def testInProcessMultiService_Sync(self):
print
print 'testInProcessMultiService_Sync'
N = 1000
listener1 = ('localhost', 16200)
listener2 = ('localhost', 16201)
server1 = Server(listener1, [StoreService()])
server2 = Server(listener2, [StoreService()])
self.servers.append(server1)
self.servers.append(server2)
server1.serve()
server2.serve()
listeners = [listener1, listener2]
clients = [Client(listener, StoreProtocol()) for listener in listeners]
for client in clients:
client.connect()
while not client.is_connected():
coio.sleep(0.01)
self.clients.extend(clients)
store_client = MulticastClient(StoreProtocol())
coio.stackless.schedule()
values = [('foo%d' % i, i, 'bar%d' % i) for i in xrange(N)]
received_values_list = []
start = time.time()
for key, timestamp, value in values:
store_client.set(clients, key, timestamp, value)
received_values_list.append(store_client.get(clients, key))
elapsed = time.time() - start
for received_values, (key, timestamp,
value) in zip(received_values_list, values):
for token, (received_timestamp, received_value) in received_values:
if str(received_value) != str(value):
print received_value, value
assert str(received_value) == str(value)
assert received_timestamp == timestamp
print 'Elapsed: %.2fs' % elapsed
print '%.2f invocations / s' % (len(listeners) * 2 * N / elapsed)
def testInProcessMultiService_Sync(self):
print
print "testInProcessMultiService_Sync"
N = 1000
listener1 = ("localhost", 16200)
listener2 = ("localhost", 16201)
server1 = Server(listener1, [StoreService()])
server2 = Server(listener2, [StoreService()])
self.servers.append(server1)
self.servers.append(server2)
server1.serve()
server2.serve()
listeners = [listener1, listener2]
clients = [Client(listener, StoreProtocol()) for listener in listeners]
for client in clients:
client.connect()
while not client.is_connected():
coio.sleep(0.01)
self.clients.extend(clients)
store_client = MulticastClient(StoreProtocol())
coio.stackless.schedule()
values = [("foo%d" % i, i, "bar%d" % i) for i in xrange(N)]
received_values_list = []
start = time.time()
for key, timestamp, value in values:
store_client.set(clients, key, timestamp, value)
received_values_list.append(store_client.get(clients, key))
elapsed = time.time() - start
for received_values, (key, timestamp, value) in zip(received_values_list, values):
for token, (received_timestamp, received_value) in received_values:
if str(received_value) != str(value):
print received_value, value
assert str(received_value) == str(value)
assert received_timestamp == timestamp
print "Elapsed: %.2fs" % elapsed
print "%.2f invocations / s" % (len(listeners) * 2 * N / elapsed)
def testInterProcessMultiService_Async(self):
print
print 'testInterProcessMultiService_Async'
M = 10
N = 1000
ports = range(16600, 16600 + M)
for port in ports:
self.registerSubprocess(spawn_server(port))
listeners = [('localhost', port) for port in ports]
clients = [Client(listener, StoreProtocol()) for listener in listeners]
self.clients.extend(clients)
for client in clients:
client.connect()
while not client.is_connected():
coio.sleep(0.1)
store_client = MulticastClient(StoreProtocol())
keys = ['foo%d' % i for i in xrange(N)]
timestamps = [i for i in xrange(N)]
values = ['bar%d' % i for i in xrange(N)]
start = time.time()
collector = store_client.set_collector(clients, N)
for key, timestamp, value in zip(keys, timestamps, values):
store_client.set_async(collector, key, timestamp, value)
collector.collect()
collector = store_client.get_collector(clients, N)
for key in keys:
store_client.get_async(collector, key)
received_value_lists = collector.collect()
elapsed = time.time() - start
for token, received_values in received_value_lists.iteritems():
for timestamp, value, (received_timestamp, received_value) in zip(
timestamps, values, received_values):
if str(received_value) != str(value):
print received_value, value
assert str(received_value) == str(value)
assert received_timestamp == timestamp
invocation_count = 2 * len(ports) * N
