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from __future__ import annotations
import asyncio
import functools
import hashlib
import hmac
import json
import os
import re
import shutil
import sys
from collections import deque
from contextlib import AsyncExitStack, asynccontextmanager
from dataclasses import dataclass as python_dataclass
from datetime import datetime
from pathlib import Path
from tempfile import NamedTemporaryFile, _TemporaryFileWrapper
from typing import (
TYPE_CHECKING,
AsyncContextManager,
AsyncGenerator,
BinaryIO,
Callable,
List,
Optional,
Tuple,
Union,
)
from urllib.parse import urlparse
import anyio
import fastapi
import gradio_client.utils as client_utils
import httpx
import multipart
from gradio_client.documentation import document
from multipart.multipart import parse_options_header
from starlette.datastructures import FormData, Headers, MutableHeaders, UploadFile
from starlette.formparsers import MultiPartException, MultipartPart
from starlette.responses import PlainTextResponse, Response
from starlette.types import ASGIApp, Message, Receive, Scope, Send
from gradio import processing_utils, utils
from gradio.data_classes import PredictBody
from gradio.exceptions import Error
from gradio.helpers import EventData
from gradio.state_holder import SessionState
if TYPE_CHECKING:
from gradio.blocks import Blocks
from gradio.routes import App
class Obj:
"""
Using a class to convert dictionaries into objects. Used by the `Request` class.
Credit: https://www.geeksforgeeks.org/convert-nested-python-dictionary-to-object/
"""
def __init__(self, dict_):
self.__dict__.update(dict_)
for key, value in dict_.items():
if isinstance(value, (dict, list)):
value = Obj(value)
setattr(self, key, value)
def __getitem__(self, item):
return self.__dict__[item]
def __setitem__(self, item, value):
self.__dict__[item] = value
def __iter__(self):
for key, value in self.__dict__.items():
if isinstance(value, Obj):
yield (key, dict(value))
else:
yield (key, value)
def __contains__(self, item) -> bool:
if item in self.__dict__:
return True
for value in self.__dict__.values():
if isinstance(value, Obj) and item in value:
return True
return False
def get(self, item, default=None):
if item in self:
return self.__dict__[item]
return default
def keys(self):
return self.__dict__.keys()
def values(self):
return self.__dict__.values()
def items(self):
return self.__dict__.items()
def __str__(self) -> str:
return str(self.__dict__)
def __repr__(self) -> str:
return str(self.__dict__)
@document()
class Request:
"""
A Gradio request object that can be used to access the request headers, cookies,
query parameters and other information about the request from within the prediction
function. The class is a thin wrapper around the fastapi.Request class. Attributes
of this class include: `headers`, `client`, `query_params`, `session_hash`, and `path_params`. If
auth is enabled, the `username` attribute can be used to get the logged in user.
Example:
import gradio as gr
def echo(text, request: gr.Request):
if request:
print("Request headers dictionary:", request.headers)
print("IP address:", request.client.host)
print("Query parameters:", dict(request.query_params))
print("Session hash:", request.session_hash)
return text
io = gr.Interface(echo, "textbox", "textbox").launch()
Demos: request_ip_headers
"""
def __init__(
self,
request: fastapi.Request | None = None,
username: str | None = None,
session_hash: str | None = None,
**kwargs,
):
"""
Can be instantiated with either a fastapi.Request or by manually passing in
attributes (needed for queueing).
Parameters:
request: A fastapi.Request
username: The username of the logged in user (if auth is enabled)
session_hash: The session hash of the current session. It is unique for each page load.
"""
self.request = request
self.username = username
self.session_hash = session_hash
self.kwargs: dict = kwargs
def dict_to_obj(self, d):
if isinstance(d, dict):
return json.loads(json.dumps(d), object_hook=Obj)
else:
return d
def __getattr__(self, name):
if self.request:
return self.dict_to_obj(getattr(self.request, name))
else:
try:
obj = self.kwargs[name]
except KeyError as ke:
raise AttributeError(
f"'Request' object has no attribute '{name}'"
) from ke
return self.dict_to_obj(obj)
class FnIndexInferError(Exception):
pass
def infer_fn_index(app: App, api_name: str, body: PredictBody) -> int:
if body.fn_index is None:
for i, fn in enumerate(app.get_blocks().fns):
if fn.api_name == api_name:
return i
raise FnIndexInferError(f"Could not infer fn_index for api_name {api_name}.")
