team14 / app.py
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"""A local gradio app that filters images using FHE."""
import os
import shutil
import subprocess
import time
import gradio as gr
import numpy
import requests
from common import (
AVAILABLE_FILTERS,
CLIENT_TMP_PATH,
EXAMPLES,
FILTERS_PATH,
INPUT_SHAPE,
KEYS_PATH,
WRONG_KEYS_PATH,
REPO_DIR,
SERVER_URL,
)
from custom_client_server import CustomFHEClient, CustomFHEServer
# Uncomment here to have both the server and client in the same terminal
subprocess.Popen(["uvicorn", "server:app"], cwd=REPO_DIR)
time.sleep(3)
def decrypt_output_with_wrong_key(encrypted_image, image_filter):
filter_path = FILTERS_PATH / f"{image_filter}/deployment"
wrong_client = CustomFHEClient(filter_path, WRONG_KEYS_PATH)
wrong_client.generate_private_and_evaluation_keys(force=True)
output_image = wrong_client.deserialize_decrypt_post_process(encrypted_image)
return output_image
def shorten_bytes_object(bytes_object, limit=500):
"""Shorten the input bytes object to a given length.
Encrypted data is too large for displaying it in the browser using Gradio. This function
provides a shorten representation of it.
Args:
bytes_object (bytes): The input to shorten
limit (int): The length to consider. Default to 500.
Returns:
Any: The fitted model.
"""
# Define a shift for better display
shift = 100
return bytes_object[shift : limit + shift].hex()
def get_client(user_id, image_filter):
"""Get the client API.
Args:
user_id (int): The current user's ID.
image_filter (str): The filter chosen by the user
Returns:
CustomFHEClient: The client API.
"""
return CustomFHEClient(
FILTERS_PATH / f"{image_filter}/deployment", KEYS_PATH / f"{image_filter}_{user_id}"
)
def get_client_file_path(name, user_id, image_filter):
"""Get the correct temporary file path for the client.
Args:
name (str): The desired file name.
user_id (int): The current user's ID.
image_filter (str): The filter chosen by the user
Returns:
pathlib.Path: The file path.
"""
return CLIENT_TMP_PATH / f"{name}_{image_filter}_{user_id}"
def clean_temporary_files(n_keys=20):
"""Clean keys and encrypted images.
A maximum of n_keys keys are allowed to be stored. Once this limit is reached, the oldest are
deleted.
Args:
n_keys (int): The maximum number of keys to be stored. Default to 20.
"""
# Get the oldest files in the key directory
list_files = sorted(KEYS_PATH.iterdir(), key=os.path.getmtime)
# If more than n_keys keys are found, remove the oldest
user_ids = []
if len(list_files) > n_keys:
n_files_to_delete = len(list_files) - n_keys
for p in list_files[:n_files_to_delete]:
user_ids.append(p.name)
shutil.rmtree(p)
# Get all the encrypted objects in the temporary folder
list_files_tmp = CLIENT_TMP_PATH.iterdir()
# Delete all files related to the current user
for file in list_files_tmp:
for user_id in user_ids:
if file.name.endswith(f"{user_id}.npy"):
file.unlink()
def keygen(image_filter):
"""Generate the private key associated to a filter.
Args:
image_filter (str): The current filter to consider.
Returns:
(user_id, True) (Tuple[int, bool]): The current user's ID and a boolean used for visual display.
"""
# Clean temporary files
clean_temporary_files()
# Create an ID for the current user
user_id = numpy.random.randint(0, 2**32)
# Retrieve the client API
client = get_client(user_id, image_filter)
# Generate a private key
client.generate_private_and_evaluation_keys(force=True)
# Retrieve the serialized evaluation key. In this case, as circuits are fully leveled, this
# evaluation key is empty. However, for software reasons, it is still needed for proper FHE
# execution
evaluation_key = client.get_serialized_evaluation_keys()
# Compute the private key's size in Kilobytes
private_key_path = next(client.key_dir.iterdir()) / "0_0/secretKey_big"
private_key_size = private_key_path.stat().st_size / 1000
# Save evaluation_key as bytes in a file as it is too large to pass through regular Gradio
# buttons (see https://github.com/gradio-app/gradio/issues/1877)
evaluation_key_path = get_client_file_path("evaluation_key", user_id, image_filter)
with evaluation_key_path.open("wb") as evaluation_key_file:
evaluation_key_file.write(evaluation_key)
return (user_id, True, private_key_size)
def encrypt(user_id, input_image, image_filter):
"""Encrypt the given image for a specific user and filter.
Args:
user_id (int): The current user's ID.
input_image (numpy.ndarray): The image to encrypt.
image_filter (str): The current filter to consider.
Returns:
(input_image, encrypted_image_short) (Tuple[bytes]): The encrypted image and one of its
representation.
"""
if user_id == "":
raise gr.Error("Please generate the private key first.")
if input_image is None:
raise gr.Error("Please choose an image first.")
