class TestOnuDeviceEntry(TestCase): """ Test the ONU Device Entry methods """ def setUp(self): self.adapter_agent = MockAdapterAgent() custom = deepcopy(OpenOmciAgentDefaults) custom['mib-synchronizer']['database'] = MibDbVolatileDict self.agent = OpenOMCIAgent(MockCore, support_classes=custom) self.agent.start() def tearDown(self): if self.agent is not None: self.agent.stop() if self.adapter_agent is not None: self.adapter_agent.tearDown() def setup_mock_olt(self, device_id=DEFAULT_OLT_DEVICE_ID): handler = MockOltHandler(self.adapter_agent, device_id) self.adapter_agent.add_device(handler.device) return handler def setup_mock_onu(self, parent_id=DEFAULT_OLT_DEVICE_ID, device_id=DEFAULT_ONU_DEVICE_ID, pon_id=DEFAULT_PON_ID, onu_id=DEFAULT_ONU_ID, serial_no=DEFAULT_ONU_SN): handler = MockOnuHandler(self.adapter_agent, parent_id, device_id, pon_id, onu_id) handler.serial_number = serial_no onu = MockOnu(serial_no, self.adapter_agent, handler.device_id) \ if serial_no is not None else None handler.onu_mock = onu return handler def setup_one_of_each(self): # Most tests will use at lease one or more OLT and ONU self.olt_handler = self.setup_mock_olt() self.onu_handler = self.setup_mock_onu( parent_id=self.olt_handler.device_id) self.onu_device = self.onu_handler.onu_mock self.adapter_agent.add_child_device(self.olt_handler.device, self.onu_handler.device) def test_add_remove_device(self): self.setup_one_of_each() self.assertEqual(len(self.agent.device_ids()), 0) onu_device = self.agent.add_device(DEFAULT_ONU_DEVICE_ID, self.adapter_agent) self.assertIsNotNone(onu_device) self.assertEqual(len(self.agent.device_ids()), 1) self.assertEqual(self.agent.get_device(DEFAULT_ONU_DEVICE_ID), onu_device) # No MIB if not started assert_raises(KeyError, onu_device.query_mib) self.agent.remove_device(DEFAULT_ONU_DEVICE_ID) self.assertEqual(len(self.agent.device_ids()), 1) def test_delete_device(self): self.setup_one_of_each() self.assertEqual(len(self.agent.device_ids()), 0) onu_device = self.agent.add_device(DEFAULT_ONU_DEVICE_ID, self.adapter_agent) self.assertIsNotNone(onu_device) self.assertEqual(len(self.agent.device_ids()), 1) self.assertEqual(self.agent.get_device(DEFAULT_ONU_DEVICE_ID), onu_device) # Can delete if it was not started onu_device.delete() self.assertEqual(len(self.agent.device_ids()), 0) ########################################## # Delete of ONU device okay if it is started onu_device = self.agent.add_device(DEFAULT_ONU_DEVICE_ID, self.adapter_agent) self.assertIsNotNone(onu_device) self.assertEqual(len(self.agent.device_ids()), 1) self.assertEqual(self.agent.get_device(DEFAULT_ONU_DEVICE_ID), onu_device) # Start it and then delete it onu_device.start() onu_device.delete() self.assertEqual(len(self.agent.device_ids()), 0) @deferred(timeout=5) def test_mib_query_fails_if_dev_not_started(self): self.setup_one_of_each() onu_device = self.agent.add_device(DEFAULT_ONU_DEVICE_ID, self.adapter_agent) self.assertIsNotNone(onu_device) self.assertEqual(len(self.agent.device_ids()), 1) self.assertEqual(self.agent.get_device(DEFAULT_ONU_DEVICE_ID), onu_device) def not_called(_reason): assert False, 'Should never be called' def check_status(_results): # Device not yet started. Query should fail with KeyError since # ONU is not in database yet assert_raises(KeyError, onu_device.query_mib) # Yield context so that MIB Database callLater runs. This is a waiting # Async task from when the OpenOMCIAgent was started. d = asleep(0.2) d.addCallbacks(check_status, not_called) return d @deferred(timeout=5) def