# -*- coding: utf-8 -*- # Copyright 2014-2016 OpenMarket Ltd # Copyright 2018 New Vector Ltd # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import collections import html import logging import types import urllib from http import HTTPStatus from io import BytesIO from typing import Awaitable, Callable, TypeVar, Union import jinja2 from canonicaljson import encode_canonical_json, encode_pretty_printed_json, json from twisted.internet import defer from twisted.python import failure from twisted.web import resource from twisted.web.server import NOT_DONE_YET, Request from twisted.web.static import NoRangeStaticProducer from twisted.web.util import redirectTo import synapse.events import synapse.metrics from synapse.api.errors import ( CodeMessageException, Codes, RedirectException, SynapseError, UnrecognizedRequestError, ) from synapse.http.site import SynapseRequest from synapse.logging.context import preserve_fn from synapse.logging.opentracing import trace_servlet from synapse.util.caches import intern_dict logger = logging.getLogger(__name__) HTML_ERROR_TEMPLATE = """ Error {code}

{msg}

""" def wrap_json_request_handler(h): """Wraps a request handler method with exception handling. Also does the wrapping with request.processing as per wrap_async_request_handler. The handler method must have a signature of "handle_foo(self, request)", where "request" must be a SynapseRequest. The handler must return a deferred or a coroutine. If the deferred succeeds we assume that a response has been sent. If the deferred fails with a SynapseError we use it to send a JSON response with the appropriate HTTP reponse code. If the deferred fails with any other type of error we send a 500 reponse. """ async def wrapped_request_handler(self, request): try: await h(self, request) except SynapseError as e: code = e.code logger.info("%s SynapseError: %s - %s", request, code, e.msg) # Only respond with an error response if we haven't already started # writing, otherwise lets just kill the connection if request.startedWriting: if request.transport: try: request.transport.abortConnection() except Exception: # abortConnection throws if the connection is already closed pass else: respond_with_json( request, code, e.error_dict(), send_cors=True, pretty_print=_request_user_agent_is_curl(request), ) except Exception: # failure.Failure() fishes the original Failure out # of our stack, and thus gives us a sensible stack # trace. f = failure.Failure() logger.error( "Failed handle request via %r: %r", request.request_metrics.name, request, exc_info=(f.type, f.value, f.getTracebackObject()), ) # Only respond with an error response if we haven't already started # writing, otherwise lets just kill the connection if request.startedWriting: if request.transport: try: request.transport.abortConnection() except Exception: # abortConnection throws if the connection is already closed pass else: respond_with_json( request, 500, {"error": "Internal server error", "errcode": Codes.UNKNOWN}, send_cors=True, pretty_print=_request_user_agent_is_curl(request), ) return wrap_async_request_handler(wrapped_request_handler) TV = TypeVar("TV") def wrap_html_request_handler( h: Callable[[TV, SynapseRequest], Awaitable] ) -> Callable[[TV, SynapseRequest], Awaitable[None]]: """Wraps a request handler method with exception handling. Also does the wrapping with request.processing as per wrap_async_request_handler. The handler method must have a signature of "handle_foo(self, request)", where "request" must be a SynapseRequest. """ async def wrapped_request_handler(self, request): try: await h(self, request) except Exception: f = failure.Failure() return_html_error(f, request, HTML_ERROR_TEMPLATE) return wrap_async_request_handler(wrapped_request_handler) def return_html_error( f: failure.Failure, request: Request, error_template: Union[str, jinja2.Template], ) -> None: """Sends an HTML error page corresponding to the given failure. Handles RedirectException and other CodeMessageExceptions (such as SynapseError) Args: f: the error to report request: the failing request error_template: the HTML template. Can be either a string (with `{code}`, `{msg}` placeholders), or a jinja2 template """ if f.check(CodeMessageException): cme = f.value code = cme.code msg = cme.msg if isinstance(cme, RedirectException): logger.info("%s redirect to %s", request, cme.location) request.setHeader(b"location", cme.location) request.cookies.extend(cme.cookies) elif isinstance(cme, SynapseError): logger.info("%s SynapseError: %s - %s", request, code, msg) else: logger.error( "Failed handle request %r", request, exc_info=(f.type, f.value, f.getTracebackObject()), ) else: code = HTTPStatus.INTERNAL_SERVER_ERROR msg = "Internal server error" logger.error( "Failed handle request %r", request, exc_info=(f.type, f.value, f.getTracebackObject()), ) if isinstance(error_template, str): body = error_template.format(code=code, msg=html.escape(msg)) else: body = error_template.render(code=code, msg=msg) body_bytes = body.encode("utf-8") request.setResponseCode(code) request.setHeader(b"Content-Type", b"text/html; charset=utf-8") request.setHeader(b"Content-Length", b"%i" % (len(body_bytes),)) request.write(body_bytes) finish_request(request) def wrap_async_request_handler(h): """Wraps an async request handler so that it calls request.processing. This helps ensure that work done by the request handler after the request is completed is correctly recorded against the request metrics/logs. The handler method must have a