# -*- coding: utf-8 -*- # BSD 2-Clause License # # Apprise - Push Notification Library. # Copyright (c) 2024, Chris Caron # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # # 1. Redistributions of source code must retain the above copyright notice, # this list of conditions and the following disclaimer. # # 2. Redistributions in binary form must reproduce the above copyright notice, # this list of conditions and the following disclaimer in the documentation # and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE # LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. import logging import re import sys import ssl from unittest.mock import call, Mock, ANY import pytest import apprise from apprise.plugins.mqtt import NotifyMQTT # Disable logging for a cleaner testing output logging.disable(logging.CRITICAL) @pytest.fixture def mqtt_client_mock(mocker): """ Mocks an MQTT client and response and returns the mocked client. """ if "paho" not in sys.modules: raise pytest.skip("Requires that `paho-mqtt` is installed") # Establish mock of the `publish()` response object. publish_result = Mock(**{ "rc": 0, "is_published.return_value": True, }) # Establish mock of the `Client()` object. mock_client = Mock(**{ "connect.return_value": 0, "reconnect.return_value": 0, "is_connected.return_value": True, "publish.return_value": publish_result, }) mocker.patch( "paho.mqtt.client.Client", return_value=mock_client) return mock_client @pytest.mark.skipif( 'paho' in sys.modules, reason="Requires that `paho-mqtt` is NOT installed") def test_plugin_mqtt_paho_import_error(): """ Verify `NotifyMQTT` is disabled when `paho.mqtt.client` fails loading. """ # without the library, the object can't be instantiated obj = apprise.Apprise.instantiate( 'mqtt://user:pass@localhost/my/topic') assert obj is None def test_plugin_mqtt_default_success(mqtt_client_mock): """ Verify `NotifyMQTT` succeeds and has appropriate default settings. """ # Instantiate the notifier. obj = apprise.Apprise.instantiate( 'mqtt://localhost:1234/my/topic', suppress_exceptions=False) assert isinstance(obj, NotifyMQTT) # We only loaded 1 topic assert len(obj) == 1 assert obj.url().startswith('mqtt://localhost:1234/my/topic') # Genrate the URL Identifier assert isinstance(obj.url_id(), str) # Verify default settings. assert re.search(r'qos=0', obj.url()) assert re.search(r'version=v3.1.1', obj.url()) assert re.search(r'session=no', obj.url()) assert re.search(r'client_id=', obj.url()) is None # Verify notification succeeds. assert obj.notify(body="test=test") is True # Send another notification (a new connection isn't attempted to be # established as one already exists) assert obj.notify(body="foo=bar") is True # Verify the right calls have been made to the MQTT client object. assert mqtt_client_mock.mock_calls == [ call.max_inflight_messages_set(200), call.connect('localhost', port=1234, keepalive=30), call.loop_start(), call.is_connected(), call.publish('my/topic', payload='test=test', qos=0, retain=False), call.publish().is_published(), call.is_connected(), call.publish('my/topic', payload='foo=bar', qos=0, retain=False), call.publish().is_published(), ] def test_plugin_mqtt_multiple_topics_success(mqtt_client_mock): """ Verify submission to multiple MQTT topics. """ # Designate multiple topic targets. obj = apprise.Apprise.instantiate( 'mqtt://localhost/my/topic,my/other/topic', suppress_exceptions=False) # Verify we have loaded 2 topics assert len(obj) == 2 assert isinstance(obj, NotifyMQTT) assert obj.url().startswith('mqtt://localhost') assert re.search(r'my/topic', obj.url()) assert re.search(r'my/other/topic', obj.url()) assert obj.notify(body="test=test") is True # Verify the right calls have been made to the MQTT client object. assert mqtt_client_mock.mock_calls == [ call.max_inflight_messages_set(200), call.connect('localhost', port=1883, keepalive=30), call.loop_start(), call.is_connected(), call.publish('my/topic', payload='test=test', qos=0, retain=False), call.publish().is_published(), call.is_connected(), call.publish('my/other/topic', payload='test=test', qos=0, retain=False), call.publish().is_published(), ] def test_plugin_mqtt_to_success(mqtt_client_mock): """ Verify `NotifyMQTT` succeeds with the `to=` parameter. """ # Leverage the `to=` argument to identify the topic. obj = apprise.Apprise.instantiate( 'mqtt://localhost?to=my/topic', suppress_exceptions=False) assert isinstance(obj, NotifyMQTT) assert obj.url().startswith('mqtt://localhost/my/topic') # Verify default settings. assert re.search(r'qos=0', obj.url()) assert re.search(r'version=v3.1.1', obj.url()) # Verify notification succeeds. assert obj.notify(body="test=test") is True def test_plugin_mqtt_valid_settings_success(mqtt_client_mock): """ Verify settings as URL parameters will be accepted. """ # Instantiate the notifier. obj = apprise.Apprise.instantiate( 'mqtt://localhost/my/topic?qos=1&version=v3.1', suppress_exceptions=False) assert isinstance(obj, NotifyMQTT) assert obj.url().startswith('mqtt://localhost') assert re.search(r'qos=1', obj.url()) assert re.search(r'version=v3.1', obj.url()) def test_plugin_mqtt_invalid_settings_failure(mqtt_client_mock): """ Verify notifier instantiation croaks on invalid settings. """ # Test case for invalid/unsupported MQTT version. with pytest.raises(TypeError): apprise.Apprise.instantiate( 'mqtt://localhost?version=v1.0.0.0', suppress_exceptions=False) # Test case for invalid/unsupported `qos`. with pytest.raises(TypeError): apprise.Apprise.instantiate( 'mqtt://localhost?qos=123', suppress_exceptions=False) with pytest.raises(TypeError): apprise.Apprise.instantiate( 'mqtt://localhost?qos=invalid', suppress_exceptions=False) def test_plugin_mqtt_bad_url_failure(mqtt_client_mock): """ Verify notifier is disabled when using an invalid URL. """ obj = apprise.Apprise.instantiate('mqtt://', suppress_exceptions=False) assert obj is None def test_plugin_mqtt_no_topic_failure(mqtt_client_mock): """ Verify notification fails when no topic is given. """ obj = apprise.Apprise.instantiate( 'mqtt://localhost', suppress_exceptions=False) assert isinstance(obj, NotifyMQTT) assert obj.notify(body="test=test") is False def test_plugin_mqtt_tls_connect_success(mqtt_client_mock): """ Verify TLS encrypted connections work. """ obj = apprise.Apprise.instantiate( 'mqtts://user:pass@localhost/my/topic', suppress_exceptions=False) assert isinstance(obj, NotifyMQTT) assert obj.url().startswith('mqtts://user:pass@localhost/my/topic') assert obj.notify(body="test=test") is True # Verify the right calls have been made to the MQTT client object. assert mqtt_client_mock.mock_calls == [ call.max_inflight_messages_set(200), call.username_pw_set('user', password='pass'), call.tls_set( ca_certs=ANY, certfile=None, keyfile=None, cert_reqs=ssl.VerifyMode.CERT_REQUIRED, tls_version=ssl.PROTOCOL_TLS, ciphers=None, ), call.tls_insecure_set(False), call.connect('localhost', port=8883, keepalive=30), call.loop_start(), call.is_connected(), call.publish('my/topic', payload='test=test', qos=0, retain=False), call.publish().is_published(), ] def test_plugin_mqtt_tls_no_certificates_failure(mqtt_client_mock, mocker): """ Verify TLS does not work without access to CA root certificates. """ # Clear CA certificates. mocker.patch.object(NotifyMQTT, "CA_CERTIFICATE_FILE_LOCATIONS", []) obj = apprise.Apprise.instantiate( 'mqtts://user:pass@localhost/my/topic', suppress_exceptions=False) assert isinstance(obj, NotifyMQTT) logger: Mock = mocker.spy(obj, "logger") # Verify notification fails w/o CA certificates. assert obj.notify(body="test=test") is False assert logger.mock_calls == [ call.error("MQTT secure communication can not be verified, " "CA certificates file missing") ] def test_plugin_mqtt_tls_no_verify_success(mqtt_client_mock): """ Verify TLS encrypted connections work with `verify=False`. """ # A single user (not password) + no