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"""A local gradio app that filters images using FHE.""" |
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from PIL import Image |
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import os |
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import shutil |
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import subprocess |
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import time |
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import gradio as gr |
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import numpy |
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import requests |
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from itertools import chain |
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from common import ( |
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AVAILABLE_FILTERS, |
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CLIENT_TMP_PATH, |
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SERVER_TMP_PATH, |
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EXAMPLES, |
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FILTERS_PATH, |
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INPUT_SHAPE, |
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KEYS_PATH, |
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REPO_DIR, |
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SERVER_URL, |
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) |
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from client_server_interface import FHEClient |
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subprocess.Popen(["uvicorn", "server:app"], cwd=REPO_DIR) |
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time.sleep(3) |
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def decrypt_output_with_wrong_key(encrypted_image, filter_name): |
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"""Decrypt the encrypted output using a different private key. |
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""" |
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filter_path = FILTERS_PATH / f"{filter_name}/deployment" |
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wrong_client = FHEClient(filter_path, filter_name) |
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wrong_client.generate_private_and_evaluation_keys(force=True) |
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output_image = wrong_client.deserialize_decrypt_post_process(encrypted_image) |
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if filter_name in ["black and white", "ridge detection"]: |
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wrong_client.generate_private_and_evaluation_keys(force=True) |
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output_image[:, :, 1] = wrong_client.deserialize_decrypt_post_process(encrypted_image)[:, :, 0] |
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wrong_client.generate_private_and_evaluation_keys(force=True) |
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output_image[:, :, 2] = wrong_client.deserialize_decrypt_post_process(encrypted_image)[:, :, 0] |
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return output_image |
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def shorten_bytes_object(bytes_object, limit=500): |
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"""Shorten the input bytes object to a given length. |
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Encrypted data is too large for displaying it in the browser using Gradio. This function |
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provides a shorten representation of it. |
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Args: |
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bytes_object (bytes): The input to shorten |
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limit (int): The length to consider. Default to 500. |
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Returns: |
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str: Hexadecimal string shorten representation of the input byte object. |
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""" |
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shift = 100 |
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return bytes_object[shift : limit + shift].hex() |
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def get_client(user_id, filter_name): |
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"""Get the client API. |
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Args: |
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user_id (int): The current user's ID. |
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filter_name (str): The filter chosen by the user |
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Returns: |
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FHEClient: The client API. |
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""" |
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return FHEClient( |
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FILTERS_PATH / f"{filter_name}/deployment", |
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filter_name, |
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key_dir=KEYS_PATH / f"{filter_name}_{user_id}", |
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) |
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def get_client_file_path(name, user_id, filter_name): |
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"""Get the correct temporary file path for the client. |
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Args: |
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name (str): The desired file name. |
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user_id (int): The current user's ID. |
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filter_name (str): The filter chosen by the user |
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Returns: |
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pathlib.Path: The file path. |
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""" |
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return CLIENT_TMP_PATH / f"{name}_{filter_name}_{user_id}" |
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def clean_temporary_files(n_keys=20): |
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"""Clean keys and encrypted images. |
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A maximum of n_keys keys and associated temporary files are allowed to be stored. Once this |
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limit is reached, the oldest files are deleted. |
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Args: |
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n_keys (int): The maximum number of keys and associated files to be stored. Default to 20. |
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""" |
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key_dirs = sorted(KEYS_PATH.iterdir(), key=os.path.getmtime) |
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user_ids = [] |
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if len(key_dirs) > n_keys: |
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n_keys_to_delete = len(key_dirs) - n_keys |
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for key_dir in key_dirs[:n_keys_to_delete]: |
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user_ids.append(key_dir.name) |
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shutil.rmtree(key_dir) |
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client_files = CLIENT_TMP_PATH.iterdir() |
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server_files = SERVER_TMP_PATH.iterdir() |
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for file in chain(client_files, server_files): |
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for user_id in user_ids: |
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if user_id in file.name: |
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file.unlink() |
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def keygen(filter_name): |
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"""Generate the private key associated to a filter. |
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Args: |
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filter_name (str): The current filter to consider. |
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Returns: |
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(user_id, True) (Tuple[int, bool]): The current user's ID and a boolean used for visual display. |
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""" |
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clean_temporary_files() |
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user_id = numpy.random.randint(0, 2**32) |