signature of "handle_foo(self, request)", where "request" must be a SynapseRequest. The handler may return a deferred, in which case the completion of the request isn't logged until the deferred completes. """ async def wrapped_async_request_handler(self, request): with request.processing(): await h(self, request) # we need to preserve_fn here, because the synchronous render method won't yield for # us (obviously) return preserve_fn(wrapped_async_request_handler) class HttpServer(object): """ Interface for registering callbacks on a HTTP server """ def register_paths(self, method, path_patterns, callback): """ Register a callback that gets fired if we receive a http request with the given method for a path that matches the given regex. If the regex contains groups these gets passed to the calback via an unpacked tuple. Args: method (str): The method to listen to. path_patterns (list): The regex used to match requests. callback (function): The function to fire if we receive a matched request. The first argument will be the request object and subsequent arguments will be any matched groups from the regex. This should return a tuple of (code, response). """ pass class JsonResource(HttpServer, resource.Resource): """ This implements the HttpServer interface and provides JSON support for Resources. Register callbacks via register_paths() Callbacks can return a tuple of status code and a dict in which case the the dict will automatically be sent to the client as a JSON object. The JsonResource is primarily intended for returning JSON, but callbacks may send something other than JSON, they may do so by using the methods on the request object and instead returning None. """ isLeaf = True _PathEntry = collections.namedtuple( "_PathEntry", ["pattern", "callback", "servlet_classname"] ) def __init__(self, hs, canonical_json=True): resource.Resource.__init__(self) self.canonical_json = canonical_json self.clock = hs.get_clock() self.path_regexs = {} self.hs = hs def register_paths( self, method, path_patterns, callback, servlet_classname, trace=True ): """ Registers a request handler against a regular expression. Later request URLs are checked against these regular expressions in order to identify an appropriate handler for that request. Args: method (str): GET, POST etc path_patterns (Iterable[str]): A list of regular expressions to which the request URLs are compared. callback (function): The handler for the request. Usually a Servlet servlet_classname (str): The name of the handler to be used in prometheus and opentracing logs. trace (bool): Whether we should start a span to trace the servlet. """ method = method.encode("utf-8") # method is bytes on py3 if trace: # We don't extract the context from the servlet because we can't # trust the sender callback = trace_servlet(servlet_classname)(callback) for path_pattern in path_patterns: logger.debug("Registering for %s %s", method, path_pattern.pattern) self.path_regexs.setdefault(method, []).append( self._PathEntry(path_pattern, callback, servlet_classname) ) def render(self, request): """ This gets called by twisted every time someone sends us a request. """ defer.ensureDeferred(self._async_render(request)) return NOT_DONE_YET @wrap_json_request_handler async def _async_render(self, request): """ This gets called from render() every time someone sends us a request. This checks if anyone has registered a callback for that method and path. """ callback, servlet_classname, group_dict = self._get_handler_for_request(request) # Make sure we have a name for this handler in prometheus. request.request_metrics.name = servlet_classname # Now trigger the callback. If it returns a response, we send it # here. If it throws an exception, that is handled by the wrapper # installed by @request_handler. kwargs = intern_dict( { name: urllib.parse.unquote(value) if value else value for name, value in group_dict.items() } ) callback_return = callback(request, **kwargs) # Is it synchronous? We'll allow this for now. if isinstance(callback_return, (defer.Deferred, types.CoroutineType)): callback_return = await callback_return if callback_return is not None: code, response = callback_return self._send_response(request, code, response) def _get_handler_for_request(self, request): """Finds a callback method to handle the given request Args: request (twisted.web.http.Request): Returns: Tuple[Callable, str, dict[unicode, unicode]]: callback method, the label to use for that method in prometheus metrics, and the dict mapping keys to path components as specified in the handler's path match regexp. The callback will normally be a method registered via register_paths, so will return (possibly via Deferred) either None, or a tuple of (http code, response body). """ request_path = request.path.decode("ascii") # Loop through all the registered callbacks to check if the method # and path regex match for path_entry in self.path_regexs.get(request.method, []): m = path_entry.pattern.match(request_path) if m: # We found a match! return path_entry.callback, path_entry.servlet_classname, m.groupdict() # Huh. No one wanted to handle that? Fiiiiiine. Send 400. return _unrecognised_request_handler, "unrecognised_request_handler", {} def _send_response( self, request, code, response_json_object, response_code_message=None ): # TODO: Only enable CORS for the requests that need it. respond_with_json( request, code, response_json_object, send_cors=True, response_code_message=response_code_message, pretty_print=_request_user_agent_is_curl(request), canonical_json=self.canonical_json, ) class DirectServeResource(resource.Resource): def render(self, request): """ Render the request, using an asynchronous render handler if it exists. """ async_render_callback_name = "_async_render_" + request.method.decode("ascii") # Try and get the async renderer callback = getattr(self, async_render_callback_name, None) # No async renderer for this request method. if not callback: return super().render(request) resp = trace_servlet(self.