zulip/zerver/tornado/event_queue.py

945 lines
41 KiB
Python

# See http://zulip.readthedocs.io/en/latest/events-system.html for
# high-level documentation on how this system works.
from typing import cast, AbstractSet, Any, Callable, Dict, List, \
Mapping, MutableMapping, Optional, Iterable, Sequence, Set, Text, Union
from django.utils.translation import ugettext as _
from django.conf import settings
from django.utils.timezone import now as timezone_now
from collections import deque
import datetime
import os
import time
import socket
import logging
import ujson
import requests
import atexit
import sys
import signal
import tornado.autoreload
import tornado.ioloop
import random
import traceback
from zerver.models import UserProfile, Client
from zerver.decorator import RespondAsynchronously
from zerver.tornado.handlers import clear_handler_by_id, get_handler_by_id, \
finish_handler, handler_stats_string
from zerver.lib.utils import statsd
from zerver.middleware import async_request_restart
from zerver.lib.narrow import build_narrow_filter
from zerver.lib.queue import queue_json_publish
from zerver.lib.request import JsonableError
from zerver.lib.timestamp import timestamp_to_datetime
from zerver.tornado.descriptors import clear_descriptor_by_handler_id, set_descriptor_by_handler_id
from zerver.tornado.exceptions import BadEventQueueIdError
import copy
requests_client = requests.Session()
for host in ['127.0.0.1', 'localhost']:
if settings.TORNADO_SERVER and host in settings.TORNADO_SERVER:
# This seems like the only working solution to ignore proxy in
# requests library.
requests_client.trust_env = False
# The idle timeout used to be a week, but we found that in that
# situation, queues from dead browser sessions would grow quite large
# due to the accumulation of message data in those queues.
IDLE_EVENT_QUEUE_TIMEOUT_SECS = 60 * 10
EVENT_QUEUE_GC_FREQ_MSECS = 1000 * 60 * 5
# Capped limit for how long a client can request an event queue
# to live
MAX_QUEUE_TIMEOUT_SECS = 7 * 24 * 60 * 60
# The heartbeats effectively act as a server-side timeout for
# get_events(). The actual timeout value is randomized for each
# client connection based on the below value. We ensure that the
# maximum timeout value is 55 seconds, to deal with crappy home
# wireless routers that kill "inactive" http connections.
HEARTBEAT_MIN_FREQ_SECS = 45
class ClientDescriptor(object):
def __init__(self, user_profile_id, user_profile_email, realm_id, event_queue,
event_types, client_type_name, apply_markdown=True,
all_public_streams=False, lifespan_secs=0, narrow=[]):
# type: (int, Text, int, EventQueue, Optional[Sequence[str]], Text, bool, bool, int, Iterable[Sequence[Text]]) -> None
# These objects are serialized on shutdown and restored on restart.
# If fields are added or semantics are changed, temporary code must be
# added to load_event_queues() to update the restored objects.
# Additionally, the to_dict and from_dict methods must be updated
self.user_profile_id = user_profile_id
self.user_profile_email = user_profile_email
self.realm_id = realm_id
self.current_handler_id = None # type: Optional[int]
self.current_client_name = None # type: Optional[Text]
self.event_queue = event_queue
self.queue_timeout = lifespan_secs
self.event_types = event_types
self.last_connection_time = time.time()
self.apply_markdown = apply_markdown
self.all_public_streams = all_public_streams
self.client_type_name = client_type_name
self._timeout_handle = None # type: Any # TODO: should be return type of ioloop.add_timeout
self.narrow = narrow
self.narrow_filter = build_narrow_filter(narrow)
# Clamp queue_timeout to between minimum and maximum timeouts
self.queue_timeout = max(IDLE_EVENT_QUEUE_TIMEOUT_SECS, min(self.queue_timeout, MAX_QUEUE_TIMEOUT_SECS))
def to_dict(self):
