def test_realtime_api( printer: Callable, client: cx.Client, api: str, timeout: int = None, api_config_name: str = "cortex_cpu.yaml", node_groups: List[str] = [], extra_path: str = "", method: str = "POST", ): api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) assert len(api_specs) == 1 if len(node_groups) > 0: api_specs[0]["node_groups"] = node_groups expectations = None expectations_file = api_dir / "expectations.yaml" if expectations_file.exists(): expectations = parse_expectations(str(expectations_file)) api_name = api_specs[0]["name"] for api_spec in api_specs: client.deploy(api_spec=api_spec) try: assert apis_ready(client=client, api_names=[api_name], timeout=timeout), f"apis {api_name} not ready" with open(str(api_dir / "sample.json")) as f: payload = json.load(f) if method == "POST": response = post_request(client, api_name, payload, extra_path) else: response = get_request(client, api_name, payload, extra_path) assert ( response.status_code == HTTPStatus.OK ), f"status code: got {response.status_code}, expected {HTTPStatus.OK}" if expectations and "response" in expectations: assert_response_expectations(response, expectations["response"]) except: # best effort try: api_info = client.get_api(api_name) printer(json.dumps(api_info, indent=2)) td.Thread(target=lambda: stream_api_logs(client, api_name), daemon=True).start() time.sleep(5) finally: raise finally: delete_apis(client, [api_name])
def test_realtime_scale_to_zero( client: cx.Client, api: str, timeout: int = None, api_config_name: str = "cortex_cpu.yaml", ): api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) api_name = api_specs[0]["name"] for api_spec in api_specs: client.deploy(api_spec=api_spec) try: assert apis_ready(client=client, api_names=[api_name], timeout=timeout, greater_or_equal_to=0), f"apis {api_name} not ready" api_info = client.get_api(api_name) endpoint = api_info["endpoint"] response = requests.post(endpoint, json={}, timeout=30) # make first request, which should go to activator assert ( response.status_code == HTTPStatus.OK ), f"status code: got {response.status_code}, expected {HTTPStatus.OK}" assert response.headers.get("x-cortex-origin") == "activator" def _make_request() -> bool: res = requests.post(endpoint, json={}, timeout=30) # make second request, which should go directly to the api assert ( res.status_code == HTTPStatus.OK ), f"status code: got {res.status_code}, expected {HTTPStatus.OK}" return res.headers.get("x-cortex-origin") == "api" assert wait_for(_make_request, timeout=60) finally: delete_apis(client, [api_name])
def test_long_running_realtime( printer: Callable, client: cx.Client, api: str, long_running_config: Dict[str, Union[int, float]], deploy_timeout: int = None, api_config_name: str = "cortex_cpu.yaml", node_groups: List[str] = [], ): api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) assert len(api_specs) == 1 time_to_run = long_running_config["time_to_run"] if len(node_groups) > 0: api_specs[0]["node_groups"] = node_groups expectations = None expectations_file = api_dir / "expectations.yaml" if expectations_file.exists(): expectations = parse_expectations(str(expectations_file)) api_name = api_specs[0]["name"] for api_spec in api_specs: client.deploy(api_spec=api_spec) try: assert apis_ready(client=client, api_names=[api_name], timeout=deploy_timeout), f"apis {api_name} not ready" with open(str(api_dir / "sample.json")) as f: payload = json.load(f) counter = 0 start_time = time.time() while time.time() - start_time <= time_to_run: response = post_request(client, api_name, payload) assert ( response.status_code == HTTPStatus.OK ), f"status code: got {response.status_code}, expected {HTTPStatus.OK}" if expectations and "response" in expectations: assert_response_expectations(response, expectations["response"]) counter += 1 except: # best effort try: api_info = client.get_api(api_name) printer(json.dumps(api_info, indent=2)) td.Thread(target=lambda: stream_api_logs(client, api_name), daemon=True).start() time.sleep(5) finally: raise finally: delete_apis(client, [api_name])
