#!/usr/bin/env python3 # Test whether the broker reduces the message expiry interval when republishing. # MQTT v5, with a broker restart and persistence. # Client connects with clean session set false, subscribes with qos=1, then disconnects # Helper publishes two messages, one with a short expiry and one with a long expiry # We wait until the short expiry will have expired but the long one not. # Client reconnects, expects delivery of the long expiry message with a reduced # expiry interval property. from mosq_test_helper import * def write_config(filename, port): with open(filename, 'w') as f: f.write("port %d\n" % (port)) f.write("persistence true\n") f.write("persistence_file mosquitto-%d.db\n" % (port)) port = mosq_test.get_port() conf_file = os.path.basename(__file__).replace('.py', '.conf') write_config(conf_file, port) rc = 1 keepalive = 60 props = mqtt5_props.gen_uint32_prop(mqtt5_props.PROP_SESSION_EXPIRY_INTERVAL, 60) connect_packet = mosq_test.gen_connect("subpub-qos0-test", keepalive=keepalive, proto_ver=5, clean_session=False, properties=props) connack1_packet = mosq_test.gen_connack(rc=0, proto_ver=5) connack2_packet = mosq_test.gen_connack(rc=0, proto_ver=5, flags=1) mid = 53 subscribe_packet = mosq_test.gen_subscribe(mid, "subpub/qos1", 1, proto_ver=5) suback_packet = mosq_test.gen_suback(mid, 1, proto_ver=5) helper_connect = mosq_test.gen_connect("helper", proto_ver=5) helper_connack = mosq_test.gen_connack(rc=0, proto_ver=5) mid=1 props = mqtt5_props.gen_uint32_prop(mqtt5_props.PROP_MESSAGE_EXPIRY_INTERVAL, 1) publish1s_packet = mosq_test.gen_publish("subpub/qos1", mid=mid, qos=1, payload="message1", proto_ver=5, properties=props) puback1s_packet = mosq_test.gen_puback(mid) mid=2 props = mqtt5_props.gen_uint32_prop(mqtt5_props.PROP_MESSAGE_EXPIRY_INTERVAL, 100) publish2s_packet = mosq_test.gen_publish("subpub/qos1", mid=mid, qos=1, payload="message2", proto_ver=5, properties=props) puback2s_packet = mosq_test.gen_puback(mid) mid=3 publish3_packet = mosq_test.gen_publish("subpub/qos1", mid=mid, qos=1, payload="message3", proto_ver=5) puback3_packet = mosq_test.gen_puback(mid) if os.path.exists('mosquitto-%d.db' % (port)): os.unlink('mosquitto-%d.db' % (port)) port = mosq_test.get_port() broker = mosq_test.start_broker(filename=os.path.basename(__file__), use_conf=True, port=port) try: sock = mosq_test.do_client_connect(connect_packet, connack1_packet, timeout=20, port=port) mosq_test.do_send_receive(sock, subscribe_packet, suback_packet, "suback") sock.close() helper = mosq_test.do_client_connect(helper_connect, helper_connack, timeout=20, port=port) mosq_test.do_send_receive(helper, publish1s_packet, puback1s_packet, "puback 1") mosq_test.do_send_receive(helper, publish2s_packet, puback2s_packet, "puback 2") mosq_test.do_send_receive(helper, publish3_packet, puback3_packet, "puback 3") broker.terminate() broker.wait() (stdo1, stde1) = broker.communicate() sock.close() broker = mosq_test.start_broker(filename=os.path.basename(__file__), use_conf=True, port=port) if os.environ.get('TRAVIS') is not None: time.sleep(5) else: time.sleep(2) sock = mosq_test.do_client_connect(connect_packet, connack2_packet, timeout=20, port=port) packet = sock.recv(len(publish2s_packet)) for i in range(100, 1, -1): props = mqtt5_props.gen_uint32_prop(mqtt5_props.PROP_MESSAGE_EXPIRY_INTERVAL, i) publish2r_packet = mosq_test.gen_publish("subpub/qos1", mid=2, qos=1, payload="message2", proto_ver=5, properties=props) if packet == publish2r_packet: mosq_test.expect_packet(sock, "publish3", publish3_packet) rc = 0 break sock.close() finally: os.remove(conf_file) broker.terminate() broker.wait() (stdo, stde) = broker.communicate() if rc: print(stde.decode('utf-8')) if os.path.exists('mosquitto-%d.db' % (port)): os.unlink('mosquitto-%d.db' % (port)) exit(rc)