def test_auth_before_start(self):
client = Client(endpoint=endpoint, appkey=appkey)
auth_event = threading.Event()
auth_delegate = auth.RoleSecretAuthDelegate(role, secret)
mailbox = []
def auth_callback(auth_result):
if type(auth_result) == auth.Done:
mailbox.append('Auth success')
auth_event.set()
else:
mailbox.append('Auth failure: {0}'.format(auth_result))
auth_event.set()
client.authenticate(auth_delegate, auth_callback)
client.start()
if not auth_event.wait(60):
raise RuntimeError('Auth never finished')
self.assertEqual(mailbox, ['Auth success'])
client.stop()
client.dispose()
def test_1(self):
client = Client(endpoint=endpoint, appkey=appkey)
global error
error = "Publish didn't happen"
exit = threading.Event()
def after_publish(ack):
global error
if ack['action'] == 'rtm/publish/ok':
error = None
else:
error = 'Publish failed {0}'.format(ack)
exit.set()
client.publish(channel, 'some-message', callback=after_publish)
client.start()
if not exit.wait(60):
raise RuntimeError('Publish never finished')
self.assertEqual(error, None)
client.stop()
client.dispose()
def test_reconnect(self):
client = Client(
endpoint=endpoint, appkey=appkey,
reconnect_interval=0, fail_count_threshold=1)
client.observer = ClientObserver()
client.start()
client.observer.wait_connected('First connect timeout')
emulate_websocket_disconnect(client)
client.observer.wait_disconnected()
client.observer.wait_connected('Second connect timeout')
client.stop()
client.observer.wait_stopped()
client.dispose()
expected_log = [
'on_leave_stopped',
'on_enter_connecting',
'on_leave_connecting',
'on_enter_connected',
'on_leave_connected',
'on_enter_awaiting',
'on_leave_awaiting',
'on_enter_connecting',
'on_leave_connecting',
'on_enter_connected',
'on_leave_connected',
'on_enter_stopping',
'on_leave_stopping',
'on_enter_stopped',
'on_leave_stopped',
'on_enter_disposed']
self.assertEqual(client.observer.log, expected_log)
def test_reconnect_zero_threshold(self):
client = Client(
endpoint=endpoint, appkey=appkey,
reconnect_interval=0, fail_count_threshold=0)
client.observer = ClientObserver()
client.start()
client.observer.wait_connected()
client._internal._endpoint = 'ws://bogus'
emulate_websocket_disconnect(client)
client.observer.wait_disconnected()
client.observer.wait_stopped()
client.dispose()
expected_log = [
'on_leave_stopped',
'on_enter_connecting',
'on_leave_connecting',
'on_enter_connected',
'on_leave_connected',
'on_enter_awaiting',
'on_leave_awaiting',
'on_enter_connecting',
'on_leave_connecting',
'on_enter_stopped',
'on_leave_stopped',
'on_enter_disposed']
self.assertEqual(client.observer.log, expected_log)
def test_start_stop(self):
client = Client(endpoint=endpoint, appkey=appkey)
client.observer = ClientObserver()
client.start()
client.observer.wait_connected()
client.stop()
client.observer.wait_stopped()
expected_log_1 = [
'on_leave_stopped',
'on_enter_connecting',
'on_leave_connecting',
'on_enter_connected',
'on_leave_connected',
'on_enter_stopping',
'on_leave_stopping',
'on_enter_stopped']
expected_log_2 = [
'on_leave_stopped',
'on_enter_connecting',
'on_leave_connecting',
'on_enter_stopped']
try:
self.assertEqual(client.observer.log, expected_log_1)
except:
self.assertEqual(client.observer.log, expected_log_2)
def test_before_start(self):
client = Client(endpoint=endpoint, appkey=appkey)
co = ClientObserver()
client.observer = co
so = SubscriptionObserver()
client.subscribe(channel,
SubscriptionMode.ADVANCED,
subscription_observer=so)
client.start()
co.wait_connected()
sync_publish(client, channel, 'message')
channel_data = so.wait_for_channel_data()