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client = get_client(user_id, filter_name) |
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client.generate_private_and_evaluation_keys(force=True) |
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evaluation_key = client.get_serialized_evaluation_keys() |
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evaluation_key_path = get_client_file_path("evaluation_key", user_id, filter_name) |
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with evaluation_key_path.open("wb") as evaluation_key_file: |
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evaluation_key_file.write(evaluation_key) |
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return (user_id, True) |
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def encrypt(user_id, input_image, filter_name): |
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"""Encrypt the given image for a specific user and filter. |
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Args: |
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user_id (int): The current user's ID. |
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input_image (numpy.ndarray): The image to encrypt. |
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filter_name (str): The current filter to consider. |
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Returns: |
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(input_image, encrypted_image_short) (Tuple[bytes]): The encrypted image and one of its |
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representation. |
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""" |
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if user_id == "": |
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raise gr.Error("Please generate the private key first.") |
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if input_image is None: |
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raise gr.Error("Please choose an image first.") |
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if input_image.shape[-1] != 3: |
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raise ValueError(f"Input image must have 3 channels (RGB). Current shape: {input_image.shape}") |
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if input_image.shape != (100 , 100, 3): |
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input_image_pil = Image.fromarray(input_image) |
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input_image_pil = input_image_pil.resize((100, 100)) |
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input_image = numpy.array(input_image_pil) |
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client = get_client(user_id, filter_name) |
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encrypted_image = client.encrypt_serialize(input_image) |
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encrypted_image_path = get_client_file_path("encrypted_image", user_id, filter_name) |
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with encrypted_image_path.open("wb") as encrypted_image_file: |
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encrypted_image_file.write(encrypted_image) |
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encrypted_image_short = shorten_bytes_object(encrypted_image) |
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return (resize_img(input_image), encrypted_image_short) |
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def send_input(user_id, filter_name): |
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"""Send the encrypted input image as well as the evaluation key to the server. |
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Args: |
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user_id (int): The current user's ID. |
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filter_name (str): The current filter to consider. |
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""" |
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evaluation_key_path = get_client_file_path("evaluation_key", user_id, filter_name) |
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if user_id == "" or not evaluation_key_path.is_file(): |
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raise gr.Error("Please generate the private key first.") |
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encrypted_input_path = get_client_file_path("encrypted_image", user_id, filter_name) |
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if not encrypted_input_path.is_file(): |
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raise gr.Error("Please generate the private key and then encrypt an image first.") |
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data = { |
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"user_id": user_id, |
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"filter": filter_name, |
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} |
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files = [ |
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("files", open(encrypted_input_path, "rb")), |
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("files", open(evaluation_key_path, "rb")), |
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] |
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url = SERVER_URL + "send_input" |
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with requests.post( |
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url=url, |
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data=data, |
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files=files, |
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) as response: |
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return response.ok |
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def run_fhe(user_id, filter_name): |
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"""Apply the filter on the encrypted image previously sent using FHE. |
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Args: |
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user_id (int): The current user's ID. |
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filter_name (str): The current filter to consider. |
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""" |
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data = { |
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"user_id": user_id, |
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"filter": filter_name, |
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} |
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url = SERVER_URL + "run_fhe" |
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with requests.post( |
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url=url, |
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data=data, |
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) as response: |
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if response.ok: |
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return response.json() |
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else: |
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raise gr.Error("Please wait for the input image to be sent to the server.") |
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def get_output(user_id, filter_name): |
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"""Retrieve the encrypted output image. |
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Args: |
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user_id (int): The current user's ID. |
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filter_name (str): The current filter to consider. |
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Returns: |
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encrypted_output_image_short (bytes): A representation of the encrypted result. |
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""" |
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data = { |
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"user_id": user_id, |
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"filter": filter_name, |
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} |
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url = SERVER_URL + "get_output" |
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with requests.post( |
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url=url, |
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data=data, |
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) as response: |
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if response.ok: |
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encrypted_output = response.content |
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encrypted_output_path = get_client_file_path("encrypted_output", user_id, filter_name) |
