def start(args):
ctx = Context(s3_path=args.context,
cache_dir=args.cache_dir,
workload_id=args.workload_id)
api = ctx.apis_id_map[args.api]
local_cache["api"] = api
local_cache["ctx"] = ctx
if api.get("request_handler_impl_key") is not None:
package.install_packages(ctx.python_packages, ctx.storage)
local_cache["request_handler"] = ctx.get_request_handler_impl(
api["name"])
model_cache_path = os.path.join(args.model_dir, args.api)
if not os.path.exists(model_cache_path):
ctx.storage.download_file_external(api["model"], model_cache_path)
sess = rt.InferenceSession(model_cache_path)
local_cache["sess"] = sess
local_cache["input_metadata"] = sess.get_inputs()
local_cache["output_metadata"] = sess.get_outputs()
logger.info("Serving model: {}".format(
util.remove_resource_ref(api["model"])))
serve(app, listen="*:{}".format(args.port))
def start(args):
ctx = Context(s3_path=args.context,
cache_dir=args.cache_dir,
workload_id=args.workload_id)
api = ctx.apis_id_map[args.api]
local_cache["api"] = api
local_cache["ctx"] = ctx
if api.get("request_handler_impl_key") is not None:
local_cache["request_handler"] = ctx.get_request_handler_impl(
api["name"])
if not util.is_resource_ref(api["model"]):
if api.get("request_handler") is not None:
package.install_packages(ctx.python_packages, ctx.storage)
if not os.path.isdir(args.model_dir):
ctx.storage.download_and_unzip_external(api["model"],
args.model_dir)
else:
package.install_packages(ctx.python_packages, ctx.storage)
model_name = util.get_resource_ref(api["model"])
model = ctx.models[model_name]
estimator = ctx.estimators[model["estimator"]]
local_cache["model"] = model
local_cache["estimator"] = estimator
local_cache["target_col"] = ctx.columns[util.get_resource_ref(
model["target_column"])]
local_cache["target_col_type"] = ctx.get_inferred_column_type(
util.get_resource_ref(model["target_column"]))
log_level = "DEBUG"
if ctx.environment is not None and ctx.environment.get(
"log_level") is not None:
log_level = ctx.environment["log_level"].get("tensorflow", "DEBUG")
tf_lib.set_logging_verbosity(log_level)
if not os.path.isdir(args.model_dir):
ctx.storage.download_and_unzip(model["key"], args.model_dir)
for column_name in ctx.extract_column_names(
[model["input"], model["target_column"]]):
if ctx.is_transformed_column(column_name):
trans_impl, _ = ctx.get_transformer_impl(column_name)
local_cache["trans_impls"][column_name] = trans_impl
transformed_column = ctx.transformed_columns[column_name]
# cache aggregate values
for resource_name in util.extract_resource_refs(
transformed_column["input"]):
if resource_name in ctx.aggregates:
ctx.get_obj(ctx.aggregates[resource_name]["key"])
local_cache["required_inputs"] = tf_lib.get_base_input_columns(
model["name"], ctx)
if util.is_dict(model["input"]) and model["input"].get(
"target_vocab") is not None:
local_cache["target_vocab_populated"] = ctx.populate_values(
model["input"]["target_vocab"], None, False)
try:
validate_model_dir(args.model_dir)
except Exception as e:
logger.exception(e)
sys.exit(1)
channel = grpc.insecure_channel("localhost:" + str(args.tf_serve_port))
local_cache["stub"] = prediction_service_pb2_grpc.PredictionServiceStub(
channel)
# wait a bit for tf serving to start before querying metadata
limit = 300
for i in range(limit):
try:
local_cache["metadata"] = run_get_model_metadata()
break
except Exception as e:
if i == limit - 1:
logger.exception(
"An error occurred, see `cortex logs -v api {}` for more details."
.format(api["name"]))
sys.exit(1)
time.sleep(1)
logger.info("Serving model: {}".format(
util.remove_resource_ref(api["model"])))
serve(app, listen="*:{}".format(args.port))