self.assertEqual(channel_data['messages'], ['message'])
client.stop()
co.wait_stopped()
def test_stop_already_stopped(self):
client = Client(endpoint=endpoint, appkey=appkey)
client.observer = ClientObserver()
client.stop()
client.dispose()
expected_log = ['on_leave_stopped', 'on_enter_disposed']
self.assertEqual(client.observer.log, expected_log)
def test_start_wait_stop(self):
client = Client(endpoint=endpoint, appkey=appkey)
client.observer = ClientObserver()
client.start()
client.observer.wait_connected()
client.stop()
client.observer.wait_stopped()
client.dispose()
expected_log = [
'on_leave_stopped', 'on_enter_connecting', 'on_leave_connecting',
'on_enter_connected', 'on_leave_connected', 'on_enter_stopping',
'on_leave_stopping', 'on_enter_stopped', 'on_leave_stopped',
'on_enter_disposed'
]
self.assertEqual(client.observer.log, expected_log)
def test_missing_pong(self):
satori.rtm.connection.ping_interval_in_seconds = 0.4
client = Client(endpoint=endpoint, appkey=appkey, reconnect_interval=0)
co = ClientObserver()
client.observer = co
client.start()
client.observer.wait_connected('First connect timeout')
# emulate the absence of server pongs and silence in the socket
client._internal.connection.on_ws_ponged = lambda: None
client._internal.connection.last_ponged_time = 0
client._internal.connection.on_ws_pong = lambda x, y: None
client.observer.wait_disconnected('First disconnect timeout')
client.observer.wait_connected('Second connect timeout')
client.stop()
client.dispose()
satori.rtm.connection.ping_interval_in_seconds = 60
def test_missing_client_observer_callbacks_are_fine(self):
client = Client(endpoint=endpoint, appkey=appkey)
client.observer = object()
client.start()
client.stop()
def test_rapid_stop_start(self):
client = Client(endpoint=endpoint, appkey=appkey)
for i in six.moves.range(100):
client.start()
client.stop()
print_resource_usage()
def test_automatic_resubscribe(self):
client = Client(
endpoint=endpoint, appkey=appkey,
reconnect_interval=0)
client.observer = ClientObserver()
channel = make_channel_name('resubscribe')
client.start()
client.observer.wait_connected('First connect timeout')
so = sync_subscribe(client, channel)
sync_publish(client, channel, 'first-message')
first_channel_data = so.wait_for_channel_data()
emulate_websocket_disconnect(client)
so.wait_not_subscribed()
client.observer.wait_disconnected()
client.observer.wait_connected('Second connect timeout')
so.wait_subscribed('Second subscribe timeout')
sync_publish(client, channel, 'second-message')
second_channel_data = so.wait_for_channel_data()
client.unsubscribe(channel)
so.wait_not_subscribed()
client.stop()
client.dispose()
expected_log = [
'on_leave_unsubscribed',
'on_enter_subscribing',
'on_leave_subscribing',
'on_enter_subscribed',
('data', first_channel_data),
# point of disconnect
'on_leave_subscribed',
'on_enter_unsubscribed',
# point of reconnect
'on_leave_unsubscribed',
'on_enter_subscribing',
'on_leave_subscribing',
'on_enter_subscribed',
('data', second_channel_data),
'on_leave_subscribed',
'on_enter_unsubscribing',
'on_leave_unsubscribing',
'on_enter_unsubscribed',
'on_deleted']
self.assertEqual(so.log, expected_log)
def test_many_queued_publishes(self):
client = Client(endpoint=endpoint, appkey=appkey)
for i in six.moves.range(1000000):
client.publish(channel=channel, message=message)
print_resource_usage()
def test_many_idle_subscriptions(self):
client = Client(endpoint=endpoint, appkey=appkey)
for i in six.moves.range(10000):
client.subscribe(channel='{0}.{1}'.format(channel, i))
print_resource_usage()
