import abc import ipaddress import json import queue import re import threading import time from collections import defaultdict from contextlib import contextmanager from contextlib import suppress from copy import copy from enum import Enum from ssl import SSLContext from typing import Any from typing import Callable from typing import Iterable from typing import List from typing import Mapping from typing import MutableMapping from typing import Optional from typing import Pattern from typing import Tuple from typing import Union import werkzeug.urls from werkzeug.datastructures import MultiDict from werkzeug.http import parse_authorization_header from werkzeug.serving import make_server from werkzeug.wrappers import Request from werkzeug.wrappers import Response URI_DEFAULT = "" METHOD_ALL = "__ALL" HEADERS_T = Union[ Mapping[str, Union[str, int, Iterable[Union[str, int]]]], Iterable[Tuple[str, Union[str, int]]], ] class Undefined: def __repr__(self): return "" UNDEFINED = Undefined() class Error(Exception): """ Base class for all exception defined in this package. """ pass class NoHandlerError(Error): """ Raised when a :py:class:`RequestHandler` has no registered method to serve the request. """ pass class HTTPServerError(Error): """ Raised when there's a problem with HTTP server. """ pass class NoMethodFoundForMatchingHeaderValueError(Error): """ Raised when a :py:class:`HeaderValueMatcher` has no registered method to match the header value. """ pass class WaitingSettings: """Class for providing default settings and storing them in HTTPServer :param raise_assertions: whether raise assertions on unexpected request or timeout or not :param stop_on_nohandler: whether stop on unexpected request or not :param timeout: time (in seconds) until time is out """ def __init__(self, raise_assertions: bool = True, stop_on_nohandler: bool = True, timeout: float = 5): self.raise_assertions = raise_assertions self.stop_on_nohandler = stop_on_nohandler self.timeout = timeout class Waiting: """Class for HTTPServer.wait context manager This class should not be instantiated directly.""" def __init__(self): self._result = None self._start = time.monotonic() self._stop = None def complete(self, result: bool): self._result = result self._stop = time.monotonic() @property def result(self) -> bool: return self._result @property def elapsed_time(self) -> float: """Elapsed time in seconds""" return self._stop - self._start class HeaderValueMatcher: """ Matcher object for the header value of incoming request. :param matchers: mapping from header name to comparator function that accepts actual and expected header values and return whether they are equal as bool. """ DEFAULT_MATCHERS: MutableMapping[str, Callable[[Optional[str], str], bool]] = {} def __init__(self, matchers: Optional[Mapping[str, Callable[[Optional[str], str], bool]]] = None): self.matchers = self.DEFAULT_MATCHERS if matchers is None else matchers @staticmethod def authorization_header_value_matcher(actual: Optional[str], expected: str) -> bool: return parse_authorization_header(actual) == parse_authorization_header(expected) @staticmethod def default_header_value_matcher(actual: Optional[str], expected: str) -> bool: return actual == expected def __call__(self, header_name: str, actual: Optional[str], expected: str) -> bool: try: matcher = self.matchers[header_name] except KeyError: raise NoMethodFoundForMatchingHeaderValueError( "No method found for matching header value: {}".format(header_name) ) return matcher(actual, expected) HeaderValueMatcher.DEFAULT_MATCHERS = defaultdict( lambda: HeaderValueMatcher.default_header_value_matcher, {"Authorization": HeaderValueMatcher.authorization_header_value_matcher}, ) class QueryMatcher(abc.ABC): """ Abstract class for QueryMatchers get_comparing_values should return a 2-element tuple whose elements will be compared. """ def match(self, request_query_string: bytes) -> bool: values = self.get_comparing_values(request_query_string) return values[0] == values[1] @abc.abstractmethod def get_comparing_values(self, request_query_string: bytes) -> tuple: pass class StringQueryMatcher(QueryMatcher): """ Matches a query for a string or bytes specified """ def __init__(self, query_string: Union[bytes, str]): """ :param query_string: the query string will be compared to this string or bytes. If string is specified, it will be encoded by the encode() method. The query must not start with '?' but will be exactly (byte-by-byte) equal the actual query string of the incoming request. """ if not isinstance(query_string, (str, bytes)): raise TypeError("query_string must be a string, or a bytes-like object") self.query_string = query_string def get_comparing_values(self, request_query_string: bytes) -> tuple: if isinstance(self.query_string, str): query_string = self.query_string.encode() elif isinstance(self.query_string, bytes): query_string = self.query_string