else:
return body.fn_index
def compile_gr_request(
app: App,
body: PredictBody,
fn_index_inferred: int,
username: Optional[str],
request: Optional[fastapi.Request],
):
# If this fn_index cancels jobs, then the only input we need is the
# current session hash
if app.get_blocks().fns[fn_index_inferred].cancels:
body.data = [body.session_hash]
if body.request:
if body.batched:
gr_request = [Request(username=username, request=request)]
else:
gr_request = Request(
username=username, request=body.request, session_hash=body.session_hash
)
else:
if request is None:
raise ValueError("request must be provided if body.request is None")
gr_request = Request(
username=username, request=request, session_hash=body.session_hash
)
return gr_request
def restore_session_state(app: App, body: PredictBody):
event_id = body.event_id
session_hash = getattr(body, "session_hash", None)
if session_hash is not None:
session_state = app.state_holder[session_hash]
# The should_reset set keeps track of the fn_indices
# that have been cancelled. When a job is cancelled,
# the /reset route will mark the jobs as having been reset.
# That way if the cancel job finishes BEFORE the job being cancelled
# the job being cancelled will not overwrite the state of the iterator.
if event_id is None:
iterator = None
elif event_id in app.iterators_to_reset:
iterator = None
app.iterators_to_reset.remove(event_id)
else:
iterator = app.iterators.get(event_id)
else:
session_state = SessionState(app.get_blocks())
iterator = None
return session_state, iterator
def prepare_event_data(
blocks: Blocks,
body: PredictBody,
) -> EventData:
target = body.trigger_id
event_data = EventData(
blocks.blocks.get(target) if target else None,
body.event_data,
)
return event_data
async def call_process_api(
app: App,
body: PredictBody,
gr_request: Union[Request, list[Request]],
fn_index_inferred: int,
root_path: str,
):
session_state, iterator = restore_session_state(app=app, body=body)
dependency = app.get_blocks().fns[fn_index_inferred]
event_data = prepare_event_data(app.get_blocks(), body)
event_id = body.event_id
session_hash = getattr(body, "session_hash", None)
inputs = body.data
batch_in_single_out = not body.batched and dependency.batch
if batch_in_single_out:
inputs = [inputs]
try:
with utils.MatplotlibBackendMananger():
output = await app.get_blocks().process_api(
fn_index=fn_index_inferred,
inputs=inputs,
request=gr_request,
state=session_state,
iterator=iterator,
session_hash=session_hash,
event_id=event_id,
event_data=event_data,
in_event_listener=True,
simple_format=body.simple_format,
root_path=root_path,
)
iterator = output.pop("iterator", None)
if event_id is not None:
app.iterators[event_id] = iterator # type: ignore
if isinstance(output, Error):
raise output
except BaseException:
iterator = app.iterators.get(event_id) if event_id is not None else None
if iterator is not None: # close off any streams that are still open
run_id = id(iterator)
pending_streams: dict[int, list] = (
app.get_blocks().pending_streams[session_hash].get(run_id, {})
)
for stream in pending_streams.values():
stream.append(None)
raise
if batch_in_single_out:
output["data"] = output["data"][0]
return output
def get_root_url(
request: fastapi.Request, route_path: str, root_path: str | None
) -> str:
"""
Gets the root url of the Gradio app (i.e. the public url of the app) without a trailing slash.
This is how the root_url is resolved:
1. If a user provides a `root_path` manually that is a full URL, it is returned directly.
2. If the request has an x-forwarded-host header (e.g. because it is behind a proxy), the root url is
constructed from the x-forwarded-host header. In this case, `route_path` is not used to construct the root url.
3. Otherwise, the root url is constructed from the request url. The query parameters and `route_path` are stripped off.
And if a relative `root_path` is provided, and it is not already the subpath of the URL, it is appended to the root url.
In cases (2) and (3), We also check to see if the x-forwarded-proto header is present, and if so, convert the root url to https.