verifying of host obj = apprise.Apprise.instantiate( 'mqtts://user:pass@localhost/my/topic?verify=False', suppress_exceptions=False) assert isinstance(obj, NotifyMQTT) assert obj.notify(body="test=test") is True # Verify the right calls have been made to the MQTT client object. # Let's only validate the single call of interest is present. # Everything else is identical with `test_plugin_mqtt_tls_connect_success`. assert call.tls_insecure_set(True) in mqtt_client_mock.mock_calls def test_plugin_mqtt_session_client_id_success(mqtt_client_mock): """ Verify handling `session=yes` and `client_id=` works. """ obj = apprise.Apprise.instantiate( 'mqtt://user@localhost/my/topic?session=yes&client_id=apprise', suppress_exceptions=False) assert isinstance(obj, NotifyMQTT) assert obj.url().startswith('mqtt://user@localhost') assert re.search(r'my/topic', obj.url()) assert re.search(r'client_id=apprise', obj.url()) assert re.search(r'session=yes', obj.url()) assert obj.notify(body="test=test") is True def test_plugin_mqtt_connect_failure(mqtt_client_mock): """ Verify `NotifyMQTT` fails when MQTT `connect()` fails. """ # Emulate a situation where the `connect()` method fails. mqtt_client_mock.connect.return_value = 2 obj = apprise.Apprise.instantiate( 'mqtt://localhost/my/topic', suppress_exceptions=False) # Verify notification fails. assert obj.notify(body="test=test") is False def test_plugin_mqtt_reconnect_failure(mqtt_client_mock): """ Verify `NotifyMQTT` fails when MQTT `reconnect()` fails. """ # Emulate a situation where MQTT reconnect fails. mqtt_client_mock.reconnect.return_value = 2 mqtt_client_mock.is_connected.return_value = False obj = apprise.Apprise.instantiate( 'mqtt://localhost/my/topic', suppress_exceptions=False) # Verify notification fails. assert obj.notify(body="test=test") is False def test_plugin_mqtt_publish_failure(mqtt_client_mock): """ Verify `NotifyMQTT` fails when MQTT `publish()` fails. """ # Emulate a situation where the `publish()` method fails. mqtt_response = mqtt_client_mock.publish.return_value mqtt_response.rc = 2 obj = apprise.Apprise.instantiate( 'mqtt://localhost/my/topic', suppress_exceptions=False) # Verify notification fails. assert obj.notify(body="test=test") is False def test_plugin_mqtt_exception_failure(mqtt_client_mock): """ Verify `NotifyMQTT` fails when an exception happens. """ obj = apprise.Apprise.instantiate( 'mqtt://localhost/my/topic', suppress_exceptions=False) # Emulate a situation where `connect()` raises an exception. mqtt_client_mock.connect.return_value = None # Verify notification fails. for side_effect in ( ValueError, ConnectionError, ssl.CertificateError): mqtt_client_mock.connect.side_effect = side_effect assert obj.notify(body="test=test") is False def test_plugin_mqtt_not_published_failure(mqtt_client_mock, mocker): """ Verify `NotifyMQTT` fails there if the message has not been published. """ # Speed up testing by making `NotifyMQTT` not block anywhere. mocker.patch.object(NotifyMQTT, "socket_read_timeout", 0.00025) mocker.patch.object(NotifyMQTT, "mqtt_block_time_sec", 0) # Emulate a situation where `is_published()` returns `False`. mqtt_response = mqtt_client_mock.publish.return_value mqtt_response.is_published.return_value = False obj = apprise.Apprise.instantiate( 'mqtt://localhost/my/topic', suppress_exceptions=False) # Verify notification fails. assert obj.notify(body="test=test") is False def test_plugin_mqtt_not_published_recovery_success(mqtt_client_mock): """ Verify `NotifyMQTT` success after recovering from is_published==False. """ # Emulate a situation where `is_published()` returns `False`. mqtt_response = mqtt_client_mock.publish.return_value mqtt_response.is_published.return_value = None mqtt_response.is_published.side_effect = (False, True) obj = apprise.Apprise.instantiate( 'mqtt://localhost/my/topic', suppress_exceptions=False) # Verify notification fails. assert obj.notify(body="test=test") is True