import base64 import json import logging import os import uuid from dataclasses import dataclass from datetime import datetime from typing import Optional import boto3 from aws_lambda_powertools import Tracer from sagemaker import Predictor from sagemaker.deserializers import JSONDeserializer from sagemaker.predictor_async import AsyncPredictor from sagemaker.serializers import JSONSerializer from common.ddb_service.client import DynamoDbUtilsService from common.excepts import BadRequestException from common.response import ok from common.util import s3_scan_files from libs.comfy_data_types import ComfyExecuteTable, InferenceResult from libs.enums import ComfyExecuteType from libs.utils import get_endpoint_by_name, response_error tracer = Tracer() region = os.environ.get('AWS_REGION') bucket_name = os.environ.get('S3_BUCKET_NAME') execute_table = os.environ.get('EXECUTE_TABLE') logger = logging.getLogger(__name__) logger.setLevel(os.environ.get('LOG_LEVEL') or logging.ERROR) endpoint_instance_id = os.environ.get('ENDPOINT_INSTANCE_ID') ddb_service = DynamoDbUtilsService(logger=logger) index_name = "endpoint_name-startTime-index" predictors = {} @dataclass class PrepareProps: prepare_type: Optional[str] = "inputs" s3_source_path: Optional[str] = None local_target_path: Optional[str] = None sync_script: Optional[str] = None @dataclass class ExecuteEvent: prompt_id: str prompt: dict endpoint_name: Optional[str] = '' need_sync: bool = True number: Optional[str] = None front: Optional[bool] = None extra_data: Optional[dict] = None client_id: Optional[str] = None need_prepare: bool = False prepare_props: Optional[PrepareProps] = None def build_s3_images_request(prompt_id, bucket_name, s3_path): s3 = boto3.client('s3', region_name=region) response = s3.list_objects_v2(Bucket=bucket_name, Prefix=s3_path) image_video_dict = {} for obj in response.get('Contents', []): object_key = obj['Key'] file_name = object_key.split('/')[-1] if object_key.lower().endswith(('.png', '.jpg', '.jpeg', '.gif', '.bmp', '.mp4', '.mov', '.avi')): response_data = s3.get_object(Bucket=bucket_name, Key=object_key) object_data = response_data['Body'].read() encoded_data = base64.b64encode(object_data).decode('utf-8') image_video_dict[file_name] = encoded_data return {'prompt_id': prompt_id, 'image_video_data': image_video_dict} @tracer.capture_method def invoke_sagemaker_inference(event: ExecuteEvent): endpoint_name = event.endpoint_name ep = get_endpoint_by_name(endpoint_name) if ep.endpoint_status != 'InService': raise Exception(f"Endpoint {endpoint_name} is {ep.endpoint_status} status, not InService.") logger.info(f"endpoint: {ep}") payload = event.__dict__ logger.info('inference payload: {}'.format(payload)) inference_id = str(uuid.uuid4()) job_status = ComfyExecuteType.CREATED.value inference_job = ComfyExecuteTable( prompt_id=event.prompt_id, endpoint_name=event.endpoint_name, inference_type=ep.endpoint_type, instance_id=endpoint_instance_id, need_sync=event.need_sync, status=job_status, prompt_params={'prompt': event.prompt, 'number': event.number, 'front': event.front, 'extra_data': event.extra_data, 'client_id': event.client_id}, prompt_path='', create_time=datetime.now().isoformat(), start_time=datetime.now().isoformat(), sagemaker_raw={}, output_path='', ) if ep.endpoint_type == 'Async': resp = async_inference(payload, inference_id, ep.endpoint_name) # inference_job.sagemaker_raw = resp.__dict__ else: # resp = real_time_inference(payload, inference_id, ep.endpoint_name) resp = { "prompt_id": '11111111-1111-1111', "instance_id": 'esd-real-time-test-rgihbd', "status": 'success', "output_path": f's3://{bucket_name}/images/', "temp_path": f's3://{bucket_name}/images/' } logger.info(f"real time inference response: ") logger.info(resp) resp = InferenceResult(**resp) resp = s3_scan_files(resp) inference_job.status = resp.status inference_job.sagemaker_raw = resp.__dict__ inference_job.output_path = resp.output_path inference_job.output_files = resp.output_files inference_job.temp_path = resp.temp_path inference_job.temp_files = resp.temp_files inference_job.complete_time = datetime.now().isoformat() ddb_service.put_items(execute_table, entries=inference_job.__dict__) return inference_job @tracer.capture_lambda_handler def handler(raw_event, ctx): try: logger.info(f"execute start... Received event: {raw_event}") logger.info(f"Received ctx: {ctx}") event = ExecuteEvent(**json.loads(raw_event['body'])) if not event.prompt: raise BadRequestException("Prompt is required") resp = invoke_sagemaker_inference(event) return ok(data=resp.__dict__) except Exception as e: return response_error(e) @tracer.capture_method def async_inference(payload: any, inference_id, endpoint_name): tracer.put_annotation(key="inference_id", value=inference_id) initial_args = {"InvocationTimeoutSeconds": 3600} return get_async_predict_client(endpoint_name).predict_async(data=payload, initial_args=initial_args, inference_id=inference_id) @tracer.capture_method def real_time_inference(data: any, inference_id, endpoint_name): tracer.put_annotation(key="inference_id", value=inference_id) return get_real_time_predict_client(endpoint_name).predict(data=data, inference_id=inference_id) @tracer.capture_method def get_real_time_predict_client(endpoint_name): tracer.put_annotation(key="endpoint_name", value=endpoint_name) if endpoint_name in predictors: return predictors[endpoint_name] predictor = Predictor(endpoint_name) predictor.serializer = JSONSerializer() predictor.deserializer = JSONDeserializer() predictors[endpoint_name] = predictor return predictor @tracer.capture_method def get_async_predict_client(endpoint_name): tracer.put_annotation(key="endpoint_name", value=endpoint_name) if endpoint_name in predictors: return predictors[endpoint_name] predictor = Predictor(endpoint_name) predictor = AsyncPredictor(predictor, name=endpoint_name) predictor.serializer = JSONSerializer() predictor.deserializer = JSONDeserializer() predictors[endpoint_name] = predictor return predictor