import json import typing import typing as t import warnings from http import HTTPStatus from .._internal import _to_bytes from ..datastructures import Headers from ..http import remove_entity_headers from ..sansio.response import Response as _SansIOResponse from ..urls import iri_to_uri from ..urls import url_join from ..utils import cached_property from ..wsgi import ClosingIterator from ..wsgi import get_current_url from werkzeug._internal import _get_environ from werkzeug.http import generate_etag from werkzeug.http import http_date from werkzeug.http import is_resource_modified from werkzeug.http import parse_etags from werkzeug.http import parse_range_header from werkzeug.wsgi import _RangeWrapper if t.TYPE_CHECKING: import typing_extensions as te from _typeshed.wsgi import StartResponse from _typeshed.wsgi import WSGIApplication from _typeshed.wsgi import WSGIEnvironment from .request import Request def _warn_if_string(iterable: t.Iterable) -> None: """Helper for the response objects to check if the iterable returned to the WSGI server is not a string. """ if isinstance(iterable, str): warnings.warn( "Response iterable was set to a string. This will appear to" " work but means that the server will send the data to the" " client one character at a time. This is almost never" " intended behavior, use 'response.data' to assign strings" " to the response object.", stacklevel=2, ) def _iter_encoded( iterable: t.Iterable[t.Union[str, bytes]], charset: str ) -> t.Iterator[bytes]: for item in iterable: if isinstance(item, str): yield item.encode(charset) else: yield item def _clean_accept_ranges(accept_ranges: t.Union[bool, str]) -> str: if accept_ranges is True: return "bytes" elif accept_ranges is False: return "none" elif isinstance(accept_ranges, str): return accept_ranges raise ValueError("Invalid accept_ranges value") class Response(_SansIOResponse): """Represents an outgoing WSGI HTTP response with body, status, and headers. Has properties and methods for using the functionality defined by various HTTP specs. The response body is flexible to support different use cases. The simple form is passing bytes, or a string which will be encoded as UTF-8. Passing an iterable of bytes or strings makes this a streaming response. A generator is particularly useful for building a CSV file in memory or using SSE (Server Sent Events). A file-like object is also iterable, although the :func:`~werkzeug.utils.send_file` helper should be used in that case. The response object is itself a WSGI application callable. When called (:meth:`__call__`) with ``environ`` and ``start_response``, it will pass its status and headers to ``start_response`` then return its body as an iterable. .. code-block:: python from werkzeug.wrappers.response import Response def index(): return Response("Hello, World!") def application(environ, start_response): path = environ.get("PATH_INFO") or "/" if path == "/": response = index() else: response = Response("Not Found", status=404) return response(environ, start_response) :param response: The data for the body of the response. A string or bytes, or tuple or list of strings or bytes, for a fixed-length response, or any other iterable of strings or bytes for a streaming response. Defaults to an empty body. :param status: The status code for the response. Either an int, in which case the default status message is added, or a string in the form ``{code} {message}``, like ``404 Not Found``. Defaults to 200. :param headers: A :class:`~werkzeug.datastructures.Headers` object, or a list of ``(key, value)`` tuples that will be converted to a ``Headers`` object. :param mimetype: The mime type (content type without charset or other parameters) of the response. If the value starts with ``text/`` (or matches some other special cases), the charset will be added to create the ``content_type``. :param content_type: The full content type of the response. Overrides building the value from ``mimetype``. :param direct_passthrough: Pass the response body directly through as the WSGI iterable. This can be used when the body is a binary file or other iterator of bytes, to skip some unnecessary checks. Use :func:`~werkzeug.utils.send_file` instead of setting this manually. .. versionchanged:: 2.0 Combine ``BaseResponse`` and mixins into a single ``Response`` class. Using the old classes is deprecated and will be removed in Werkzeug 2.1. .. versionchanged:: 0.5 The ``direct_passthrough`` parameter was added. """ #: if set to `False` accessing properties on the response object will #: not try to consume the response iterator and convert it into a list. #: #: .. versionadded:: 0.6.2 #: #: That