import os import pkgutil import socket import sys import typing as t from datetime import datetime from functools import lru_cache from functools import update_wrapper from threading import RLock import werkzeug.utils from werkzeug.exceptions import abort as _wz_abort from werkzeug.utils import redirect as _wz_redirect from .globals import _cv_request from .globals import current_app from .globals import request from .globals import request_ctx from .globals import session from .signals import message_flashed if t.TYPE_CHECKING: # pragma: no cover from werkzeug.wrappers import Response as BaseResponse from .wrappers import Response import typing_extensions as te def get_env() -> str: """Get the environment the app is running in, indicated by the :envvar:`FLASK_ENV` environment variable. The default is ``'production'``. .. deprecated:: 2.2 Will be removed in Flask 2.3. """ import warnings warnings.warn( "'FLASK_ENV' and 'get_env' are deprecated and will be removed" " in Flask 2.3. Use 'FLASK_DEBUG' instead.", DeprecationWarning, stacklevel=2, ) return os.environ.get("FLASK_ENV") or "production" def get_debug_flag() -> bool: """Get whether debug mode should be enabled for the app, indicated by the :envvar:`FLASK_DEBUG` environment variable. The default is ``False``. """ val = os.environ.get("FLASK_DEBUG") if not val: env = os.environ.get("FLASK_ENV") if env is not None: print( "'FLASK_ENV' is deprecated and will not be used in" " Flask 2.3. Use 'FLASK_DEBUG' instead.", file=sys.stderr, ) return env == "development" return False return val.lower() not in {"0", "false", "no"} def get_load_dotenv(default: bool = True) -> bool: """Get whether the user has disabled loading default dotenv files by setting :envvar:`FLASK_SKIP_DOTENV`. The default is ``True``, load the files. :param default: What to return if the env var isn't set. """ val = os.environ.get("FLASK_SKIP_DOTENV") if not val: return default return val.lower() in ("0", "false", "no") def stream_with_context( generator_or_function: t.Union[ t.Iterator[t.AnyStr], t.Callable[..., t.Iterator[t.AnyStr]] ] ) -> t.Iterator[t.AnyStr]: """Request contexts disappear when the response is started on the server. This is done for efficiency reasons and to make it less likely to encounter memory leaks with badly written WSGI middlewares. The downside is that if you are using streamed responses, the generator cannot access request bound information any more. This function however can help you keep the context around for longer:: from flask import stream_with_context, request, Response @app.route('/stream') def streamed_response(): @stream_with_context def generate(): yield 'Hello ' yield request.args['name'] yield '!' return Response(generate()) Alternatively it can also be used around a specific generator:: from flask import stream_with_context, request, Response @app.route('/stream') def streamed_response(): def generate(): yield 'Hello ' yield request.args['name'] yield '!' return Response(stream_with_context(generate())) .. versionadded:: 0.9 """ try: gen = iter(generator_or_function) # type: ignore except TypeError: def decorator(*args: t.Any, **kwargs: t.Any) -> t.Any: gen = generator_or_function(*args, **kwargs) # type: ignore return stream_with_context(gen) return update_wrapper(decorator, generator_or_function) # type: ignore def generator() -> t.Generator: ctx = _cv_request.get(None) if ctx is None: raise RuntimeError( "'stream_with_context' can only be used when a request" " context is active, such as in a view function." ) with ctx: # Dummy sentinel. Has to be inside the context block or we're # not actually keeping the context around. yield None # The try/finally is here so that if someone passes a WSGI level # iterator in we're still running the cleanup logic. Generators # don't need that because they are closed on their destruction # automatically. try: yield from gen finally: if hasattr(gen, "close"): gen.close() # The trick is to start the generator. Then the code execution runs until # the first dummy None is yielded at which point the context was already # pushed. This item is discarded. Then when the iteration continues the # real generator is executed. wrapped_g = generator() next(wrapped_g) return wrapped_g def make_response(*args: t.Any) -> "Response": """Sometimes it is necessary to set additional