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with encrypted_output_path.open("wb") as encrypted_output_file: |
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encrypted_output_file.write(encrypted_output) |
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output_image_representation = decrypt_output_with_wrong_key(encrypted_output, filter_name) |
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return {encrypted_output_representation: gr.update(value=resize_img(output_image_representation))} |
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else: |
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raise gr.Error("Please wait for the FHE execution to be completed.") |
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def decrypt_output(user_id, filter_name): |
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"""Decrypt the result. |
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Args: |
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user_id (int): The current user's ID. |
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filter_name (str): The current filter to consider. |
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Returns: |
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(output_image, False, False) ((Tuple[numpy.ndarray, bool, bool]): The decrypted output, as |
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well as two booleans used for resetting Gradio checkboxes |
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""" |
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print("Decrypt output ------------------------------------------------") |
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if user_id == "": |
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raise gr.Error("Please generate the private key first.") |
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encrypted_output_path = get_client_file_path("encrypted_output", user_id, filter_name) |
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if not encrypted_output_path.is_file(): |
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raise gr.Error("Please run the FHE execution first.") |
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with encrypted_output_path.open("rb") as encrypted_output_file: |
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encrypted_output_image = encrypted_output_file.read() |
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client = get_client(user_id, filter_name) |
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decrypted_ouput = client.deserialize_decrypt_post_process(encrypted_output_image) |
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print(f"Decrypted output: {decrypted_ouput.shape=}") |
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return {output_image: gr.update(value=resize_img(decrypted_ouput))} |
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def resize_img(img, width=256, height=256): |
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print("Reshape img before", img.shape, type(img)) |
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if img.dtype != numpy.uint8: |
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img = img.astype(numpy.uint8) |
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img_pil = Image.fromarray(img) |
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print(type(img_pil)) |
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resized_img_pil = img_pil.resize((width, height)) |
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print("Reshape img before", resized_img_pil.size) |
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return numpy.array(resized_img_pil) |
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demo = gr.Blocks() |
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print("Starting the demo...") |
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with demo: |
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gr.Markdown( |
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""" |
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<p align="center"> |
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<img width=200 src="https://user-images.githubusercontent.com/5758427/197816413-d9cddad3-ba38-4793-847d-120975e1da11.png"> |
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</p> |
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<h1 align="center">Image Filtering On Encrypted Data Using Fully Homomorphic Encryption</h1> |
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<p align="center"> |
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<a href="https://github.com/zama-ai/concrete-ml"> <img style="vertical-align: middle; display:inline-block; margin-right: 3px;" width=15 src="https://user-images.githubusercontent.com/5758427/197972109-faaaff3e-10e2-4ab6-80f5-7531f7cfb08f.png">Concrete-ML</a> |
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โ |
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<a href="https://docs.zama.ai/concrete-ml"> <img style="vertical-align: middle; display:inline-block; margin-right: 3px;" width=15 src="https://user-images.githubusercontent.com/5758427/197976802-fddd34c5-f59a-48d0-9bff-7ad1b00cb1fb.png">Documentation</a> |
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โ |
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<a href="https://zama.ai/community"> <img style="vertical-align: middle; display:inline-block; margin-right: 3px;" width=15 src="https://user-images.githubusercontent.com/5758427/197977153-8c9c01a7-451a-4993-8e10-5a6ed5343d02.png">Community</a> |
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โ |
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<a href="https://twitter.com/zama_fhe"> <img style="vertical-align: middle; display:inline-block; margin-right: 3px;" width=15 src="https://user-images.githubusercontent.com/5758427/197975044-bab9d199-e120-433b-b3be-abd73b211a54.png">@zama_fhe</a> |
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</p> |
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<p align="center"> |
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<img src="https://user-images.githubusercontent.com/56846628/219605302-5baafac4-cf6f-4f06-9a96-91cef2b84a63.png" width="70%" height="70%"> |
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</p> |
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<p align="center"> |
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Test the app below, review |
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<a href="https://zama.ai/post/encrypted-image-filtering-using-homomorphic-encryption"> our tutorial</a> |
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, and try the build for yourself! |
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</p> |
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""" |
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) |
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gr.Markdown("## Client side") |
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gr.Markdown("### Step 1: Upload an image. ") |
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gr.Markdown( |
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f"The image will automatically be resized to shape ({INPUT_SHAPE[0]}x{INPUT_SHAPE[1]}). " |
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"The image here, however, is displayed in its original resolution. The true image used " |
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"in this demo can be seen in Step 8." |
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) |
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with gr.Row(): |
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input_image = gr.Image( |
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value=None, label="Upload an image here.", height=256, |
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width=256, sources="upload", interactive=True, |
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) |
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examples = gr.Examples( |
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examples=EXAMPLES, inputs=[input_image], examples_per_page=5, label="Examples to use." |
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) |
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gr.Markdown("### Step 2: Choose your filter.") |
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filter_name = gr.Dropdown( |
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choices=AVAILABLE_FILTERS, value="inverted", label="Choose your filter", interactive=True |
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) |
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gr.Markdown("#### Notes") |
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gr.Markdown( |
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""" |
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- The private key is used to encrypt and decrypt the data and will never be shared. |
