import functools import json import typing import typing as t from io import BytesIO from .._internal import _wsgi_decoding_dance from ..datastructures import CombinedMultiDict from ..datastructures import EnvironHeaders from ..datastructures import FileStorage from ..datastructures import ImmutableMultiDict from ..datastructures import iter_multi_items from ..datastructures import MultiDict from ..formparser import default_stream_factory from ..formparser import FormDataParser from ..sansio.request import Request as _SansIORequest from ..utils import cached_property from ..utils import environ_property from ..wsgi import _get_server from ..wsgi import get_input_stream from werkzeug.exceptions import BadRequest if t.TYPE_CHECKING: import typing_extensions as te from _typeshed.wsgi import WSGIApplication from _typeshed.wsgi import WSGIEnvironment class Request(_SansIORequest): """Represents an incoming WSGI HTTP request, with headers and body taken from the WSGI environment. Has properties and methods for using the functionality defined by various HTTP specs. The data in requests object is read-only. Text data is assumed to use UTF-8 encoding, which should be true for the vast majority of modern clients. Using an encoding set by the client is unsafe in Python due to extra encodings it provides, such as ``zip``. To change the assumed encoding, subclass and replace :attr:`charset`. :param environ: The WSGI environ is generated by the WSGI server and contains information about the server configuration and client request. :param populate_request: Add this request object to the WSGI environ as ``environ['werkzeug.request']``. Can be useful when debugging. :param shallow: Makes reading from :attr:`stream` (and any method that would read from it) raise a :exc:`RuntimeError`. Useful to prevent consuming the form data in middleware, which would make it unavailable to the final application. .. versionchanged:: 2.1 Remove the ``disable_data_descriptor`` attribute. .. versionchanged:: 2.0 Combine ``BaseRequest`` and mixins into a single ``Request`` class. Using the old classes is deprecated and will be removed in Werkzeug 2.1. .. versionchanged:: 0.5 Read-only mode is enforced with immutable classes for all data. """ #: the maximum content length. This is forwarded to the form data #: parsing function (:func:`parse_form_data`). When set and the #: :attr:`form` or :attr:`files` attribute is accessed and the #: parsing fails because more than the specified value is transmitted #: a :exc:`~werkzeug.exceptions.RequestEntityTooLarge` exception is raised. #: #: Have a look at :doc:`/request_data` for more details. #: #: .. versionadded:: 0.5 max_content_length: t.Optional[int] = None #: the maximum form field size. This is forwarded to the form data #: parsing function (:func:`parse_form_data`). When set and the #: :attr:`form` or :attr:`files` attribute is accessed and the #: data in memory for post data is longer than the specified value a #: :exc:`~werkzeug.exceptions.RequestEntityTooLarge` exception is raised. #: #: Have a look at :doc:`/request_data` for more details. #: #: .. versionadded:: 0.5 max_form_memory_size: t.Optional[int] = None #: The form data parser that should be used. Can be replaced to customize #: the form date parsing. form_data_parser_class: t.Type[FormDataParser] = FormDataParser #: The WSGI environment containing HTTP headers and information from #: the WSGI server. environ: "WSGIEnvironment" #: Set when creating the request object. If ``True``, reading from #: the request body will cause a ``RuntimeException``. Useful to #: prevent modifying the stream from middleware. shallow: bool def __init__( self, environ: "WSGIEnvironment", populate_request: bool = True, shallow: bool = False, ) -> None: super().__init__( method=environ.get("REQUEST_METHOD", "GET"), scheme=environ.get("wsgi.url_scheme", "http"), server=_get_server(environ), root_path=_wsgi_decoding_dance( environ.get("SCRIPT_NAME") or "", self.charset, self.encoding_errors ), path=_wsgi_decoding_dance( environ.get("PATH_INFO") or "", self.charset, self.encoding_errors ), query_string=environ.get("QUERY_STRING", "").encode("latin1"), headers=EnvironHeaders(environ), remote_addr=environ.get("REMOTE_ADDR"), ) self.environ = environ self.shallow = shallow if populate_request and not shallow: self.environ["werkzeug.request"] = self @classmethod def from_values(cls, *args: t.Any, **kwargs: t.Any) -> "Request": """Create a new request object based on the values provided. If environ is given missing values are filled from there. This method is useful for small scripts when you need to simulate a request from an URL. Do not use this method for unittesting, there is a full featured client object (:class:`Client`) that allows