headers in a view. Because views do not have to return response objects but can return a value that is converted into a response object by Flask itself, it becomes tricky to add headers to it. This function can be called instead of using a return and you will get a response object which you can use to attach headers. If view looked like this and you want to add a new header:: def index(): return render_template('index.html', foo=42) You can now do something like this:: def index(): response = make_response(render_template('index.html', foo=42)) response.headers['X-Parachutes'] = 'parachutes are cool' return response This function accepts the very same arguments you can return from a view function. This for example creates a response with a 404 error code:: response = make_response(render_template('not_found.html'), 404) The other use case of this function is to force the return value of a view function into a response which is helpful with view decorators:: response = make_response(view_function()) response.headers['X-Parachutes'] = 'parachutes are cool' Internally this function does the following things: - if no arguments are passed, it creates a new response argument - if one argument is passed, :meth:`flask.Flask.make_response` is invoked with it. - if more than one argument is passed, the arguments are passed to the :meth:`flask.Flask.make_response` function as tuple. .. versionadded:: 0.6 """ if not args: return current_app.response_class() if len(args) == 1: args = args[0] return current_app.make_response(args) # type: ignore def url_for( endpoint: str, *, _anchor: t.Optional[str] = None, _method: t.Optional[str] = None, _scheme: t.Optional[str] = None, _external: t.Optional[bool] = None, **values: t.Any, ) -> str: """Generate a URL to the given endpoint with the given values. This requires an active request or application context, and calls :meth:`current_app.url_for() `. See that method for full documentation. :param endpoint: The endpoint name associated with the URL to generate. If this starts with a ``.``, the current blueprint name (if any) will be used. :param _anchor: If given, append this as ``#anchor`` to the URL. :param _method: If given, generate the URL associated with this method for the endpoint. :param _scheme: If given, the URL will have this scheme if it is external. :param _external: If given, prefer the URL to be internal (False) or require it to be external (True). External URLs include the scheme and domain. When not in an active request, URLs are external by default. :param values: Values to use for the variable parts of the URL rule. Unknown keys are appended as query string arguments, like ``?a=b&c=d``. .. versionchanged:: 2.2 Calls ``current_app.url_for``, allowing an app to override the behavior. .. versionchanged:: 0.10 The ``_scheme`` parameter was added. .. versionchanged:: 0.9 The ``_anchor`` and ``_method`` parameters were added. .. versionchanged:: 0.9 Calls ``app.handle_url_build_error`` on build errors. """ return current_app.url_for( endpoint, _anchor=_anchor, _method=_method, _scheme=_scheme, _external=_external, **values, ) def redirect( location: str, code: int = 302, Response: t.Optional[t.Type["BaseResponse"]] = None ) -> "BaseResponse": """Create a redirect response object. If :data:`~flask.current_app` is available, it will use its :meth:`~flask.Flask.redirect` method, otherwise it will use :func:`werkzeug.utils.redirect`. :param location: The URL to redirect to. :param code: The status code for the redirect. :param Response: The response class to use. Not used when ``current_app`` is active, which uses ``app.response_class``. .. versionadded:: 2.2 Calls ``current_app.redirect`` if available instead of always using Werkzeug's default ``redirect``. """ if current_app: return current_app.redirect(location, code=code) return _wz_redirect(location, code=code, Response=Response) def abort( code: t.Union[int, "BaseResponse"], *args: t.Any, **kwargs: t.Any ) -> "te.NoReturn": """Raise an :exc:`~werkzeug.exceptions.HTTPException` for the given status code. If :data:`~flask.current_app` is available, it will call its :attr:`~flask.Flask.aborter` object, otherwise it will use :func:`werkzeug.exceptions.abort`. :param code: The status code for the exception, which must be registered in ``app.aborter``. :param args: Passed to the exception. :param kwargs: Passed to the exception. .. versionadded:: 2.2 Calls ``current_app.aborter`` if available instead of always using Werkzeug's default ``abort``. """ if current_app: current_app.aborter(code, *args, **kwargs) _wz_abort(code, *args, **kwargs) def get_template_attribute(template_name: str, attribute: str) -> t.Any: """Loads a macro (or variable) a template exports. This can be used to invoke a macro from within Python code. If you for example have a template named :file:`_cider.html` with the following contents: .. sourcecode:: html+jinja {% macro hello(name) %}Hello {{ name }}!