# type: () -> Dict[str, Any]
# If you add a new key to this dict, make sure you add appropriate
# migration code in from_dict or load_event_queues to account for
# loading event queues that lack that key.
return dict(user_profile_id=self.user_profile_id,
user_profile_email=self.user_profile_email,
realm_id=self.realm_id,
event_queue=self.event_queue.to_dict(),
queue_timeout=self.queue_timeout,
event_types=self.event_types,
last_connection_time=self.last_connection_time,
apply_markdown=self.apply_markdown,
all_public_streams=self.all_public_streams,
narrow=self.narrow,
client_type_name=self.client_type_name)
def __repr__(self):
# type: () -> str
return "ClientDescriptor<%s>" % (self.event_queue.id,)
@classmethod
def from_dict(cls, d):
# type: (MutableMapping[str, Any]) -> ClientDescriptor
if 'user_profile_email' not in d:
# Temporary migration for the addition of the new user_profile_email field
from zerver.models import get_user_profile_by_id
d['user_profile_email'] = get_user_profile_by_id(d['user_profile_id']).email
if 'client_type' in d:
# Temporary migration for the rename of client_type to client_type_name
d['client_type_name'] = d['client_type']
ret = cls(d['user_profile_id'], d['user_profile_email'], d['realm_id'],
EventQueue.from_dict(d['event_queue']), d['event_types'],
d['client_type_name'], d['apply_markdown'], d['all_public_streams'],
d['queue_timeout'], d.get('narrow', []))
ret.last_connection_time = d['last_connection_time']
return ret
def prepare_for_pickling(self):
# type: () -> None
self.current_handler_id = None
self._timeout_handle = None
def add_event(self, event):
# type: (Dict[str, Any]) -> None
if self.current_handler_id is not None:
handler = get_handler_by_id(self.current_handler_id)
async_request_restart(handler._request)
self.event_queue.push(event)
self.finish_current_handler()
def finish_current_handler(self):
# type: () -> bool
if self.current_handler_id is not None:
err_msg = "Got error finishing handler for queue %s" % (self.event_queue.id,)
try:
finish_handler(self.current_handler_id, self.event_queue.id,
self.event_queue.contents(), self.apply_markdown)
except Exception:
logging.exception(err_msg)
finally:
self.disconnect_handler()
return True
return False
def accepts_event(self, event):
# type: (Mapping[str, Any]) -> bool
if self.event_types is not None and event["type"] not in self.event_types:
return False
if event["type"] == "message":
return self.narrow_filter(event)
return True
# TODO: Refactor so we don't need this function
def accepts_messages(self):
# type: () -> bool
return self.event_types is None or "message" in self.event_types
def idle(self, now):
# type: (float) -> bool
if not hasattr(self, 'queue_timeout'):
self.queue_timeout = IDLE_EVENT_QUEUE_TIMEOUT_SECS
return (self.current_handler_id is None and
now - self.last_connection_time >= self.queue_timeout)
def connect_handler(self, handler_id, client_name):
# type: (int, Text) -> None
self.current_handler_id = handler_id
self.current_client_name = client_name
set_descriptor_by_handler_id(handler_id, self)
self.last_connection_time = time.time()
def timeout_callback():
# type: () -> None
self._timeout_handle = None
# All clients get heartbeat events
self.add_event(dict(type='heartbeat'))
ioloop = tornado.ioloop.IOLoop.instance()
heartbeat_time = time.time() + HEARTBEAT_MIN_FREQ_SECS + random.randint(0, 10)
if self.client_type_name != 'API: heartbeat test':
self._timeout_handle = ioloop.add_timeout(heartbeat_time, timeout_callback)
def disconnect_handler(self, client_closed=False):
# type: (bool) -> None
if self.current_handler_id:
clear_descriptor_by_handler_id(self.current_handler_id, None)
clear_handler_by_id(self.current_handler_id)
if client_closed:
logging.info("Client disconnected for queue %s (%s via %s)" %
(self.event_queue.id, self.user_profile_email,
self.current_client_name))
self.current_handler_id = None
self.current_client_name = None
if self._timeout_handle is not None:
ioloop = tornado.ioloop.IOLoop.instance()
ioloop.remove_timeout(self._timeout_handle)
self._timeout_handle = None
def cleanup(self):
