# -*- coding: utf-8 -*- # Copyright 2014 OpenMarket 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. """The transport layer is responsible for both sending transactions to remote home servers and receiving a variety of requests from other home servers. Typically, this is done over HTTP (and all home servers are required to support HTTP), however individual pairings of servers may decide to communicate over a different (albeit still reliable) protocol. """ from twisted.internet import defer from synapse.api.urls import FEDERATION_PREFIX as PREFIX from synapse.util.logutils import log_function import logging import json import re logger = logging.getLogger(__name__) class TransportLayer(object): """This is a basic implementation of the transport layer that translates transactions and other requests to/from HTTP. Attributes: server_name (str): Local home server host server (synapse.http.server.HttpServer): the http server to register listeners on client (synapse.http.client.HttpClient): the http client used to send requests request_handler (TransportRequestHandler): The handler to fire when we receive requests for data. received_handler (TransportReceivedHandler): The handler to fire when we receive data. """ def __init__(self, server_name, server, client): """ Args: server_name (str): Local home server host server (synapse.protocol.http.HttpServer): the http server to register listeners on client (synapse.protocol.http.HttpClient): the http client used to send requests """ self.server_name = server_name self.server = server self.client = client self.request_handler = None self.received_handler = None @log_function def get_context_state(self, destination, context): """ Requests all state for a given context (i.e. room) from the given server. Args: destination (str): The host name of the remote home server we want to get the state from. context (str): The name of the context we want the state of Returns: Deferred: Results in a dict received from the remote homeserver. """ logger.debug("get_context_state dest=%s, context=%s", destination, context) subpath = "/state/%s/" % context return self._do_request_for_transaction(destination, subpath) @log_function def get_pdu(self, destination, pdu_origin, pdu_id): """ Requests the pdu with give id and origin from the given server. Args: destination (str): The host name of the remote home server we want to get the state from. pdu_origin (str): The home server which created the PDU. pdu_id (str): The id of the PDU being requested. Returns: Deferred: Results in a dict received from the remote homeserver. """ logger.debug("get_pdu dest=%s, pdu_origin=%s, pdu_id=%s", destination, pdu_origin, pdu_id) subpath = "/pdu/%s/%s/" % (pdu_origin, pdu_id) return self._do_request_for_transaction(destination, subpath) @log_function def backfill(self, dest, context, pdu_tuples, limit): """ Requests `limit` previous PDUs in a given context before list of PDUs. Args: dest (str) context (str) pdu_tuples (list) limt (int) Returns: Deferred: Results in a dict received from the remote homeserver. """ logger.debug( "backfill dest=%s, context=%s, pdu_tuples=%s, limit=%s", dest, context, repr(pdu_tuples), str(limit) ) if not pdu_tuples: return subpath = "/backfill/%s/" % context args = {"v": ["%s,%s" % (i, o) for i, o in pdu_tuples]} args["limit"] = limit return self._do_request_for_transaction( dest, subpath, args=args, ) @defer.inlineCallbacks @log_function def send_transaction(self, transaction): """ Sends the given Transaction to it's destination Args: transaction (Transaction) Returns: Deferred: Results of the deferred is a tuple in the form of (response_code, response_body) where the response_body is a python dict decoded from json """ logger.debug( "send_data dest=%s, txid=%s", transaction.destination, transaction.transaction_id ) if transaction.destination == self.server_name: raise RuntimeError("Transport layer cannot send to itself!") data = transaction.get_dict() code, response = yield self.client.put_json( transaction.destination, path=PREFIX + "/send/%s/" % transaction.transaction_id, data=data ) logger.debug( "send_data dest=%s, txid=%s, got response: %d", transaction.destination, transaction.transaction_id, code ) defer.returnValue((code, response)) @defer.inlineCallbacks @log_function def make_query(self, destination, query_type, args): path = PREFIX + "/query/%s" % query_type response = yield self.client.get_json( destination=destination, path=path, args=args ) defer.returnValue(response) @log_function def register_received_handler(self, handler): """ Register a handler that will be fired when we receive data. Args: handler (TransportReceivedHandler) """ self.received_handler = handler # This is when someone is trying to send us a bunch of data. self.server.register_path( "PUT", re.compile("^" + PREFIX + "/send/([^/]*)/$"), self._on_send_request ) @log_function def register_request_handler(self, handler): """ Register a handler that will be fired when we get asked for data. Args: handler (TransportRequestHandler) """ self.request_handler = handler # TODO(markjh): Namespace the federation URI paths # This is for when someone asks us for everything since version X self.server.register_path( "GET", re.compile("^" + PREFIX + "/pull/$"), lambda request: handler.on_pull_request( request.args["origin"][0], request.args["v"] ) ) # This is when someone asks for a data item for a given server # data_id pair. self.server.register_path( "GET", re.compile("^" + PREFIX + "/pdu/([^/]*)/([^/]*)/$"), lambda request, pdu_origin, pdu_id: handler.on_pdu_request( pdu_origin, pdu_id ) ) # This is when someone asks for all data for a given context. self.server.register_path( "GET", re.compile("^" + PREFIX + "/state/([^/]*)/$"), lambda