print 'Elapsed: %.2fs' % elapsed
print 'Invocations: %d' % invocation_count
print '%.2f invocations / s' % (invocation_count / elapsed)
def testInterProcessMultiService_Sync(self):
print
print 'testInterProcessMultiService_Sync'
N = 1000
ports = range(16500, 16510)
for port in ports:
self.registerSubprocess(spawn_server(port))
listeners = [('localhost', port) for port in ports]
clients = [Client(listener, StoreProtocol()) for listener in listeners]
self.clients.extend(clients)
for client in clients:
client.connect()
while not client.is_connected():
coio.sleep(0.1)
store_client = MulticastClient(StoreProtocol())
values = [('foo%d' % i, i, 'bar%d' % i) for i in xrange(N)]
received_values_list = []
start = time.time()
for key, timestamp, value in values:
store_client.set(clients, key, timestamp, value)
received_values = store_client.get(clients, key)
received_values_list.append(received_values)
elapsed = time.time() - start
for received_values, (key, timestamp,
value) in zip(received_values_list, values):
for token, (received_timestamp, received_value) in received_values:
if str(received_value) != str(value):
print received_value, value
assert str(received_value) == str(value)
assert received_timestamp == timestamp
print 'Elapsed: %.2fs' % elapsed
print '%.2f invocations / s' % (len(ports) * N / elapsed)
def testInterProcessMultiService_Sync(self):
print
print "testInterProcessMultiService_Sync"
N = 1000
ports = range(16500, 16510)
for port in ports:
self.registerSubprocess(spawn_server(port))
listeners = [("localhost", port) for port in ports]
clients = [Client(listener, StoreProtocol()) for listener in listeners]
self.clients.extend(clients)
for client in clients:
client.connect()
while not client.is_connected():
coio.sleep(0.1)
store_client = MulticastClient(StoreProtocol())
values = [("foo%d" % i, i, "bar%d" % i) for i in xrange(N)]
received_values_list = []
start = time.time()
for key, timestamp, value in values:
store_client.set(clients, key, timestamp, value)
received_values = store_client.get(clients, key)
received_values_list.append(received_values)
elapsed = time.time() - start
for received_values, (key, timestamp, value) in zip(received_values_list, values):
for token, (received_timestamp, received_value) in received_values:
if str(received_value) != str(value):
print received_value, value
assert str(received_value) == str(value)
assert received_timestamp == timestamp
print "Elapsed: %.2fs" % elapsed
print "%.2f invocations / s" % (len(ports) * N / elapsed)
def testInterProcessMultiService_Async(self):
print
print "testInterProcessMultiService_Async"
M = 10
N = 1000
ports = range(16600, 16600 + M)
for port in ports:
self.registerSubprocess(spawn_server(port))
listeners = [("localhost", port) for port in ports]
clients = [Client(listener, StoreProtocol()) for listener in listeners]
self.clients.extend(clients)
for client in clients:
client.connect()
while not client.is_connected():
coio.sleep(0.1)
store_client = MulticastClient(StoreProtocol())
keys = ["foo%d" % i for i in xrange(N)]
timestamps = [i for i in xrange(N)]
values = ["bar%d" % i for i in xrange(N)]
start = time.time()
collector = store_client.set_collector(clients, N)
for key, timestamp, value in zip(keys, timestamps, values):
store_client.set_async(collector, key, timestamp, value)
collector.collect()
collector = store_client.get_collector(clients, N)
for key in keys:
store_client.get_async(collector, key)
received_value_lists = collector.collect()
elapsed = time.time() - start
for token, received_values in received_value_lists.iteritems():
for timestamp, value, (received_timestamp, received_value) in zip(timestamps, values, received_values):
if str(received_value) != str(value):
print received_value, value
assert str(received_value) == str(value)
assert received_timestamp == timestamp
invocation_count = 2 * len(ports) * N
print "Elapsed: %.2fs" % elapsed
print "Invocations: %d" % invocation_count
print "%.2f invocations / s" % (invocation_count / elapsed)
