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# -*- coding: utf-8 -*-
# Copyright 2014 matrix.org
#
# 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.
"""This layer is responsible for replicating with remote home servers using
a given transport.
"""
from twisted.internet import defer
from .units import Transaction, Pdu, Edu
from .persistence import PduActions, TransactionActions
from synapse.util.logutils import log_function
import logging
logger = logging.getLogger(__name__)
class ReplicationLayer(object):
"""This layer is responsible for replicating with remote home servers over
the given transport. I.e., does the sending and receiving of PDUs to
remote home servers.
The layer communicates with the rest of the server via a registered
ReplicationHandler.
In more detail, the layer:
* Receives incoming data and processes it into transactions and pdus.
* Fetches any PDUs it thinks it might have missed.
* Keeps the current state for contexts up to date by applying the
suitable conflict resolution.
* Sends outgoing pdus wrapped in transactions.
* Fills out the references to previous pdus/transactions appropriately
for outgoing data.
"""
def __init__(self, hs, transport_layer):
self.server_name = hs.hostname
self.transport_layer = transport_layer
self.transport_layer.register_received_handler(self)
self.transport_layer.register_request_handler(self)
self.store = hs.get_datastore()
self.pdu_actions = PduActions(self.store)
self.transaction_actions = TransactionActions(self.store)
self._transaction_queue = _TransactionQueue(
hs, self.transaction_actions, transport_layer
)
self.handler = None
self.edu_handlers = {}
self.query_handlers = {}
self._order = 0
self._clock = hs.get_clock()
def set_handler(self, handler):
"""Sets the handler that the replication layer will use to communicate
receipt of new PDUs from other home servers. The required methods are
documented on :py:class:`.ReplicationHandler`.
"""
self.handler = handler
def register_edu_handler(self, edu_type, handler):
if edu_type in self.edu_handlers:
raise KeyError("Already have an EDU handler for %s" % (edu_type))
self.edu_handlers[edu_type] = handler
def register_query_handler(self, query_type, handler):
"""Sets the handler callable that will be used to handle an incoming
federation Query of the given type.
Args:
query_type (str): Category name of the query, which should match
the string used by make_query.
handler (callable): Invoked to handle incoming queries of this type
handler is invoked as:
result = handler(args)
where 'args' is a dict mapping strings to strings of the query
arguments. It should return a Deferred that will eventually yield an
object to encode as JSON.
"""
if query_type in self.query_handlers:
raise KeyError("Already have a Query handler for %s" % (query_type))
self.query_handlers[query_type] = handler
@defer.inlineCallbacks
@log_function
def send_pdu(self, pdu):
"""Informs the replication layer about a new PDU generated within the
home server that should be transmitted to others.
This will fill out various attributes on the PDU object, e.g. the
`prev_pdus` key.
*Note:* The home server should always call `send_pdu` even if it knows
that it does not need to be replicated to other home servers. This is
in case e.g. someone else joins via a remote home server and then
backfills.
TODO: Figure out when we should actually resolve the deferred.
Args:
pdu (Pdu): The new Pdu.
Returns:
Deferred: Completes when we have successfully processed the PDU
and replicated it to any interested remote home servers.
"""
order = self._order
self._order += 1
logger.debug("[%s] Persisting PDU", pdu.pdu_id)
#yield self.pdu_actions.populate_previous_pdus(pdu)
# Save *before* trying to send
yield self.store.persist_event(pdu=pdu)
logger.debug("[%s] Persisted PDU", pdu.pdu_id)
logger.debug("[%s] transaction_layer.enqueue_pdu... ", pdu.pdu_id)
# TODO, add errback, etc.
self._transaction_queue.enqueue_pdu(pdu, order)
logger.debug("[%s] transaction_layer.enqueue_pdu... done", pdu.pdu_id)
@log_function
def send_edu(self, destination, edu_type, content):
edu = Edu(
origin=self.server_name,
destination=destination,
edu_type=edu_type,
content=content,
)
# TODO, add errback, etc.
self._transaction_queue.enqueue_edu(edu)
return defer.succeed(None)
@log_function
def make_query(self, destination, query_type, args):
"""Sends a federation Query to a remote homeserver of the given type
and arguments.