# type: () -> None
# Before we can GC the event queue, we need to disconnect the
# handler and notify the client (or connection server) so that
# they can cleanup their own state related to the GC'd event
# queue. Finishing the handler before we GC ensures the
# invariant that event queues are idle when passed to
# `do_gc_event_queues` is preserved.
self.finish_current_handler()
do_gc_event_queues({self.event_queue.id}, {self.user_profile_id},
{self.realm_id})
def compute_full_event_type(event):
# type: (Mapping[str, Any]) -> str
if event["type"] == "update_message_flags":
if event["all"]:
# Put the "all" case in its own category
return "all_flags/%s/%s" % (event["flag"], event["operation"])
return "flags/%s/%s" % (event["operation"], event["flag"])
return event["type"]
class EventQueue(object):
def __init__(self, id):
# type: (str) -> None
self.queue = deque() # type: ignore # Should be Deque[Dict[str, Any]], but Deque isn't available in Python 3.4
self.next_event_id = 0 # type: int
self.id = id # type: str
self.virtual_events = {} # type: Dict[str, Dict[str, Any]]
def to_dict(self):
# type: () -> Dict[str, Any]
# If you add a new key to this dict, make sure you add appropriate
# migration code in from_dict or load_event_queues to account for
# loading event queues that lack that key.
return dict(id=self.id,
next_event_id=self.next_event_id,
queue=list(self.queue),
virtual_events=self.virtual_events)
@classmethod
def from_dict(cls, d):
# type: (Dict[str, Any]) -> EventQueue
ret = cls(d['id'])
ret.next_event_id = d['next_event_id']
ret.queue = deque(d['queue'])
ret.virtual_events = d.get("virtual_events", {})
return ret
def push(self, event):
# type: (Dict[str, Any]) -> None
event['id'] = self.next_event_id
self.next_event_id += 1
full_event_type = compute_full_event_type(event)
if (full_event_type in ["pointer", "restart"] or
full_event_type.startswith("flags/")):
if full_event_type not in self.virtual_events:
self.virtual_events[full_event_type] = copy.deepcopy(event)
return
# Update the virtual event with the values from the event
virtual_event = self.virtual_events[full_event_type]
virtual_event["id"] = event["id"]
if "timestamp" in event:
virtual_event["timestamp"] = event["timestamp"]
if full_event_type == "pointer":
virtual_event["pointer"] = event["pointer"]
elif full_event_type == "restart":
virtual_event["server_generation"] = event["server_generation"]
elif full_event_type.startswith("flags/"):
virtual_event["messages"] += event["messages"]
else:
self.queue.append(event)
# Note that pop ignores virtual events. This is fine in our
# current usage since virtual events should always be resolved to
# a real event before being given to users.
def pop(self):
# type: () -> Dict[str, Any]
return self.queue.popleft()
def empty(self):
# type: () -> bool
return len(self.queue) == 0 and len(self.virtual_events) == 0
# See the comment on pop; that applies here as well
def prune(self, through_id):
# type: (int) -> None
while len(self.queue) != 0 and self.queue[0]['id'] <= through_id:
self.pop()
def contents(self):
# type: () -> List[Dict[str, Any]]
contents = [] # type: List[Dict[str, Any]]
virtual_id_map = {} # type: Dict[str, Dict[str, Any]]
for event_type in self.virtual_events:
virtual_id_map[self.virtual_events[event_type]["id"]] = self.virtual_events[event_type]
virtual_ids = sorted(list(virtual_id_map.keys()))
# Merge the virtual events into their final place in the queue
index = 0
length = len(virtual_ids)
for event in self.queue:
while index < length and virtual_ids[index] < event["id"]:
contents.append(virtual_id_map[virtual_ids[index]])
index += 1
contents.append(event)
while index < length:
contents.append(virtual_id_map[virtual_ids[index]])
index += 1
self.virtual_events = {}
self.queue = deque(contents)
return contents
# maps queue ids to client descriptors
clients = {} # type: Dict[str, ClientDescriptor]
# maps user id to list of client descriptors
user_clients = {} # type: Dict[int, List[ClientDescriptor]]
# maps realm id to list of client descriptors with all_public_streams=True
realm_clients_all_streams = {} # type: Dict[int, List[ClientDescriptor]]
