synapse-product/synapse/appservice/__init__.py

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# -*- coding: utf-8 -*-
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# Copyright 2015, 2016 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.
import logging
import re
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from synapse.api.constants import EventTypes
from synapse.types import GroupID, get_domain_from_id
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from synapse.util.caches.descriptors import cached
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logger = logging.getLogger(__name__)
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class ApplicationServiceState(object):
DOWN = "down"
UP = "up"
class AppServiceTransaction(object):
"""Represents an application service transaction."""
def __init__(self, service, id, events):
self.service = service
self.id = id
self.events = events
def send(self, as_api):
"""Sends this transaction using the provided AS API interface.
Args:
as_api(ApplicationServiceApi): The API to use to send.
Returns:
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An Awaitable which resolves to True if the transaction was sent.
"""
return as_api.push_bulk(
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service=self.service, events=self.events, txn_id=self.id
)
def complete(self, store):
"""Completes this transaction as successful.
Marks this transaction ID on the application service and removes the
transaction contents from the database.
Args:
store: The database store to operate on.
Returns:
A Deferred which resolves to True if the transaction was completed.
"""
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return store.complete_appservice_txn(service=self.service, txn_id=self.id)
class ApplicationService(object):
"""Defines an application service. This definition is mostly what is
provided to the /register AS API.
Provides methods to check if this service is "interested" in events.
"""
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NS_USERS = "users"
NS_ALIASES = "aliases"
NS_ROOMS = "rooms"
# The ordering here is important as it is used to map database values (which
# are stored as ints representing the position in this list) to namespace
# values.
NS_LIST = [NS_USERS, NS_ALIASES, NS_ROOMS]
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def __init__(
self,
token,
hostname,
url=None,
namespaces=None,
hs_token=None,
sender=None,
id=None,
protocols=None,
rate_limited=True,
ip_range_whitelist=None,
):
self.token = token
self.url = (
url.rstrip("/") if isinstance(url, str) else None
) # url must not end with a slash
self.hs_token = hs_token
self.sender = sender
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self.server_name = hostname
self.namespaces = self._check_namespaces(namespaces)
self.id = id
self.ip_range_whitelist = ip_range_whitelist
if "|" in self.id:
raise Exception("application service ID cannot contain '|' character")
# .protocols is a publicly visible field
if protocols:
self.protocols = set(protocols)
else:
self.protocols = set()
self.rate_limited = rate_limited
def _check_namespaces(self, namespaces):
# Sanity check that it is of the form:
# {
# users: [ {regex: "[A-z]+.*", exclusive: true}, ...],
# aliases: [ {regex: "[A-z]+.*", exclusive: true}, ...],
# rooms: [ {regex: "[A-z]+.*", exclusive: true}, ...],
# }
if not namespaces:
namespaces = {}
for ns in ApplicationService.NS_LIST:
if ns not in namespaces:
namespaces[ns] = []
continue
if type(namespaces[ns]) != list:
raise ValueError("Bad namespace value for '%s'" % ns)
for regex_obj in namespaces[ns]:
if not isinstance(regex_obj, dict):
raise ValueError("Expected dict regex for ns '%s'" % ns)
if not isinstance(regex_obj.get("exclusive"), bool):
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raise ValueError("Expected bool for 'exclusive' in ns '%s'" % ns)
group_id = regex_obj.get("group_id")
if group_id:
if not isinstance(group_id, str):
raise ValueError(
"Expected string for 'group_id' in ns '%s'" % ns
)
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try:
GroupID.from_string(group_id)
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except Exception:
raise ValueError(
"Expected valid group ID for 'group_id' in ns '%s'" % ns
)
if get_domain_from_id(group_id) != self.server_name:
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raise ValueError(
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"Expected 'group_id' to be this host in ns '%s'" % ns
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)
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regex = regex_obj.get("regex")
if isinstance(regex, str):
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regex_obj["regex"] = re.compile(regex) # Pre-compile regex
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else:
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raise ValueError("Expected string for 'regex' in ns '%s'" % ns)
return namespaces
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def _matches_regex(self, test_string, namespace_key):
for regex_obj in self.namespaces[namespace_key]:
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if regex_obj["regex"].match(test_string):
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return regex_obj
return None
def _is_exclusive(self, ns_key, test_string):
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regex_obj = self._matches_regex(test_string, ns_key)
if regex_obj:
return regex_obj["exclusive"]
return False
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async def _matches_user(self, event, store):
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if not event:
return False
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if self.is_interested_in_user(event.sender):
return True
# also check m.room.member state key
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if event.type == EventTypes.Member and self.is_interested_in_user(
event.state_key
):
return True
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if not store:
return False
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does_match = await self._matches_user_in_member_list(event.room_id, store)
return does_match
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@cached(num_args=1, cache_context=True)
async def _matches_user_in_member_list(self, room_id, store, cache_context):
member_list = await store.get_users_in_room(
room_id, on_invalidate=cache_context.invalidate
)
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# check joined member events
for user_id in member_list:
if self.is_interested_in_user(user_id):
return True
return False
def _matches_room_id(self, event):
if hasattr(event, "room_id"):
return self.is_interested_in_room(event.room_id)
return False
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async def _matches_aliases(self, event, store):
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if not store or not event:
return False
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alias_list = await store.get_aliases_for_room(event.room_id)
for alias in alias_list:
if self.is_interested_in_alias(alias):
return True
return False
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async def is_interested(self, event, store=None) -> bool:
"""Check if this service is interested in this event.
Args:
event(Event): The event to check.
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store(DataStore)
Returns:
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True if this service would like to know about this event.
"""
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# Do cheap checks first
if self._matches_room_id(event):
return True
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if await self._matches_aliases(event, store):
return True
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if await self._matches_user(event, store):
return True
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return False
def is_interested_in_user(self, user_id):
return (
self._matches_regex(user_id, ApplicationService.NS_USERS)
or user_id == self.sender
)
def is_interested_in_alias(self, alias):
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return bool(self._matches_regex(alias, ApplicationService.NS_ALIASES))
def is_interested_in_room(self, room_id):
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return bool(self._matches_regex(room_id, ApplicationService.NS_ROOMS))
def is_exclusive_user(self, user_id):
return (
self._is_exclusive(ApplicationService.NS_USERS, user_id)
or user_id == self.sender
)
def is_interested_in_protocol(self, protocol):
return protocol in self.protocols
def is_exclusive_alias(self, alias):
return self._is_exclusive(ApplicationService.NS_ALIASES, alias)
def is_exclusive_room(self, room_id):
return self._is_exclusive(ApplicationService.NS_ROOMS, room_id)
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def get_exclusive_user_regexes(self):
"""Get the list of regexes used to determine if a user is exclusively
registered by the AS
"""
return [
regex_obj["regex"]
for regex_obj in self.namespaces[ApplicationService.NS_USERS]
if regex_obj["exclusive"]
]
def get_groups_for_user(self, user_id):
"""Get the groups that this user is associated with by this AS
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Args:
user_id (str): The ID of the user.
Returns:
iterable[str]: an iterable that yields group_id strings.
"""
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return (
regex_obj["group_id"]
for regex_obj in self.namespaces[ApplicationService.NS_USERS]
if "group_id" in regex_obj and regex_obj["regex"].match(user_id)
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)
def is_rate_limited(self):
return self.rate_limited
def __str__(self):
# copy dictionary and redact token fields so they don't get logged
dict_copy = self.__dict__.copy()
dict_copy["token"] = "<redacted>"
dict_copy["hs_token"] = "<redacted>"
return "ApplicationService: %s" % (dict_copy,)