And if there are multiple hosts in the x-forwarded-host or multiple protocols in the x-forwarded-proto, the first one is used.
"""
def get_first_header_value(header_name: str):
header_value = request.headers.get(header_name)
if header_value:
return header_value.split(",")[0].strip()
return None
if root_path and client_utils.is_http_url_like(root_path):
return root_path.rstrip("/")
x_forwarded_host = get_first_header_value("x-forwarded-host")
root_url = f"http://{x_forwarded_host}" if x_forwarded_host else str(request.url)
root_url = httpx.URL(root_url)
root_url = root_url.copy_with(query=None)
root_url = str(root_url).rstrip("/")
if get_first_header_value("x-forwarded-proto") == "https":
root_url = root_url.replace("http://", "https://")
route_path = route_path.rstrip("/")
if len(route_path) > 0 and not x_forwarded_host:
root_url = root_url[: -len(route_path)]
root_url = root_url.rstrip("/")
root_url = httpx.URL(root_url)
if root_path and root_url.path != root_path:
root_url = root_url.copy_with(path=root_path)
return str(root_url).rstrip("/")
def _user_safe_decode(src: bytes, codec: str) -> str:
try:
return src.decode(codec)
except (UnicodeDecodeError, LookupError):
return src.decode("latin-1")
class GradioUploadFile(UploadFile):
"""UploadFile with a sha attribute."""
def __init__(
self,
file: BinaryIO,
*,
size: int | None = None,
filename: str | None = None,
headers: Headers | None = None,
) -> None:
super().__init__(file, size=size, filename=filename, headers=headers)
self.sha = hashlib.sha1()
@python_dataclass(frozen=True)
class FileUploadProgressUnit:
filename: str
chunk_size: int
@python_dataclass
class FileUploadProgressTracker:
deque: deque[FileUploadProgressUnit]
is_done: bool
class FileUploadProgressNotTrackedError(Exception):
pass
class FileUploadProgressNotQueuedError(Exception):
pass
class FileUploadProgress:
def __init__(self) -> None:
self._statuses: dict[str, FileUploadProgressTracker] = {}
def track(self, upload_id: str):
if upload_id not in self._statuses:
self._statuses[upload_id] = FileUploadProgressTracker(deque(), False)
def append(self, upload_id: str, filename: str, message_bytes: bytes):
if upload_id not in self._statuses:
self.track(upload_id)
queue = self._statuses[upload_id].deque
if len(queue) == 0:
queue.append(FileUploadProgressUnit(filename, len(message_bytes)))
else:
last_unit = queue.popleft()
if last_unit.filename != filename:
queue.append(FileUploadProgressUnit(filename, len(message_bytes)))
else:
queue.append(
FileUploadProgressUnit(
filename,
last_unit.chunk_size + len(message_bytes),
)
)
def set_done(self, upload_id: str):
if upload_id not in self._statuses:
self.track(upload_id)
self._statuses[upload_id].is_done = True
def is_done(self, upload_id: str):
if upload_id not in self._statuses:
raise FileUploadProgressNotTrackedError()
return self._statuses[upload_id].is_done
def stop_tracking(self, upload_id: str):
if upload_id in self._statuses:
del self._statuses[upload_id]
def pop(self, upload_id: str) -> FileUploadProgressUnit:
if upload_id not in self._statuses:
raise FileUploadProgressNotTrackedError()
try:
return self._statuses[upload_id].deque.pop()
except IndexError as e:
raise FileUploadProgressNotQueuedError() from e
class GradioMultiPartParser:
"""Vendored from starlette.MultipartParser.
Thanks starlette!