else: raise TypeError("query_string must be a string, or a bytes-like object") return (request_query_string, query_string) class MappingQueryMatcher(QueryMatcher): """ Matches a query string to a dictionary or MultiDict specified """ def __init__(self, query_dict: Union[Mapping, MultiDict]): """ :param query_dict: if dictionary (Mapping) is specified, it will be used as a key-value mapping where both key and value should be string. If there are multiple values specified for the same key in the request, the first element will be used. If you want to match multiple values, use a MultiDict object from werkzeug, which represents multiple values for one key. """ self.query_dict = query_dict def get_comparing_values(self, request_query_string: bytes) -> tuple: query = werkzeug.urls.url_decode(request_query_string) if isinstance(self.query_dict, MultiDict): return (query, self.query_dict) else: return (query.to_dict(), dict(self.query_dict)) class BooleanQueryMatcher(QueryMatcher): """ Matches the query depending on the boolean value """ def __init__(self, result: bool): """ :param result: if this parameter is true, the query match will be always successful. Otherwise, no query match will be successful. """ self.result = result def get_comparing_values(self, request_query_string): if self.result: return (True, True) else: return (True, False) def _create_query_matcher(query_string: Union[None, QueryMatcher, str, bytes, Mapping]) -> QueryMatcher: if isinstance(query_string, QueryMatcher): return query_string if query_string is None: return BooleanQueryMatcher(True) if isinstance(query_string, (str, bytes)): return StringQueryMatcher(query_string) if isinstance(query_string, Mapping): return MappingQueryMatcher(query_string) raise TypeError("Unable to cast this type to QueryMatcher: {!r}".format(type(query_string))) class URIPattern(abc.ABC): @abc.abstractmethod def match(self, uri: str) -> bool: """ Matches the provided URI. :param uri: URI of the request. This is an absolute path starting with "/" and does not contain the query part. :return: True if there's a match, False otherwise """ pass class RequestMatcher: """ Matcher object for the incoming request. It defines various parameters to match the incoming request. :param uri: URI of the request. This must be an absolute path starting with ``/``, a :py:class:`URIPattern` object, or a regular expression compiled by :py:func:`re.compile`. :param method: HTTP method of the request. If not specified (or `METHOD_ALL` specified), all HTTP requests will match. :param data: payload of the HTTP request. This could be a string (utf-8 encoded by default, see `data_encoding`) or a bytes object. :param data_encoding: the encoding used for data parameter if data is a string. :param headers: dictionary of the headers of the request to be matched :param query_string: the http query string, after ``?``, such as ``username=user``. If string is specified it will be encoded to bytes with the encode method of the string. If dict is specified, it will be matched to the ``key=value`` pairs specified in the request. If multiple values specified for a given key, the first value will be used. If multiple values needed to be handled, use ``MultiDict`` object from werkzeug. """ def __init__( self, uri: Union[str, URIPattern, Pattern[str]], method: str = METHOD_ALL, data: Union[str, bytes, None] = None, data_encoding: str = "utf-8", headers: Optional[Mapping[str, str]] = None, query_string: Union[None, QueryMatcher, str, bytes, Mapping] = None, header_value_matcher: Optional[HeaderValueMatcher] = None, json: Any = UNDEFINED, ): if json is not UNDEFINED and data is not None: raise ValueError("data and json parameters are mutually exclusive") self.uri = uri self.method = method self.query_string = query_string self.query_matcher = _create_query_matcher(self.query_string) self.json = json self.headers: Mapping[str, str] = {} if headers is not None: self.headers = headers if isinstance(data, str): data = data.encode(data_encoding) self.data = data self.data_encoding = data_encoding self.header_value_matcher = HeaderValueMatcher() if header_value_matcher is None else header_value_matcher def __repr__(self): """ Returns the string representation of the object, with the known parameters. """ class_name = self.__class__.__name__ retval = "<{} ".format(class_name) retval += ( "uri={uri!r} method={method!r} query_string={query_string!r} " "headers={headers!r} data={data!r} json={json!r}>" ).format_map(self.__dict__) return retval def match_data(self, request: Request) -> bool: """ Matches the data part of the request :param request: the HTTP request :return: `True` when the data is matched or no matching is required. `False` otherwise. """ if self.data is None: return True return request.data == self.data def match_uri(self, request: Request) -> bool: path = request.path if isinstance(self.uri, URIPattern): return self.uri.match(path) # this is python version depending # in python 3.7 and above: it is re.Pattern # below python 3.7 it is _sre.SRE_Pattern which cannot be accessed directly elif isinstance(self.uri, re.compile("").