def _test_retained(self):
"""
The MQTT client can set and receive retained messages.
"""
reactor, router, server_factory, session_factory = build_mqtt_server()
client_transport, client_protocol, mqtt_pump = connect_mqtt_server(
server_factory)
client_transport.write(
Connect(client_id=u"testclient",
username=u"test123",
password=u"password",
flags=ConnectFlags(clean_session=False,
username=True,
password=True)).serialise())
client_transport.write(
Publish(duplicate=False,
qos_level=1,
retain=True,
topic_name=u"com/test/wamp",
packet_identifier=123,
payload=b'{}').serialise())
mqtt_pump.flush()
self.assertEqual(
client_protocol.data,
(ConnACK(session_present=False, return_code=0).serialise() +
PubACK(packet_identifier=123).serialise()))
client_protocol.data = b""
client_transport.write(
Subscribe(packet_identifier=1,
topic_requests=[
SubscriptionTopicRequest(
topic_filter=u"com/test/wamp", max_qos=0)
]).serialise())
mqtt_pump.flush()
self.assertEqual(
client_protocol.data,
SubACK(packet_identifier=1, return_codes=[0]).serialise())
client_protocol.data = b""
reactor.advance(0.1)
mqtt_pump.flush()
# This needs to be replaced with the real deal, see https://github.com/crossbario/crossbar/issues/885
self.assertEqual(
client_protocol.data,
Publish(duplicate=False,
qos_level=0,
retain=True,
topic_name=u"com/test/wamp",
payload=json.dumps(
{}, sort_keys=True).encode('utf8')).serialise())
def _test_basic_publish(self):
reactor, router, server_factory, session_factory = build_mqtt_server()
session, pump = connect_application_session(
server_factory, ObservingSession, component_config=ComponentConfig(realm=u"mqtt"))
client_transport, client_protocol, mqtt_pump = connect_mqtt_server(server_factory)
client_transport.write(
Connect(client_id=u"testclient", username=u"test123", password=u"password",
flags=ConnectFlags(clean_session=False, username=True, password=True)).serialise())
mqtt_pump.flush()
# We get a CONNECT
self.assertEqual(client_protocol.data,
ConnACK(session_present=False, return_code=0).serialise())
client_protocol.data = b""
client_transport.write(
Publish(duplicate=False, qos_level=0, retain=False, topic_name=u"test", payload=b'{"kwargs": {"bar": "baz"}}').serialise())
mqtt_pump.flush()
pump.flush()
# This needs to be replaced with the real deal, see https://github.com/crossbario/crossbar/issues/885
self.assertEqual(len(session.events), 1)
self.assertEqual(
session.events,
[{"args": tuple(),
"kwargs": {u'bar': u'baz'}}])
def test_lose_conn_on_reserved_qos3(self):
"""
If we get, somehow, a QoS "3" Publish (one with both QoS bits set to
3), we will drop the connection.
Compliance statement: MQTT-3.3.1-4
"""
h = BasicHandler()
r, t, p, cp = make_test_items(h)
conn = Connect(client_id=u"test123",
flags=ConnectFlags(clean_session=False))
pub = Publish(duplicate=False,
qos_level=3,
retain=False,
topic_name=u"foo",
packet_identifier=1,
payload=b"bar")
with LogCapturer("trace") as logs:
p._handle_events([conn, pub])
sent_logs = logs.get_category("MQ403")
self.assertEqual(len(sent_logs), 1)
self.assertEqual(sent_logs[0]["log_level"], LogLevel.error)
self.assertTrue(t.disconnecting)
def test_qos_2_queues_message(self):
"""
The WAMP layer calling send_publish will queue a message up for
sending, and send it next time it has a chance.