request, context: handler.on_context_state_request( context ) ) self.server.register_path( "GET", re.compile("^" + PREFIX + "/backfill/([^/]*)/$"), lambda request, context: self._on_backfill_request( context, request.args["v"], request.args["limit"] ) ) self.server.register_path( "GET", re.compile("^" + PREFIX + "/context/([^/]*)/$"), lambda request, context: handler.on_context_pdus_request(context) ) # This is when we receive a server-server Query self.server.register_path( "GET", re.compile("^" + PREFIX + "/query/([^/]*)$"), lambda request, query_type: handler.on_query_request( query_type, {k: v[0] for k, v in request.args.items()} ) ) @defer.inlineCallbacks @log_function def _on_send_request(self, request, transaction_id): """ Called on PUT /send// Args: request (twisted.web.http.Request): The HTTP request. transaction_id (str): The transaction_id associated with this request. This is *not* None. Returns: Deferred: Results in a tuple of `(code, response)`, where `response` is a python dict to be converted into JSON that is used as the response body. """ # Parse the request try: data = request.content.read() l = data[:20].encode("string_escape") logger.debug("Got data: \"%s\"", l) transaction_data = json.loads(data) logger.debug( "Decoded %s: %s", transaction_id, str(transaction_data) ) # We should ideally be getting this from the security layer. # origin = body["origin"] # Add some extra data to the transaction dict that isn't included # in the request body. transaction_data.update( transaction_id=transaction_id, destination=self.server_name ) except Exception as e: logger.exception(e) defer.returnValue((400, {"error": "Invalid transaction"})) return code, response = yield self.received_handler.on_incoming_transaction( transaction_data ) defer.returnValue((code, response)) @defer.inlineCallbacks @log_function def _do_request_for_transaction(self, destination, subpath, args={}): """ Args: destination (str) path (str) args (dict): This is parsed directly to the HttpClient. Returns: Deferred: Results in a dict. """ data = yield self.client.get_json( destination, path=PREFIX + subpath, args=args, ) # Add certain keys to the JSON, ready for decoding as a Transaction data.update( origin=destination, destination=self.server_name, transaction_id=None ) defer.returnValue(data) @log_function def _on_backfill_request(self, context, v_list, limits): if not limits: return defer.succeed( (400, {"error": "Did not include limit param"}) ) limit = int(limits[-1]) versions = [v.split(",", 1) for v in v_list] return self.request_handler.on_backfill_request( context, versions, limit) class TransportReceivedHandler(object): """ Callbacks used when we receive a transaction """ def on_incoming_transaction(self, transaction): """ Called on PUT /send/, or on response to a request that we sent (e.g. a backfill request) Args: transaction (synapse.transaction.Transaction): The transaction that was sent to us. Returns: twisted.internet.defer.Deferred: A deferred that gets fired when the transaction has finished being processed. The result should be a tuple in the form of `(response_code, respond_body)`, where `response_body` is a python dict that will get serialized to JSON. On errors, the dict should have an `error` key with a brief message of what went wrong. """ pass class TransportRequestHandler(object): """ Handlers used when someone want's data from us """ def on_pull_request(self, versions): """ Called on GET /pull/?v=... This is hit when a remote home server wants to get all data after a given transaction. Mainly used when a home server comes back online and wants to get everything it has missed. Args: versions (list): A list of transaction_ids that should be used to determine what PDUs the remote side have not yet seen. Returns: Deferred: Resultsin a tuple in the form of `(response_code, respond_body)`, where `response_body` is a python dict that will get serialized to JSON. On errors, the dict should have an `error` key with a brief message of what went wrong. """ pass def on_pdu_request(self, pdu_origin, pdu_id): """ Called on GET /pdu/// Someone wants a particular PDU. This PDU may or may not have originated from us. Args: pdu_origin (str) pdu_id (str) Returns: Deferred: Resultsin a tuple in the form of `(response_code, respond_body)`, where `response_body` is a python dict that will get serialized to JSON. On errors, the dict should have an `error` key with a brief message of what went wrong. """ pass def on_context_state_request(self, context): """ Called on GET /state// Gets hit when someone wants all the *current* state for a given contexts. Args: context (str): The name of the context that we're interested in. Returns: twisted.internet.defer.Deferred: A deferred that gets fired when the transaction has finished being processed. The result should be a tuple in the form of `(response_code, respond_body)`, where `response_body` is a python dict that will get serialized to JSON. On errors, the dict should have an `error` key with a brief message of what went wrong. """ pass def on_backfill_request(self, context, versions, limit): """ Called on GET /backfill//?v=...&limit=... Gets hit when we want to backfill backwards on a given context from the given point. Args: context (str): The context to backfill versions (list): A list of 2-tuples representing where to backfill from, in the form `(pdu_id, origin)` limit (int): How many pdus to return. Returns: Deferred: Results in a tuple in the form of `(response_code, respond_body)`, where `response_body` is a python dict that will get serialized to JSON. On errors, the dict should have an `error` key with a brief message of what went wrong. """ pass def on_query_request(self): """ Called on a GET /query/ request. """