__class__): return bool(self.uri.match(path)) else: # there could be a guard isinstance(self.uri, str) been here # but we want to allow any object which provides the __eq__ parameter # (note: in this case it will be not typeing correct) # # also, python will raise TypeError when self.uri is a conflicting type return self.uri == URI_DEFAULT or path == self.uri def match_json(self, request: Request) -> bool: """ Matches the request data as json. Load the request data as json and compare it to self.json which is a json-serializable data structure (eg. a dict or list). :param request: the HTTP request :return: `True` when the data is matched or no matching is required. `False` otherwise. """ if self.json is UNDEFINED: return True try: # do the decoding here as python 3.5 requires string and does not # accept bytes json_received = json.loads(request.data.decode(self.data_encoding)) except json.JSONDecodeError: return False except UnicodeDecodeError: return False return json_received == self.json def difference(self, request: Request) -> List[Tuple]: """ Calculates the difference between the matcher and the request. Returns a list of fields where there's a difference between the request and the matcher. The returned list may have zero or more elements, each element is a three-element tuple containing the field name, the request value, and the matcher value. If zero-length list is returned, this means that there's no difference, so the request matches the fields set in the matcher object. """ retval: List[Tuple] = [] if not self.match_uri(request): retval.append(("uri", request.path, self.uri)) if self.method != METHOD_ALL and self.method != request.method: retval.append(("method", request.method, self.method)) if not self.query_matcher.match(request.query_string): retval.append(("query_string", request.query_string, self.query_string)) request_headers = {} expected_headers = {} for key, value in self.headers.items(): if not self.header_value_matcher(key, request.headers.get(key), value): request_headers[key] = request.headers.get(key) expected_headers[key] = value if request_headers and expected_headers: retval.append(("headers", request_headers, expected_headers)) if not self.match_data(request): retval.append(("data", request.data, self.data)) if not self.match_json(request): retval.append(("json", request.data, self.json)) return retval def match(self, request: Request) -> bool: """ Returns whether the request matches the parameters set in the matcher object or not. `True` value is returned when it matches, `False` otherwise. """ difference = self.difference(request) return not difference class RequestHandlerBase(abc.ABC): """ Represents a :py:class:`RequestHandler` object providing a response for the corresponding request. """ def respond_with_json( self, response_json, status: int = 200, headers: Optional[Mapping[str, str]] = None, content_type: str = "application/json", ): """ Prepares a response with a serialized JSON object. :param response_json: a JSON-serializable python object :param status: the HTTP status of the response :param headers: the HTTP headers to be sent (excluding the Content-Type header) :param content_type: the content type header to be sent """ response_data = json.dumps(response_json, indent=4) self.respond_with_data(response_data, status, headers, content_type=content_type) def respond_with_data( self, response_data: Union[str, bytes] = "", status: int = 200, headers: Optional[HEADERS_T] = None, mimetype: Optional[str] = None, content_type: Optional[str] = None, ): """ Prepares a response with raw data. For detailed description please see the :py:class:`werkzeug.wrappers.Response` object as the parameters are analogue. :param response_data: a string or bytes object representing the body of the response :param status: the HTTP status of the response :param headers: the HTTP headers to be sent (excluding the Content-Type header) :param content_type: the content type header to be sent :param mimetype: the mime type of the request """ self.respond_with_response(Response(response_data, status, headers, mimetype, content_type)) @abc.abstractmethod def respond_with_response(self, response: Response): """ Prepares a response with the specified response object. :param response: the response object which will be responded """ pass class RequestHandler(RequestHandlerBase): """ Represents a response function and a :py:class:`RequestHandler` object. This class connects the matcher object with the function responsible for the response. The respond handler function can be registered with the `respond_with_` methods. :param matcher: the matcher object """ def __init__(self, matcher: RequestMatcher): self.matcher = matcher self.request_handler: Optional[Callable[[Request], Response]] = None def respond(self, request: Request) -> Response: """ Calls the request handler registered for this object. If no response was specified previously, it raises :py:class:`NoHandlerError` exception. :param request: the incoming request object :return: the response object """ if self.request_handler is None: raise NoHandlerError( "Matching request handler found but no response defined: {} {}".format(request.method, request.path) ) else: return self.request_handler(request) def respond_with_handler(self, func: Callable[[Request], Response]): """ Registers the specified function as a responder. The function will receive the request object and must return with the response object. """ self.request_handler = func def respond_with_response(self, response: Response): self.request_handler = lambda request: response class RequestHandlerList(list): """ Represents a list of :py:class:`RequestHandler` objects. """ def match(self, request: Request) -> Optional[RequestHandler]: """ Returns the first request handler which matches the specified request. Otherwise, it returns `None`. """ for requesthandler in self: if requesthandler.matcher.match(request): return requesthandler return None class HandlerType(Enum): PERMANENT = "permanent" ONESHOT = "oneshot" ORDERED = "ordered" class HTTPServerBase(abc.ABC): # pylint: disable=too-many-instance-attributes """ Abstract HTTP server with error handling. :param host: the host or IP where the server will listen :param port: the TCP port where the server will listen :param ssl_context: the ssl context object to use for https connections .. py:attribute:: log Attribute containing the list of two-element tuples. Each tuple contains :py:class:`werkzeug.wrappers.Request` and :py:class:`werkzeug.wrappers.Response` object which represents the incoming request and the outgoing response which happened during the lifetime of the server. .. py:attribute:: no_handler_status_code Attribute containing the http status code (int) which will be the response status when no matcher is found for the request. By default, it is set to *500* but it can be overridden to any valid http status code such as *404* if needed. """ def __init__( self, host: str, port: int, ssl_context: Optional[SSLContext] = None, ): """ Initializes the instance. """ self.host = host self.port = port self.server = None self.server_thread = None self.assertions: List[str] = [] self.handler_errors: List[Exception] = [] self.log: List[Tuple[Request, Response]] = [] self.ssl_context = ssl_context self.no_handler_status_code = 500 def clear(self): """ Clears and resets the state attributes of the object. This method is useful when the object needs to be re-used but stopping the server is not feasible. """ self.clear_assertions() self.clear_handler_errors() self.clear_log() self.no_handler_status_code = 500 def clear_assertions(self): """ Clears the list of assertions """ self.assertions = [] def clear_handler_errors(self): """ Clears the list of collected errors from handler invocations """ self.handler_errors = [] def clear_log(self): """ Clears the list of log entries """ self.log = [] def url_for(self, suffix: str): """ Return an url for a given suffix. This basically means that it prepends the string ``http://$HOST:$PORT/`` to the `suffix` parameter (where $HOST and $PORT are the parameters given to the constructor). :param suffix: the suffix which will be added to the base url. It can start with ``/`` (slash) or not, the url will be the same. :return: the full url which refers to the server """ if not suffix.startswith("/"): suffix = "/" + suffix if self.ssl_context is None: protocol = "http" else: protocol = "https" host = self.format_host(self.host) return "{}://{}:{}{}".format(protocol, host, self.port, suffix) def create_matcher(self, *args, **kwargs) -> RequestMatcher: """ Creates a :py:class:`.RequestMatcher` instance with the specified parameters. This method can be overridden if you want to use your own matcher. """ return RequestMatcher(*args, **kwargs) def thread_target(self): """ This method serves as a thread target when the server is started. This should not be called directly, but can be overridden to tailor it to your needs. """ self.server.serve_forever() def is_running(self) -> bool: """ Returns `True` when the server is running, otherwise `False`. """ return bool(self.server) def start(self): """ Start the server in a thread. This method returns immediately (e.g. does not block), and it's the caller's responsibility to stop the server (by calling :py:meth:`stop`) when it is no longer needed). If the sever is not stopped by the caller and execution reaches the end, the program needs to be terminated by Ctrl+C or by signal as it will not terminate until the thread is stopped. If the sever is already running :py:class:`HTTPServerError` will be