"""
h = BasicHandler()
r, t, p, cp = make_test_items(h)
data = (Connect(client_id=u"test123",
flags=ConnectFlags(clean_session=True)).serialise())
for x in iterbytes(data):
p.dataReceived(x)
# Connect has happened
events = cp.data_received(t.value())
t.clear()
self.assertFalse(t.disconnecting)
self.assertIsInstance(events[0], ConnACK)
# WAMP layer calls send_publish, with QoS 2
p.send_publish(u"hello", 2, b'some bytes', False)
# Nothing should have been sent yet, it is queued
self.assertEqual(t.value(), b'')
# Advance the clock
r.advance(0.1)
# We should now get the sent Publish
expected_publish = Publish(duplicate=False,
qos_level=2,
retain=False,
packet_identifier=1,
topic_name=u"hello",
payload=b"some bytes")
events = cp.data_received(t.value())
t.clear()
self.assertEqual(len(events), 1)
self.assertEqual(events[0], expected_publish)
# We send the PubREC, which we should get a PubREL back with
pubrec = PubREC(packet_identifier=1)
for x in iterbytes(pubrec.serialise()):
p.dataReceived(x)
events = cp.data_received(t.value())
t.clear()
self.assertEqual(len(events), 1)
self.assertEqual(events[0], PubREL(packet_identifier=1))
# We send the PubCOMP, which has no response
pubcomp = PubCOMP(packet_identifier=1)
for x in iterbytes(pubcomp.serialise()):
p.dataReceived(x)
self.assertFalse(t.disconnecting)
def _(proto):
p.append(proto)
proto.transport.write(
Connect(client_id=u"test123",
flags=ConnectFlags(clean_session=False)).serialise())
proto.transport.write(
Publish(duplicate=False, qos_level=1, retain=False, topic_name=u"test", payload=b"{}", packet_identifier=1).serialise())
def _test_basic_subscribe(self):
"""
The MQTT client can subscribe to a WAMP topic and get messages.
"""
reactor, router, server_factory, session_factory = build_mqtt_server()
client_transport, client_protocol, mqtt_pump = connect_mqtt_server(
server_factory)
session, pump = connect_application_session(
server_factory,
ApplicationSession,
component_config=ComponentConfig(realm="mqtt",
controller=MockContainer()))
client_transport.write(
Connect(client_id="testclient",
username="******",
password="******",
flags=ConnectFlags(clean_session=False,
username=True,
password=True)).serialise())
client_transport.write(
Subscribe(packet_identifier=1,
topic_requests=[
SubscriptionTopicRequest(
topic_filter="com/test/wamp", max_qos=0)
]).serialise())
mqtt_pump.flush()
self.assertEqual(
client_protocol.data,
(ConnACK(session_present=False, return_code=0).serialise() +
SubACK(packet_identifier=1, return_codes=[0]).serialise()))
client_protocol.data = b""
session.publish("com.test.wamp", "bar")
pump.flush()
reactor.advance(0.1)
mqtt_pump.flush()
self.assertEqual(
client_protocol.data,
Publish(duplicate=False,
qos_level=0,
retain=False,
topic_name="com/test/wamp",
payload=b'{"args":["bar"]}').serialise())
def test_qos_1_sends_ack(self):
"""
When a QoS 1 Publish packet is recieved, we send a PubACK with the same
packet identifier as the original Publish.
Compliance statement MQTT-3.3.4-1
Spec part 3.4
"""
got_packets = []
class PubHandler(BasicHandler):
def process_publish_qos_1(self, event):
got_packets.append(event)
return succeed(None)
h = PubHandler()
r, t, p, cp = make_test_items(h)
pub = Publish(duplicate=False,
qos_level=1,
retain=False,
topic_name=u"foo",
packet_identifier=1,
payload=b"bar").serialise()
data = (Connect(client_id=u"test123",
flags=ConnectFlags(clean_session=True)).serialise() +
pub)
with LogCapturer("trace") as logs:
for x in iterbytes(data):
p.dataReceived(x)
events = cp.data_received(t.value())
self.assertFalse(t.disconnecting)
# ConnACK + PubACK with the same packet ID
self.assertEqual(len(events), 2)
self.assertEqual(events[1], PubACK(packet_identifier=1))
# The publish handler should have been called
self.assertEqual(len(got_packets), 1)
self.assertEqual(got_packets[0].serialise(), pub)
# We should get a debug message saying we got the publish
messages = logs.get_category("MQ202")
self.assertEqual(len(messages), 1)
self.assertEqual(messages[0]["publish"].serialise(), pub)
def test_qos_0_sends_no_ack(self):
"""
When a QoS 0 Publish packet is recieved, we don't send back a PubACK.