def test_reauth(self):
client = Client(endpoint=endpoint, appkey=appkey, reconnect_interval=0)
auth_delegate = auth.RoleSecretAuthDelegate(role, secret)
auth_event = threading.Event()
mailbox = []
co = ClientObserver()
client.observer = co
client.start()
co.wait_connected()
def auth_callback(auth_result):
if type(auth_result) == auth.Done:
mailbox.append('Auth success')
auth_event.set()
else:
mailbox.append('Auth failure: {0}'.format(
auth_result.message))
auth_event.set()
client.authenticate(auth_delegate, auth_callback)
if not auth_event.wait(30):
raise RuntimeError("Auth timeout")
self.assertEqual(mailbox, ['Auth success'])
so = sync_subscribe(client, restricted_channel)
message1 = make_channel_name('before disconnect')
sync_publish(client, restricted_channel, message1)
first_data = so.wait_for_channel_data()
self.assertTrue(message1 in first_data['messages'])
emulate_websocket_disconnect(client)
co.wait_disconnected()
co.wait_connected()
message2 = make_channel_name('after reconnect')
sync_publish(client, restricted_channel, message2)
second_data = so.wait_for_channel_data()
self.assertTrue(message2 in second_data['messages'])
client.stop()
client.dispose()
def test_repeat_second_message(self):
client = Client(endpoint=endpoint, appkey=appkey, reconnect_interval=1)
client.observer = ClientObserver()
channel = make_channel_name('resubscribe')
client.start()
client.observer.wait_connected()
so = sync_subscribe(client, channel)
sync_publish(client, channel, 'first-message')
first_channel_data = so.wait_for_channel_data()
sync_publish(client, channel, 'second-message')
second_channel_data = so.wait_for_channel_data()
client.unsubscribe(channel)
client.subscribe(channel,
SubscriptionMode.ADVANCED,
so,
args={'position': first_channel_data['position']})
self.assertEqual(second_channel_data['messages'],
so.wait_for_channel_data()['messages'])
client.unsubscribe(channel)
so.wait_not_subscribed()
client.stop()
client.dispose()
def connect(self):
config = self.config
self.GPIO = GPIO
self.GPIO.setmode(self.GPIO.BOARD)
should_authenticate = 'role' in config[
'satori'] and 'role_secret_key' in config['satori']
auth_delegate = None if not should_authenticate else auth.RoleSecretAuthDelegate(
config['satori']['role'], config['satori']['role_secret_key'])
client = Client(
endpoint=config['satori']['endpoint'],
appkey=config['satori']['appkey'],
)
ready_event = threading.Event()
class Observer:
def on_enter_connected(self):
ready_event.set()
def on_enter_stopped(self):
ready_event.set()
client.observer = Observer()
client.start()
if not ready_event.wait(70):
if client.last_connecting_error():
client.dispose()
raise RuntimeError(
"Client connection timeout, last connection error: {0}".
format(client.last_connecting_error()))
else:
raise RuntimeError("Client connection timeout")
ready_event.clear()
if not client.is_connected():
client.dispose()
raise RuntimeError("Client connection error: {0}".format(
client.last_connecting_error()))
auth_mailbox = []
def auth_callback(auth_result):
auth_mailbox.append(auth_result)
ready_event.set()
if auth_delegate:
client.authenticate(auth_delegate, callback=auth_callback)
if not ready_event.wait(20):
client.dispose()
print('[FAIL] Authentication process has timed out')
raise Exception('Authentication process has timed out')
auth_result = auth_mailbox[0]
if type(auth_result) == auth.Error:
raise Exception(auth_result.message)
print('[OK] Auth success in make_client')
print("[OK] Connected to Satori RTM")
client.subscribe(config['channels']['in'], SubscriptionMode.SIMPLE,
self)
self.client = client