# list of registered gc hooks.
# each one will be called with a user profile id, queue, and bool
# last_for_client that is true if this is the last queue pertaining
# to this user_profile_id
# that is about to be deleted
gc_hooks = [] # type: List[Callable[[int, ClientDescriptor, bool], None]]
next_queue_id = 0
def add_client_gc_hook(hook):
# type: (Callable[[int, ClientDescriptor, bool], None]) -> None
gc_hooks.append(hook)
def get_client_descriptor(queue_id):
# type: (str) -> ClientDescriptor
return clients.get(queue_id)
def get_client_descriptors_for_user(user_profile_id):
# type: (int) -> List[ClientDescriptor]
return user_clients.get(user_profile_id, [])
def get_client_descriptors_for_realm_all_streams(realm_id):
# type: (int) -> List[ClientDescriptor]
return realm_clients_all_streams.get(realm_id, [])
def add_to_client_dicts(client):
# type: (ClientDescriptor) -> None
user_clients.setdefault(client.user_profile_id, []).append(client)
if client.all_public_streams or client.narrow != []:
realm_clients_all_streams.setdefault(client.realm_id, []).append(client)
def allocate_client_descriptor(new_queue_data):
# type: (MutableMapping[str, Any]) -> ClientDescriptor
global next_queue_id
queue_id = str(settings.SERVER_GENERATION) + ':' + str(next_queue_id)
next_queue_id += 1
new_queue_data["event_queue"] = EventQueue(queue_id).to_dict()
client = ClientDescriptor.from_dict(new_queue_data)
clients[queue_id] = client
add_to_client_dicts(client)
return client
def do_gc_event_queues(to_remove, affected_users, affected_realms):
# type: (AbstractSet[str], AbstractSet[int], AbstractSet[int]) -> None
def filter_client_dict(client_dict, key):
# type: (MutableMapping[int, List[ClientDescriptor]], int) -> None
if key not in client_dict:
return
new_client_list = [c for c in client_dict[key] if c.event_queue.id not in to_remove]
if len(new_client_list) == 0:
del client_dict[key]
else:
client_dict[key] = new_client_list
for user_id in affected_users:
filter_client_dict(user_clients, user_id)
for realm_id in affected_realms:
filter_client_dict(realm_clients_all_streams, realm_id)
for id in to_remove:
for cb in gc_hooks:
cb(clients[id].user_profile_id, clients[id], clients[id].user_profile_id not in user_clients)
del clients[id]
def gc_event_queues():
# type: () -> None
start = time.time()
to_remove = set() # type: Set[str]
affected_users = set() # type: Set[int]
affected_realms = set() # type: Set[int]
for (id, client) in clients.items():
if client.idle(start):
to_remove.add(id)
affected_users.add(client.user_profile_id)
affected_realms.add(client.realm_id)
# We don't need to call e.g. finish_current_handler on the clients
# being removed because they are guaranteed to be idle and thus
# not have a current handler.
do_gc_event_queues(to_remove, affected_users, affected_realms)
if settings.PRODUCTION:
logging.info(('Tornado removed %d idle event queues owned by %d users in %.3fs.' +
' Now %d active queues, %s')
% (len(to_remove), len(affected_users), time.time() - start,
len(clients), handler_stats_string()))
statsd.gauge('tornado.active_queues', len(clients))
statsd.gauge('tornado.active_users', len(user_clients))
def dump_event_queues():
# type: () -> None
start = time.time()
with open(settings.JSON_PERSISTENT_QUEUE_FILENAME, "w") as stored_queues:
ujson.dump([(qid, client.to_dict()) for (qid, client) in clients.items()],
stored_queues)
logging.info('Tornado dumped %d event queues in %.3fs'
% (len(clients), time.time() - start))
def load_event_queues():
# type: () -> None
global clients
start = time.time()
# ujson chokes on bad input pretty easily. We separate out the actual
# file reading from the loading so that we don't silently fail if we get
# bad input.
try:
with open(settings.JSON_PERSISTENT_QUEUE_FILENAME, "r") as stored_queues:
json_data = stored_queues.read()
try:
clients = dict((qid, ClientDescriptor.from_dict(client))
for (qid, client) in ujson.loads(json_data))
except Exception:
logging.exception("Could not deserialize event queues")
except (IOError, EOFError):
pass
for client in clients.values():
# Put code for migrations due to event queue data format changes here
add_to_client_dicts(client)
logging.info('Tornado loaded %d event queues in %.3fs'
% (len(clients), time.time() - start))
def send_restart_events(immediate=False):
# type: (bool) -> None
event = dict(type='restart', server_generation=settings.SERVER_GENERATION) # type: Dict[str, Any]