def test_load_batch( printer: Callable, client: cx.Client, api: str, test_s3_path: str, load_config: Dict[str, Union[int, float]], deploy_timeout: int = None, retry_attempts: int = 0, api_config_name: str = "cortex_cpu.yaml", node_groups: List[str] = [], ): jobs = load_config["jobs"] workers_per_job = load_config["workers_per_job"] items_per_job = load_config["items_per_job"] batch_size = load_config["batch_size"] workload_timeout = load_config["workload_timeout"] bucket, key = re.match("s3://(.+?)/(.+)", test_s3_path).groups() s3 = boto3.client("s3") paginator = s3.get_paginator("list_objects_v2") api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) assert len(api_specs) == 1 if len(node_groups) > 0: api_specs[0]["node_groups"] = node_groups sample_generator_path = api_dir / "sample_generator.py" assert (sample_generator_path.exists() ), "sample_generator.py must be present for the batch load test" sample_generator = load_generator(sample_generator_path) api_name = api_specs[0]["name"] client.deploy(api_spec=api_specs[0]) api_endpoint = client.get_api(api_name)["endpoint"] failed = False try: assert endpoint_ready( client=client, api_name=api_name, timeout=deploy_timeout), f"api {api_name} not ready" # submit jobs printer(f"submitting {jobs} jobs") job_specs = [] for _ in range(jobs): for _ in range(retry_attempts + 1): response = request_batch_prediction( client, api_name, item_list=[ sample_generator() for _ in range(items_per_job) ], batch_size=batch_size, workers=workers_per_job, config={"dest_s3_dir": test_s3_path}, ) if response.status_code == HTTPStatus.OK: break time.sleep(1) # retries are only required once retry_attempts = 0 assert ( response.status_code == HTTPStatus.OK ), f"status code: got {response.status_code}, expected {HTTPStatus.OK} ({response.text})" job_specs.append(response.json()) # wait the jobs to finish printer("waiting on the jobs") assert jobs_done( client, api_name, [job_spec["job_id"] for job_spec in job_specs], workload_timeout), f"not all jobs succeed in {workload_timeout}s" # assert jobs printer("checking the jobs' responses") for job_spec in job_specs: job_id: str = job_spec["job_id"] job = requests.get(f"{api_endpoint}?jobID={job_id}").json() job_status = job["job_status"] job_metrics = job["metrics"] assert ( job_status["batches_in_queue"] == 0 ), f"there are still batches in queue ({job_status['batches_in_queue']}) for job ID {job_id}" assert job_metrics["succeeded"] == math.ceil(items_per_job / batch_size) num_objects = 0 for page in paginator.paginate(Bucket=bucket, Prefix=os.path.join(key, job_id)): num_objects += len(page["Contents"]) assert num_objects == 1 except: # best effort failed = True try: api_info = client.get_api(api_name) # only get the last 10 job statuses if "batch_job_statuses" in api_info and len( api_info["batch_job_statuses"]) > 10: api_info["batch_job_statuses"] = api_info[ "batch_job_statuses"][-10:] printer(json.dumps(api_info, indent=2)) finally: raise finally: delete_apis(client, [api_name]) if failed: time.sleep(30)
def test_load_realtime( printer: Callable, client: cx.Client, api: str, load_config: Dict[str, Union[int, float]], deploy_timeout: int = None, api_config_name: str = "cortex_cpu.yaml", node_groups: List[str] = [], ): total_requests = load_config["total_requests"] desired_replicas = load_config["desired_replicas"] concurrency = load_config["concurrency"] status_code_timeout = load_config["status_code_timeout"] api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) assert len(api_specs) == 1 api_specs[0]["autoscaling"] = { "min_replicas": desired_replicas, "max_replicas": desired_replicas, } if len(node_groups) > 0: api_specs[0]["node_groups"] = node_groups api_name = api_specs[0]["name"] client.deploy(api_spec=api_specs[0]) # controls the flow of requests request_stopper = td.Event() failed = False try: printer(f"getting {desired_replicas} replicas ready") assert apis_ready(client=client, api_names=[api_name], timeout=deploy_timeout), f"api {api_name} not ready" # give the APIs some time to prevent getting high latency spikes in the beginning time.sleep(5) with open(str(api_dir / "sample.json")) as f: payload = json.load(f) printer("start making requests concurrently") threads_futures = make_requests_concurrently( client, api_name, concurrency, request_stopper, max_total_requests=total_requests, payload=payload, ) while not request_stopper.is_set(): # check if the requesting threads are still healthy # if not, they'll raise an exception check_futures_healthy(threads_futures) # don't stress the CPU too hard time.sleep(1) except: # best effort failed = True try: api_info = client.get_api(api_name) printer(json.dumps(api_info, indent=2)) finally: raise finally: request_stopper.set() delete_apis(client, [api_name]) if failed: time.sleep(30)