attribute was previously called `implicit_seqence_conversion`. #: (Notice the typo). If you did use this feature, you have to adapt #: your code to the name change. implicit_sequence_conversion = True #: If a redirect ``Location`` header is a relative URL, make it an #: absolute URL, including scheme and domain. #: #: .. versionchanged:: 2.1 #: This is disabled by default, so responses will send relative #: redirects. #: #: .. versionadded:: 0.8 autocorrect_location_header = False #: Should this response object automatically set the content-length #: header if possible? This is true by default. #: #: .. versionadded:: 0.8 automatically_set_content_length = True #: The response body to send as the WSGI iterable. A list of strings #: or bytes represents a fixed-length response, any other iterable #: is a streaming response. Strings are encoded to bytes as UTF-8. #: #: Do not set to a plain string or bytes, that will cause sending #: the response to be very inefficient as it will iterate one byte #: at a time. response: t.Union[t.Iterable[str], t.Iterable[bytes]] def __init__( self, response: t.Optional[ t.Union[t.Iterable[bytes], bytes, t.Iterable[str], str] ] = None, status: t.Optional[t.Union[int, str, HTTPStatus]] = None, headers: t.Optional[ t.Union[ t.Mapping[str, t.Union[str, int, t.Iterable[t.Union[str, int]]]], t.Iterable[t.Tuple[str, t.Union[str, int]]], ] ] = None, mimetype: t.Optional[str] = None, content_type: t.Optional[str] = None, direct_passthrough: bool = False, ) -> None: super().__init__( status=status, headers=headers, mimetype=mimetype, content_type=content_type, ) #: Pass the response body directly through as the WSGI iterable. #: This can be used when the body is a binary file or other #: iterator of bytes, to skip some unnecessary checks. Use #: :func:`~werkzeug.utils.send_file` instead of setting this #: manually. self.direct_passthrough = direct_passthrough self._on_close: t.List[t.Callable[[], t.Any]] = [] # we set the response after the headers so that if a class changes # the charset attribute, the data is set in the correct charset. if response is None: self.response = [] elif isinstance(response, (str, bytes, bytearray)): self.set_data(response) else: self.response = response def call_on_close(self, func: t.Callable[[], t.Any]) -> t.Callable[[], t.Any]: """Adds a function to the internal list of functions that should be called as part of closing down the response. Since 0.7 this function also returns the function that was passed so that this can be used as a decorator. .. versionadded:: 0.6 """ self._on_close.append(func) return func def __repr__(self) -> str: if self.is_sequence: body_info = f"{sum(map(len, self.iter_encoded()))} bytes" else: body_info = "streamed" if self.is_streamed else "likely-streamed" return f"<{type(self).__name__} {body_info} [{self.status}]>" @classmethod def force_type( cls, response: "Response", environ: t.Optional["WSGIEnvironment"] = None ) -> "Response": """Enforce that the WSGI response is a response object of the current type. Werkzeug will use the :class:`Response` internally in many situations like the exceptions. If you call :meth:`get_response` on an exception you will get back a regular :class:`Response` object, even if you are using a custom subclass. This method can enforce a given response type, and it will also convert arbitrary WSGI callables into response objects if an environ is provided:: # convert a Werkzeug response object into an instance of the # MyResponseClass subclass. response = MyResponseClass.force_type(response) # convert any WSGI application into a response object response = MyResponseClass.force_type(response, environ) This is especially useful if you want to post-process responses in the main dispatcher and use functionality provided by your subclass. Keep in mind that this will modify response objects in place if possible! :param response: a response object or wsgi application. :param environ: a WSGI environment object. :return: a response object. """ if not isinstance(response, Response): if environ is None: raise TypeError( "cannot convert WSGI application into response" " objects without an environ" ) from ..test import run_wsgi_app response = Response(*run_wsgi_app(response, environ)) response.