raised. If you are unsure, call :py:meth:`is_running` first. There's a context interface of this class which stops the server when the context block ends. """ if self.is_running(): raise HTTPServerError("Server is already running") self.server = make_server(self.host, self.port, self.application, ssl_context=self.ssl_context) self.port = self.server.port # Update port (needed if `port` was set to 0) self.server_thread = threading.Thread(target=self.thread_target) self.server_thread.start() def stop(self): """ Stop the running server. Notifies the server thread about the intention of the stopping, and the thread will terminate itself. This needs about 0.5 seconds in worst case. Only a running server can be stopped. If the sever is not running, :py:class`HTTPServerError` will be raised. """ if not self.is_running(): raise HTTPServerError("Server is not running") self.server.shutdown() self.server_thread.join() self.server = None self.server_thread = None def add_assertion(self, obj): """ Add a new assertion Assertions can be added here, and when :py:meth:`check_assertions` is called, it will raise AssertionError for pytest with the object specified here. :param obj: An AssertionError, or an object which will be passed to an AssertionError. """ self.assertions.append(obj) def check(self): """ Raises AssertionError or Errors raised in handlers. Runs both :py:meth:`check_assertions` and :py:meth:`check_handler_errors` """ self.check_assertions() self.check_handler_errors() def check_assertions(self): """ Raise AssertionError when at least one assertion added The first assertion added by :py:meth:`add_assertion` will be raised and it will be removed from the list. This method can be useful to get some insights into the errors happened in the sever, and to have a proper error reporting in pytest. """ if self.assertions: assertion = self.assertions.pop(0) if isinstance(assertion, AssertionError): raise assertion raise AssertionError(assertion) def check_handler_errors(self): """ Re-Raises any errors caused in request handlers The first error raised by a handler will be re-raised here, and then removed from the list. """ if self.handler_errors: raise self.handler_errors.pop(0) def respond_nohandler(self, request: Request, extra_message: str = ""): """ Add a 'no handler' assertion. This method is called when the server wasn't able to find any handler to serve the request. As the result, there's an assertion added (which can be raised by :py:meth:`check_assertions`). """ text = "No handler found for request {!r}.\n".format(request) self.add_assertion(text + extra_message) return Response("No handler found for this request", self.no_handler_status_code) @abc.abstractmethod def dispatch(self, request: Request) -> Response: """ Dispatch a request to the appropriate request handler. :param request: the request object from the werkzeug library :return: the response object what the handler responded, or a response which contains the error """ pass @Request.application # type: ignore def application(self, request: Request): """ Entry point of werkzeug. This method is called for each request, and it then calls the undecorated :py:meth:`dispatch` method to serve the request. :param request: the request object from the werkzeug library :return: the response object what the dispatch returned """ request.get_data() response = self.dispatch(request) self.log.append((request, response)) return response def __enter__(self): """ Provide the context API It starts the server in a thread if the server is not already running. """ if not self.is_running(): self.start() return self def __exit__(self, *args, **kwargs): """ Provide the context API It stops the server if the server is running. Please note that depending on the internal things of werkzeug, it may take 0.5 seconds. """ if self.is_running(): self.stop() @staticmethod def format_host(host): """ Formats a hostname so it can be used in a URL. Notably, this adds brackets around IPV6 addresses when they are missing. """ try: ipaddress.IPv6Address(host) is_ipv6 = True except ValueError: is_ipv6 = False if is_ipv6 and not host.startswith("[") and not host.endswith("]"): return f"[{host}]" return host class HTTPServer(HTTPServerBase): # pylint: disable=too-many-instance-attributes """ Server instance which manages handlers to serve pre-defined requests. :param host: the host or IP where the server will listen :param port: the TCP port where the server will listen :param ssl_context: the ssl context object to use for https connections :param default_waiting_settings: the waiting settings object to use as default settings for :py:meth:`wait` context manager .. py:attribute:: no_handler_status_code Attribute containing the http status code (int) which will be the response status when no matcher is found for the request. By default, it is set to *500* but it can be overridden to any valid http status code such as *404* if needed. """ DEFAULT_LISTEN_HOST = "localhost" DEFAULT_LISTEN_PORT = 0 # Use ephemeral port def __init__( self, host=DEFAULT_LISTEN_HOST, port=DEFAULT_LISTEN_PORT, ssl_context: Optional[SSLContext] = None, default_waiting_settings: Optional[WaitingSettings] = None, ): """ Initializes the instance. """ super().