def test_load_async( printer: Callable, client: cx.Client, api: str, load_config: Dict[str, Union[int, float]], deploy_timeout: int = None, poll_sleep_seconds: int = 1, api_config_name: str = "cortex_cpu.yaml", node_groups: List[str] = [], ): total_requests = load_config["total_requests"] desired_replicas = load_config["desired_replicas"] concurrency = load_config["concurrency"] submit_timeout = load_config["submit_timeout"] workload_timeout = load_config["workload_timeout"] api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) assert len(api_specs) == 1 api_specs[0]["autoscaling"] = { "min_replicas": desired_replicas, "max_replicas": desired_replicas, } if len(node_groups) > 0: api_specs[0]["node_groups"] = node_groups api_name = api_specs[0]["name"] client.deploy(api_spec=api_specs[0]) request_stopper = td.Event() map_stopper = td.Event() responses: List[Dict[str, Any]] = [] failed = False try: printer(f"getting {desired_replicas} replicas ready") assert apis_ready(client=client, api_names=[api_name], timeout=deploy_timeout), f"api {api_name} not ready" with open(str(api_dir / "sample.json")) as f: payload = json.load(f) printer("start making prediction requests concurrently") threads_futures = make_requests_concurrently( client, api_name, concurrency, request_stopper, responses=responses, max_total_requests=total_requests, payload=payload, ) assert wait_on_event( request_stopper, submit_timeout ), f"{total_requests} couldn't be submitted in {submit_timeout}s" check_futures_healthy(threads_futures) wait_on_futures(threads_futures) printer("finished making prediction requests") assert ( len(responses) == total_requests ), f"the submitted number of requests doesn't match the returned number of responses" job_ids = [] for response in responses: response_json = response.json() assert "id" in response_json job_ids.append(response_json["id"]) # assert the results printer("start retrieving the async results concurrently") results = [] retrieve_results_concurrently( client, api_name, concurrency, map_stopper, job_ids, results, poll_sleep_seconds, workload_timeout, ) for request_id, json_result in results: # validate keys are in the result json response assert ( "id" in json_result ), f"id key was not present in result response (response: {json_result})" assert ( "result" in json_result ), f"result key was not present in result response (response: {json_result})" assert ( "timestamp" in json_result ), f"timestamp key was not present in result response (response: {json_result})" # validate result json response has valid values assert ( json_result["id"] == request_id ), f"result 'id' and request 'id' mismatch ({json_result['id']} != {request_id})" assert ( json_result["status"] == "completed" ), f"async workload did not complete (response: {json_result})" assert json_result[ "timestamp"] != "", "result 'timestamp' value was empty" assert json_result[ "result"] != "", "result 'result' value was empty" except: # best effort failed = True try: api_info = client.get_api(api_name) printer(json.dumps(api_info, indent=2)) finally: raise finally: if "results" in vars() and len(results) < total_requests: printer( f"{len(results)}/{total_requests} have been successfully retrieved" ) map_stopper.set() delete_apis(client, [api_name]) if failed: time.sleep(30)
