zulip/zerver/lib/push_notifications.py

1503 lines
57 KiB
Python

# See https://zulip.readthedocs.io/en/latest/subsystems/notifications.html
import asyncio
import base64
import copy
import logging
import re
from dataclasses import dataclass
from email.headerregistry import Address
from functools import lru_cache
from typing import (
TYPE_CHECKING,
Any,
Dict,
Iterable,
List,
Mapping,
Optional,
Sequence,
Tuple,
Type,
Union,
)
import gcm
import lxml.html
import orjson
from django.conf import settings
from django.db import IntegrityError, transaction
from django.db.models import F, Q
from django.utils.timezone import now as timezone_now
from django.utils.translation import gettext as _
from django.utils.translation import override as override_language
from typing_extensions import TypeAlias, override
from analytics.lib.counts import COUNT_STATS, do_increment_logging_stat
from zerver.actions.realm_settings import (
do_set_push_notifications_enabled_end_timestamp,
do_set_realm_property,
)
from zerver.lib.avatar import absolute_avatar_url, get_avatar_for_inaccessible_user
from zerver.lib.display_recipient import get_display_recipient
from zerver.lib.emoji_utils import hex_codepoint_to_emoji
from zerver.lib.exceptions import ErrorCode, JsonableError
from zerver.lib.message import access_message, huddle_users
from zerver.lib.outgoing_http import OutgoingSession
from zerver.lib.remote_server import (
send_json_to_push_bouncer,
send_server_data_to_push_bouncer,
send_to_push_bouncer,
)
from zerver.lib.soft_deactivation import soft_reactivate_if_personal_notification
from zerver.lib.tex import change_katex_to_raw_latex
from zerver.lib.timestamp import datetime_to_timestamp
from zerver.lib.users import check_can_access_user
from zerver.models import (
AbstractPushDeviceToken,
ArchivedMessage,
Message,
NotificationTriggers,
PushDeviceToken,
Realm,
Recipient,
Stream,
UserGroup,
UserMessage,
UserProfile,
)
from zerver.models.realms import get_fake_email_domain
from zerver.models.users import get_user_profile_by_id
if TYPE_CHECKING:
import aioapns
logger = logging.getLogger(__name__)
if settings.ZILENCER_ENABLED:
from zilencer.models import RemotePushDeviceToken, RemoteZulipServer
DeviceToken: TypeAlias = Union[PushDeviceToken, "RemotePushDeviceToken"]
# We store the token as b64, but apns-client wants hex strings
def b64_to_hex(data: str) -> str:
return base64.b64decode(data).hex()
def hex_to_b64(data: str) -> str:
return base64.b64encode(bytes.fromhex(data)).decode()
def get_message_stream_name_from_database(message: Message) -> str:
"""
Never use this function outside of the push-notifications
codepath. Most of our code knows how to get streams
up front in a more efficient manner.
"""
stream_id = message.recipient.type_id
return Stream.objects.get(id=stream_id).name
class UserPushIdentityCompat:
"""Compatibility class for supporting the transition from remote servers
sending their UserProfile ids to the bouncer to sending UserProfile uuids instead.
Until we can drop support for receiving user_id, we need this
class, because a user's identity in the push notification context
may be represented either by an id or uuid.
"""
def __init__(self, user_id: Optional[int] = None, user_uuid: Optional[str] = None) -> None:
assert user_id is not None or user_uuid is not None
self.user_id = user_id
self.user_uuid = user_uuid
def filter_q(self) -> Q:
"""
This aims to support correctly querying for RemotePushDeviceToken.
If only one of (user_id, user_uuid) is provided, the situation is trivial,
If both are provided, we want to query for tokens matching EITHER the
uuid or the id - because the user may have devices with old registrations,
so user_id-based, as well as new registration with uuid. Notifications
naturally should be sent to both.