__init__(host, port, ssl_context) self.ordered_handlers: List[RequestHandler] = [] self.oneshot_handlers = RequestHandlerList() self.handlers = RequestHandlerList() self.permanently_failed = False if default_waiting_settings is not None: self.default_waiting_settings = default_waiting_settings else: self.default_waiting_settings = WaitingSettings() self._waiting_settings = copy(self.default_waiting_settings) self._waiting_result: queue.LifoQueue[bool] = queue.LifoQueue(maxsize=1) def clear(self): """ Clears and resets the state attributes of the object. This method is useful when the object needs to be re-used but stopping the server is not feasible. """ super().clear() self.clear_all_handlers() self.permanently_failed = False def clear_all_handlers(self): """ Clears all types of the handlers (ordered, oneshot, permanent) """ self.ordered_handlers = [] self.oneshot_handlers = RequestHandlerList() self.handlers = RequestHandlerList() def expect_request( self, uri: Union[str, URIPattern, Pattern[str]], method: str = METHOD_ALL, data: Union[str, bytes, None] = None, data_encoding: str = "utf-8", headers: Optional[Mapping[str, str]] = None, query_string: Union[None, QueryMatcher, str, bytes, Mapping] = None, header_value_matcher: Optional[HeaderValueMatcher] = None, handler_type: HandlerType = HandlerType.PERMANENT, json: Any = UNDEFINED, ) -> RequestHandler: """ Create and register a request handler. If `handler_type` is `HandlerType.PERMANENT` a permanent request handler is created. This handler can be used as many times as the request matches it, but ordered handlers have higher priority so if there's one or more ordered handler registered, those must be used first. If `handler_type` is `HandlerType.ONESHOT` a oneshot request handler is created. This handler can be only used once. Once the server serves a response for this handler, the handler will be dropped. If `handler_type` is `HandlerType.ORDERED` an ordered request handler is created. Comparing to oneshot handler, ordered handler also determines the order of the requests to be served. For example if there are two ordered handlers registered, the first request must hit the first handler, and the second request must hit the second one, and not vice versa. If one or more ordered handler defined, those must be exhausted first. :param uri: URI of the request. This must be an absolute path starting with ``/``, a :py:class:`URIPattern` object, or a regular expression compiled by :py:func:`re.compile`. :param method: HTTP method of the request. If not specified (or `METHOD_ALL` specified), all HTTP requests will match. Case insensitive. :param data: payload of the HTTP request. This could be a string (utf-8 encoded by default, see `data_encoding`) or a bytes object. :param data_encoding: the encoding used for data parameter if data is a string. :param headers: dictionary of the headers of the request to be matched :param query_string: the http query string, after ``?``, such as ``username=user``. If string is specified it will be encoded to bytes with the encode method of the string. If dict is specified, it will be matched to the ``key=value`` pairs specified in the request. If multiple values specified for a given key, the first value will be used. If multiple values needed to be handled, use ``MultiDict`` object from werkzeug. :param header_value_matcher: :py:class:`HeaderValueMatcher` that matches values of headers. :param handler_type: type of handler :param json: a python object (eg. a dict) whose value will be compared to the request body after it is loaded as json. If load fails, this matcher will be failed also. *Content-Type* is not checked. If that's desired, add it to the headers parameter. :return: Created and register :py:class:`RequestHandler`. Parameters `json` and `data` are mutually exclusive. """ matcher = self.create_matcher( uri, method=method.upper(), data=data, data_encoding=data_encoding, headers=headers, query_string=query_string, header_value_matcher=header_value_matcher, json=json, ) request_handler = RequestHandler(matcher) if handler_type == HandlerType.PERMANENT: self.handlers.append(request_handler) elif handler_type == HandlerType.ONESHOT: self.oneshot_handlers.append(request_handler) elif handler_type == HandlerType.ORDERED: self.ordered_handlers.append(request_handler) return request_handler def expect_oneshot_request( self, uri: Union[str, URIPattern, Pattern[str]], method: str = METHOD_ALL, data: Union[str, bytes, None] = None, data_encoding: str = "utf-8", headers: Optional[Mapping[str, str]] = None, query_string: Union[None, QueryMatcher, str, bytes, Mapping] = None, header_value_matcher: Optional[HeaderValueMatcher] = None, json: Any = UNDEFINED, ) -> RequestHandler: """ Create and register a oneshot request handler. This is a method for convenience. See :py:meth:`expect_request` for documentation. :param uri: URI of the request. This must be an absolute path starting with ``/``, a :py:class:`URIPattern` object, or a regular expression compiled by :py:func:`re.compile`. :param method: HTTP method of the request. If not specified (or `METHOD_ALL` specified), all HTTP requests will match. :param data: payload of the HTTP request. This could be a string (utf-8 encoded by default, see `data_encoding`) or a bytes object. :param data_encoding: the encoding used for data parameter if data is a string. :param headers: dictionary of the headers of the request to be matched :param query_string: the http query string, after ``?``, such as ``username=user``. If string is specified it will be encoded to bytes with the encode method of the string. If dict is specified, it will be matched to the ``key=value`` pairs specified in the request. If multiple values specified for a given key, the first value will be used. If multiple values needed to be handled, use ``MultiDict`` object from werkzeug. :param header_value_matcher: :py:class:`HeaderValueMatcher` that matches values of headers. :param json: a python object (eg. a dict) whose value will be compared to the request body after it is loaded as json. If load fails, this matcher will be failed also. *Content-Type* is not checked. If that's desired, add it to the headers parameter. :return: Created and register :py:class:`RequestHandler`. Parameters `json` and `data` are mutually exclusive. """ return self.expect_request( uri=uri, method=method, data=data, data_encoding=data_encoding, headers=headers, query_string=query_string, header_value_matcher=header_value_matcher, handler_type=HandlerType.ONESHOT, json=json, ) def expect_ordered_request( self, uri: Union[str, URIPattern, Pattern[str]], method: str = METHOD_ALL, data: Union[str, bytes, None] = None, data_encoding: str = "utf-8", headers: Optional[Mapping[str, str]] = None, query_string: Union[None, QueryMatcher, str, bytes, Mapping] = None, header_value_matcher: Optional[HeaderValueMatcher] = None, json: Any = UNDEFINED, ) -> RequestHandler: """ Create and register a ordered request handler. This is a method for convenience. See :py:meth:`expect_request` for documentation. :param uri: URI of the request. This must be an absolute path starting with ``/``, a :py:class:`URIPattern` object, or a regular expression compiled by :py:func:`re.compile`. :param method: HTTP method of the request. If not specified (or `METHOD_ALL` specified), all HTTP requests will match. :param data: payload of the HTTP request. This could be a string (utf-8 encoded by default, see `data_encoding`) or a bytes object. :param data_encoding: the encoding used for data parameter if data is a string. :param headers: dictionary of the headers of the request to be matched :param query_string: the http query string, after ``?``, such as ``username=user``. If string is specified it will be encoded to bytes with the encode method of the string. If dict is specified, it will be matched to the ``key=value`` pairs specified in the request. If multiple values specified for a given key, the first value will be used. If multiple values needed to be handled, use ``MultiDict`` object from werkzeug. :param header_value_matcher: :py:class:`HeaderValueMatcher` that matches values of headers. :param json: a python object (eg. a dict) whose value will be compared to the request body after it is loaded as json. If load fails, this matcher will be failed also. *Content-Type* is not checked. If that's desired, add it to the headers parameter. :return: Created and register :py:class:`RequestHandler`. Parameters `json` and `data` are mutually exclusive. """ return self.expect_request( uri=uri, method=method, data=data, data_encoding=data_encoding, headers=headers, query_string=query_string, header_value_matcher=header_value_matcher, handler_type=HandlerType.ORDERED, json=json, ) def format_matchers(self) -> str: """ Return a string representation of the matchers This method returns a human-readable string representation of the matchers registered. You can observe which requests will be served, etc. This method is primarily used when reporting errors. """ def format_handlers(handlers): if handlers: return [" {!r}".format(handler.matcher) for handler in handlers] else: return [" none"] lines = [] lines.append("Ordered matchers:") lines.extend(format_handlers(self.ordered_handlers)) lines.append("") lines.append("Oneshot matchers:") lines.extend(format_handlers(self.oneshot_handlers)) lines.append("") lines.append("Persistent matchers:") lines.extend(format_handlers(self.handlers)) return "\n".join(lines) def