# Retrieve the client API
client = get_client(user_id, image_filter)
# Pre-process, encrypt and serialize the image
encrypted_image = client.pre_process_encrypt_serialize(input_image)
# Compute the input's size in Megabytes
encrypted_input_size = len(encrypted_image) / 1000000
# Save encrypted_image to bytes in a file, since too large to pass through regular Gradio
# buttons, https://github.com/gradio-app/gradio/issues/1877
encrypted_image_path = get_client_file_path("encrypted_image", user_id, image_filter)
with encrypted_image_path.open("wb") as encrypted_image_file:
encrypted_image_file.write(encrypted_image)
# Create a truncated version of the encrypted image for display
encrypted_image_short = shorten_bytes_object(encrypted_image)
return (input_image, encrypted_image_short, encrypted_input_size)
def send_input(user_id, image_filter):
"""Send the encrypted input image as well as the evaluation key to the server.
Args:
user_id (int): The current user's ID.
image_filter (str): The current filter to consider.
"""
# Get the evaluation key path
evaluation_key_path = get_client_file_path("evaluation_key", user_id, image_filter)
if user_id == "" or not evaluation_key_path.is_file():
raise gr.Error("Please generate the private key first.")
encrypted_input_path = get_client_file_path("encrypted_image", user_id, image_filter)
if not encrypted_input_path.is_file():
raise gr.Error("Please generate the private key and then encrypt an image first.")
# Define the data and files to post
data = {
"user_id": user_id,
"filter": image_filter,
}
files = [
("files", open(encrypted_input_path, "rb")),
("files", open(evaluation_key_path, "rb")),
]
# Send the encrypted input image and evaluation key to the server
url = SERVER_URL + "send_input"
with requests.post(
url=url,
data=data,
files=files,
) as response:
return response.ok
def run_fhe(user_id, image_filter):
"""Apply the filter on the encrypted image previously sent using FHE.
Args:
user_id (int): The current user's ID.
image_filter (str): The current filter to consider.
"""
data = {
"user_id": user_id,
"filter": image_filter,
}
# Trigger the FHE execution on the encrypted image previously sent
url = SERVER_URL + "run_fhe"
with requests.post(
url=url,
data=data,
) as response:
if response.ok:
return response.json()
else:
raise gr.Error("Please wait for the input image to be sent to the server.")
def get_output(user_id, image_filter):
"""Retrieve the encrypted output image.
Args:
user_id (int): The current user's ID.
image_filter (str): The current filter to consider.
Returns:
encrypted_output_image_short (bytes): A representation of the encrypted result.
"""
data = {
"user_id": user_id,
"filter": image_filter,
}
# Retrieve the encrypted output image
url = SERVER_URL + "get_output"
with requests.post(
url=url,
data=data,
) as response:
if response.ok:
encrypted_output = response.content
# Compute the output's size in Megabytes
encrypted_output_size = len(encrypted_output) / 1000000
# Save the encrypted output to bytes in a file as it is too large to pass through regular
# Gradio buttons (see https://github.com/gradio-app/gradio/issues/1877)
encrypted_output_path = get_client_file_path("encrypted_output", user_id, image_filter)
with encrypted_output_path.open("wb") as encrypted_output_file:
encrypted_output_file.write(encrypted_output)
# Decrypt the image using a different (wrong) key for display
output_image_representation = decrypt_output_with_wrong_key(encrypted_output, image_filter)
return output_image_representation, encrypted_output_size
else:
raise gr.Error("Please wait for the FHE execution to be completed.")
def decrypt_output(user_id, image_filter):
"""Decrypt the result.
Args:
user_id (int): The current user's ID.
image_filter (str): The current filter to consider.
Returns:
(output_image, False, False) ((Tuple[numpy.ndarray, bool, bool]): The decrypted output, as
well as two booleans used for resetting Gradio checkboxes
"""
if user_id == "":
raise gr.Error("Please generate the private key first.")
# Get the encrypted output path
encrypted_output_path = get_client_file_path("encrypted_output", user_id, image_filter)
if not encrypted_output_path.is_file():
raise gr.Error("Please run the FHE execution first.")
# Load the encrypted output as bytes
with encrypted_output_path.open("rb") as encrypted_output_file:
encrypted_output_image = encrypted_output_file.read()
# Retrieve the client API
client = get_client(user_id, image_filter)
# Deserialize, decrypt and post-process the encrypted output
output_image = client.deserialize_decrypt_post_process(encrypted_output_image)
return output_image, False, False
demo = gr.Blocks()
print("Starting the demo...")
with demo:
gr.Markdown(
"""
<p align="center">
</p>
<p align="center">
</p>
"""
)
gr.Markdown("## Client side")
gr.Markdown("### Step 1. Upload an image. ")
gr.Markdown(
f"The image will automatically be resized to shape ({INPUT_SHAPE[0]}x{INPUT_SHAPE[1]})."
"The image displayed here is however using its original resolution. The true image used "
"in this demo can be seen in Step. 8."