__class__.__name__)(callback)(request) # If it's a coroutine, turn it into a Deferred if isinstance(resp, types.CoroutineType): defer.ensureDeferred(resp) return NOT_DONE_YET def _options_handler(request): """Request handler for OPTIONS requests This is a request handler suitable for return from _get_handler_for_request. It returns a 200 and an empty body. Args: request (twisted.web.http.Request): Returns: Tuple[int, dict]: http code, response body. """ return 200, {} def _unrecognised_request_handler(request): """Request handler for unrecognised requests This is a request handler suitable for return from _get_handler_for_request. It actually just raises an UnrecognizedRequestError. Args: request (twisted.web.http.Request): """ raise UnrecognizedRequestError() class RootRedirect(resource.Resource): """Redirects the root '/' path to another path.""" def __init__(self, path): resource.Resource.__init__(self) self.url = path def render_GET(self, request): return redirectTo(self.url.encode("ascii"), request) def getChild(self, name, request): if len(name) == 0: return self # select ourselves as the child to render return resource.Resource.getChild(self, name, request) class OptionsResource(resource.Resource): """Responds to OPTION requests for itself and all children.""" def render_OPTIONS(self, request): code, response_json_object = _options_handler(request) return respond_with_json( request, code, response_json_object, send_cors=True, canonical_json=False, ) def getChildWithDefault(self, path, request): if request.method == b"OPTIONS": return self # select ourselves as the child to render return resource.Resource.getChildWithDefault(self, path, request) class RootOptionsRedirectResource(OptionsResource, RootRedirect): pass def respond_with_json( request, code, json_object, send_cors=False, response_code_message=None, pretty_print=False, canonical_json=True, ): # could alternatively use request.notifyFinish() and flip a flag when # the Deferred fires, but since the flag is RIGHT THERE it seems like # a waste. if request._disconnected: logger.warning( "Not sending response to request %s, already disconnected.", request ) return if pretty_print: json_bytes = encode_pretty_printed_json(json_object) + b"\n" else: if canonical_json or synapse.events.USE_FROZEN_DICTS: # canonicaljson already encodes to bytes json_bytes = encode_canonical_json(json_object) else: json_bytes = json.dumps(json_object).encode("utf-8") return respond_with_json_bytes( request, code, json_bytes, send_cors=send_cors, response_code_message=response_code_message, ) def respond_with_json_bytes( request, code, json_bytes, send_cors=False, response_code_message=None ): """Sends encoded JSON in response to the given request. Args: request (twisted.web.http.Request): The http request to respond to. code (int): The HTTP response code. json_bytes (bytes): The json bytes to use as the response body. send_cors (bool): Whether to send Cross-Origin Resource Sharing headers http://www.w3.org/TR/cors/ Returns: twisted.web.server.NOT_DONE_YET""" request.setResponseCode(code, message=response_code_message) request.setHeader(b"Content-Type", b"application/json") request.setHeader(b"Content-Length", b"%d" % (len(json_bytes),)) request.setHeader(b"Cache-Control", b"no-cache, no-store, must-revalidate") if send_cors: set_cors_headers(request) # todo: we can almost certainly avoid this copy and encode the json straight into # the bytesIO, but it would involve faffing around with string->bytes wrappers. bytes_io = BytesIO(json_bytes) producer = NoRangeStaticProducer(request, bytes_io) producer.start() return NOT_DONE_YET def set_cors_headers(request): """Set the CORs headers so that javascript running in a web browsers can use this API Args: request (twisted.web.http.Request): The http request to add CORs to. """ request.setHeader(b"Access-Control-Allow-Origin", b"*") request.setHeader( b"Access-Control-Allow-Methods", b"GET, POST, PUT, DELETE, OPTIONS" ) request.setHeader( b"Access-Control-Allow-Headers", b"Origin, X-Requested-With, Content-Type, Accept, Authorization", ) def finish_request(request): """ Finish writing the response to the request. Twisted throws a RuntimeException if the connection closed before the response was written but doesn't provide a convenient or reliable way to determine if the connection was closed. So we catch and log the RuntimeException You might think that ``request.notifyFinish`` could be used to tell if the request was finished. However the deferred it returns won't fire if the connection was already closed, meaning we'd have to have called the method right at the start of the request. By the time we want to write the response it will already be too late. """ try: request.finish() except RuntimeError as e: logger.info("Connection disconnected before response was written: %r", e) def _request_user_agent_is_curl(request): user_agents = request.requestHeaders.getRawHeaders(b"User-Agent", default=[]) for user_agent in user_agents: if b"curl" in user_agent: return True return False