to create multipart requests, support for cookies etc. This accepts the same options as the :class:`~werkzeug.test.EnvironBuilder`. .. versionchanged:: 0.5 This method now accepts the same arguments as :class:`~werkzeug.test.EnvironBuilder`. Because of this the `environ` parameter is now called `environ_overrides`. :return: request object """ from ..test import EnvironBuilder charset = kwargs.pop("charset", cls.charset) kwargs["charset"] = charset builder = EnvironBuilder(*args, **kwargs) try: return builder.get_request(cls) finally: builder.close() @classmethod def application( cls, f: t.Callable[["Request"], "WSGIApplication"] ) -> "WSGIApplication": """Decorate a function as responder that accepts the request as the last argument. This works like the :func:`responder` decorator but the function is passed the request object as the last argument and the request object will be closed automatically:: @Request.application def my_wsgi_app(request): return Response('Hello World!') As of Werkzeug 0.14 HTTP exceptions are automatically caught and converted to responses instead of failing. :param f: the WSGI callable to decorate :return: a new WSGI callable """ #: return a callable that wraps the -2nd argument with the request #: and calls the function with all the arguments up to that one and #: the request. The return value is then called with the latest #: two arguments. This makes it possible to use this decorator for #: both standalone WSGI functions as well as bound methods and #: partially applied functions. from ..exceptions import HTTPException @functools.wraps(f) def application(*args): # type: ignore request = cls(args[-2]) with request: try: resp = f(*args[:-2] + (request,)) except HTTPException as e: resp = e.get_response(args[-2]) return resp(*args[-2:]) return t.cast("WSGIApplication", application) def _get_file_stream( self, total_content_length: t.Optional[int], content_type: t.Optional[str], filename: t.Optional[str] = None, content_length: t.Optional[int] = None, ) -> t.IO[bytes]: """Called to get a stream for the file upload. This must provide a file-like class with `read()`, `readline()` and `seek()` methods that is both writeable and readable. The default implementation returns a temporary file if the total content length is higher than 500KB. Because many browsers do not provide a content length for the files only the total content length matters. :param total_content_length: the total content length of all the data in the request combined. This value is guaranteed to be there. :param content_type: the mimetype of the uploaded file. :param filename: the filename of the uploaded file. May be `None`. :param content_length: the length of this file. This value is usually not provided because webbrowsers do not provide this value. """ return default_stream_factory( total_content_length=total_content_length, filename=filename, content_type=content_type, content_length=content_length, ) @property def want_form_data_parsed(self) -> bool: """``True`` if the request method carries content. By default this is true if a ``Content-Type`` is sent. .. versionadded:: 0.8 """ return bool(self.environ.get("CONTENT_TYPE")) def make_form_data_parser(self) -> FormDataParser: """Creates the form data parser. Instantiates the :attr:`form_data_parser_class` with some parameters. .. versionadded:: 0.8 """ return self.form_data_parser_class( self._get_file_stream, self.charset, self.encoding_errors, self.max_form_memory_size, self.max_content_length, self.parameter_storage_class, ) def _load_form_data(self) -> None: """Method used internally to retrieve submitted data. After calling this sets `form` and `files` on the request object to multi dicts filled with the incoming form data. As a matter of fact the input stream will be empty afterwards. You can also call this method to force the parsing of the form data. .. versionadded:: 0.8 """ # abort early if we have already consumed the stream if "form" in self.__dict__: return if self.want_form_data_parsed: parser = self.make_form_data_parser() data = parser.parse( self._get_stream_for_parsing(), self.mimetype, self.content_length, self.mimetype_params, ) else: data = ( self.stream, self.parameter_storage_class(), self.parameter_storage_class(), ) # inject the values into the instance dict so that we bypass # our cached_property non-data descriptor. d = self.__dict__ d["stream"], d["form"], d["files"] = data def _get_stream_for_parsing(self) -> t.IO[bytes]: """This is the same as accessing :attr:`stream` with the difference that if it finds cached data from calling :meth:`get_data` first it will create a new stream out of the cached data. .. versionadded:: 0.9.3 """ cached_data = getattr(self, "_cached_data", None) if cached_data is not None: return BytesIO(cached_data) return self.stream def close(self) -> None: """Closes associated resources of this request object. This closes all file handles explicitly. You can also use the request object in a with statement which will automatically close it. .. versionadded:: 0.9 """ files = self.