def test_autoscaling( printer: Callable, client: cx.Client, apis: Dict[str, Any], autoscaling_config: Dict[str, Union[int, float]], deploy_timeout: int = None, api_config_name: str = "cortex_cpu.yaml", node_groups: List[str] = [], ): max_replicas = autoscaling_config["max_replicas"] query_params = apis["query_params"] # increase the concurrency by 1 to ensure we get max_replicas replicas concurrency = max_replicas + 1 all_apis = [apis["primary"]] + apis["dummy"] all_api_names = [] for api in all_apis: api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) assert len(api_specs) == 1 if len(node_groups) > 0: api_specs[0]["node_groups"] = node_groups api_specs[0]["autoscaling"] = { "max_replicas": max_replicas, "downscale_stabilization_period": "1m", } all_api_names.append(api_specs[0]["name"]) client.deploy(api_spec=api_specs[0]) primary_api_name = all_api_names[0] autoscaling = client.get_api(primary_api_name)["spec"]["autoscaling"] # controls the flow of requests request_stopper = td.Event() # determine upscale/downscale replica requests current_replicas = 1 # starting number of replicas test_timeout = 0 # measured in seconds while current_replicas < max_replicas: upscale_ceil = math.ceil(current_replicas * autoscaling["max_upscale_factor"]) if upscale_ceil > current_replicas + 1: current_replicas = upscale_ceil else: current_replicas += 1 if current_replicas > max_replicas: current_replicas = max_replicas test_timeout += int(autoscaling["upscale_stabilization_period"] / (1000**3)) while current_replicas > 1: downscale_ceil = math.ceil(current_replicas * autoscaling["max_downscale_factor"]) if downscale_ceil < current_replicas - 1: current_replicas = downscale_ceil else: current_replicas -= 1 test_timeout += int(autoscaling["downscale_stabilization_period"] / (1000**3)) # add overhead to the test timeout to account for the process of downloading images or adding nodes to the cluster test_timeout *= 2 try: assert apis_ready( client=client, api_names=all_api_names, timeout=deploy_timeout), f"apis {all_api_names} not ready" threads_futures = make_requests_concurrently(client, primary_api_name, concurrency, request_stopper, query_params=query_params) test_start_time = time.time() # upscale/downscale the api printer(f"scaling up to {max_replicas} replicas") while True: assert api_updated( client, primary_api_name, timeout=deploy_timeout ), "api didn't scale up to the desired number of replicas in time" current_replicas = client.get_api( primary_api_name)["status"]["requested"] # stop the requests from being made if current_replicas == max_replicas and not request_stopper.is_set( ): printer(f"scaling back down to 1 replica") request_stopper.set() # check if the requesting threads are still healthy # if not, they'll raise an exception check_futures_healthy(threads_futures) # check if the test is taking too much time assert ( time.time() - test_start_time < test_timeout ), f"autoscaling test for api {primary_api_name} did not finish in {test_timeout}s; current number of replicas is {current_replicas}/{concurrency}" # stop the test if it has finished if current_replicas == 1 and request_stopper.is_set(): break # add some delay to reduce the number of gets time.sleep(1) except: # best effort try: api_info = client.get_api(primary_api_name) printer(json.dumps(api_info, indent=2)) finally: raise finally: request_stopper.set() delete_apis(client, all_api_names)
def test_task_api( printer: Callable, client: cx.Client, api: str, deploy_timeout: int = None, job_timeout: int = None, retry_attempts: int = 0, api_config_name: str = "cortex_cpu.yaml", node_groups: List[str] = [], local_operator: bool = False, ): api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) assert len(api_specs) == 1 if len(node_groups) > 0: api_specs[0]["node_groups"] = node_groups api_name = api_specs[0]["name"] client.deploy(api_spec=api_specs[0]) try: endpoint_override = f"http://localhost:8888/tasks/{api_name}" if local_operator else None assert endpoint_ready( client=client, api_name=api_name, timeout=deploy_timeout, endpoint_override=endpoint_override, ), f"api {api_name} not ready" response = None for _ in range(retry_attempts + 1): response = request_task(client, api_name, local_operator=local_operator) if response.status_code == HTTPStatus.OK: break time.sleep(1) job_spec = response.json() job_id = job_spec["job_id"] endpoint_override = ( f"http://localhost:8888/tasks/{api_name}?jobID={job_id}" if local_operator else None) assert job_done( client=client, api_name=api_name, job_id=job_spec["job_id"], timeout=job_timeout, endpoint_override=endpoint_override, ), f"task job did not succeed (api_name: {api_name}, job_id: {job_spec['job_id']})" except: # best effort try: api_info = client.get_api(api_name) printer(json.dumps(api_info, indent=2)) job_status = client.get_job(api_name, job_spec["job_id"]) printer(json.dumps(job_status, indent=2)) td.Thread(target=lambda: stream_job_logs(client, api_name, job_spec["job_id"]), daemon=True).start() time.sleep(5) except: pass raise finally: delete_apis(client, [api_name])