respond_nohandler(self, request: Request, extra_message: str = ""): """ Add a 'no handler' assertion. This method is called when the server wasn't able to find any handler to serve the request. As the result, there's an assertion added (which can be raised by :py:meth:`check_assertions`). """ if self._waiting_settings.stop_on_nohandler: self._set_waiting_result(False) return super().respond_nohandler(request, self.format_matchers() + extra_message) def respond_permanent_failure(self): """ Add a 'permanent failure' assertion. This assertion means that no further requests will be handled. This is the resuld of missing an ordered matcher. """ self.add_assertion("All requests will be permanently failed due failed ordered handler") return Response("No handler found for this request", 500) def dispatch(self, request: Request) -> Response: """ Dispatch a request to the appropriate request handler. This method tries to find the request handler whose matcher matches the request, and then calls it in order to serve the request. First, the request is checked for the ordered matchers. If there's an ordered matcher, it must match the request, otherwise the server will be put into a `permanent failure` mode in which it makes all request failed - this is the intended way of working of ordered matchers. Then oneshot handlers, and the permanent handlers are looked up. :param request: the request object from the werkzeug library :return: the response object what the handler responded, or a response which contains the error """ if self.permanently_failed: return self.respond_permanent_failure() handler = None if self.ordered_handlers: handler = self.ordered_handlers[0] if not handler.matcher.match(request): self.permanently_failed = True response = self.respond_nohandler(request) return response self.ordered_handlers.pop(0) self._update_waiting_result() if not handler: handler = self.oneshot_handlers.match(request) if handler: self.oneshot_handlers.remove(handler) self._update_waiting_result() else: handler = self.handlers.match(request) if not handler: return self.respond_nohandler(request) try: response = handler.respond(request) except Error: # don't collect package-internal errors raise except AssertionError as e: self.add_assertion(e) raise except Exception as e: self.handler_errors.append(e) raise if response is None: response = Response("") if isinstance(response, str): response = Response(response) return response def _set_waiting_result(self, value: bool) -> None: """Set waiting_result Setting is implemented as putting value to queue without waiting. If queue is full we simply ignore the exception, because that means that waiting_result was already set, but not read. """ with suppress(queue.Full): self._waiting_result.put_nowait(value) def _update_waiting_result(self) -> None: if not self.oneshot_handlers and not self.ordered_handlers: self._set_waiting_result(True) @contextmanager def wait( self, raise_assertions: Optional[bool] = None, stop_on_nohandler: Optional[bool] = None, timeout: Optional[float] = None, ): """Context manager to wait until the first of following event occurs: all ordered and oneshot handlers were executed, unexpected request was received (if `stop_on_nohandler` is set to `True`), or time was out :param raise_assertions: whether raise assertions on unexpected request or timeout or not :param stop_on_nohandler: whether stop on unexpected request or not :param timeout: time (in seconds) until time is out Example: .. code-block:: python def test_wait(httpserver): httpserver.expect_oneshot_request("/").respond_with_data("OK") with httpserver.wait( raise_assertions=False, stop_on_nohandler=False, timeout=1 ) as waiting: requests.get(httpserver.url_for("/")) # `waiting` is :py:class:`Waiting` assert waiting.result print("Elapsed time: {} sec".format(waiting.elapsed_time)) """ if raise_assertions is None: self._waiting_settings.raise_assertions = self.default_waiting_settings.raise_assertions else: self._waiting_settings.raise_assertions = raise_assertions if stop_on_nohandler is None: self._waiting_settings.stop_on_nohandler = self.default_waiting_settings.stop_on_nohandler else: self._waiting_settings.stop_on_nohandler = stop_on_nohandler if timeout is None: self._waiting_settings.timeout = self.default_waiting_settings.timeout else: self._waiting_settings.timeout = timeout # Ensure that waiting_result is empty with suppress(queue.Empty): self._waiting_result.get_nowait() waiting = Waiting() yield waiting try: waiting_result = self._waiting_result.get(timeout=self._waiting_settings.timeout) waiting.complete(result=waiting_result) except queue.Empty: waiting.complete(result=False) if self._waiting_settings.raise_assertions: raise AssertionError( "Wait timeout occurred, but some handlers left:\n" "{}".format(self.format_matchers()) ) if self._waiting_settings.raise_assertions and not waiting.result: self.check_assertions()