{% endmacro %} You can access this from Python code like this:: hello = get_template_attribute('_cider.html', 'hello') return hello('World') .. versionadded:: 0.2 :param template_name: the name of the template :param attribute: the name of the variable of macro to access """ return getattr(current_app.jinja_env.get_template(template_name).module, attribute) def flash(message: str, category: str = "message") -> None: """Flashes a message to the next request. In order to remove the flashed message from the session and to display it to the user, the template has to call :func:`get_flashed_messages`. .. versionchanged:: 0.3 `category` parameter added. :param message: the message to be flashed. :param category: the category for the message. The following values are recommended: ``'message'`` for any kind of message, ``'error'`` for errors, ``'info'`` for information messages and ``'warning'`` for warnings. However any kind of string can be used as category. """ # Original implementation: # # session.setdefault('_flashes', []).append((category, message)) # # This assumed that changes made to mutable structures in the session are # always in sync with the session object, which is not true for session # implementations that use external storage for keeping their keys/values. flashes = session.get("_flashes", []) flashes.append((category, message)) session["_flashes"] = flashes message_flashed.send( current_app._get_current_object(), # type: ignore message=message, category=category, ) def get_flashed_messages( with_categories: bool = False, category_filter: t.Iterable[str] = () ) -> t.Union[t.List[str], t.List[t.Tuple[str, str]]]: """Pulls all flashed messages from the session and returns them. Further calls in the same request to the function will return the same messages. By default just the messages are returned, but when `with_categories` is set to ``True``, the return value will be a list of tuples in the form ``(category, message)`` instead. Filter the flashed messages to one or more categories by providing those categories in `category_filter`. This allows rendering categories in separate html blocks. The `with_categories` and `category_filter` arguments are distinct: * `with_categories` controls whether categories are returned with message text (``True`` gives a tuple, where ``False`` gives just the message text). * `category_filter` filters the messages down to only those matching the provided categories. See :doc:`/patterns/flashing` for examples. .. versionchanged:: 0.3 `with_categories` parameter added. .. versionchanged:: 0.9 `category_filter` parameter added. :param with_categories: set to ``True`` to also receive categories. :param category_filter: filter of categories to limit return values. Only categories in the list will be returned. """ flashes = request_ctx.flashes if flashes is None: flashes = session.pop("_flashes") if "_flashes" in session else [] request_ctx.flashes = flashes if category_filter: flashes = list(filter(lambda f: f[0] in category_filter, flashes)) if not with_categories: return [x[1] for x in flashes] return flashes def _prepare_send_file_kwargs(**kwargs: t.Any) -> t.Dict[str, t.Any]: if kwargs.get("max_age") is None: kwargs["max_age"] = current_app.get_send_file_max_age kwargs.update( environ=request.environ, use_x_sendfile=current_app.config["USE_X_SENDFILE"], response_class=current_app.response_class, _root_path=current_app.root_path, # type: ignore ) return kwargs def send_file( path_or_file: t.Union[os.PathLike, str, t.BinaryIO], mimetype: t.Optional[str] = None, as_attachment: bool = False, download_name: t.Optional[str] = None, conditional: bool = True, etag: t.Union[bool, str] = True, last_modified: t.Optional[t.Union[datetime, int, float]] = None, max_age: t.Optional[ t.Union[int, t.Callable[[t.Optional[str]], t.Optional[int]]] ] = None, ) -> "Response": """Send the contents of a file to the client. The first argument can be a file path or a file-like object. Paths are preferred in most cases because Werkzeug can manage the file and get extra information from the path. Passing a file-like object requires that the file is opened in binary mode, and is mostly useful when building a file in memory with :class:`io.BytesIO`. Never pass file paths provided by a user. The path is assumed to be trusted, so a user could craft a path to access a file you didn't intend. Use :func:`send_from_directory` to safely serve user-requested paths from within a directory. If the WSGI server sets a ``file_wrapper`` in ``environ``, it is used, otherwise Werkzeug's built-in wrapper is used. Alternatively, if the HTTP server supports ``X-Sendfile``, configuring Flask with ``USE_X_SENDFILE = True`` will tell the server to send the given path, which is much more efficient than reading it in Python. :param path_or_file: The path to the file to send, relative to the current working directory if a relative path is given. Alternatively, a file-like object opened in binary mode. Make sure the file pointer is seeked to the start of the data. :param mimetype: The MIME type to send for the file. If not provided, it will try to detect it from the file name. :param as_attachment: Indicate to a browser that it should offer to save the file instead of displaying it. :param download_name: The default name browsers will use when saving the file. Defaults to the passed file name. :param conditional: Enable conditional and range responses based on request headers. Requires passing a file path and ``environ``. :param etag: Calculate an ETag for the file, which requires passing a file path. Can also be a string to use instead. :param last_modified: The last modified time to send for the file, in seconds. If not provided, it will try to detect it from the file path. :param max_age: How long the client should cache the file, in seconds. If set, ``Cache-Control`` will be ``public``, otherwise it will be ``no-cache`` to prefer conditional caching. .. versionchanged:: 2.0 ``download_name`` replaces the ``attachment_filename`` parameter. If ``as_attachment=False``, it is passed with ``Content-Disposition: inline`` instead. .. versionchanged:: 2.0 ``max_age`` replaces the ``cache_timeout`` parameter. ``conditional`` is enabled and ``max_age`` is not set by default. .. versionchanged:: 2.0 ``etag`` replaces the ``add_etags`` parameter. It can be a string to use instead of generating one. .. versionchanged:: 2.0 Passing a file-like object that inherits from :class:`~io.TextIOBase` will raise a :exc:`ValueError` rather than sending an empty file. .. versionadded:: 2.0 Moved the implementation to Werkzeug. This is now a wrapper to pass some Flask-specific arguments. .. versionchanged:: 1.1 ``filename`` may be a :class:`~os.PathLike` object. .. versionchanged:: 1.1 Passing a :class:`~io.BytesIO` object supports range requests. .. versionchanged:: 1.0.3 Filenames are encoded with ASCII instead of Latin-1 for broader compatibility with WSGI servers. .. versionchanged:: 1.0 UTF-8 filenames as specified in :rfc:`2231` are supported. .. versionchanged:: 0.12 The filename is no longer automatically inferred from file objects. If you want to use automatic MIME and etag support, pass a filename via ``filename_or_fp`` or ``attachment_filename``. .. versionchanged:: 0.12 ``attachment_filename`` is preferred over ``filename`` for MIME detection. .. versionchanged:: 0.9 ``cache_timeout`` defaults to :meth:`Flask.get_send_file_max_age`. .. versionchanged:: 0.7 MIME guessing and etag support for file-like objects was deprecated because it was unreliable. Pass a filename if you are able to, otherwise attach an etag yourself. .. versionchanged:: 0.5 The ``add_etags``, ``cache_timeout`` and ``conditional`` parameters were added. The default behavior is to add etags. .. versionadded:: 0.2 """ return werkzeug.utils.send_file( # type: ignore[return-value] **_prepare_send_file_kwargs( path_or_file=path_or_file, environ=request.environ, mimetype=mimetype, as_attachment=as_attachment, download_name=download_name, conditional=conditional, etag=etag, last_modified=last_modified, max_age=max_age, ) ) def