test_mib_query_ok_if_dev_started(self): self.setup_one_of_each() onu_device = self.agent.add_device(DEFAULT_ONU_DEVICE_ID, self.adapter_agent) self.assertIsNotNone(onu_device) self.assertEqual(len(self.agent.device_ids()), 1) self.assertEqual(self.agent.get_device(DEFAULT_ONU_DEVICE_ID), onu_device) def not_called(_reason): onu_device.stop() assert False, 'Should never be called' def check_status(_results): # Device started. Query will succeed but nothing should be populated # but the most basic items results = onu_device.query_mib() self.assertTrue(isinstance(results, dict)) self.assertEqual(results.get(DEVICE_ID_KEY), DEFAULT_ONU_DEVICE_ID) self.assertIsNotNone(results.get(VERSION_KEY)) self.assertIsNotNone(results.get(CREATED_KEY)) self.assertIsNone( results.get(MODIFIED_KEY)) # Created! but not yet modified self.assertEqual(results.get(MDS_KEY), 0) self.assertIsNone(results.get(LAST_SYNC_KEY)) self.assertIsNone(results.get(CLASS_ID_KEY)) # Stopping still allows a query. Note you just delete a device # to clean up any associated databases onu_device.stop() results = onu_device.query_mib() self.assertTrue(isinstance(results, dict)) # Yield context so that MIB Database callLater runs. This is a waiting # Async task from when the OpenOMCIAgent was started. But also start the # device so that it's queued async state machines can run as well onu_device.start() d = asleep(0.2) d.addCallbacks(check_status, not_called) return d @deferred(timeout=5) def test_delete_scrubs_mib(self): self.setup_one_of_each() onu_device = self.agent.add_device(DEFAULT_ONU_DEVICE_ID, self.adapter_agent) self.assertIsNotNone(onu_device) self.assertEqual(len(self.agent.device_ids()), 1) self.assertEqual(self.agent.get_device(DEFAULT_ONU_DEVICE_ID), onu_device) def not_called(_reason): onu_device.stop() assert False, 'Should never be called' def check_status(_results): # Device started. Query will succeed but nothing should be populated # but the most basic items results = onu_device.query_mib() self.assertTrue(isinstance(results, dict)) self.assertEqual(results.get(DEVICE_ID_KEY), DEFAULT_ONU_DEVICE_ID) # Delete should wipe out any MIB data. Note that a delete of a started # or stopped ONU device is allowed. In this case we are deleting a # started ONU Device onu_device.delete() assert_raises(Exception, onu_device.query_mib) # TODO: When capabilities are supported, make sure capabilities get cleared as well # Yield context so that MIB Database callLater runs. This is a waiting # Async task from when the OpenOMCIAgent was started. But also start the # device so that it's queued async state machines can run as well onu_device.start() d = asleep(0.2) d.addCallbacks(check_status, not_called) return d
class TestOmciConfiguration(TestCase): """ Test the OMCI read-only Configuration library methods """ def setUp(self): self.adapter_agent = MockAdapterAgent() custom = deepcopy(OpenOmciAgentDefaults) custom['mib-synchronizer']['database'] = MibDbVolatileDict self.omci_agent = OpenOMCIAgent(MockCore, support_classes=custom) self.omci_agent.start() def tearDown(self): if self.omci_agent is not None: self.omci_agent.stop() if self.adapter_agent is not None: self.adapter_agent.tearDown() def setup_mock_olt(self, device_id=DEFAULT_OLT_DEVICE_ID): handler = MockOltHandler(self.adapter_agent, device_id) self.adapter_agent.add_device(handler.device) return handler def setup_mock_onu(self, parent_id=DEFAULT_OLT_DEVICE_ID, device_id=DEFAULT_ONU_DEVICE_ID, pon_id=DEFAULT_PON_ID, onu_id=DEFAULT_ONU_ID, serial_no=DEFAULT_ONU_SN): handler = MockOnuHandler(self.adapter_agent, parent_id, device_id, pon_id, onu_id) handler.serial_number = serial_no onu = MockOnu(serial_no, self.adapter_agent, handler.device_id) \ if serial_no is not None else None handler.onu_mock = onu return handler def setup_one_of_each(self): # Most tests will use at lease one or more OLT and ONU self.olt_handler = self.setup_mock_olt() self.onu_handler = self.setup_mock_onu( parent_id=self.olt_handler.device_id) self.onu_device = self.onu_handler.onu_mock self.adapter_agent.add_child_device(self.olt_handler.device, self.onu_handler.device) # Add device to OpenOMCI self.onu_device = self.omci_agent.add_device(DEFAULT_ONU_DEVICE_ID, self.adapter_agent) # Allow timeout trigger support while in disabled state for mib sync # to make tests run cleanly while profiling. self.onu_device.mib_synchronizer.machine.add_transition( 'timeout', 'disabled', 'disabled') def not_called(self, _reason): assert False, 'Should never be called' def _stuff_database(self, entries): """ Stuff the MIB database with some entries that we will use during tests """ database = self.onu_device.mib_synchronizer._database # Stuff a value into last in sync. This makes it look like # the ONU has been in in-sync at least once. self.onu_device.mib_synchronizer.last_mib_db_sync = datetime.utcnow() # Entry is a tuple of (class_id, instance_id, {attributes}) for entry in entries: database.set(DEFAULT_ONU_DEVICE_ID, entry[0], entry[1], entry[2]) def test_OMCCVersion(self): for key, value in OMCCVersion.__members__.items(): self.assertEqual(OMCCVersion.to_enum(OMCCVersion[key].value), value) self.assertEqual(OMCCVersion.to_enum(-1), OMCCVersion.Unknown) @deferred(timeout=50000) def test_defaults(self): self.setup_one_of_each() self.assertEqual(len(self.omci_agent.device_ids()), 1) @raises(AssertionError) def do_my_tests(_results): config = self.onu_device.configuration # Should raise assertion if never been synchronized config.version # No capabilities available until started self.assertIsNone(self.onu_device.configuration) # Yield context so that MIB Database callLater runs. This is a waiting # Async task from when the OpenOMCIAgent was started. But also start the # device so that it's queued async state machines can run as well self.onu_device.start() d = asleep(0.2) d.addCallbacks(do_my_tests, self.not_called) return d @deferred(timeout=5) def test_in_sync_but_empty(self): self.setup_one_of_each() self.assertEqual(len(self.omci_agent.device_ids()), 1) def stuff_db(_results): self._stuff_database([]) def do_my_tests(_results): config = self.onu_device.configuration # On no Class ID for requested property, None should be # returned self.assertIsNone(config.version) self.assertIsNone(config.traffic_management_option) self.assertIsNone(config.onu_survival_time) self.assertIsNone(config.equipment_id) self.assertIsNone(config.omcc_version) self.assertIsNone(config.vendor_product_code) self.assertIsNone(config.total_priority_queues) self.assertIsNone(config.total_traffic_schedulers) self.assertIsNone(config.total_gem_ports) self.assertIsNone(config.uptime) self.assertIsNone(config.connectivity_capability) self.assertIsNone(config.qos_configuration_flexibility) self.assertIsNone(config.priority_queue_scale_factor) self.assertIsNone(config.cardholder_entities) self.assertIsNone(config.circuitpack_entities) self.assertIsNone(config.software_images) self.assertIsNone(config.ani_g_entities) self.assertIsNone(config.uni_g_entities) # No capabilities available until started self.assertIsNone(self.onu_device.configuration) # Yield