcacheRing(['1.2.3.4:11211', '1.2.3.5:11211'], io_timeout=0.5, pool_timeout=0.1, logger=self.logger) # Hand out a couple slow connections to 1.2.3.5, leaving 1.2.3.4 # fast. All ten (10) clients should try to talk to .5 first, and # then move on to .4, and we'll assert all that below. mock_conn = MagicMock(), MagicMock() mock_conn[1].sendall = lambda x: sleep(0.2) connections['1.2.3.5'].put(mock_conn) connections['1.2.3.5'].put(mock_conn) mock_conn = MagicMock(), MagicMock() connections['1.2.3.4'].put(mock_conn) connections['1.2.3.4'].put(mock_conn) p = GreenPool() for i in range(10): p.spawn(memcache_client.set, 'key', 'value') # Wait for the dust to settle. p.waitall() self.assertEqual(pending['1.2.3.5'], 8) self.assertEqual(len(memcache_client._errors['1.2.3.5:11211']), 8) self.assertEqual( self.logger.get_lines_for_level('error'), ['Timeout getting a connection to memcached: 1.2.3.5:11211'] * 8) self.assertEqual(served['1.2.3.5'], 2) self.assertEqual(pending['1.2.3.4'], 0) self.assertEqual(len(memcache_client._errors['1.2.3.4:11211']), 0) self.assertEqual(served['1.2.3.4'], 8) # and we never got more put in that we gave out self.assertEqual(connections['1.2.3.5'].qsize(), 2) self.assertEqual(connections['1.2.3.4'].qsize(), 2) if __name__ == '__main__': unittest.main()