def test_async_api( printer: Callable, client: cx.Client, api: str, deploy_timeout: int = None, poll_retries: int = 5, poll_sleep_seconds: int = 1, api_config_name: str = "cortex_cpu.yaml", node_groups: List[str] = [], ): api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) assert len(api_specs) == 1 if len(node_groups) > 0: api_specs[0]["node_groups"] = node_groups expectations = None expectations_file = api_dir / "expectations.yaml" if expectations_file.exists(): expectations = parse_expectations(str(expectations_file)) api_name = api_specs[0]["name"] client.deploy(api_spec=api_specs[0]) try: assert apis_ready(client=client, api_names=[api_name], timeout=deploy_timeout), f"apis {api_name} not ready" with open(str(api_dir / "sample.json")) as f: payload = json.load(f) response = post_request(client, api_name, payload) assert ( response.status_code == HTTPStatus.OK ), f"workload submission status code: got {response.status_code}, expected {HTTPStatus.OK}" response_json = response.json() assert "id" in response_json request_id = response_json["id"] result_response = None for _ in range(poll_retries + 1): result_response = retrieve_async_result(client=client, api_name=api_name, request_id=request_id) if result_response.status_code != HTTPStatus.OK: time.sleep(poll_sleep_seconds) continue result_response_json = result_response.json() assert ( "id" in result_response_json ), f"id key was not present in result response (response: {result_response_json})" assert ( "status" in result_response_json ), f"status key was not present in result response (response: {result_response_json})" if result_response_json["status"] != "completed": time.sleep(poll_sleep_seconds) continue break assert ( result_response.status_code == HTTPStatus.OK ), f"result retrieval status code: got {result_response.status_code}, expected {HTTPStatus.OK}" # validate keys are in the result json response assert ( "result" in result_response_json ), f"result key was not present in result response (response: {result_response_json})" assert ( "timestamp" in result_response_json ), f"timestamp key was not present in result response (response: {result_response_json})" # validate result json response has valid values assert ( result_response_json["id"] == request_id ), f"result 'id' and request 'id' mismatch ({result_response_json['id']} != {request_id})" assert ( result_response_json["status"] == "completed" ), f"async workload did not complete (response: {result_response_json})" assert result_response_json[ "timestamp"] != "", "result 'timestamp' value was empty" assert result_response_json[ "result"] != "", "result 'result' value was empty" # assert result expectations if expectations: assert_json_expectations(result_response_json["result"], expectations["response"]) except: # best effort try: api_info = client.get_api(api_name) printer(json.dumps(api_info, indent=2)) printer(json.dumps(result_response_json, indent=2)) td.Thread( target=lambda: stream_api_logs(client, api_name), daemon=True, ).start() time.sleep(5) except: pass raise finally: delete_apis(client, [api_name])