context so that MIB Database callLater runs. self.onu_device.start() d = asleep(0.2) d.addCallbacks(stuff_db, self.not_called) d.addCallbacks(do_my_tests, self.not_called) return d @deferred(timeout=5) def test_in_sync_with_ont_g_values(self): self.setup_one_of_each() self.assertEqual(len(self.omci_agent.device_ids()), 1) version = 'abcDEF' tm_opt = 2 onu_survival = 123 def stuff_db(_results): self._stuff_database([(OntG.class_id, 0, { 'version': version, 'traffic_management_options': tm_opt, 'ont_survival_time': onu_survival })]) def do_my_tests(_results): config = self.onu_device.configuration # On no Class ID for requested property, None should be # returned self.assertEqual(config.version, version) self.assertEqual(config.traffic_management_option, tm_opt) self.assertEqual(config.onu_survival_time, onu_survival) # No capabilities available until started self.assertIsNone(self.onu_device.configuration) # Yield context so that MIB Database callLater runs. self.onu_device.start() d = asleep(0.2) d.addCallbacks(stuff_db, self.not_called) d.addCallbacks(do_my_tests, self.not_called) return d @deferred(timeout=5) def test_in_sync_with_ont_2g_values(self): self.setup_one_of_each() self.assertEqual(len(self.omci_agent.device_ids()), 1) equip_id = 'br-549' omcc_ver = OMCCVersion.G_988_2012 vend_code = 0x1234 queues = 64 scheds = 8 gem_ports = 24 uptime = 12345 conn_capp = 0x00aa qos_flex = 0x001b queue_scale = 1 def stuff_db(_results): self._stuff_database([(Ont2G.class_id, 0, { 'equipment_id': equip_id, 'omcc_version': omcc_ver.value, 'vendor_product_code': vend_code, 'total_priority_queue_number': queues, 'total_traffic_scheduler_number': scheds, 'total_gem_port_id_number': gem_ports, 'sys_uptime': uptime, 'connectivity_capability': conn_capp, 'qos_configuration_flexibility': qos_flex, 'priority_queue_scale_factor': queue_scale })]) def do_my_tests(_results): config = self.onu_device.configuration self.assertEqual(config.equipment_id, equip_id) self.assertEqual(config.omcc_version, omcc_ver) self.assertEqual(config.vendor_product_code, vend_code) self.assertEqual(config.total_priority_queues, queues) self.assertEqual(config.total_traffic_schedulers, scheds) self.assertEqual(config.total_gem_ports, gem_ports) self.assertEqual(config.uptime, uptime) self.assertEqual(config.connectivity_capability, conn_capp) self.assertEqual(config.qos_configuration_flexibility, qos_flex) self.assertEqual(config.priority_queue_scale_factor, queue_scale) # No capabilities available until started self.assertIsNone(self.onu_device.configuration) # Yield context so that MIB Database callLater runs. self.onu_device.start() d = asleep(0.2) d.addCallbacks(stuff_db, self.not_called) d.addCallbacks(do_my_tests, self.not_called) return d @deferred(timeout=5) def test_in_sync_with_cardholder_values(self): self.setup_one_of_each() self.assertEqual(len(self.omci_agent.device_ids()), 1) ch_entity = 0x102 unit_type = 255 clie_code = 'abc123' prot_ptr = 0 def stuff_db(_results): self._stuff_database([(Cardholder.class_id, ch_entity, { 'actual_plugin_unit_type': unit_type, 'actual_equipment_id': clie_code, 'protection_profile_pointer': prot_ptr, })]) def do_my_tests(_results): config = self.onu_device.configuration cardholder = config.cardholder_entities self.assertTrue(isinstance(cardholder, dict)) self.assertEqual(len(cardholder), 1) self.assertEqual(cardholder[ch_entity]['entity-id'], ch_entity) self.assertEqual(cardholder[ch_entity]['is-single-piece'], ch_entity >= 256) self.assertEqual(cardholder[ch_entity]['slot-number'], ch_entity & 0xFF) self.assertEqual(cardholder[ch_entity]['actual-plug-in-type'], unit_type) self.assertEqual(cardholder[ch_entity]['actual-equipment-id'], clie_code) self.assertEqual(cardholder[ch_entity]['protection-profile-ptr'], prot_ptr) # No capabilities available until started self.assertIsNone(self.onu_device.configuration) # Yield context so that MIB Database callLater runs. self.onu_device.start() d = asleep(0.2) d.addCallbacks(stuff_db, self.not_called) d.addCallbacks(do_my_tests, self.not_called) return d @deferred(timeout=5) def test_in_sync_with_circuitpack_values(self): self.setup_one_of_each() self.assertEqual(len(self.omci_agent.device_ids()), 1) cp_entity = 0x100 num_ports = 1 serial_num = 'ABCD01234' cp_version = '1234ABCD' vendor_id = 'AB-9876' tconts = 2 pqueues = 64 sched_count = 8 def stuff_db(_results): self._stuff_database([(CircuitPack.class_id, cp_entity, { 'number_of_ports': num_ports, 'serial_number': serial_num, 'version': cp_version, 'vendor_id': vendor_id, 'total_tcont_buffer_number': tconts, 'total_priority_queue_number': pqueues, 'total_traffic_scheduler_number': sched_count, })]) def do_my_tests(_results): config = self.onu_device.configuration circuitpack = config.circuitpack_entities self.assertTrue(isinstance(circuitpack, dict)) self.assertEqual(len(circuitpack), 1) self.assertEqual(circuitpack[cp_entity]['entity-id'], cp_entity) self.assertEqual(circuitpack[cp_entity]['number-of-ports'], num_ports) self.assertEqual(circuitpack[cp_entity]['serial-number'], serial_num) self.assertEqual(circuitpack[cp_entity]['version'], cp_version) self.assertEqual(circuitpack[cp_entity]['vendor-id'], vendor_id) self.assertEqual(circuitpack[cp_entity]['total-tcont-count'], tconts) self.assertEqual( circuitpack[cp_entity]['total-priority-queue-count'], pqueues) self.assertEqual( circuitpack[cp_entity]['total-traffic-sched-count'], sched_count) # No capabilities available until started self.assertIsNone(self.onu_device.configuration) # Yield context so that MIB Database callLater runs. self.onu_device.start() d = asleep(0.2) d.addCallbacks(stuff_db, self.not_called) d.addCallbacks(do_my_tests, self.not_called) return d @deferred(timeout=5) def test_in_sync_with_software_values(self): self.setup_one_of_each() self.assertEqual(len(self.omci_agent.device_ids()), 1) sw_entity = 0x200 sw_version = 'Beta-0.0.2' sw_hash = md5("just_a_test").hexdigest() prod_code = 'MySoftware' sw_active = True sw_committed = True sw_valid = True def stuff_db(_results): self._stuff_database([(SoftwareImage.class_id, sw_entity, { 'version': sw_version, 'is_committed': sw_committed, 'is_active': sw_active, 'is_valid': sw_valid, 'product_code': prod_code, 'image_hash': sw_hash, })]) def do_my_tests(_results): config = self.onu_device.configuration images = config.software_images self.assertTrue(isinstance(images, list)) self.assertEqual(len(images), 1) self.assertEqual( images[0].name, 'running-revision' if sw_active else 'candidate-revision') self.assertEqual(images[0].version, sw_version) self.assertEqual(images[0].is_active, 1 if sw_active else 0) self.assertEqual(images[0].is_committed, 1 if sw_committed else 0) self.assertEqual(images[0].is_valid, 1 if sw_valid else 0) self.assertEqual(images[0].hash, sw_hash) # No capabilities available until started self.assertIsNone(self.onu_device.configuration) # Yield context so that MIB Database callLater runs. self.onu_device.start() d = asleep(0.2) d.addCallbacks(stuff_db, self.not_called) d.addCallbacks(do_my_tests, self.not_called) return