__dict__.get("files") for _key, value in iter_multi_items(files or ()): value.close() def __enter__(self) -> "Request": return self def __exit__(self, exc_type, exc_value, tb) -> None: # type: ignore self.close() @cached_property def stream(self) -> t.IO[bytes]: """ If the incoming form data was not encoded with a known mimetype the data is stored unmodified in this stream for consumption. Most of the time it is a better idea to use :attr:`data` which will give you that data as a string. The stream only returns the data once. Unlike :attr:`input_stream` this stream is properly guarded that you can't accidentally read past the length of the input. Werkzeug will internally always refer to this stream to read data which makes it possible to wrap this object with a stream that does filtering. .. versionchanged:: 0.9 This stream is now always available but might be consumed by the form parser later on. Previously the stream was only set if no parsing happened. """ if self.shallow: raise RuntimeError( "This request was created with 'shallow=True', reading" " from the input stream is disabled." ) return get_input_stream(self.environ) input_stream = environ_property[t.IO[bytes]]( "wsgi.input", doc="""The WSGI input stream. In general it's a bad idea to use this one because you can easily read past the boundary. Use the :attr:`stream` instead.""", ) @cached_property def data(self) -> bytes: """ Contains the incoming request data as string in case it came with a mimetype Werkzeug does not handle. """ return self.get_data(parse_form_data=True) @typing.overload def get_data( # type: ignore self, cache: bool = True, as_text: "te.Literal[False]" = False, parse_form_data: bool = False, ) -> bytes: ... @typing.overload def get_data( self, cache: bool = True, as_text: "te.Literal[True]" = ..., parse_form_data: bool = False, ) -> str: ... def get_data( self, cache: bool = True, as_text: bool = False, parse_form_data: bool = False ) -> t.Union[bytes, str]: """This reads the buffered incoming data from the client into one bytes object. By default this is cached but that behavior can be changed by setting `cache` to `False`. Usually it's a bad idea to call this method without checking the content length first as a client could send dozens of megabytes or more to cause memory problems on the server. Note that if the form data was already parsed this method will not return anything as form data parsing does not cache the data like this method does. To implicitly invoke form data parsing function set `parse_form_data` to `True`. When this is done the return value of this method will be an empty string if the form parser handles the data. This generally is not necessary as if the whole data is cached (which is the default) the form parser will used the cached data to parse the form data. Please be generally aware of checking the content length first in any case before calling this method to avoid exhausting server memory. If `as_text` is set to `True` the return value will be a decoded string. .. versionadded:: 0.9 """ rv = getattr(self, "_cached_data", None) if rv is None: if parse_form_data: self._load_form_data() rv = self.stream.read() if cache: self._cached_data = rv if as_text: rv = rv.decode(self.charset, self.encoding_errors) return rv @cached_property def form(self) -> "ImmutableMultiDict[str, str]": """The form parameters. By default an :class:`~werkzeug.datastructures.ImmutableMultiDict` is returned from this function. This can be changed by setting :attr:`parameter_storage_class` to a different type. This might be necessary if the order of the form data is important. Please keep in mind that file uploads will not end up here, but instead in the :attr:`files` attribute. .. versionchanged:: 0.9 Previous to Werkzeug 0.9 this would only contain form data for POST and PUT requests. """ self._load_form_data() return self.form @cached_property def values(self) -> "CombinedMultiDict[str, str]": """A :class:`werkzeug.datastructures.CombinedMultiDict` that combines :attr:`args` and :attr:`form`. For GET requests, only ``args`` are present, not ``form``. .. versionchanged:: 2.0 For GET requests, only ``args`` are present, not ``form``. """ sources = [self.args] if self.method != "GET": # GET requests can have a body, and some caching proxies # might not treat that differently than a normal GET # request, allowing form data to "invisibly" affect the # cache without indication in the query string / URL. sources.append(self.form) args = [] for d in sources: if not isinstance(d, MultiDict): d = MultiDict(d) args.append(d) return CombinedMultiDict(args) @cached_property def files(self) -> "ImmutableMultiDict[str, FileStorage]": """:class:`~werkzeug.datastructures.MultiDict` object containing all uploaded files. Each key in :attr:`files` is the name from the ````. Each value in :attr:`files` is a Werkzeug :class:`~werkzeug.datastructures.FileStorage` object. It basically behaves like a standard file object you know from Python, with the difference that it also has a :meth:`~werkzeug.datastructures.FileStorage.save` function that can store the file on the filesystem. Note that :attr:`files` will only contain data if the request method was POST, PUT or PATCH and the ``
`` that posted to the request had ``enctype="multipart/form-data"``. It will be empty otherwise. See the :class:`~werkzeug.datastructures.MultiDict` / :class:`~werkzeug.datastructures.FileStorage` documentation for more details about the used data structure. """ self._load_form_data() return self.files @property def script_root(self) -> str: """Alias for :attr:`self.root_path`. ``environ["SCRIPT_ROOT"]`` without a trailing slash. """ return self.root_path @cached_property def url_root(self) -> str: """Alias for :attr:`root_url`. The URL with scheme, host, and root path. For example, ``https://example.com/app/``. """ return self.root_url remote_user = environ_property[str]( "REMOTE_USER", doc="""If the server supports user authentication, and the script is protected, this attribute contains the username the user has authenticated as.""", ) is_multithread = environ_property[bool]( "wsgi.multithread", doc="""boolean that is `True` if the application is served by a multithreaded WSGI server.""", ) is_multiprocess = environ_property[bool]( "wsgi.multiprocess", doc="""boolean that is `True` if the application is served by a WSGI server that spawns multiple processes.""", ) is_run_once = environ_property[bool]( "wsgi.run_once", doc="""boolean that is `True` if the application will be executed only once in a process lifetime. This is the case for CGI for example, but it's not guaranteed that the execution only happens one time.""", ) # JSON #: A module or other object that has ``dumps`` and ``loads`` #: functions that match the API of the built-in :mod:`json` module. json_module = json @property def json(self) -> t.Optional[t.Any]: """The parsed JSON data if :attr:`mimetype` indicates JSON (:mimetype:`application/json`, see :attr:`is_json`). Calls :meth:`get_json` with default arguments. If the request content type is not ``application/json``, this will raise a 400 Bad Request error. .. versionchanged:: 2.1 Raise a 400 error if the content type is incorrect. """ return self.get_json() # Cached values for ``(silent=False, silent=True)``. Initialized # with sentinel values. _cached_json: t.Tuple[t.Any, t.Any] = (Ellipsis, Ellipsis) def get_json( self, force: bool = False, silent: bool = False, cache: bool = True ) -> t.Optional[t.Any]: """Parse :attr:`data` as JSON. If the mimetype does not indicate JSON (:mimetype:`application/json`, see :attr:`is_json`), or parsing fails, :meth:`on_json_loading_failed` is called and its return value is used as the return value. By default this raises a 400 Bad Request error. :param force: Ignore the mimetype and always try to parse JSON. :param silent: Silence mimetype and parsing errors, and return ``None`` instead. :param cache: Store the parsed JSON to return for subsequent calls. .. versionchanged:: 2.1 Raise a 400 error if the content type is incorrect. """ if cache and self._cached_json[silent] is not Ellipsis: return self._cached_json[silent] if not (force or self.is_json): if not silent: return self.on_json_loading_failed(None) else: return None data = self.get_data(cache=cache) try: rv = self.json_module.loads(data) except ValueError as e: if silent: rv = None if cache: normal_rv, _ = self._cached_json self._cached_json = (normal_rv, rv) else: rv = self.on_json_loading_failed(e) if cache: _, silent_rv = self._cached_json self._cached_json = (rv, silent_rv) else: if cache: self._cached_json = (rv, rv) return rv def on_json_loading_failed(self, e: t.Optional[ValueError]) -> t.Any: """Called if :meth:`get_json` fails and isn't silenced. If this method returns a value, it is used as the return value for :meth:`get_json`. The default implementation raises :exc:`~werkzeug.exceptions.BadRequest`. :param e: If parsing failed, this is the exception. It will be ``None`` if the content type wasn't ``application/json``. """ if e is not None: raise BadRequest(f"Failed to decode JSON object: {e}") raise BadRequest( "Did not attempt to load JSON data because the request" " Content-Type was not 'application/json'." )