Args:
destination (str): Domain name of the remote homeserver
query_type (str): Category of the query type; should match the
handler name used in register_query_handler().
args (dict): Mapping of strings to strings containing the details
of the query request.
Returns:
a Deferred which will eventually yield a JSON object from the
response
"""
return self.transport_layer.make_query(destination, query_type, args)
@defer.inlineCallbacks
@log_function
def backfill(self, dest, context, limit):
"""Requests some more historic PDUs for the given context from the
given destination server.
Args:
dest (str): The remote home server to ask.
context (str): The context to backfill.
limit (int): The maximum number of PDUs to return.
Returns:
Deferred: Results in the received PDUs.
"""
extremities = yield self.store.get_oldest_pdus_in_context(context)
logger.debug("backfill extrem=%s", extremities)
# If there are no extremeties then we've (probably) reached the start.
if not extremities:
return
transaction_data = yield self.transport_layer.backfill(
dest, context, extremities, limit)
logger.debug("backfill transaction_data=%s", repr(transaction_data))
transaction = Transaction(**transaction_data)
pdus = [Pdu(outlier=False, **p) for p in transaction.pdus]
for pdu in pdus:
yield self._handle_new_pdu(pdu, backfilled=True)
defer.returnValue(pdus)
@defer.inlineCallbacks
@log_function
def get_pdu(self, destination, pdu_origin, pdu_id, outlier=False):
"""Requests the PDU with given origin and ID from the remote home
server.
This will persist the PDU locally upon receipt.
Args:
destination (str): Which home server to query
pdu_origin (str): The home server that originally sent the pdu.
pdu_id (str)
outlier (bool): Indicates whether the PDU is an `outlier`, i.e. if
it's from an arbitary point in the context as opposed to part
of the current block of PDUs. Defaults to `False`
Returns:
Deferred: Results in the requested PDU.
"""
transaction_data = yield self.transport_layer.get_pdu(
destination, pdu_origin, pdu_id)
transaction = Transaction(**transaction_data)
pdu_list = [Pdu(outlier=outlier, **p) for p in transaction.pdus]
pdu = None
if pdu_list:
pdu = pdu_list[0]
yield self._handle_new_pdu(pdu)
defer.returnValue(pdu)
@defer.inlineCallbacks
@log_function
def get_state_for_context(self, destination, context):
"""Requests all of the `current` state PDUs for a given context from
a remote home server.
Args:
destination (str): The remote homeserver to query for the state.
context (str): The context we're interested in.
Returns:
Deferred: Results in a list of PDUs.
"""
transaction_data = yield self.transport_layer.get_context_state(
destination, context)
transaction = Transaction(**transaction_data)
pdus = [Pdu(outlier=True, **p) for p in transaction.pdus]
for pdu in pdus:
yield self._handle_new_pdu(pdu)
defer.returnValue(pdus)
@defer.inlineCallbacks
@log_function
def on_context_pdus_request(self, context):
pdus = yield self.pdu_actions.get_all_pdus_from_context(
context
)
defer.returnValue((200, self._transaction_from_pdus(pdus).get_dict()))
@defer.inlineCallbacks
@log_function
def on_backfill_request(self, context, versions, limit):
pdus = yield self.pdu_actions.backfill(context, versions, limit)
defer.returnValue((200, self._transaction_from_pdus(pdus).get_dict()))
@defer.inlineCallbacks
@log_function
def on_incoming_transaction(self, transaction_data):
transaction = Transaction(**transaction_data)
logger.debug("[%s] Got transaction", transaction.transaction_id)
response = yield self.transaction_actions.have_responded(transaction)
if response:
logger.debug("[%s] We've already responed to this request",
transaction.transaction_id)
defer.returnValue(response)
return
logger.debug("[%s] Transacition is new", transaction.transaction_id)
pdu_list = [Pdu(**p) for p in transaction.pdus]
dl = []
for pdu in pdu_list:
dl.append(self._handle_new_pdu(pdu))