Made the following modifications
- Use GradioUploadFile instead of UploadFile
- Use NamedTemporaryFile instead of SpooledTemporaryFile
- Compute hash of data as the request is streamed
"""
max_file_size = 1024 * 1024
def __init__(
self,
headers: Headers,
stream: AsyncGenerator[bytes, None],
*,
max_files: Union[int, float] = 1000,
max_fields: Union[int, float] = 1000,
upload_id: str | None = None,
upload_progress: FileUploadProgress | None = None,
max_file_size: int | float,
) -> None:
self.headers = headers
self.stream = stream
self.max_files = max_files
self.max_fields = max_fields
self.items: List[Tuple[str, Union[str, UploadFile]]] = []
self.upload_id = upload_id
self.upload_progress = upload_progress
self._current_files = 0
self._current_fields = 0
self.max_file_size = max_file_size
self._current_partial_header_name: bytes = b""
self._current_partial_header_value: bytes = b""
self._current_part = MultipartPart()
self._charset = ""
self._file_parts_to_write: List[Tuple[MultipartPart, bytes]] = []
self._file_parts_to_finish: List[MultipartPart] = []
self._files_to_close_on_error: List[_TemporaryFileWrapper] = []
def on_part_begin(self) -> None:
self._current_part = MultipartPart()
def on_part_data(self, data: bytes, start: int, end: int) -> None:
message_bytes = data[start:end]
if self.upload_progress is not None:
self.upload_progress.append(
self.upload_id, # type: ignore
self._current_part.file.filename, # type: ignore
message_bytes,
)
if self._current_part.file is None:
self._current_part.data += message_bytes
else:
self._file_parts_to_write.append((self._current_part, message_bytes))
def on_part_end(self) -> None:
if self._current_part.file is None:
self.items.append(
(
self._current_part.field_name,
_user_safe_decode(self._current_part.data, self._charset),
)
)
else:
self._file_parts_to_finish.append(self._current_part)
# The file can be added to the items right now even though it's not
# finished yet, because it will be finished in the `parse()` method, before
# self.items is used in the return value.
self.items.append((self._current_part.field_name, self._current_part.file))
def on_header_field(self, data: bytes, start: int, end: int) -> None:
self._current_partial_header_name += data[start:end]
def on_header_value(self, data: bytes, start: int, end: int) -> None:
self._current_partial_header_value += data[start:end]
def on_header_end(self) -> None:
field = self._current_partial_header_name.lower()
if field == b"content-disposition":
self._current_part.content_disposition = self._current_partial_header_value
self._current_part.item_headers.append(
(field, self._current_partial_header_value)
)
self._current_partial_header_name = b""
self._current_partial_header_value = b""
def on_headers_finished(self) -> None:
_, options = parse_options_header(self._current_part.content_disposition or b"")
try:
self._current_part.field_name = _user_safe_decode(
options[b"name"], str(self._charset)
)
except KeyError as e:
raise MultiPartException(
'The Content-Disposition header field "name" must be ' "provided."
) from e
if b"filename" in options:
self._current_files += 1
if self._current_files > self.max_files:
raise MultiPartException(
f"Too many files. Maximum number of files is {self.max_files}."
)
filename = _user_safe_decode(options[b"filename"], str(self._charset))
tempfile = NamedTemporaryFile(delete=False)
self._files_to_close_on_error.append(tempfile)
self._current_part.file = GradioUploadFile(
file=tempfile, # type: ignore[arg-type]
size=0,
filename=filename,
headers=Headers(raw=self._current_part.item_headers),
)
else:
self._current_fields += 1
if self._current_fields > self.max_fields:
raise MultiPartException(
f"Too many fields. Maximum number of fields is {self.max_fields}."
)
self._current_part.file = None
def on_end(self) -> None:
pass
async def parse(self) -> FormData:
# Parse the Content-Type header to get the multipart boundary.
_, params = parse_options_header(self.headers["Content-Type"])
charset = params.get(b"charset", "utf-8")
if isinstance(charset, bytes):
charset = charset.decode("latin-1")
self._charset = charset
try:
boundary = params[b"boundary"]
except KeyError as e:
raise MultiPartException("Missing boundary in multipart.") from e
# Callbacks dictionary.
callbacks: multipart.multipart.MultipartCallbacks = {
"on_part_begin": self.on_part_begin,
"on_part_data": self.on_part_data,
"on_part_end": self.on_part_end,
"on_header_field": self.on_header_field,
"on_header_value": self.on_header_value,
"on_header_end": self.on_header_end,
"on_headers_finished": self.on_headers_finished,
"on_end": self.on_end,
}
# Create the parser.
parser = multipart.MultipartParser(boundary, callbacks)
try:
# Feed the parser with data from the request.
async for chunk in self.stream:
parser.write(chunk)
# Write file data, it needs to use await with the UploadFile methods
# that call the corresponding file methods *in a threadpool*,
# otherwise, if they were called directly in the callback methods above
# (regular, non-async functions), that would block the event loop in
# the main thread.
for part, data in self._file_parts_to_write:
assert part.file # for type checkers # noqa: S101
await part.file.write(data)
part.file.sha.update(data) # type: ignore
if os.stat(part.file.file.name).st_size > self.max_file_size:
if self.upload_progress is not None:
self.upload_progress.set_done(self.upload_id) # type: ignore
raise MultiPartException(
f"File size exceeded maximum allowed size of {self.max_file_size} bytes."