__class__ = cls return response @classmethod def from_app( cls, app: "WSGIApplication", environ: "WSGIEnvironment", buffered: bool = False ) -> "Response": """Create a new response object from an application output. This works best if you pass it an application that returns a generator all the time. Sometimes applications may use the `write()` callable returned by the `start_response` function. This tries to resolve such edge cases automatically. But if you don't get the expected output you should set `buffered` to `True` which enforces buffering. :param app: the WSGI application to execute. :param environ: the WSGI environment to execute against. :param buffered: set to `True` to enforce buffering. :return: a response object. """ from ..test import run_wsgi_app return cls(*run_wsgi_app(app, environ, buffered)) @typing.overload def get_data(self, as_text: "te.Literal[False]" = False) -> bytes: ... @typing.overload def get_data(self, as_text: "te.Literal[True]") -> str: ... def get_data(self, as_text: bool = False) -> t.Union[bytes, str]: """The string representation of the response body. Whenever you call this property the response iterable is encoded and flattened. This can lead to unwanted behavior if you stream big data. This behavior can be disabled by setting :attr:`implicit_sequence_conversion` to `False`. If `as_text` is set to `True` the return value will be a decoded string. .. versionadded:: 0.9 """ self._ensure_sequence() rv = b"".join(self.iter_encoded()) if as_text: return rv.decode(self.charset) return rv def set_data(self, value: t.Union[bytes, str]) -> None: """Sets a new string as response. The value must be a string or bytes. If a string is set it's encoded to the charset of the response (utf-8 by default). .. versionadded:: 0.9 """ # if a string is set, it's encoded directly so that we # can set the content length if isinstance(value, str): value = value.encode(self.charset) else: value = bytes(value) self.response = [value] if self.automatically_set_content_length: self.headers["Content-Length"] = str(len(value)) data = property( get_data, set_data, doc="A descriptor that calls :meth:`get_data` and :meth:`set_data`.", ) def calculate_content_length(self) -> t.Optional[int]: """Returns the content length if available or `None` otherwise.""" try: self._ensure_sequence() except RuntimeError: return None return sum(len(x) for x in self.iter_encoded()) def _ensure_sequence(self, mutable: bool = False) -> None: """This method can be called by methods that need a sequence. If `mutable` is true, it will also ensure that the response sequence is a standard Python list. .. versionadded:: 0.6 """ if self.is_sequence: # if we need a mutable object, we ensure it's a list. if mutable and not isinstance(self.response, list): self.response = list(self.response) # type: ignore return if self.direct_passthrough: raise RuntimeError( "Attempted implicit sequence conversion but the" " response object is in direct passthrough mode." ) if not self.implicit_sequence_conversion: raise RuntimeError( "The response object required the iterable to be a" " sequence, but the implicit conversion was disabled." " Call make_sequence() yourself." ) self.make_sequence() def make_sequence(self) -> None: """Converts the response iterator in a list. By default this happens automatically if required. If `implicit_sequence_conversion` is disabled, this method is not automatically called and some properties might raise exceptions. This also encodes all the items. .. versionadded:: 0.6 """ if not self.is_sequence: # if we consume an iterable we have to ensure that the close # method of the iterable is called if available when we tear # down the response close = getattr(self.response, "close", None) self.response = list(self.iter_encoded()) if close is not None: self.call_on_close(close) def iter_encoded(self) -> t.Iterator[bytes]: """Iter the response encoded with the encoding of the response. If the response object is invoked as WSGI application the return value of this method is used as application iterator unless :attr:`direct_passthrough` was activated. """ if __debug__: _warn_if_string(self.response) # Encode in a separate function so that self.response is fetched # early. This allows us to wrap the response with the return # value from get_app_iter or iter_encoded. return _iter_encoded(self.response, self.charset) @property def is_streamed(self) -> bool: """If the response is streamed (the response is not an iterable with a length information) this property is `True`. In this case streamed means that there is no information about the number of iterations. This is usually `True` if a generator is passed to the response object. This is useful for checking before applying some sort of post filtering that should not take place for streamed responses. """ try: len(self.response) # type: ignore except (TypeError, AttributeError): return True return False @property def is_sequence(self) -> bool: """If the iterator is buffered, this property will be `True`. A response object will consider an iterator