if immediate:
event['immediate'] = True
for client in clients.values():
if client.accepts_event(event):
client.add_event(event.copy())
def setup_event_queue():
# type: () -> None
if not settings.TEST_SUITE:
load_event_queues()
atexit.register(dump_event_queues)
# Make sure we dump event queues even if we exit via signal
signal.signal(signal.SIGTERM, lambda signum, stack: sys.exit(1))
tornado.autoreload.add_reload_hook(dump_event_queues)
try:
os.rename(settings.JSON_PERSISTENT_QUEUE_FILENAME, "/var/tmp/event_queues.json.last")
except OSError:
pass
# Set up event queue garbage collection
ioloop = tornado.ioloop.IOLoop.instance()
pc = tornado.ioloop.PeriodicCallback(gc_event_queues,
EVENT_QUEUE_GC_FREQ_MSECS, ioloop)
pc.start()
send_restart_events(immediate=settings.DEVELOPMENT)
def fetch_events(query):
# type: (Mapping[str, Any]) -> Dict[str, Any]
queue_id = query["queue_id"] # type: str
dont_block = query["dont_block"] # type: bool
last_event_id = query["last_event_id"] # type: int
user_profile_id = query["user_profile_id"] # type: int
new_queue_data = query.get("new_queue_data") # type: Optional[MutableMapping[str, Any]]
user_profile_email = query["user_profile_email"] # type: Text
client_type_name = query["client_type_name"] # type: Text
handler_id = query["handler_id"] # type: int
try:
was_connected = False
orig_queue_id = queue_id
extra_log_data = ""
if queue_id is None:
if dont_block:
client = allocate_client_descriptor(new_queue_data)
queue_id = client.event_queue.id
else:
raise JsonableError(_("Missing 'queue_id' argument"))
else:
if last_event_id is None:
raise JsonableError(_("Missing 'last_event_id' argument"))
client = get_client_descriptor(queue_id)
if client is None:
raise BadEventQueueIdError(queue_id)
if user_profile_id != client.user_profile_id:
raise JsonableError(_("You are not authorized to get events from this queue"))
client.event_queue.prune(last_event_id)
was_connected = client.finish_current_handler()
if not client.event_queue.empty() or dont_block:
response = dict(events=client.event_queue.contents(),
handler_id=handler_id) # type: Dict[str, Any]
if orig_queue_id is None:
response['queue_id'] = queue_id
if len(response["events"]) == 1:
extra_log_data = "[%s/%s/%s]" % (queue_id, len(response["events"]),
response["events"][0]["type"])
else:
extra_log_data = "[%s/%s]" % (queue_id, len(response["events"]))
if was_connected:
extra_log_data += " [was connected]"
return dict(type="response", response=response, extra_log_data=extra_log_data)
# After this point, dont_block=False, the queue is empty, and we
# have a pre-existing queue, so we wait for new events.
if was_connected:
logging.info("Disconnected handler for queue %s (%s/%s)" % (queue_id, user_profile_email,
client_type_name))
except JsonableError as e:
return dict(type="error", exception=e)
client.connect_handler(handler_id, client_type_name)
return dict(type="async")
# The following functions are called from Django
# Workaround to support the Python-requests 1.0 transition of .json
# from a property to a function
requests_json_is_function = callable(requests.Response.json)
def extract_json_response(resp):
# type: (requests.Response) -> Dict[str, Any]
if requests_json_is_function:
return resp.json()
else:
return resp.json # type: ignore # mypy trusts the stub, not the runtime type checking of this fn
def request_event_queue(user_profile, user_client, apply_markdown,
queue_lifespan_secs, event_types=None, all_public_streams=False,
narrow=[]):
# type: (UserProfile, Client, bool, int, Optional[Iterable[str]], bool, Iterable[Sequence[Text]]) -> Optional[str]
if settings.TORNADO_SERVER:
req = {'dont_block': 'true',
'apply_markdown': ujson.dumps(apply_markdown),
'all_public_streams': ujson.dumps(all_public_streams),
'client': 'internal',
'user_client': user_client.name,
'narrow': ujson.dumps(narrow),
'lifespan_secs': queue_lifespan_secs}
if event_types is not None:
req['event_types'] = ujson.dumps(event_types)
try:
resp = requests_client.get(settings.TORNADO_SERVER + '/api/v1/events',
auth=requests.auth.HTTPBasicAuth(
user_profile.email, user_profile.api_key),
params=req)
except requests.adapters.ConnectionError:
logging.error('Tornado server does not seem to be running, check %s '
'and %s for more information.' %
(settings.ERROR_FILE_LOG_PATH, "tornado.log"))