"""
got_packets = []
class PubHandler(BasicHandler):
def process_publish_qos_0(self, event):
got_packets.append(event)
return succeed(None)
h = PubHandler()
r, t, p, cp = make_test_items(h)
pub = Publish(duplicate=False,
qos_level=0,
retain=False,
topic_name=u"foo",
packet_identifier=None,
payload=b"bar").serialise()
data = (Connect(client_id=u"test123",
flags=ConnectFlags(clean_session=True)).serialise() +
pub)
with LogCapturer("trace") as logs:
for x in iterbytes(data):
p.dataReceived(x)
events = cp.data_received(t.value())
self.assertFalse(t.disconnecting)
# Just the connack, no puback.
self.assertEqual(len(events), 1)
# The publish handler should have been called
self.assertEqual(len(got_packets), 1)
self.assertEqual(got_packets[0].serialise(), pub)
# We should get a debug message saying we got the publish
messages = logs.get_category("MQ201")
self.assertEqual(len(messages), 1)
self.assertEqual(messages[0]["publish"].serialise(), pub)
def test_qos_0_queues_message(self):
"""
The WAMP layer calling send_publish will queue a message up for
sending, and send it next time it has a chance.
"""
h = BasicHandler()
r, t, p, cp = make_test_items(h)
data = (Connect(client_id=u"test123",
flags=ConnectFlags(clean_session=True)).serialise())
for x in iterbytes(data):
p.dataReceived(x)
# Connect has happened
events = cp.data_received(t.value())
t.clear()
self.assertFalse(t.disconnecting)
self.assertIsInstance(events[0], ConnACK)
# WAMP layer calls send_publish
p.send_publish(u"hello", 0, b'some bytes', False)
# Nothing should have been sent yet, it is queued
self.assertEqual(t.value(), b'')
# Advance the clock
r.advance(0.1)
# We should now get the sent Publish
events = cp.data_received(t.value())
self.assertEqual(len(events), 1)
self.assertEqual(
events[0],
Publish(duplicate=False,
qos_level=0,
retain=False,
packet_identifier=None,
topic_name=u"hello",
payload=b"some bytes"))
def test_qos_2_failure_drops_connection(self):
"""
Transient failures (like an exception from
handler.process_publish_qos_2) will cause the connection it happened on
to be dropped.
Compliance statement MQTT-4.8.0-2
"""
class PubHandler(BasicHandler):
def process_publish_qos_2(self, event):
raise Exception("boom!")
h = PubHandler()
r, t, p, cp = make_test_items(h)
data = (Connect(client_id=u"test123",
flags=ConnectFlags(clean_session=True)).serialise() +
Publish(duplicate=False,
qos_level=2,
retain=False,
topic_name=u"foo",
packet_identifier=1,
payload=b"bar").serialise())
with LogCapturer("trace") as logs:
for x in iterbytes(data):
p.dataReceived(x)
sent_logs = logs.get_category("MQ505")
self.assertEqual(len(sent_logs), 1)
self.assertEqual(sent_logs[0]["log_level"], LogLevel.critical)
self.assertEqual(sent_logs[0]["log_failure"].value.args[0], "boom!")
events = cp.data_received(t.value())
self.assertEqual(len(events), 1)
self.assertTrue(t.disconnecting)
# We got the error, we need to flush it so it doesn't make the test
# error
self.flushLoggedErrors()
def test_qos_2_resent_on_disconnect_pubcomp(self):
"""
If we send a QoS2 Publish and we did not get a PubCOMP from the client
before it disconnected, we will resend the PubREL packet if it
connects with a non-clean session.