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- No public key is required for these filter operators. |
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""" |
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) |
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gr.Markdown("### Step 3: Generate the private key.") |
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keygen_button = gr.Button("Generate the private key.") |
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with gr.Row(): |
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keygen_checkbox = gr.Checkbox(label="Private key generated:", interactive=False) |
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user_id = gr.Textbox(label="", max_lines=2, interactive=False, visible=False) |
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gr.Markdown("### Step 4: Encrypt the image using FHE.") |
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encrypt_button = gr.Button("Encrypt the image using FHE.") |
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with gr.Row(): |
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encrypted_input = gr.Textbox( |
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label="Encrypted input representation:", max_lines=2, interactive=False |
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) |
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gr.Markdown("## Server side") |
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gr.Markdown( |
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"The encrypted value is received by the server. The server can then compute the filter " |
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"directly over encrypted values. Once the computation is finished, the server returns " |
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"the encrypted results to the client." |
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) |
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gr.Markdown("### Step 5: Send the encrypted image to the server.") |
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send_input_button = gr.Button("Send the encrypted image to the server.") |
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send_input_checkbox = gr.Checkbox(label="Encrypted image sent.", interactive=False) |
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gr.Markdown("### Step 6: Run FHE execution.") |
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execute_fhe_button = gr.Button("Run FHE execution.") |
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fhe_execution_time = gr.Textbox( |
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label="Total FHE execution time (in seconds):", max_lines=1, interactive=False |
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) |
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gr.Markdown("### Step 7: Receive the encrypted output image from the server.") |
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gr.Markdown( |
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"The image displayed here is the encrypted result sent by the server, which has been " |
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"decrypted using a different private key. This is only used to visually represent an " |
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"encrypted image." |
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) |
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get_output_button = gr.Button("Receive the encrypted output image from the server.") |
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with gr.Row(): |
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encrypted_output_representation = gr.Image( |
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label=f"Encrypted output representation ({INPUT_SHAPE[0]}x{INPUT_SHAPE[1]}):", |
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interactive=False, |
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height=256, |
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width=256, |
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) |
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gr.Markdown("## Client side") |
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gr.Markdown( |
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"The encrypted output is sent back to the client, who can finally decrypt it with the " |
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"private key. Only the client is aware of the original image and its transformed version." |
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) |
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gr.Markdown("### Step 8: Decrypt the output.") |
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gr.Markdown( |
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"The image displayed on the left is the input image used during the demo. The output image " |
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"can be seen on the right." |
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) |
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decrypt_button = gr.Button("Decrypt the output") |
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with gr.Row(): |
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original_image = gr.Image( |
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input_image.value, |
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label=f"Input image ({INPUT_SHAPE[0]}x{INPUT_SHAPE[1]}):", |
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interactive=False, |
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height=256, |
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width=256, |
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) |
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output_image = gr.Image( |
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label=f"Output image ({INPUT_SHAPE[0]}x{INPUT_SHAPE[1]}):", |
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interactive=False, |
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height=256, |
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width=256, |
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) |
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keygen_button.click( |
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keygen, |
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inputs=[filter_name], |
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outputs=[user_id, keygen_checkbox], |
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) |
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encrypt_button.click( |
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encrypt, |
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inputs=[user_id, input_image, filter_name], |
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outputs=[original_image, encrypted_input], |
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) |
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send_input_button.click( |
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send_input, inputs=[user_id, filter_name], outputs=[send_input_checkbox] |
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) |
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execute_fhe_button.click(run_fhe, inputs=[user_id, filter_name], outputs=[fhe_execution_time]) |
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get_output_button.click( |
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get_output, |
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inputs=[user_id, filter_name], |
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outputs=[encrypted_output_representation] |
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) |
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decrypt_button.click( |
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decrypt_output, |
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inputs=[user_id, filter_name], |
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outputs=[output_image, keygen_checkbox, send_input_checkbox], |
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) |
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input_image.change(fn=resize_img, inputs=input_image, outputs=input_image) |
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gr.Markdown( |
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"The app was built with [Concrete-ML](https://github.com/zama-ai/concrete-ml), a " |
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"Privacy-Preserving Machine Learning (PPML) open-source set of tools by [Zama](https://zama.ai/). " |
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"Try it yourself and don't forget to star on Github ⭐." |
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) |
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demo.launch(share=False) |
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