to be buffered if the response attribute is a list or tuple. .. versionadded:: 0.6 """ return isinstance(self.response, (tuple, list)) def close(self) -> None: """Close the wrapped response if possible. You can also use the object in a with statement which will automatically close it. .. versionadded:: 0.9 Can now be used in a with statement. """ if hasattr(self.response, "close"): self.response.close() for func in self._on_close: func() def __enter__(self) -> "Response": return self def __exit__(self, exc_type, exc_value, tb): # type: ignore self.close() def freeze(self) -> None: """Make the response object ready to be pickled. Does the following: * Buffer the response into a list, ignoring :attr:`implicity_sequence_conversion` and :attr:`direct_passthrough`. * Set the ``Content-Length`` header. * Generate an ``ETag`` header if one is not already set. .. versionchanged:: 2.1 Removed the ``no_etag`` parameter. .. versionchanged:: 2.0 An ``ETag`` header is added, the ``no_etag`` parameter is deprecated and will be removed in Werkzeug 2.1. .. versionchanged:: 0.6 The ``Content-Length`` header is set. """ # Always freeze the encoded response body, ignore # implicit_sequence_conversion and direct_passthrough. self.response = list(self.iter_encoded()) self.headers["Content-Length"] = str(sum(map(len, self.response))) self.add_etag() def get_wsgi_headers(self, environ: "WSGIEnvironment") -> Headers: """This is automatically called right before the response is started and returns headers modified for the given environment. It returns a copy of the headers from the response with some modifications applied if necessary. For example the location header (if present) is joined with the root URL of the environment. Also the content length is automatically set to zero here for certain status codes. .. versionchanged:: 0.6 Previously that function was called `fix_headers` and modified the response object in place. Also since 0.6, IRIs in location and content-location headers are handled properly. Also starting with 0.6, Werkzeug will attempt to set the content length if it is able to figure it out on its own. This is the case if all the strings in the response iterable are already encoded and the iterable is buffered. :param environ: the WSGI environment of the request. :return: returns a new :class:`~werkzeug.datastructures.Headers` object. """ headers = Headers(self.headers) location: t.Optional[str] = None content_location: t.Optional[str] = None content_length: t.Optional[t.Union[str, int]] = None status = self.status_code # iterate over the headers to find all values in one go. Because # get_wsgi_headers is used each response that gives us a tiny # speedup. for key, value in headers: ikey = key.lower() if ikey == "location": location = value elif ikey == "content-location": content_location = value elif ikey == "content-length": content_length = value # make sure the location header is an absolute URL if location is not None: old_location = location if isinstance(location, str): # Safe conversion is necessary here as we might redirect # to a broken URI scheme (for instance itms-services). location = iri_to_uri(location, safe_conversion=True) if self.autocorrect_location_header: current_url = get_current_url(environ, strip_querystring=True) if isinstance(current_url, str): current_url = iri_to_uri(current_url) location = url_join(current_url, location) if location != old_location: headers["Location"] = location # make sure the content location is a URL if content_location is not None and isinstance(content_location, str): headers["Content-Location"] = iri_to_uri(content_location) if 100 <= status < 200 or status == 204: # Per section 3.3.2 of RFC 7230, "a server MUST NOT send a # Content-Length header field in any response with a status # code of 1xx (Informational) or 204 (No Content)." headers.remove("Content-Length") elif status == 304: remove_entity_headers(headers) # if we can determine the content length automatically, we # should try to do that. But only if this does not involve # flattening the iterator or encoding of strings in the # response. We however should not do that if we have a 304 # response. if ( self.automatically_set_content_length and self.is_sequence and content_length is None and status not in (204, 304) and not (100 <= status < 200) ): try: content_length = sum(len(_to_bytes(x, "ascii")) for x in self.response) except UnicodeError: # Something other than bytes, can't safely figure out # the length of the response. pass else: headers["Content-Length"] = str(content_length) return headers def get_app_iter(self, environ: "WSGIEnvironment") -> t.Iterable[bytes]: """Returns