raise requests.adapters.ConnectionError(
"Django cannot connect to Tornado server (%s); try restarting" %
(settings.TORNADO_SERVER))
resp.raise_for_status()
return extract_json_response(resp)['queue_id']
return None
def get_user_events(user_profile, queue_id, last_event_id):
# type: (UserProfile, str, int) -> List[Dict]
if settings.TORNADO_SERVER:
resp = requests_client.get(settings.TORNADO_SERVER + '/api/v1/events',
auth=requests.auth.HTTPBasicAuth(
user_profile.email, user_profile.api_key),
params={'queue_id': queue_id,
'last_event_id': last_event_id,
'dont_block': 'true',
'client': 'internal'})
resp.raise_for_status()
return extract_json_response(resp)['events']
return []
# Send email notifications to idle users
# after they are idle for 1 hour
NOTIFY_AFTER_IDLE_HOURS = 1
def build_offline_notification(user_profile_id, message_id):
# type: (int, int) -> Dict[str, Any]
return {"user_profile_id": user_profile_id,
"message_id": message_id,
"timestamp": time.time()}
def missedmessage_hook(user_profile_id, client, last_for_client):
# type: (int, ClientDescriptor, bool) -> None
"""The receiver_is_off_zulip logic used to determine whether a user
has no active client suffers from a somewhat fundamental race
condition. If the client is no longer on the Internet,
receiver_is_off_zulip will still return true for
IDLE_EVENT_QUEUE_TIMEOUT_SECS, until the queue is
garbage-collected. This would cause us to reliably miss
push/email notifying users for messages arriving during the
IDLE_EVENT_QUEUE_TIMEOUT_SECS after they suspend their laptop (for
example). We address this by, when the queue is garbage-collected
at the end of those 10 minutes, checking to see if it's the last
one, and if so, potentially triggering notifications to the user
at that time, resulting in at most a IDLE_EVENT_QUEUE_TIMEOUT_SECS
delay in the arrival of their notifications.
As Zulip's APIs get more popular and the mobile apps start using
long-lived event queues for perf optimization, future versions of
this will likely need to replace checking `last_for_client` with
something more complicated, so that we only consider clients like
web browsers, not the mobile apps or random API scripts.
"""
# Only process missedmessage hook when the last queue for a
# client has been garbage collected
if not last_for_client:
return
for event in client.event_queue.contents():
if event['type'] != 'message':
continue
assert 'flags' in event
flags = event['flags']
mentioned = 'mentioned' in flags and 'read' not in flags
private_message = event['message']['type'] == 'private'
# stream_push_notify is set in process_message_event.
stream_push_notify = event.get('stream_push_notify', False)
stream_name = None
if not private_message:
stream_name = event['message']['display_recipient']
# Since one is by definition idle, we don't need to check always_push_notify
always_push_notify = False
# Since we just GC'd the last event queue, the user is definitely idle.
idle = True
message_id = event['message']['id']
maybe_enqueue_notifications(user_profile_id, message_id, private_message, mentioned,
stream_push_notify, stream_name, always_push_notify, idle)
def receiver_is_off_zulip(user_profile_id):
# type: (int) -> bool
# If a user has no message-receiving event queues, they've got no open zulip
# session so we notify them
all_client_descriptors = get_client_descriptors_for_user(user_profile_id)
message_event_queues = [client for client in all_client_descriptors if client.accepts_messages()]
off_zulip = len(message_event_queues) == 0
return off_zulip
def maybe_enqueue_notifications(user_profile_id, message_id, private_message,
mentioned, stream_push_notify, stream_name,
always_push_notify, idle):
# type: (int, int, bool, bool, bool, Optional[str], bool, bool) -> Dict[str, bool]
"""This function has a complete unit test suite in
`test_enqueue_notifications` that should be expanded as we add
more features here."""
notified = dict() # type: Dict[str, bool]
if (idle or always_push_notify) and (private_message or mentioned or stream_push_notify):
notice = build_offline_notification(user_profile_id, message_id)
notice['triggers'] = {
'private_message': private_message,
'mentioned': mentioned,
'stream_push_notify': stream_push_notify,
}
notice['stream_name'] = stream_name
queue_json_publish("missedmessage_mobile_notifications", notice, lambda notice: None)