d @deferred(timeout=5) def test_in_sync_with_ani_g_values(self): self.setup_one_of_each() self.assertEqual(len(self.omci_agent.device_ids()), 1) entity_id = 0x0106 tconts = 4 dba_report = 4 def stuff_db(_results): self._stuff_database([(AniG.class_id, entity_id, { 'total_tcont_number': tconts, 'piggyback_dba_reporting': dba_report })]) def do_my_tests(_results): config = self.onu_device.configuration anig = config.ani_g_entities self.assertTrue(isinstance(anig, dict)) self.assertEqual(len(anig), 1) self.assertEqual(anig[entity_id]['entity-id'], entity_id) self.assertEqual(anig[entity_id]['slot-number'], (entity_id >> 8) & 0xff) self.assertEqual(anig[entity_id]['port-number'], entity_id & 0xff) self.assertEqual(anig[entity_id]['total-tcont-count'], tconts) self.assertEqual(anig[entity_id]['piggyback-dba-reporting'], dba_report) # No capabilities available until started self.assertIsNone(self.onu_device.configuration) # Yield context so that MIB Database callLater runs. self.onu_device.start() d = asleep(0.2) d.addCallbacks(stuff_db, self.not_called) d.addCallbacks(do_my_tests, self.not_called) return d @deferred(timeout=5) def test_in_sync_with_uni_g_values(self): self.setup_one_of_each() self.assertEqual(len(self.omci_agent.device_ids()), 1) entity_id = 0x4321 mgmt_cap = 0 def stuff_db(_results): self._stuff_database([(UniG.class_id, entity_id, { 'management_capability': mgmt_cap })]) def do_my_tests(_results): config = self.onu_device.configuration unig = config.uni_g_entities self.assertTrue(isinstance(unig, dict)) self.assertEqual(len(unig), 1) self.assertEqual(unig[entity_id]['entity-id'], entity_id) self.assertEqual(unig[entity_id]['management-capability'], mgmt_cap) # No capabilities available until started self.assertIsNone(self.onu_device.configuration) # Yield context so that MIB Database callLater runs. self.onu_device.start() d = asleep(0.2) d.addCallbacks(stuff_db, self.not_called) d.addCallbacks(do_my_tests, self.not_called) return d
class TestOmciDownload(TestCase): # def __init__(self, device_id='1', image_file='/home/lcui/work/tmp/v_change.txt', **kwargs): # self.device_id = device_id # self.image_file = image_file # super(TestOmciDownload, self).__init__(**kwargs) sw_dwld_resp = { 'tid': '0001', 'mid': '33', 'did': '0A', 'entity_class': '0007', 'entity_id': '0000', 'reason': '0000', 'window_size': '001F', 'inst_num': '0001', 'inst_id': '0000', 'trailer': '00000028', 'mic': '00000000' } # sw_dwld_resp = '0001330A000700000000001f010000' ### Test Functions ### def sim_receive_start_sw_download_resp(self, tid, eid, r=0): msg = OmciFrame( transaction_id=tid, message_type=OmciStartSoftwareDownloadResponse.message_id, omci_message=OmciStartSoftwareDownloadResponse(entity_class=0x7, entity_id=eid, result=r, window_size=0x1F, image_number=1, instance_id=eid)) self.device.omci_cc.receive_message(msg) def sim_receive_download_section_resp(self, tid, eid, section, r=0): msg = OmciFrame(transaction_id=tid, message_type=OmciDownloadSectionResponse.message_id, omci_message=OmciDownloadSectionResponse( entity_class=0x7, entity_id=eid, result=r, section_number=section)) self.device.omci_cc.receive_message(msg) def sim_receive_end_sw_download_resp(self, tid, eid, r=0): msg = OmciFrame( transaction_id=tid, message_type=OmciEndSoftwareDownloadResponse.message_id, omci_message=OmciEndSoftwareDownloadResponse(entity_class=0x7, entity_id=eid, result=r, image_number=0x1, instance_id=eid, result0=0x0)) self.device.omci_cc.receive_message(msg) def sim_receive_activate_image_resp(self, tid, eid, r=0): msg = OmciFrame(transaction_id=tid, message_type=OmciActivateImageResponse.message_id, omci_message=OmciActivateImageResponse( entity_class=0x7, entity_id=eid, result=r)) self.device.omci_cc.receive_message(msg) def sim_receive_commit_image_resp(self, tid, eid, r=0): msg = OmciFrame(transaction_id=tid, message_type=OmciCommitImageResponse.message_id, omci_message=OmciCommitImageResponse(entity_class=0x7, entity_id=eid, result=r)) self.device.omci_cc.receive_message(msg) def cb_after_send_omci(self, msg): self.log.debug("cb_after_send_omci") dmsg = OmciFrame(binascii.unhexlify(msg)) tid = dmsg.fields['transaction_id'] mid = dmsg.fields['message_type'] dmsg_body = dmsg.fields['omci_message'] eid = dmsg_body.fields['entity_id'] # print("%X" % dmsg.fields['transaction_id']) # print("%X" % dmsg.fields['message_type']) # print("%X" % OmciActivateImage.message_id) # print("%X" % dmsg_body.fields['entity_id']) if mid == OmciStartSoftwareDownload.message_id: self.log.debug("response start download") self.reactor.callLater(0, self.sim_receive_start_sw_download_resp, tid, eid) elif mid == OmciEndSoftwareDownload.message_id: self.log.debug("response end download") if self._end_image_busy_try > 0: self.reactor.callLater(0, self.sim_receive_end_sw_download_resp, tid, eid, r=6) self._end_image_busy_try -= 1 else: self.reactor.callLater(0, self.sim_receive_end_sw_download_resp, tid, eid) elif mid == OmciDownloadSection.message_id: self.log.debug("receive download section, not respond") elif mid == OmciDownloadSectionLast.message_id: self.log.debug("response download last section") self.reactor.callLater(0, self.sim_receive_download_section_resp, tid, eid, section=dmsg_body.fields["section_number"]) elif mid == OmciActivateImage.message_id: self.log.debug("response activate image") if self._act_image_busy_try > 0: self.reactor.callLater(0, self.sim_receive_activate_image_resp, tid, eid, r=6) self._act_image_busy_try -= 1 else: self.reactor.callLater(0, self.sim_receive_activate_image_resp, tid, eid) self.reactor.callLater(2, self.device.image_agent.onu_bootup) elif mid == OmciCommitImage.message_id: self.log.debug("response commit image") self.reactor.callLater(0, self.sim_receive_commit_image_resp, tid, eid) else: self.log.debug("Unsupported message type", message_type=mid) self.defer = Deferred() self.defer.addCallback(self.cb_after_send_omci) self.adapter_agent.send_omci_defer = self.defer def setUp(self): self.log = structlog.get_logger() self.log.debug("do setup") self.device_id = '1' self._image_dnld = ImageDownload() self._image_dnld.id = '1' self._image_dnld.name = 'switchd_1012' # self._image_dnld.name = 'xgsont_4.4.4.006.img' self._image_dnld.url = 'http://192.168.100.222:9090/load/4.4.4.006.img' self._image_dnld.crc = 0 self._image_dnld.local_dir = '/home/lcui/work/tmp' self._image_dnld.state = ImageDownload.DOWNLOAD_SUCCEEDED # ImageDownload.DOWNLOAD_UNKNOWN self._end_image_busy_try = 2 self._act_image_busy_try = 0 # self.image_file = '/home/lcui/work/tmp/v_change.txt' self.reactor = EPollReactor() self.defer = Deferred() self.adapter_agent = MockAdapterAgent(self.defer) self.defer.addCallback(self.cb_after_send_omci) pb2_dev = Device(id='1') self.adapter_agent.add_device(pb2_dev) self.core = self.adapter_agent.core self.omci_agent = OpenOMCIAgent(self.core, clock=self.reactor) self.device = self.omci_agent.add_device(self.device_id, self.adapter_agent) self.omci_agent.start() self.omci_agent.database.add('1') self.omci_agent.database.set('1', SoftwareImage.class_id, 0, { "is_committed": 