def test_batch_api( printer: Callable, client: cx.Client, api: str, test_s3_path: str, deploy_timeout: int = None, job_timeout: int = None, retry_attempts: int = 0, api_config_name: str = "cortex_cpu.yaml", node_groups: List[str] = [], local_operator: bool = False, ): api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) assert len(api_specs) == 1 if len(node_groups) > 0: api_specs[0]["node_groups"] = node_groups api_name = api_specs[0]["name"] client.deploy(api_spec=api_specs[0]) try: endpoint_override = f"http://localhost:8888/batch/{api_name}" if local_operator else None assert endpoint_ready( client=client, api_name=api_name, timeout=deploy_timeout, endpoint_override=endpoint_override, ), f"api {api_name} not ready" with open(str(api_dir / "sample.json")) as f: payload = json.load(f) response = None for _ in range(retry_attempts + 1): response = request_batch_prediction( client, api_name, item_list=payload, batch_size=2, config={"dest_s3_dir": test_s3_path}, local_operator=local_operator, ) if response.status_code == HTTPStatus.OK: break time.sleep(1) assert ( response.status_code == HTTPStatus.OK ), f"status code: got {response.status_code}, expected {HTTPStatus.OK} ({response.text})" job_spec = response.json() # monitor job progress job_id = job_spec["job_id"] endpoint_override = ( f"http://localhost:8888/batch/{api_name}?jobID={job_id}" if local_operator else None) assert job_done( client=client, api_name=api_name, job_id=job_id, timeout=job_timeout, endpoint_override=endpoint_override, ), f"job did not succeed (api_name: {api_name}, job_id: {job_spec['job_id']})" except: # best effort try: api_info = client.get_api(api_name) printer(json.dumps(api_info, indent=2)) job_status = client.get_job(api_name, job_spec["job_id"]) printer(json.dumps(job_status, indent=2)) td.Thread( target=lambda: stream_job_logs(client, api_name, job_spec[ "job_id"]), daemon=True, ).start() time.sleep(5) finally: raise finally: delete_apis(client, [api_name])
def test_load_realtime( printer: Callable, client: cx.Client, api: str, load_config: Dict[str, Union[int, float]], deploy_timeout: int = None, api_config_name: str = "cortex_cpu.yaml", node_groups: List[str] = [], ): total_requests = load_config["total_requests"] desired_replicas = load_config["desired_replicas"] concurrency = load_config["concurrency"] status_code_timeout = load_config["status_code_timeout"] api_dir = TEST_APIS_DIR / api with open(str(api_dir / api_config_name)) as f: api_specs = yaml.safe_load(f) assert len(api_specs) == 1 api_specs[0]["autoscaling"] = { "min_replicas": desired_replicas, "max_replicas": desired_replicas, } if len(node_groups) > 0: api_specs[0]["node_groups"] = node_groups api_name = api_specs[0]["name"] client.deploy(api_spec=api_specs[0]) # controls the flow of requests request_stopper = td.Event() failed = False try: printer(f"getting {desired_replicas} replicas ready") assert apis_ready(client=client, api_names=[api_name], timeout=deploy_timeout), f"api {api_name} not ready" network_stats = client.get_api(api_name)["metrics"]["network_stats"] offset_2xx = network_stats["code_2xx"] offset_4xx = network_stats["code_4xx"] offset_5xx = network_stats["code_5xx"] if offset_2xx is None: offset_2xx = 0 if offset_4xx is None: offset_4xx = 0 if offset_5xx is None: offset_5xx = 0 # give the APIs some time to prevent getting high latency spikes in the beginning time.sleep(5) with open(str(api_dir / "sample.json")) as f: payload = json.load(f) printer("start making requests concurrently") threads_futures = make_requests_concurrently( client, api_name, concurrency, request_stopper, max_total_requests=total_requests, payload=payload, ) while not request_stopper.is_set(): api_info = client.get_api(api_name) network_stats = api_info["metrics"]["network_stats"] assert ( network_stats["code_4xx"] - offset_4xx == 0 ), f"detected 4xx response codes ({network_stats['code_4xx'] - offset_4xx}) in cortex get" assert ( network_stats["code_5xx"] - offset_5xx == 0 ), f"detected 5xx response codes ({network_stats['code_5xx'] - offset_5xx}) in cortex get" # check if the requesting threads are still healthy # if not, they'll raise an exception check_futures_healthy(threads_futures) # don't stress the CPU too hard time.sleep(1) printer( f"verifying number of processed requests ({total_requests}, with an offset of {offset_2xx}) using the client" ) assert api_requests( client, api_name, total_requests + offset_2xx, timeout=status_code_timeout ), f"the number of 2xx response codes for api {api_name} doesn't match the expected number {total_requests}" except: # best effort failed = True try: api_info = client.get_api(api_name) printer(json.dumps(api_info, indent=2)) finally: raise finally: request_stopper.set() delete_apis(client, [api_name]) if failed: time.sleep(30)