Compliance statements: MQTT-4.4.0-1, MQTT-3.3.1-1
"""
h = BasicHandler()
r, t, p, cp = make_test_items(h)
data = (Connect(client_id=u"test123",
flags=ConnectFlags(clean_session=False)).serialise())
for x in iterbytes(data):
p.dataReceived(x)
# WAMP layer calls send_publish, with QoS 2
p.send_publish(u"hello", 2, b'some bytes', False)
# Advance the clock
r.advance(0.1)
# We should now get the sent Publish
expected_publish = Publish(duplicate=False,
qos_level=2,
retain=False,
packet_identifier=1,
topic_name=u"hello",
payload=b"some bytes")
events = cp.data_received(t.value())
t.clear()
self.assertEqual(len(events), 2)
self.assertEqual(events[1], expected_publish)
# We send the PubREC to this Publish
pubrec = PubREC(packet_identifier=1)
for x in iterbytes(pubrec.serialise()):
p.dataReceived(x)
# Should get a PubREL back
events = cp.data_received(t.value())
t.clear()
self.assertEqual(len(events), 1)
self.assertEqual(events[0], PubREL(packet_identifier=1))
# Disconnect the client
t.connected = False
t.loseConnection()
p.connectionLost(None)
r2, t2, p2, cp2 = make_test_items(h)
# We must NOT have a clean session
data = (Connect(client_id=u"test123",
flags=ConnectFlags(clean_session=False)).serialise())
for x in iterbytes(data):
p2.dataReceived(x)
# The flushing is queued, so we'll have to spin the reactor
r2.advance(0.1)
# Should get a resent PubREL back
events = cp2.data_received(t2.value())
t2.clear()
self.assertEqual(len(events), 2)
self.assertIsInstance(events[0], ConnACK)
self.assertEqual(events[1], PubREL(packet_identifier=1))
self.assertFalse(t2.disconnecting)
# We send the PubCOMP to this PubREL
pubcomp = PubCOMP(packet_identifier=1)
for x in iterbytes(pubcomp.serialise()):
p2.dataReceived(x)
# No more packets sent to us
events = cp2.data_received(t2.value())
self.assertEqual(len(events), 0)
self.assertFalse(t2.disconnecting)
def test_qos_1_resent_on_disconnect(self):
"""
If we send a QoS1 Publish and we did not get a PubACK from the client
before it disconnected, we will resend the Publish packet if it
connects with a non-clean session.
Compliance statements: MQTT-4.4.0-1, MQTT-3.3.1-1
"""
h = BasicHandler()
r, t, p, cp = make_test_items(h)
data = (
Connect(client_id="test123",
flags=ConnectFlags(clean_session=False)).serialise()
)
for x in iterbytes(data):
p.dataReceived(x)
# WAMP layer calls send_publish, with QoS 1
p.send_publish("hello", 1, b'some bytes', False)
# Advance the clock
r.advance(0.1)
# We should now get the sent Publish
expected_publish = Publish(duplicate=False, qos_level=1, retain=False,
packet_identifier=1, topic_name="hello",
payload=b"some bytes")
events = cp.data_received(t.value())
t.clear()
self.assertEqual(len(events), 2)
self.assertEqual(events[1], expected_publish)
# Disconnect the client
t.connected = False
t.loseConnection()
p.connectionLost(None)
r2, t2, p2, cp2 = make_test_items(h)
# We must NOT have a clean session
data = (
Connect(client_id="test123",
flags=ConnectFlags(clean_session=False)).serialise()
)
for x in iterbytes(data):
p2.dataReceived(x)
# The flushing is queued, so we'll have to spin the reactor
r2.advance(0.1)
# We should have two events; the ConnACK, and the Publish. The ConnACK
# MUST come first.
events = cp2.data_received(t2.value())
t2.clear()
self.assertEqual(len(events), 2)
self.assertIsInstance(events[0], ConnACK)
self.assertIsInstance(events[1], Publish)
# The Publish packet must have DUP set to True.
resent_publish = Publish(duplicate=True, qos_level=1, retain=False,
packet_identifier=1, topic_name="hello",
payload=b"some bytes")
self.assertEqual(events[1], resent_publish)
# We send the PubACK to this Publish
puback = PubACK(packet_identifier=1)
for x in iterbytes(puback.serialise()):
p2.dataReceived(x)
events = cp2.data_received(t2.value())
self.assertEqual(len(events), 0)
self.assertFalse(t2.disconnecting)