if hasattr(transaction, "edus"):
for edu in [Edu(**x) for x in transaction.edus]:
self.received_edu(edu.origin, edu.edu_type, edu.content)
results = yield defer.DeferredList(dl)
ret = []
for r in results:
if r[0]:
ret.append({})
else:
logger.exception(r[1])
ret.append({"error": str(r[1])})
logger.debug("Returning: %s", str(ret))
yield self.transaction_actions.set_response(
transaction,
200, response
)
defer.returnValue((200, response))
def received_edu(self, origin, edu_type, content):
if edu_type in self.edu_handlers:
self.edu_handlers[edu_type](origin, content)
else:
logger.warn("Received EDU of type %s with no handler", edu_type)
@defer.inlineCallbacks
@log_function
def on_context_state_request(self, context):
results = yield self.store.get_current_state_for_context(
context
)
logger.debug("Context returning %d results", len(results))
pdus = [Pdu.from_pdu_tuple(p) for p in results]
defer.returnValue((200, self._transaction_from_pdus(pdus).get_dict()))
@defer.inlineCallbacks
@log_function
def on_pdu_request(self, pdu_origin, pdu_id):
pdu = yield self._get_persisted_pdu(pdu_id, pdu_origin)
if pdu:
defer.returnValue(
(200, self._transaction_from_pdus([pdu]).get_dict())
)
else:
defer.returnValue((404, ""))
@defer.inlineCallbacks
@log_function
def on_pull_request(self, origin, versions):
transaction_id = max([int(v) for v in versions])
response = yield self.pdu_actions.after_transaction(
transaction_id,
origin,
self.server_name
)
if not response:
response = []
defer.returnValue(
(200, self._transaction_from_pdus(response).get_dict())
)
@defer.inlineCallbacks
def on_query_request(self, query_type, args):
if query_type in self.query_handlers:
response = yield self.query_handlers[query_type](args)
defer.returnValue((200, response))
else:
defer.returnValue((404, "No handler for Query type '%s'"
% (query_type)
))
@defer.inlineCallbacks
@log_function
def _get_persisted_pdu(self, pdu_id, pdu_origin):
""" Get a PDU from the database with given origin and id.
Returns:
Deferred: Results in a `Pdu`.
"""
pdu_tuple = yield self.store.get_pdu(pdu_id, pdu_origin)
defer.returnValue(Pdu.from_pdu_tuple(pdu_tuple))
def _transaction_from_pdus(self, pdu_list):
"""Returns a new Transaction containing the given PDUs suitable for
transmission.
"""
return Transaction(
pdus=[p.get_dict() for p in pdu_list],
origin=self.server_name,
ts=int(self._clock.time_msec()),
destination=None,
)
@defer.inlineCallbacks
@log_function
def _handle_new_pdu(self, pdu, backfilled=False):
# We reprocess pdus when we have seen them only as outliers
existing = yield self._get_persisted_pdu(pdu.pdu_id, pdu.origin)
if existing and (not existing.outlier or pdu.outlier):
logger.debug("Already seen pdu %s %s", pdu.pdu_id, pdu.origin)
defer.returnValue({})
return
# Get missing pdus if necessary.
is_new = yield self.pdu_actions.is_new(pdu)
if is_new and not pdu.outlier:
# We only backfill backwards to the min depth.
min_depth = yield self.store.get_min_depth_for_context(pdu.context)
if min_depth and pdu.depth > min_depth:
for pdu_id, origin in pdu.prev_pdus:
exists = yield self._get_persisted_pdu(pdu_id, origin)
if not exists:
logger.debug("Requesting pdu %s %s", pdu_id, origin)
try:
yield self.get_pdu(
pdu.origin,
pdu_id=pdu_id,
pdu_origin=origin
)
logger.debug("Processed pdu %s %s", pdu_id, origin)
except:
# TODO(erikj): Do some more intelligent retries.
logger.exception("Failed to get PDU")
# Persist the Pdu, but don't mark it as processed yet.
yield self.store.persist_event(pdu=pdu)
if not backfilled:
ret = yield self.handler.on_receive_pdu(pdu, backfilled=backfilled)
else:
ret = None
yield self.pdu_actions.mark_as_processed(pdu)
defer.returnValue(ret)
def __str__(self):
return "<ReplicationLayer(%s)>" % self.server_name
class ReplicationHandler(object):
"""This defines the methods that the :py:class:`.ReplicationLayer` will
use to communicate with the rest of the home server.