)
for part in self._file_parts_to_finish:
assert part.file # for type checkers # noqa: S101
await part.file.seek(0)
self._file_parts_to_write.clear()
self._file_parts_to_finish.clear()
except MultiPartException as exc:
# Close all the files if there was an error.
for file in self._files_to_close_on_error:
file.close()
Path(file.name).unlink()
raise exc
parser.finalize()
if self.upload_progress is not None:
self.upload_progress.set_done(self.upload_id) # type: ignore
return FormData(self.items)
def move_uploaded_files_to_cache(files: list[str], destinations: list[str]) -> None:
for file, dest in zip(files, destinations):
shutil.move(file, dest)
def update_root_in_config(config: dict, root: str) -> dict:
"""
Updates the root "key" in the config dictionary to the new root url. If the
root url has changed, all of the urls in the config that correspond to component
file urls are updated to use the new root url.
"""
previous_root = config.get("root")
if previous_root is None or previous_root != root:
config["root"] = root
config = processing_utils.add_root_url(config, root, previous_root)
return config
def compare_passwords_securely(input_password: str, correct_password: str) -> bool:
return hmac.compare_digest(input_password.encode(), correct_password.encode())
def starts_with_protocol(string: str) -> bool:
"""This regex matches strings that start with a scheme (one or more characters not including colon, slash, or space)
followed by ://, or start with just //, \\/, /\\, or \\ as they are interpreted as SMB paths on Windows.
"""
pattern = r"^(?:[a-zA-Z][a-zA-Z0-9+\-.]*://|//|\\\\|\\/|/\\)"
return re.match(pattern, string) is not None
def get_hostname(url: str) -> str:
"""
Returns the hostname of a given url, or an empty string if the url cannot be parsed.
Examples:
get_hostname("https://www.gradio.app") -> "www.gradio.app"
get_hostname("localhost:7860") -> "localhost"
get_hostname("127.0.0.1") -> "127.0.0.1"
"""
if not url:
return ""
if "://" not in url:
url = "http://" + url
try:
return urlparse(url).hostname or ""
except Exception:
return ""
class CustomCORSMiddleware:
# This is a modified version of the Starlette CORSMiddleware that restricts the allowed origins when the host is localhost.
# Adapted from: https://github.com/encode/starlette/blob/89fae174a1ea10f59ae248fe030d9b7e83d0b8a0/starlette/middleware/cors.py
def __init__(
self,
app: ASGIApp,
) -> None:
self.app = app
self.all_methods = ("DELETE", "GET", "HEAD", "OPTIONS", "PATCH", "POST", "PUT")