"""
if self.user_id is not None and self.user_uuid is None:
return Q(user_id=self.user_id)
elif self.user_uuid is not None and self.user_id is None:
return Q(user_uuid=self.user_uuid)
else:
assert self.user_id is not None and self.user_uuid is not None
return Q(user_uuid=self.user_uuid) | Q(user_id=self.user_id)
@override
def __str__(self) -> str:
result = ""
if self.user_id is not None:
result += f"<id:{self.user_id}>"
if self.user_uuid is not None:
result += f"<uuid:{self.user_uuid}>"
return result
@override
def __eq__(self, other: object) -> bool:
if isinstance(other, UserPushIdentityCompat):
return self.user_id == other.user_id and self.user_uuid == other.user_uuid
return False
#
# Sending to APNs, for iOS
#
@dataclass
class APNsContext:
apns: "aioapns.APNs"
loop: asyncio.AbstractEventLoop
def has_apns_credentials() -> bool:
return settings.APNS_TOKEN_KEY_FILE is not None or settings.APNS_CERT_FILE is not None
@lru_cache(maxsize=None)
def get_apns_context() -> Optional[APNsContext]:
# We lazily do this import as part of optimizing Zulip's base
# import time.
import aioapns
if not has_apns_credentials(): # nocoverage
return None
# NB if called concurrently, this will make excess connections.
# That's a little sloppy, but harmless unless a server gets
# hammered with a ton of these all at once after startup.
loop = asyncio.new_event_loop()
# Defining a no-op error-handling function overrides the default
# behaviour of logging at ERROR level whenever delivery fails; we
# handle those errors by checking the result in
# send_apple_push_notification.
async def err_func(
request: aioapns.NotificationRequest, result: aioapns.common.NotificationResult
) -> None:
pass # nocoverage
async def make_apns() -> aioapns.APNs:
return aioapns.APNs(
client_cert=settings.APNS_CERT_FILE,
key=settings.APNS_TOKEN_KEY_FILE,
key_id=settings.APNS_TOKEN_KEY_ID,
team_id=settings.APNS_TEAM_ID,
max_connection_attempts=APNS_MAX_RETRIES,
use_sandbox=settings.APNS_SANDBOX,
err_func=err_func,
# The actual APNs topic will vary between notifications,
# so we set it there, overriding any value we put here.
# We can't just leave this out, though, because then
# the constructor attempts to guess.
topic="invalid.nonsense",
)
apns = loop.run_until_complete(make_apns())
return APNsContext(apns=apns, loop=loop)
def modernize_apns_payload(data: Mapping[str, Any]) -> Mapping[str, Any]:
"""Take a payload in an unknown Zulip version's format, and return in current format."""
# TODO this isn't super robust as is -- if a buggy remote server
# sends a malformed payload, we are likely to raise an exception.
if "message_ids" in data:
# The format sent by 1.6.0, from the earliest pre-1.6.0
# version with bouncer support up until 613d093d7 pre-1.7.0:
# 'alert': str, # just sender, and text about direct message/mention
# 'message_ids': List[int], # always just one
return {
"alert": data["alert"],
"badge": 0,
"custom": {
"zulip": {
"message_ids": data["message_ids"],
},
},
}
else:
# Something already compatible with the current format.
# `alert` may be a string, or a dict with `title` and `body`.
# In 1.7.0 and 1.7.1, before 0912b5ba8 pre-1.8.0, the only
# item in `custom.zulip` is `message_ids`.
return data
APNS_MAX_RETRIES = 3
def send_apple_push_notification(
user_identity: UserPushIdentityCompat,
devices: Sequence[DeviceToken],
payload_data: Mapping[str, Any],
remote: Optional["RemoteZulipServer"] = None,
) -> int:
if not devices:
return 0
# We lazily do the APNS imports as part of optimizing Zulip's base
# import time; since these are only needed in the push
# notification queue worker, it's best to only import them in the
# code that needs them.
import aioapns
import aioapns.exceptions
apns_context = get_apns_context()
if apns_context is None:
logger.debug(
"APNs: Dropping a notification because nothing configured. "
"Set PUSH_NOTIFICATION_BOUNCER_URL (or APNS_CERT_FILE)."