)
with gr.Row():
input_image = gr.Image(
label="Upload an image here.", shape=INPUT_SHAPE, source="upload", interactive=True
)
examples = gr.Examples(
examples=EXAMPLES, inputs=[input_image], examples_per_page=5, label="Examples to use."
)
gr.Markdown("### Step 2. Choose your filter")
image_filter = gr.Dropdown(
choices=AVAILABLE_FILTERS, value="inverted", label="Choose your filter", interactive=True
)
gr.Markdown("#### Notes")
gr.Markdown(
"""
- The private key is used to encrypt and decrypt the data and shall never be shared.
- No public key are required for these filter operators.
"""
)
gr.Markdown("### Step 3. Generate the private key.")
keygen_button = gr.Button("Generate the private key.")
with gr.Row():
keygen_checkbox = gr.Checkbox(label="Private key generated:", interactive=False)
private_key_size = gr.Number(
label="Private key size (in kB):", value=0, precision=1, interactive=False
)
user_id = gr.Textbox(label="", max_lines=2, interactive=False, visible=False)
gr.Markdown("### Step 4. Encrypt the image using FHE.")
encrypt_button = gr.Button("Encrypt the image using FHE.")
with gr.Row():
encrypted_input = gr.Textbox(
label="Encrypted input representation:", max_lines=2, interactive=False
)
encrypted_input_size = gr.Number(
label="Encrypted input size (in MB):", value=0, precision=1, interactive=False
)
gr.Markdown("## Server side")
gr.Markdown(
"The encrypted value is received by the server. The server can then compute the filter "
"directly over encrypted values. Once the computation is finished, the server returns "
"the encrypted results to the client."
)
gr.Markdown("### Step 5. Send the encrypted image to the server.")
send_input_button = gr.Button("Send the encrypted image to the server.")
send_input_checkbox = gr.Checkbox(label="Encrypted image sent.", interactive=False)
gr.Markdown("### Step 6. Run FHE execution.")
execute_fhe_button = gr.Button("Run FHE execution.")
fhe_execution_time = gr.Textbox(
label="Total FHE execution time (in seconds):", max_lines=1, interactive=False
)
gr.Markdown("### Step 7. Receive the encrypted output image from the server.")
gr.Markdown(
"The image displayed here is the encrypted result sent by the server which has been "
"decrypted using a different private key. This is only used to visually represent an "
"encrypted image."
)
get_output_button = gr.Button("Receive the encrypted output image from the server.")
with gr.Row():
encrypted_output_representation = gr.Image(
label=f"Encrypted output representation ({INPUT_SHAPE[0]}x{INPUT_SHAPE[1]}):", interactive=False
)
encrypted_output_representation.style(height=256, width=256)
encrypted_output_size = gr.Number(
label="Encrypted output size (in MB):", value=0, precision=1, interactive=False
)
gr.Markdown("## Client side")
gr.Markdown(
"The encrypted output is sent back to client, who can finally decrypt it with its "
"private key. Only the client is aware of the original image and its transformed version."
)
gr.Markdown("### Step 8. Decrypt the output")
gr.Markdown(
"The image displayed on the left is the input image used during the demo. The output image "
"can be seen on the right."
)
decrypt_button = gr.Button("Decrypt the output")
# Final input vs output display
with gr.Row():
original_image = gr.Image(
input_image.value,
label=f"Input image ({INPUT_SHAPE[0]}x{INPUT_SHAPE[1]}):",
interactive=False,
)
original_image.style(height=256, width=256)
output_image = gr.Image(
label=f"Output image ({INPUT_SHAPE[0]}x{INPUT_SHAPE[1]}):", interactive=False
)
output_image.style(height=256, width=256)
# Button to generate the private key
keygen_button.click(
keygen,
inputs=[image_filter],
outputs=[user_id, keygen_checkbox, private_key_size],
)
# Button to encrypt inputs on the client side
encrypt_button.click(
encrypt,
inputs=[user_id, input_image, image_filter],
outputs=[original_image, encrypted_input, encrypted_input_size],
)
# Button to send the encodings to the server using post method
send_input_button.click(
send_input, inputs=[user_id, image_filter], outputs=[send_input_checkbox]
)
# Button to send the encodings to the server using post method
execute_fhe_button.click(run_fhe, inputs=[user_id, image_filter], outputs=[fhe_execution_time])
# Button to send the encodings to the server using post method
get_output_button.click(
get_output,
inputs=[user_id, image_filter],
outputs=[encrypted_output_representation, encrypted_output_size]
)
# Button to decrypt the output on the client side
decrypt_button.click(
decrypt_output,
inputs=[user_id, image_filter],
outputs=[output_image, keygen_checkbox, send_input_checkbox],
)
gr.Markdown(
"The app was built with [Concrete-ML](https://github.com/zama-ai/concrete-ml), a "
"Privacy-Preserving Machine Learning (PPML) open-source set of tools by [Zama](https://zama.ai/). "
"Try it yourself and don't forget to star on Github &#11088;."
)
demo.launch(share=False)