1, "is_active": 1, "is_valid": 1 }) self.omci_agent.database.set('1', SoftwareImage.class_id, 1, { "is_committed": 0, "is_active": 0, "is_valid": 1 }) def tearDown(self): self.log.debug("Test is Done") self.omci_agent.database.remove('1') self.device = None def stop(self): self.reactor.stop() self.log.debug("stopped") def get_omci_msg(self, *args, **kargs): m = '' for s in args: m += s m = m.ljust(80, '0') return m + kargs['trailer'] + kargs['mic'] def sim_receive_sw_download_resp2(self): r = self.get_omci_msg(self.sw_dwld_resp['tid'], self.sw_dwld_resp['mid'], self.sw_dwld_resp['did'], self.sw_dwld_resp['entity_class'], self.sw_dwld_resp['entity_id'], self.sw_dwld_resp['reason'], self.sw_dwld_resp['window_size'], self.sw_dwld_resp['inst_num'], self.sw_dwld_resp['inst_id'], trailer=self.sw_dwld_resp['trailer'], mic=self.sw_dwld_resp['mic']) data = binascii.unhexlify(r) #msg = OmciFrame(data) #print(msg.fields['transaction_id']) #print(msg.fields['omci']) self.device.omci_cc.receive_message(data) def sw_action_success(self, instance_id, device_id): self.log.debug("Action Success", device_id=device_id, entity_id=instance_id) self.reactor.callLater(0, self.onu_do_activate) def sw_action2_success(self, instance_id, device_id): self.log.debug("Action2 Success", device_id=device_id, entity_id=instance_id) def sw_action_fail(self, fail, device_id): self.log.debug("Finally Failed", device_id=device_id) self.log.debug(fail) # def test_onu_do_activate(self): def onu_do_activate(self): self.log.debug("do test_onu_do_activate") self.defer = self.device.do_onu_image_activate(self._image_dnld.name) self.defer.addCallbacks(self.sw_action2_success, self.sw_action_fail, callbackArgs=(self.device_id, ), errbackArgs=(self.device_id, )) self.reactor.callLater(100, self.stop) # self.reactor.run() @skip("for Jenkins Verification") def test_onu_do_software_upgrade(self): self.log.debug("do test_onu_do_software_upgrade", download=self._image_dnld) dr = self.omci_agent.database.query('1', SoftwareImage.class_id, 0, "is_committed") self.defer = self.device.do_onu_software_download(self._image_dnld) self.defer.addCallbacks(self.sw_action_success, self.sw_action_fail, callbackArgs=(self.device_id, ), errbackArgs=(self.device_id, )) # self.defer.addCallbacks(self.sw_action_success, self.sw_action_fail) #, errbackArgs=(self.device_id,)) # self.reactor.callLater(1, self.sim_receive_start_sw_download_resp) # self.reactor.callLater(12, self.stop) self.reactor.run() @skip("Not used") def test_omci_message(self): self.log.debug("do test_omci_message") r = self.get_omci_msg(self.sw_dwld_resp['tid'], self.sw_dwld_resp['mid'], self.sw_dwld_resp['did'], self.sw_dwld_resp['entity_class'], self.sw_dwld_resp['entity_id'], self.sw_dwld_resp['reason'], self.sw_dwld_resp['window_size'], self.sw_dwld_resp['inst_num'], self.sw_dwld_resp['inst_id'], trailer=self.sw_dwld_resp['trailer'], mic=self.sw_dwld_resp['mic']) data = binascii.unhexlify(r) msg = OmciFrame(data) self.log.debug(binascii.hexlify(str(msg))) # print("%04X" % msg.fields['transaction_id']) # print("%02X" % msg.fields['message_type']) # print("%02X" % msg.fields['omci']) # print("%X" % msg.fields['omci_message']) @skip("Not used") def test_omci_message2(self): self.log.debug("do test_omci_message2") msg = OmciFrame( transaction_id=0x0001, message_type=OmciStartSoftwareDownloadResponse.message_id, omci_message=OmciStartSoftwareDownloadResponse(entity_class=0x7, entity_id=0x0, result=0x0, window_size=0x1F, image_number=1, instance_id=0)) self.log.debug(binascii.hexlify(str(msg)))