)
return 0
if remote:
assert settings.ZILENCER_ENABLED
DeviceTokenClass: Type[AbstractPushDeviceToken] = RemotePushDeviceToken
else:
DeviceTokenClass = PushDeviceToken
if remote:
logger.info(
"APNs: Sending notification for remote user %s:%s to %d devices",
remote.uuid,
user_identity,
len(devices),
)
else:
logger.info(
"APNs: Sending notification for local user %s to %d devices",
user_identity,
len(devices),
)
payload_data = dict(modernize_apns_payload(payload_data))
message = {**payload_data.pop("custom", {}), "aps": payload_data}
have_missing_app_id = False
for device in devices:
if device.ios_app_id is None:
# This should be present for all APNs tokens, as an invariant maintained
# by the views that add the token to our database.
logger.error(
"APNs: Missing ios_app_id for user %s device %s", user_identity, device.token
)
have_missing_app_id = True
if have_missing_app_id:
devices = [device for device in devices if device.ios_app_id is not None]
async def send_all_notifications() -> Iterable[
Tuple[DeviceToken, Union[aioapns.common.NotificationResult, BaseException]]
]:
requests = [
aioapns.NotificationRequest(
apns_topic=device.ios_app_id,
device_token=device.token,
message=message,
time_to_live=24 * 3600,
)
for device in devices
]
results = await asyncio.gather(
*(apns_context.apns.send_notification(request) for request in requests),
return_exceptions=True,
)
return zip(devices, results)
results = apns_context.loop.run_until_complete(send_all_notifications())
successfully_sent_count = 0
for device, result in results:
if isinstance(result, aioapns.exceptions.ConnectionError):
logger.error(
"APNs: ConnectionError sending for user %s to device %s; check certificate expiration",
user_identity,
device.token,
)
elif isinstance(result, BaseException):
logger.error(
"APNs: Error sending for user %s to device %s",
user_identity,
device.token,
exc_info=result,
)
elif result.is_successful:
successfully_sent_count += 1
logger.info(
"APNs: Success sending for user %s to device %s", user_identity, device.token
)
elif result.description in ["Unregistered", "BadDeviceToken", "DeviceTokenNotForTopic"]:
logger.info(
"APNs: Removing invalid/expired token %s (%s)", device.token, result.description
)
# We remove all entries for this token (There
# could be multiple for different Zulip servers).
DeviceTokenClass._default_manager.filter(
token=device.token, kind=DeviceTokenClass.APNS
).delete()
else:
logger.warning(
"APNs: Failed to send for user %s to device %s: %s",
user_identity,
device.token,
result.description,
)
return successfully_sent_count
#
# Sending to GCM, for Android
#
class FCMSession(OutgoingSession):
def __init__(self) -> None:
# We don't set up retries, since the gcm package does that for us.
super().__init__(role="fcm", timeout=5)
def make_gcm_client() -> gcm.GCM: # nocoverage
# From GCM upstream's doc for migrating to FCM:
#
# FCM supports HTTP and XMPP protocols that are virtually
# identical to the GCM server protocols, so you don't need to
# update your sending logic for the migration.
#
# https://developers.google.com/cloud-messaging/android/android-migrate-fcm
#
# The one thing we're required to change on the server is the URL of
# the endpoint. So we get to keep using the GCM client library we've
# been using (as long as we're happy with it) -- just monkey-patch in
# that one change, because the library's API doesn't anticipate that
# as a customization point.
gcm.gcm.GCM_URL = "https://fcm.googleapis.com/fcm/send"
return gcm.GCM(settings.ANDROID_GCM_API_KEY)
if settings.ANDROID_GCM_API_KEY: # nocoverage
gcm_client = make_gcm_client()
else:
gcm_client = None
def has_gcm_credentials() -> bool: # nocoverage
return gcm_client is not None
# This is purely used in testing
def send_android_push_notification_to_user(
user_profile: UserProfile, data: Dict[str, Any], options: Dict[str, Any]
) -> None:
devices = list(PushDeviceToken.objects.filter(user=user_profile, kind=PushDeviceToken.GCM))
send_android_push_notification(
UserPushIdentityCompat(user_id=user_profile.id), devices, data, options
)
def parse_gcm_options(options: Dict[str, Any], data: Dict[str, Any]) -> str:
"""
Parse GCM options, supplying defaults, and raising an error if invalid.