send_from_directory( directory: t.Union[os.PathLike, str], path: t.Union[os.PathLike, str], **kwargs: t.Any, ) -> "Response": """Send a file from within a directory using :func:`send_file`. .. code-block:: python @app.route("/uploads/") def download_file(name): return send_from_directory( app.config['UPLOAD_FOLDER'], name, as_attachment=True ) This is a secure way to serve files from a folder, such as static files or uploads. Uses :func:`~werkzeug.security.safe_join` to ensure the path coming from the client is not maliciously crafted to point outside the specified directory. If the final path does not point to an existing regular file, raises a 404 :exc:`~werkzeug.exceptions.NotFound` error. :param directory: The directory that ``path`` must be located under, relative to the current application's root path. :param path: The path to the file to send, relative to ``directory``. :param kwargs: Arguments to pass to :func:`send_file`. .. versionchanged:: 2.0 ``path`` replaces the ``filename`` parameter. .. versionadded:: 2.0 Moved the implementation to Werkzeug. This is now a wrapper to pass some Flask-specific arguments. .. versionadded:: 0.5 """ return werkzeug.utils.send_from_directory( # type: ignore[return-value] directory, path, **_prepare_send_file_kwargs(**kwargs) ) def get_root_path(import_name: str) -> str: """Find the root path of a package, or the path that contains a module. If it cannot be found, returns the current working directory. Not to be confused with the value returned by :func:`find_package`. :meta private: """ # Module already imported and has a file attribute. Use that first. mod = sys.modules.get(import_name) if mod is not None and hasattr(mod, "__file__") and mod.__file__ is not None: return os.path.dirname(os.path.abspath(mod.__file__)) # Next attempt: check the loader. loader = pkgutil.get_loader(import_name) # Loader does not exist or we're referring to an unloaded main # module or a main module without path (interactive sessions), go # with the current working directory. if loader is None or import_name == "__main__": return os.getcwd() if hasattr(loader, "get_filename"): filepath = loader.get_filename(import_name) else: # Fall back to imports. __import__(import_name) mod = sys.modules[import_name] filepath = getattr(mod, "__file__", None) # If we don't have a file path it might be because it is a # namespace package. In this case pick the root path from the # first module that is contained in the package. if filepath is None: raise RuntimeError( "No root path can be found for the provided module" f" {import_name!r}. This can happen because the module" " came from an import hook that does not provide file" " name information or because it's a namespace package." " In this case the root path needs to be explicitly" " provided." ) # filepath is import_name.py for a module, or __init__.py for a package. return os.path.dirname(os.path.abspath(filepath)) class locked_cached_property(werkzeug.utils.cached_property): """A :func:`property` that is only evaluated once. Like :class:`werkzeug.utils.cached_property` except access uses a lock for thread safety. .. versionchanged:: 2.0 Inherits from Werkzeug's ``cached_property`` (and ``property``). """ def __init__( self, fget: t.Callable[[t.Any], t.Any], name: t.Optional[str] = None, doc: t.Optional[str] = None, ) -> None: super().__init__(fget, name=name, doc=doc) self.lock = RLock() def __get__(self, obj: object, type: type = None) -> t.Any: # type: ignore if obj is None: return self with self.lock: return super().__get__(obj, type=type) def __set__(self, obj: object, value: t.Any) -> None: with self.lock: super().__set__(obj, value) def __delete__(self, obj: object) -> None: with self.lock: super().__delete__(obj) def is_ip(value: str) -> bool: """Determine if the given string is an IP address. :param value: value to check :type value: str :return: True if string is an IP address :rtype: bool """ for family in (socket.AF_INET, socket.AF_INET6): try: socket.inet_pton(family, value) except OSError: pass else: return True return False @lru_cache(maxsize=None) def _split_blueprint_path(name: str) -> t.List[str]: out: t.List[str] = [name] if "." in name: out.extend(_split_blueprint_path(name.rpartition(".")[0])) return out