the application iterator for the given environ. Depending on the request method and the current status code the return value might be an empty response rather than the one from the response. If the request method is `HEAD` or the status code is in a range where the HTTP specification requires an empty response, an empty iterable is returned. .. versionadded:: 0.6 :param environ: the WSGI environment of the request. :return: a response iterable. """ status = self.status_code if ( environ["REQUEST_METHOD"] == "HEAD" or 100 <= status < 200 or status in (204, 304) ): iterable: t.Iterable[bytes] = () elif self.direct_passthrough: if __debug__: _warn_if_string(self.response) return self.response # type: ignore else: iterable = self.iter_encoded() return ClosingIterator(iterable, self.close) def get_wsgi_response( self, environ: "WSGIEnvironment" ) -> t.Tuple[t.Iterable[bytes], str, t.List[t.Tuple[str, str]]]: """Returns the final WSGI response as tuple. The first item in the tuple is the application iterator, the second the status and the third the list of headers. The response returned is created specially for the given environment. For example if the request method in the WSGI environment is ``'HEAD'`` the response will be empty and only the headers and status code will be present. .. versionadded:: 0.6 :param environ: the WSGI environment of the request. :return: an ``(app_iter, status, headers)`` tuple. """ headers = self.get_wsgi_headers(environ) app_iter = self.get_app_iter(environ) return app_iter, self.status, headers.to_wsgi_list() def __call__( self, environ: "WSGIEnvironment", start_response: "StartResponse" ) -> t.Iterable[bytes]: """Process this response as WSGI application. :param environ: the WSGI environment. :param start_response: the response callable provided by the WSGI server. :return: an application iterator """ app_iter, status, headers = self.get_wsgi_response(environ) start_response(status, headers) return app_iter # 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. """ return self.get_json() @t.overload def get_json(self, force: bool = ..., silent: "te.Literal[False]" = ...) -> t.Any: ... @t.overload def get_json(self, force: bool = ..., silent: bool = ...) -> t.Optional[t.Any]: ... def get_json(self, force: bool = False, silent: bool = False) -> t.Optional[t.Any]: """Parse :attr:`data` as JSON. Useful during testing. If the mimetype does not indicate JSON (:mimetype:`application/json`, see :attr:`is_json`), this returns ``None``. Unlike :meth:`Request.get_json`, the result is not cached. :param force: Ignore the mimetype and always try to parse JSON. :param silent: Silence parsing errors and return ``None`` instead. """ if not (force or self.is_json): return None data = self.get_data() try: return self.json_module.loads(data) except ValueError: if not silent: raise return None # Stream @cached_property def stream(self) -> "ResponseStream": """The response iterable as write-only stream.""" return ResponseStream(self) def _wrap_range_response(self, start: int, length: int) -> None: """Wrap existing Response in case of Range Request context.""" if self.status_code == 206: self.response = _RangeWrapper(self.response, start, length) # type: ignore def _is_range_request_processable(self, environ: "WSGIEnvironment") -> bool: """Return ``True`` if `Range` header is present and if underlying resource is considered unchanged when compared with `If-Range` header. """ return ( "HTTP_IF_RANGE" not in environ or not is_resource_modified( environ, self.headers.get("etag"), None, self.headers.get("last-modified"), ignore_if_range=False, ) ) and "HTTP_RANGE" in environ def _process_range_request( self, environ: "WSGIEnvironment", complete_length: t.Optional[int] = None, accept_ranges: t.Optional[t.Union[bool, str]] = None, ) -> bool: """Handle Range Request related headers (RFC7233). If `Accept-Ranges` header is valid, and Range Request is processable, we set the headers as described by the RFC, and wrap the underlying response in a RangeWrapper. Returns ``True`` if Range Request can be fulfilled, ``False`` otherwise. :raises: :class:`~werkzeug.exceptions.RequestedRangeNotSatisfiable` if `Range` header could not be parsed or satisfied. .. versionchanged:: 2.0 Returns ``False`` if the length is 0. """ from ..exceptions import RequestedRangeNotSatisfiable if ( accept_ranges is None or complete_length is None or complete_length == 0 or not self._is_range_request_processable(environ) ): return False parsed_range = parse_range_header(environ.get("HTTP_RANGE")) if parsed_range is None: raise RequestedRangeNotSatisfiable(complete_length) range_tuple = parsed_range.range_for_length(complete_length) content_range_header = parsed_range.to_content_range_header(complete_length) if range_tuple is None or content_range_header is None: raise RequestedRangeNotSatisfiable(complete_length) content_length = range_tuple[1] - range_tuple[0] self.headers["Content-Length"] = content_length self.headers["Accept-Ranges"] = accept_ranges self.content_range = content_range_header # type: ignore self.status_code = 206 self._wrap_range_response(range_tuple[0], content_length) return True def make_conditional( self, request_or_environ: t.Union["WSGIEnvironment", "Request"], accept_ranges: t.Union[bool, str] = False, complete_length: t.Optional[int] = None, ) -> "Response": """Make the response conditional to the request. This method works best if an etag was defined for the response already. The `add_etag` method can be used to do that. If called without etag just the date header is set. This does nothing if the request method in the request or environ is anything but GET or HEAD. For optimal performance when handling range requests, it's recommended that your response data object implements `seekable`, `seek` and `tell` methods as described by :py:class:`io.IOBase`. Objects returned by :meth:`~werkzeug.wsgi.wrap_file` automatically implement those methods. It does not remove the body of the response because that's something the :meth:`__call__` function does for us automatically. Returns self so that you can do ``return resp.make_conditional(req)`` but modifies the object in-place. :param request_or_environ: a request object or WSGI environment to be used to make the response conditional against. :param accept_ranges: This parameter dictates the value of `Accept-Ranges` header. If ``False`` (default), the header is not set. If ``True``, it will be set to ``"bytes"``. If ``None``, it will be set to ``"none"``. If it's a string, it will use this value. :param complete_length: Will be used only in valid Range Requests. It will set `Content-Range` complete length value and compute `Content-Length` real value. This parameter is mandatory for successful Range Requests completion. :raises: :class:`~werkzeug.exceptions.RequestedRangeNotSatisfiable` if `Range` header could not be parsed or satisfied. .. versionchanged:: 2.0 Range processing is skipped if length is 0 instead of raising a 416 Range Not Satisfiable error. """ environ = _get_environ(request_or_environ) if environ["REQUEST_METHOD"] in ("GET", "HEAD"): # if the date is not in the headers, add it now. We however # will not override an already existing header. Unfortunately # this header will be overridden by many WSGI servers including # wsgiref. if "date" not in self.headers: self.headers["Date"] = http_date() accept_ranges = _clean_accept_ranges(accept_ranges) is206 = self._process_range_request(environ, complete_length, accept_ranges) if not is206 and not is_resource_modified( environ, self.headers.get("etag"), None, self.headers.get("last-modified"), ): if parse_etags(environ.get("HTTP_IF_MATCH")): self.status_code = 412 else: self.status_code = 304 if ( self.automatically_set_content_length and "content-length" not in self.headers ): length = self.calculate_content_length() if length is not None: self.headers["Content-Length"] = length return self def add_etag(self, overwrite: bool = False, weak: bool = False) -> None: """Add an etag for the current response if there is none yet. .. versionchanged:: 2.0 SHA-1 is used to generate the value. MD5 may not be available in some environments. """ if overwrite or "etag" not in self.headers: self.set_etag(generate_etag(self.get_data()), weak) class ResponseStream: """A file descriptor like object used by :meth:`Response.stream` to represent the body of the stream. It directly pushes into the response iterable of the response object. """ mode = "wb+" def __init__(self, response: Response): self.response = response self.closed = False def write(self, value: bytes) -> int: if self.closed: raise ValueError("I/O operation on closed file") self.response._ensure_sequence(mutable=True) self.response.response.append(value) # type: ignore self.response.headers.pop("Content-Length", None) return len(value) def writelines(self, seq: t.Iterable[bytes]) -> None: for item in seq: self.write(item) def close(self) -> None: self.closed = True def flush(self) -> None: if self.closed: raise ValueError("I/O operation on closed file") def isatty(self) -> bool: if self.closed: raise ValueError("I/O operation on closed file") return False def tell(self) -> int: self.response._ensure_sequence() return sum(map(len, self.response.response)) @property def encoding(self) -> str: return self.response.charset