notified['push_notified'] = True
# Send missed_message emails if a private message or a
# mention. Eventually, we'll add settings to allow email
# notifications to match the model of push notifications
# above.
if idle and (private_message or mentioned):
# We require RabbitMQ to do this, as we can't call the email handler
# from the Tornado process. So if there's no rabbitmq support do nothing
queue_json_publish("missedmessage_emails", notice, lambda notice: None)
notified['email_notified'] = True
return notified
def process_message_event(event_template, users):
# type: (Mapping[str, Any], Iterable[Mapping[str, Any]]) -> None
presence_idle_userids = set(event_template.get('presence_idle_userids', []))
sender_queue_id = event_template.get('sender_queue_id', None) # type: Optional[str]
message_dict_markdown = event_template['message_dict_markdown'] # type: Dict[str, Any]
message_dict_no_markdown = event_template['message_dict_no_markdown'] # type: Dict[str, Any]
sender_id = message_dict_markdown['sender_id'] # type: int
message_id = message_dict_markdown['id'] # type: int
message_type = message_dict_markdown['type'] # type: str
sending_client = message_dict_markdown['client'] # type: Text
# To remove duplicate clients: Maps queue ID to {'client': Client, 'flags': flags}
send_to_clients = {} # type: Dict[str, Dict[str, Any]]
# Extra user-specific data to include
extra_user_data = {} # type: Dict[int, Any]
if 'stream_name' in event_template and not event_template.get("invite_only"):
for client in get_client_descriptors_for_realm_all_streams(event_template['realm_id']):
send_to_clients[client.event_queue.id] = {'client': client, 'flags': None}
if sender_queue_id is not None and client.event_queue.id == sender_queue_id:
send_to_clients[client.event_queue.id]['is_sender'] = True
for user_data in users:
user_profile_id = user_data['id'] # type: int
flags = user_data.get('flags', []) # type: Iterable[str]
for client in get_client_descriptors_for_user(user_profile_id):
send_to_clients[client.event_queue.id] = {'client': client, 'flags': flags}
if sender_queue_id is not None and client.event_queue.id == sender_queue_id:
send_to_clients[client.event_queue.id]['is_sender'] = True
# If the recipient was offline and the message was a single or group PM to them
# or they were @-notified potentially notify more immediately
private_message = message_type == "private" and user_profile_id != sender_id
mentioned = 'mentioned' in flags and 'read' not in flags
stream_push_notify = user_data.get('stream_push_notify', False)
# We first check if a message is potentially mentionable,
# since receiver_is_off_zulip is somewhat expensive.
if private_message or mentioned or stream_push_notify:
idle = receiver_is_off_zulip(user_profile_id) or (user_profile_id in presence_idle_userids)
always_push_notify = user_data.get('always_push_notify', False)
stream_name = event_template.get('stream_name')
result = maybe_enqueue_notifications(user_profile_id, message_id, private_message,
mentioned, stream_push_notify, stream_name,
always_push_notify, idle)
result['stream_push_notify'] = stream_push_notify
extra_user_data[user_profile_id] = result
for client_data in send_to_clients.values():
client = client_data['client']
flags = client_data['flags']
is_sender = client_data.get('is_sender', False) # type: bool
extra_data = extra_user_data.get(client.user_profile_id, None) # type: Optional[Mapping[str, bool]]
if not client.accepts_messages():
# The actual check is the accepts_event() check below;
# this line is just an optimization to avoid copying
# message data unnecessarily
continue
if client.apply_markdown:
message_dict = message_dict_markdown
else:
message_dict = message_dict_no_markdown
# Make sure Zephyr mirroring bots know whether stream is invite-only
if "mirror" in client.client_type_name and event_template.get("invite_only"):
message_dict = message_dict.copy()
message_dict["invite_only_stream"] = True
if flags is not None:
message_dict['is_mentioned'] = 'mentioned' in flags
user_event = dict(type='message', message=message_dict, flags=flags) # type: Dict[str, Any]
if extra_data is not None:
user_event.update(extra_data)
if is_sender:
local_message_id = event_template.get('local_id', None)
if local_message_id is not None:
user_event["local_message_id"] = local_message_id
if not client.accepts_event(user_event):