"""
def on_receive_pdu(self, pdu):
raise NotImplementedError("on_receive_pdu")
class _TransactionQueue(object):
"""This class makes sure we only have one transaction in flight at
a time for a given destination.
It batches pending PDUs into single transactions.
"""
def __init__(self, hs, transaction_actions, transport_layer):
self.server_name = hs.hostname
self.transaction_actions = transaction_actions
self.transport_layer = transport_layer
self._clock = hs.get_clock()
# Is a mapping from destinations -> deferreds. Used to keep track
# of which destinations have transactions in flight and when they are
# done
self.pending_transactions = {}
# Is a mapping from destination -> list of
# tuple(pending pdus, deferred, order)
self.pending_pdus_by_dest = {}
# destination -> list of tuple(edu, deferred)
self.pending_edus_by_dest = {}
# HACK to get unique tx id
self._next_txn_id = int(self._clock.time_msec())
@defer.inlineCallbacks
@log_function
def enqueue_pdu(self, pdu, order):
# We loop through all destinations to see whether we already have
# a transaction in progress. If we do, stick it in the pending_pdus
# table and we'll get back to it later.
destinations = set([
d for d in pdu.destinations
if d != self.server_name
])
logger.debug("Sending to: %s", str(destinations))
if not destinations:
return
deferreds = []
for destination in destinations:
deferred = defer.Deferred()
self.pending_pdus_by_dest.setdefault(destination, []).append(
(pdu, deferred, order)
)
self._attempt_new_transaction(destination)
deferreds.append(deferred)
yield defer.DeferredList(deferreds)
# NO inlineCallbacks
def enqueue_edu(self, edu):
destination = edu.destination
deferred = defer.Deferred()
self.pending_edus_by_dest.setdefault(destination, []).append(
(edu, deferred)
)
def eb(failure):
deferred.errback(failure)
self._attempt_new_transaction(destination).addErrback(eb)
return deferred
@defer.inlineCallbacks
@log_function
def _attempt_new_transaction(self, destination):
if destination in self.pending_transactions:
return
# list of (pending_pdu, deferred, order)
pending_pdus = self.pending_pdus_by_dest.pop(destination, [])
pending_edus = self.pending_edus_by_dest.pop(destination, [])
if not pending_pdus and not pending_edus:
return
logger.debug("TX [%s] Attempting new transaction", destination)
# Sort based on the order field
pending_pdus.sort(key=lambda t: t[2])
pdus = [x[0] for x in pending_pdus]
edus = [x[0] for x in pending_edus]
deferreds = [x[1] for x in pending_pdus + pending_edus]
try:
self.pending_transactions[destination] = 1
logger.debug("TX [%s] Persisting transaction...", destination)
transaction = Transaction.create_new(
ts=self._clock.time_msec(),
transaction_id=self._next_txn_id,
origin=self.server_name,
destination=destination,
pdus=pdus,
edus=edus,
)
self._next_txn_id += 1
yield self.transaction_actions.prepare_to_send(transaction)
logger.debug("TX [%s] Persisted transaction", destination)
logger.debug("TX [%s] Sending transaction...", destination)
# Actually send the transaction
code, response = yield self.transport_layer.send_transaction(
transaction
)
logger.debug("TX [%s] Sent transaction", destination)
logger.debug("TX [%s] Marking as delivered...", destination)
yield self.transaction_actions.delivered(
transaction, code, response
)
logger.debug("TX [%s] Marked as delivered", destination)
logger.debug("TX [%s] Yielding to callbacks...", destination)
for deferred in deferreds:
if code == 200:
deferred.callback(None)
else:
deferred.errback(RuntimeError("Got status %d" % code))
# Ensures we don't continue until all callbacks on that
# deferred have fired
yield deferred
logger.debug("TX [%s] Yielded to callbacks", destination)
except Exception as e:
logger.error("TX Problem in _attempt_transaction")
# We capture this here as there as nothing actually listens
# for this finishing functions deferred.
logger.exception(e)
for deferred in deferreds:
deferred.errback(e)
yield deferred
finally:
# We want to be *very* sure we delete this after we stop processing
self.pending_transactions.pop(destination, None)
# Check to see if there is anything else to send.
self._attempt_new_transaction(destination)
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