self.preflight_headers = {
"Access-Control-Allow-Methods": ", ".join(self.all_methods),
"Access-Control-Max-Age": str(600),
}
self.simple_headers = {"Access-Control-Allow-Credentials": "true"}
# Any of these hosts suggests that the Gradio app is running locally.
# Note: "null" is a special case that happens if a Gradio app is running
# as an embedded web component in a local static webpage.
self.localhost_aliases = ["localhost", "127.0.0.1", "0.0.0.0", "null"]
async def __call__(self, scope: Scope, receive: Receive, send: Send) -> None:
if scope["type"] != "http":
await self.app(scope, receive, send)
return
headers = Headers(scope=scope)
origin = headers.get("origin")
if origin is None:
await self.app(scope, receive, send)
return
if scope["method"] == "OPTIONS" and "access-control-request-method" in headers:
response = self.preflight_response(request_headers=headers)
await response(scope, receive, send)
return
await self.simple_response(scope, receive, send, request_headers=headers)
def preflight_response(self, request_headers: Headers) -> Response:
headers = dict(self.preflight_headers)
origin = request_headers["Origin"]
if self.is_valid_origin(request_headers):
headers["Access-Control-Allow-Origin"] = origin
requested_headers = request_headers.get("access-control-request-headers")
if requested_headers is not None:
headers["Access-Control-Allow-Headers"] = requested_headers
return PlainTextResponse("OK", status_code=200, headers=headers)
async def simple_response(
self, scope: Scope, receive: Receive, send: Send, request_headers: Headers
) -> None:
send = functools.partial(self._send, send=send, request_headers=request_headers)
await self.app(scope, receive, send)
async def _send(
self, message: Message, send: Send, request_headers: Headers
) -> None:
if message["type"] != "http.response.start":
await send(message)
return
message.setdefault("headers", [])
headers = MutableHeaders(scope=message)
headers.update(self.simple_headers)
has_cookie = "cookie" in request_headers
origin = request_headers["Origin"]
if has_cookie or self.is_valid_origin(request_headers):
self.allow_explicit_origin(headers, origin)
await send(message)
def is_valid_origin(self, request_headers: Headers) -> bool:
origin = request_headers["Origin"]
host = request_headers["Host"]
host_name = get_hostname(host)
origin_name = get_hostname(origin)
return (
host_name not in self.localhost_aliases
or origin_name in self.localhost_aliases
)
@staticmethod
def allow_explicit_origin(headers: MutableHeaders, origin: str) -> None:
headers["Access-Control-Allow-Origin"] = origin
headers.add_vary_header("Origin")
def delete_files_created_by_app(blocks: Blocks, age: int | None) -> None:
"""Delete files that are older than age. If age is None, delete all files."""
dont_delete = set()
for component in blocks.blocks.values():
dont_delete.update(getattr(component, "keep_in_cache", set()))
for temp_set in blocks.temp_file_sets:
# We use a copy of the set to avoid modifying the set while iterating over it
# otherwise we would get an exception: Set changed size during iteration
to_remove = set()
for file in temp_set:
if file in dont_delete:
continue
try:
file_path = Path(file)
modified_time = datetime.fromtimestamp(file_path.lstat().st_ctime)
if age is None or (datetime.now() - modified_time).seconds > age:
os.remove(file)
to_remove.add(file)
except FileNotFoundError:
continue
temp_set -= to_remove
async def delete_files_on_schedule(app: App, frequency: int, age: int) -> None:
"""Startup task to delete files created by the app based on time since last modification."""
while True:
await asyncio.sleep(frequency)
await anyio.to_thread.run_sync(
delete_files_created_by_app, app.get_blocks(), age
)
@asynccontextmanager
async def _lifespan_handler(
app: App, frequency: int = 1, age: int = 1
) -> AsyncGenerator:
"""A context manager that triggers the startup and shutdown events of the app."""
asyncio.create_task(delete_files_on_schedule(app, frequency, age))
yield
delete_files_created_by_app(app.get_blocks(), age=None)
async def _delete_state(app: App):
"""Delete all expired state every second."""
while True:
app.state_holder.delete_all_expired_state()
await asyncio.sleep(1)
@asynccontextmanager
async def _delete_state_handler(app: App):
"""When the server launches, regularly delete expired state."""
# The stop event needs to get the current event loop for python 3.8
# but the loop parameter is deprecated for 3.8+
if sys.version_info < (3, 10):
loop = asyncio.get_running_loop()
app.stop_event = asyncio.Event(loop=loop)
asyncio.create_task(_delete_state(app))
yield
def create_lifespan_handler(
user_lifespan: Callable[[App], AsyncContextManager] | None,
frequency: int | None = 1,
age: int | None = 1,
) -> Callable[[App], AsyncContextManager]:
"""Return a context manager that applies _lifespan_handler and user_lifespan if it exists."""
@asynccontextmanager
async def _handler(app: App):
async with AsyncExitStack() as stack:
await stack.enter_async_context(_delete_state_handler(app))
if frequency and age:
await stack.enter_async_context(_lifespan_handler(app, frequency, age))
if user_lifespan is not None:
await stack.enter_async_context(user_lifespan(app))
yield
return _handler