continue
# The below prevents (Zephyr) mirroring loops.
if ('mirror' in sending_client and
sending_client.lower() == client.client_type_name.lower()):
continue
client.add_event(user_event)
def process_event(event, users):
# type: (Mapping[str, Any], Iterable[int]) -> None
for user_profile_id in users:
for client in get_client_descriptors_for_user(user_profile_id):
if client.accepts_event(event):
client.add_event(dict(event))
def process_userdata_event(event_template, users):
# type: (Mapping[str, Any], Iterable[Mapping[str, Any]]) -> None
for user_data in users:
user_profile_id = user_data['id']
user_event = dict(event_template) # shallow copy, but deep enough for our needs
for key in user_data.keys():
if key != "id":
user_event[key] = user_data[key]
for client in get_client_descriptors_for_user(user_profile_id):
if client.accepts_event(user_event):
client.add_event(user_event)
def process_message_update_event(event_template, users):
# type: (Mapping[str, Any], Iterable[Mapping[str, Any]]) -> None
prior_mention_user_ids = set(event_template.get('prior_mention_user_ids', []))
mention_user_ids = set(event_template.get('mention_user_ids', []))
presence_idle_user_ids = set(event_template.get('presence_idle_userids', []))
stream_push_user_ids = set(event_template.get('stream_push_user_ids', []))
push_notify_user_ids = set(event_template.get('push_notify_user_ids', []))
stream_name = event_template.get('stream_name')
message_id = event_template['message_id']
for user_data in users:
user_profile_id = user_data['id']
user_event = dict(event_template) # shallow copy, but deep enough for our needs
for key in user_data.keys():
if key != "id":
user_event[key] = user_data[key]
maybe_enqueue_notifications_for_message_update(
user_profile_id=user_profile_id,
message_id=message_id,
stream_name=stream_name,
prior_mention_user_ids=prior_mention_user_ids,
mention_user_ids=mention_user_ids,
presence_idle_user_ids=presence_idle_user_ids,
stream_push_user_ids=stream_push_user_ids,
push_notify_user_ids=push_notify_user_ids,
)
for client in get_client_descriptors_for_user(user_profile_id):
if client.accepts_event(user_event):
client.add_event(user_event)
def maybe_enqueue_notifications_for_message_update(user_profile_id,
message_id,
stream_name,
prior_mention_user_ids,
mention_user_ids,
presence_idle_user_ids,
stream_push_user_ids,
push_notify_user_ids):
# type: (UserProfile, int, Text, Set[int], Set[int], Set[int], Set[int], Set[int]) -> None
private_message = (stream_name is None)
if private_message:
# We don't do offline notifications for PMs, because
# we already notified the user of the original message
return
if (user_profile_id in prior_mention_user_ids):
# Don't spam people with duplicate mentions. This is
# especially important considering that most message
# edits are simple typo corrections.
return
stream_push_notify = (user_profile_id in stream_push_user_ids)
if stream_push_notify:
# Currently we assume that if this flag is set to True, then
# the user already was notified about the earlier message,
# so we short circuit. We may handle this more rigorously
# in the future by looking at something like an AlreadyNotified
# model.
return
# We can have newly mentioned people in an updated message.
mentioned = (user_profile_id in mention_user_ids)
always_push_notify = user_profile_id in push_notify_user_ids
idle = (user_profile_id in presence_idle_user_ids) or \
receiver_is_off_zulip(user_profile_id)
maybe_enqueue_notifications(
user_profile_id=user_profile_id,
message_id=message_id,
private_message=private_message,
mentioned=mentioned,
stream_push_notify=stream_push_notify,
stream_name=stream_name,
always_push_notify=always_push_notify,
idle=idle,
)
def process_notification(notice):
# type: (Mapping[str, Any]) -> None
event = notice['event'] # type: Mapping[str, Any]
users = notice['users'] # type: Union[Iterable[int], Iterable[Mapping[str, Any]]]
if event['type'] == "message":
process_message_event(event, cast(Iterable[Mapping[str, Any]], users))
elif event['type'] == "update_message":
process_message_update_event(event, cast(Iterable[Mapping[str, Any]], users))
elif event['type'] == "delete_message":
process_userdata_event(event, cast(Iterable[Mapping[str, Any]], users))
else:
process_event(event, cast(Iterable[int], users))
# Runs in the Django process to send a notification to Tornado.
#
# We use JSON rather than bare form parameters, so that we can represent
# different types and for compatibility with non-HTTP transports.
def send_notification_http(data):
# type: (Mapping[str, Any]) -> None
if settings.TORNADO_SERVER and not settings.RUNNING_INSIDE_TORNADO:
requests_client.post(settings.TORNADO_SERVER + '/notify_tornado', data=dict(
data = ujson.dumps(data),
secret = settings.SHARED_SECRET))
else:
process_notification(data)
def send_notification(data):
# type: (Mapping[str, Any]) -> None
queue_json_publish("notify_tornado", data, send_notification_http)
def send_event(event, users):
# type: (Mapping[str, Any], Union[Iterable[int], Iterable[Mapping[str, Any]]]) -> None
"""`users` is a list of user IDs, or in the case of `message` type
events, a list of dicts describing the users and metadata about
the user/message pair."""
queue_json_publish("notify_tornado",
dict(event=event, users=users),
send_notification_http)