def create_controller(pg, controller_type, properties, start, name=None): controller_type = get_controller_type(controller_type) controller = canvas.create_controller(pg, controller_type, name) controller = canvas.get_controller(controller.id, 'id') canvas.update_controller(controller, nifi.ControllerServiceDTO(properties=properties)) controller = canvas.get_controller(controller.id, 'id') canvas.schedule_controller(controller, start) return canvas.get_controller(controller.id, 'id')
def test_get_controller(regress_nifi, fix_pg, fix_cont): f_pg = fix_pg.generate() f_c1 = fix_cont(parent_pg=f_pg) r1 = canvas.get_controller(f_c1.id, 'id') assert r1 is not None assert isinstance(r1, nifi.ControllerServiceEntity) r2 = canvas.get_controller(f_c1.component.name) assert r2.component.name == f_c1.component.name _ = fix_cont(parent_pg=f_pg, kind='DistributedMapCacheServer') r3 = canvas.get_controller('DistributedMapCache') assert len(r3) == 2
def test_delete_controller(regress_nifi, fix_pg, fix_cont): f_pg = fix_pg.generate() f_c1 = fix_cont(parent_pg=f_pg) r1 = canvas.delete_controller(f_c1) assert r1.revision is None f_c2 = fix_cont(parent_pg=f_pg) f_c2 = canvas.update_controller( f_c2, nifi.ControllerServiceDTO(properties={'Server Hostname': 'Bob'})) f_c2 = canvas.schedule_controller(f_c2, True) with pytest.raises(AssertionError): _ = canvas.delete_controller('pie') with pytest.raises(AssertionError): _ = canvas.delete_controller(f_c2, 'pie') with pytest.raises(ValueError): _ = canvas.delete_controller(f_c2) assert f_c2.revision is not None r2 = canvas.delete_controller(f_c2, True) assert r2.revision is None # Test for only delete within a PG f_c_root = fix_cont() f_c_pg = fix_cont(parent_pg=f_pg) r3 = canvas.delete_process_group(f_pg) assert r3.revision is None r4 = canvas.get_controller(identifier=f_c_root.id, identifier_type='id') assert r4.revision is not None
def lab4_nifi_flow(env): LOG.info("Running step4_nifi_flow") # Create a bucket in NiFi Registry to save the edge flow versions env.sensor_bucket = versioning.get_registry_bucket('SensorFlows') if not env.sensor_bucket: env.sensor_bucket = versioning.create_registry_bucket('SensorFlows') # Create NiFi Process Group env.reg_client = versioning.create_registry_client('NiFi Registry', _get_nifireg_url(), 'The registry...') env.sensor_pg = canvas.create_process_group(env.root_pg, PG_NAME, (330, 350)) #env.sensor_flow = versioning.save_flow_ver(env.sensor_pg, env.reg_client, env.sensor_bucket, flow_name='SensorProcessGroup', comment='Enabled version control - ' + env.run_id) env.sensor_flow = save_flow_ver(env.sensor_pg, env.reg_client, env.sensor_bucket, flow_name='SensorProcessGroup', comment='Enabled version control - ' + str(env.run_id)) # Update default SSL context controller service ssl_svc_name = 'Default NiFi SSL Context Service' if _IS_TLS_ENABLED: props = { 'SSL Protocol': 'TLS', 'Truststore Type': 'JKS', 'Truststore Filename': '/opt/cloudera/security/jks/truststore.jks', 'Truststore Password': _THE_PWD, 'Keystore Type': 'JKS', 'Keystore Filename': '/opt/cloudera/security/jks/keystore.jks', 'Keystore Password': _THE_PWD, 'key-password': _THE_PWD, } env.ssl_svc = canvas.get_controller(ssl_svc_name, 'name') if env.ssl_svc: canvas.schedule_controller(env.ssl_svc, False) env.ssl_svc = canvas.get_controller(ssl_svc_name, 'name') canvas.update_controller( env.ssl_svc, nifi.ControllerServiceDTO(properties=props)) env.ssl_svc = canvas.get_controller(ssl_svc_name, 'name') canvas.schedule_controller(env.ssl_svc, True) else: env.keytab_svc = create_controller( env.root_pg, 'org.apache.nifi.ssl.StandardRestrictedSSLContextService', props, True, name=ssl_svc_name) # Create controller services if _IS_TLS_ENABLED: env.ssl_svc = canvas.get_controller(ssl_svc_name, 'name') props = { 'Kerberos Keytab': '/keytabs/admin.keytab', 'Kerberos Principal': 'admin', } env.keytab_svc = create_controller( env.sensor_pg, 'org.apache.nifi.kerberos.KeytabCredentialsService', props, True) else: env.ssl_svc = None env.keytab_svc = None props = { 'url': _get_schreg_api_url(), } if _IS_TLS_ENABLED: props.update({ 'kerberos-credentials-service': env.keytab_svc.id, 'ssl-context-service': env.ssl_svc.id, }) env.sr_svc = create_controller( env.sensor_pg, 'org.apache.nifi.schemaregistry.hortonworks.HortonworksSchemaRegistry', props, True) env.json_reader_svc = create_controller( env.sensor_pg, 'org.apache.nifi.json.JsonTreeReader', { 'schema-access-strategy': 'schema-name', 'schema-registry': env.sr_svc.id }, True) env.json_writer_svc = create_controller( env.sensor_pg, 'org.apache.nifi.json.JsonRecordSetWriter', { 'schema-access-strategy': 'schema-name', 'schema-registry': env.sr_svc.id, 'Schema Write Strategy': 'hwx-schema-ref-attributes' }, True) env.avro_writer_svc = create_controller( env.sensor_pg, 'org.apache.nifi.avro.AvroRecordSetWriter', { 'schema-access-strategy': 'schema-name', 'schema-registry': env.sr_svc.id, 'Schema Write Strategy': 'hwx-content-encoded-schema' }, True) # Create flow sensor_port = canvas.create_port(env.sensor_pg.id, 'INPUT_PORT', 'Sensor Data', 'RUNNING', (0, 0)) upd_attr = create_processor( env.sensor_pg, 'Set Schema Name', 'org.apache.nifi.processors.attributes.UpdateAttribute', (0, 100), { 'properties': { 'schema.name': 'SensorReading', }, }) canvas.create_connection(sensor_port, upd_attr) props = { 'topic': 'iot', 'record-reader': env.json_reader_svc.id, 'record-writer': env.json_writer_svc.id, } props.update(_get_common_kafka_client_properties(env, 'producer')) pub_kafka = create_processor( env.sensor_pg, 'Publish to Kafka topic: iot', 'org.apache.nifi.processors.kafka.pubsub.PublishKafkaRecord_2_0', (0, 300), { 'properties': props, 'autoTerminatedRelationships': ['success'], }) canvas.create_connection(upd_attr, pub_kafka, ['success']) fail_funnel = create_funnel(env.sensor_pg.id, (600, 343)) canvas.create_connection(pub_kafka, fail_funnel, ['failure']) # Commit changes #versioning.save_flow_ver(env.sensor_pg, env.reg_client, env.sensor_bucket, flow_id=env.sensor_flow.version_control_information.flow_id, comment='First version - ' + env.run_id) save_flow_ver(env.sensor_pg, env.reg_client, env.sensor_bucket, flow_id=env.sensor_flow.version_control_information.flow_id, comment='First version - ' + str(env.run_id)) # Start flow canvas.schedule_process_group(env.root_pg.id, True) # Update "from Gateway" input port to connect to the process group update_connection(env.from_gw, env.temp_funnel, sensor_port)
def lab2_nifi_flow(self): # Create a bucket in NiFi Registry to save the edge flow versions self.context.sensor_bucket = versioning.get_registry_bucket( 'SensorFlows') if not self.context.sensor_bucket: self.context.sensor_bucket = versioning.create_registry_bucket( 'SensorFlows') # Create NiFi Process Group self.context.reg_client = versioning.create_registry_client( 'NiFi Registry', nifireg.get_url(), 'The registry...') self.context.sensor_pg = canvas.create_process_group( self.context.root_pg, PG_NAME, (330, 350)) self.context.sensor_flow = nifireg.save_flow_ver( self.context.sensor_pg, self.context.reg_client, self.context.sensor_bucket, flow_name='SensorProcessGroup', comment='Enabled version control - {}'.format(self.run_id)) # Update default SSL context controller service ssl_svc_name = 'Default NiFi SSL Context Service' if is_tls_enabled(): props = { 'SSL Protocol': 'TLS', 'Truststore Type': 'JKS', 'Truststore Filename': '/opt/cloudera/security/jks/truststore.jks', 'Truststore Password': get_the_pwd(), 'Keystore Type': 'JKS', 'Keystore Filename': '/opt/cloudera/security/jks/keystore.jks', 'Keystore Password': get_the_pwd(), 'key-password': get_the_pwd(), } self.context.ssl_svc = canvas.get_controller(ssl_svc_name, 'name') if self.context.ssl_svc: canvas.schedule_controller(self.context.ssl_svc, False) self.context.ssl_svc = canvas.get_controller( ssl_svc_name, 'name') canvas.update_controller( self.context.ssl_svc, nifi.ControllerServiceDTO(properties=props)) self.context.ssl_svc = canvas.get_controller( ssl_svc_name, 'name') canvas.schedule_controller(self.context.ssl_svc, True) else: self.context.keytab_svc = nf.create_controller( self.context.root_pg, 'org.apache.nifi.ssl.StandardRestrictedSSLContextService', props, True, name=ssl_svc_name) # Create controller services if is_tls_enabled(): self.context.ssl_svc = canvas.get_controller(ssl_svc_name, 'name') props = { 'Kerberos Keytab': '/keytabs/admin.keytab', 'Kerberos Principal': 'admin', } self.context.keytab_svc = nf.create_controller( self.context.sensor_pg, 'org.apache.nifi.kerberos.KeytabCredentialsService', props, True) else: self.context.ssl_svc = None self.context.keytab_svc = None props = { 'url': schreg.get_api_url(), } if is_tls_enabled(): props.update({ 'kerberos-credentials-service': self.context.keytab_svc.id, 'ssl-context-service': self.context.ssl_svc.id, }) self.context.sr_svc = nf.create_controller( self.context.sensor_pg, 'org.apache.nifi.schemaregistry.hortonworks.HortonworksSchemaRegistry', props, True) self.context.json_reader_svc = nf.create_controller( self.context.sensor_pg, 'org.apache.nifi.json.JsonTreeReader', { 'schema-access-strategy': 'schema-name', 'schema-registry': self.context.sr_svc.id }, True) self.context.json_writer_svc = nf.create_controller( self.context.sensor_pg, 'org.apache.nifi.json.JsonRecordSetWriter', { 'schema-access-strategy': 'schema-name', 'schema-registry': self.context.sr_svc.id, 'Schema Write Strategy': 'hwx-schema-ref-attributes' }, True) self.context.avro_writer_svc = nf.create_controller( self.context.sensor_pg, 'org.apache.nifi.avro.AvroRecordSetWriter', { 'schema-access-strategy': 'schema-name', 'schema-registry': self.context.sr_svc.id, 'Schema Write Strategy': 'hwx-content-encoded-schema' }, True) # Create flow sensor_port = canvas.create_port(self.context.sensor_pg.id, 'INPUT_PORT', 'Sensor Data', 'STOPPED', (0, 0)) upd_attr = nf.create_processor( self.context.sensor_pg, 'Set Schema Name', 'org.apache.nifi.processors.attributes.UpdateAttribute', (0, 100), { 'properties': { 'schema.name': 'SensorReading', }, }) canvas.create_connection(sensor_port, upd_attr) props = { 'topic': 'iot', 'record-reader': self.context.json_reader_svc.id, 'record-writer': self.context.json_writer_svc.id, } props.update( kafka.get_common_client_properties(self.context, 'producer', CONSUMER_GROUP_ID, PRODUCER_CLIENT_ID)) pub_kafka = nf.create_processor( self.context.sensor_pg, 'Publish to Kafka topic: iot', [ 'org.apache.nifi.processors.kafka.pubsub.PublishKafkaRecord_2_6', 'org.apache.nifi.processors.kafka.pubsub.PublishKafkaRecord_2_0' ], (0, 300), { 'properties': props, 'autoTerminatedRelationships': ['success'], }) canvas.create_connection(upd_attr, pub_kafka, ['success']) fail_funnel = nf.create_funnel(self.context.sensor_pg.id, (600, 343)) canvas.create_connection(pub_kafka, fail_funnel, ['failure']) # Commit changes nifireg.save_flow_ver(self.context.sensor_pg, self.context.reg_client, self.context.sensor_bucket, flow_id=self.context.sensor_flow. version_control_information.flow_id, comment='First version - {}'.format(self.run_id)) # Start flow canvas.schedule_process_group(self.context.root_pg.id, True) # Update "from Gateway" input port to connect to the process group nf.update_connection(self.context.from_gw, self.context.temp_funnel, sensor_port) canvas.schedule_components(self.context.root_pg.id, True, [sensor_port])
def tearDownClass(cls): print("Tests done: deleting nifi objects") canvas.delete_controller( canvas.get_controller(CanvasNavigatorTest.controller.component.id, 'id'), True) canvas.delete_process_group(CanvasNavigatorTest.pg_parent, True)