The options permitted here form part of the Zulip notification
bouncer's API. They are:
`priority`: Passed through to GCM; see upstream doc linked below.
Zulip servers should always set this; when unset, we guess a value
based on the behavior of old server versions.
Including unrecognized options is an error.
For details on options' semantics, see this GCM upstream doc:
https://firebase.google.com/docs/cloud-messaging/http-server-ref
Returns `priority`.
"""
priority = options.pop("priority", None)
if priority is None:
# An older server. Identify if this seems to be an actual notification.
if data.get("event") == "message":
priority = "high"
else: # `'event': 'remove'`, presumably
priority = "normal"
if priority not in ("normal", "high"):
raise JsonableError(
_(
"Invalid GCM option to bouncer: priority {priority!r}",
).format(priority=priority)
)
if options:
# We're strict about the API; there is no use case for a newer Zulip
# server talking to an older bouncer, so we only need to provide
# one-way compatibility.
raise JsonableError(
_(
"Invalid GCM options to bouncer: {options}",
).format(options=orjson.dumps(options).decode())
)
return priority # when this grows a second option, can make it a tuple
def send_android_push_notification(
user_identity: UserPushIdentityCompat,
devices: Sequence[DeviceToken],
data: Dict[str, Any],
options: Dict[str, Any],
remote: Optional["RemoteZulipServer"] = None,
) -> int:
"""
Send a GCM message to the given devices.
See https://firebase.google.com/docs/cloud-messaging/http-server-ref
for the GCM upstream API which this talks to.
data: The JSON object (decoded) to send as the 'data' parameter of
the GCM message.
options: Additional options to control the GCM message sent.
For details, see `parse_gcm_options`.
"""
if not devices:
return 0
if not gcm_client:
logger.debug(
"Skipping sending a GCM push notification since "
"PUSH_NOTIFICATION_BOUNCER_URL and ANDROID_GCM_API_KEY are both unset"
)
return 0
if remote:
logger.info(
"GCM: Sending notification for remote user %s:%s to %d devices",
remote.uuid,
user_identity,
len(devices),
)
else:
logger.info(
"GCM: Sending notification for local user %s to %d devices", user_identity, len(devices)
)
reg_ids = [device.token for device in devices]
priority = parse_gcm_options(options, data)
try:
# See https://firebase.google.com/docs/cloud-messaging/http-server-ref .
# Two kwargs `retries` and `session` get eaten by `json_request`;
# the rest pass through to the GCM server.
#
# One initial request plus 2 retries, with 5-second timeouts,
# and expected 1 + 2 seconds (the gcm module jitters its
# backoff by ±50%, so worst case * 1.5) between them, totals
# 18s expected, up to 19.5s worst case.
res = gcm_client.json_request(
registration_ids=reg_ids,
priority=priority,
data=data,
retries=2,
session=FCMSession(),
)
except OSError:
logger.warning("Error while pushing to GCM", exc_info=True)
return 0
successfully_sent_count = 0
if res and "success" in res:
for reg_id, msg_id in res["success"].items():
logger.info("GCM: Sent %s as %s", reg_id, msg_id)
successfully_sent_count = len(res["success"].keys())
if remote:
assert settings.ZILENCER_ENABLED
DeviceTokenClass: Type[AbstractPushDeviceToken] = RemotePushDeviceToken
else:
DeviceTokenClass = PushDeviceToken
# res.canonical will contain results when there are duplicate registrations for the same
# device. The "canonical" registration is the latest registration made by the device.
# Ref: https://developer.android.com/google/gcm/adv.html#canonical
if "canonical" in res:
for reg_id, new_reg_id in res["canonical"].items():
if reg_id == new_reg_id:
# I'm not sure if this should happen. In any case, not really actionable.
logger.warning("GCM: Got canonical ref but it already matches our ID %s!", reg_id)
elif not DeviceTokenClass._default_manager.filter(
token=new_reg_id, kind=DeviceTokenClass.GCM
).exists():
# This case shouldn't happen; any time we get a canonical ref it should have been
# previously registered in our system.
#
# That said, recovery is easy: just update the current PDT object to use the new ID.
logger.warning(
"GCM: Got canonical ref %s replacing %s but new ID not registered! Updating.",
new_reg_id,
reg_id,
)
DeviceTokenClass._default_manager.filter(
token=reg_id, kind=DeviceTokenClass.GCM
).update(token=new_reg_id)
else:
# Since we know the new ID is registered in our system we can just drop the old one.
logger.info("GCM: Got canonical ref %s, dropping %s", new_reg_id, reg_id)
DeviceTokenClass._default_manager.filter(
token=reg_id, kind=DeviceTokenClass.GCM
).delete()
if "errors" in res:
for error, reg_ids in res["errors"].items():
if error in ["NotRegistered", "InvalidRegistration"]:
for reg_id in reg_ids:
logger.info("GCM: Removing %s", reg_id)
# We remove all entries for this token (There
# could be multiple for different Zulip servers).
DeviceTokenClass._default_manager.filter(
token=reg_id, kind=DeviceTokenClass.GCM
).delete()
else:
for reg_id in reg_ids:
logger.warning("GCM: Delivery to %s failed: %s", reg_id, error)
return successfully_sent_count
# python-gcm handles retrying of the unsent messages.
# Ref: https://github.com/geeknam/python-gcm/blob/master/gcm/gcm.py#L497
#
# Sending to a bouncer
#
def uses_notification_bouncer() -> bool:
return settings.PUSH_NOTIFICATION_BOUNCER_URL is not None
def sends_notifications_directly() -> bool:
return has_apns_credentials() and has_gcm_credentials() and not uses_notification_bouncer()
def send_notifications_to_bouncer(
user_profile: UserProfile,
apns_payload: Dict[str, Any],
gcm_payload: Dict[str, Any],
gcm_options: Dict[str, Any],
android_devices: Sequence[DeviceToken],
apple_devices: Sequence[DeviceToken],
) -> None:
if len(android_devices) + len(apple_devices) == 0:
logger.info(
"Skipping contacting the bouncer for user %s because there are no registered devices",
user_profile.id,
)
return
post_data = {
"user_uuid": str(user_profile.uuid),
# user_uuid is the intended future format, but we also need to send user_id
# to avoid breaking old mobile registrations, which were made with user_id.
"user_id": user_profile.id,
"realm_uuid": str(user_profile.realm.uuid),
"apns_payload": apns_payload,
"gcm_payload": gcm_payload,
"gcm_options": gcm_options,
"android_devices": [device.token for device in android_devices],
"apple_devices": [device.token for device in apple_devices],
}
# Calls zilencer.views.remote_server_notify_push
response_data = send_json_to_push_bouncer("POST", "push/notify", post_data)
assert isinstance(response_data["total_android_devices"], int)
assert isinstance(response_data["total_apple_devices"], int)
assert isinstance(response_data["deleted_devices"], dict)
assert isinstance(response_data["deleted_devices"]["android_devices"], list)
assert isinstance(response_data["deleted_devices"]["apple_devices"], list)
android_deleted_devices = response_data["deleted_devices"]["android_devices"]
apple_deleted_devices = response_data["deleted_devices"]["apple_devices"]
if android_deleted_devices or apple_deleted_devices:
logger.info(
"Deleting push tokens based on response from bouncer: Android: %s, Apple: %s",
sorted(android_deleted_devices),
sorted(apple_deleted_devices),
)
PushDeviceToken.objects.filter(
kind=PushDeviceToken.GCM, token__in=android_deleted_devices
).delete()
PushDeviceToken.objects.filter(
kind=PushDeviceToken.APNS, token__in=apple_deleted_devices
).delete()
total_android_devices, total_apple_devices = (
response_data["total_android_devices"],
response_data["total_apple_devices"],
)
do_increment_logging_stat(
user_profile.realm,
COUNT_STATS["mobile_pushes_sent::day"],
None,
timezone_now(),
increment=total_android_devices + total_apple_devices,
)
remote_realm_dict = response_data.get("realm")
if remote_realm_dict is not None:
# The server may have updated our understanding of whether
# push notifications will work.
assert isinstance(remote_realm_dict, dict)
do_set_realm_property(
user_profile.realm,
"push_notifications_enabled",
remote_realm_dict["can_push"],
acting_user=None,
)
do_set_push_notifications_enabled_end_timestamp(
user_profile.realm, remote_realm_dict["expected_end_timestamp"], acting_user=None
)
logger.info(
"Sent mobile push notifications for user %s through bouncer: %s via FCM devices, %s via APNs devices",
user_profile.id,
total_android_devices,
total_apple_devices,
)
#
# Managing device tokens
#
def add_push_device_token(
user_profile: UserProfile, token_str: str, kind: int, ios_app_id: Optional[str] = None
) -> PushDeviceToken:
logger.info(
"Registering push device: %d %r %d %r", user_profile.id, token_str, kind, ios_app_id
)
# Regardless of whether we're using the push notifications
# bouncer, we want to store a PushDeviceToken record locally.
# These can be used to discern whether the user has any mobile
# devices configured, and is also where we will store encryption
# keys for mobile push notifications.
try:
with transaction.atomic():
token = PushDeviceToken.objects.create(
user_id=user_profile.id,
kind=kind,
token=token_str,
ios_app_id=ios_app_id,
# last_updated is to be renamed to date_created.
last_updated=timezone_now(),
)
except IntegrityError:
token = PushDeviceToken.objects.get(
user_id=user_profile.id,
kind=kind,
token=token_str,
)
# If we're sending things to the push notification bouncer
# register this user with them here
if uses_notification_bouncer():
post_data = {
"server_uuid": settings.ZULIP_ORG_ID,
"user_uuid": str(user_profile.uuid),
"realm_uuid": str(user_profile.realm.uuid),
# user_id is sent so that the bouncer can delete any pre-existing registrations
# for this user+device to avoid duplication upon adding the uuid registration.
"user_id": str(user_profile.id),
"token": token_str,
"token_kind": kind,
}
if kind == PushDeviceToken.APNS:
post_data["ios_app_id"] = ios_app_id
logger.info("Sending new push device to bouncer: %r", post_data)
# Calls zilencer.views.register_remote_push_device
send_to_push_bouncer("POST", "push/register", post_data)
return token
def remove_push_device_token(user_profile: UserProfile, token_str: str, kind: int) -> None:
try:
token = PushDeviceToken.objects.get(token=token_str, kind=kind, user=user_profile)
token.delete()
except PushDeviceToken.DoesNotExist:
# If we are using bouncer, don't raise the exception. It will
# be raised by the code below eventually. This is important
# during the transition period after upgrading to a version
# that stores local PushDeviceToken objects even when using
# the push notifications bouncer.
if not uses_notification_bouncer():
raise JsonableError(_("Token does not exist"))
# If we're sending things to the push notification bouncer
# unregister this user with them here
if uses_notification_bouncer():
# TODO: Make this a remove item
post_data = {
"server_uuid": settings.ZULIP_ORG_ID,
# We don't know here if the token was registered with uuid
# or using the legacy id format, so we need to send both.
"user_uuid": str(user_profile.uuid),
"user_id": user_profile.id,
"token": token_str,
"token_kind": kind,
}
# Calls zilencer.views.unregister_remote_push_device
send_to_push_bouncer("POST", "push/unregister", post_data)
def clear_push_device_tokens(user_profile_id: int) -> None:
# Deletes all of a user's PushDeviceTokens.
if uses_notification_bouncer():
user_uuid = str(get_user_profile_by_id(user_profile_id).uuid)
post_data = {
"server_uuid": settings.ZULIP_ORG_ID,
# We want to clear all registered token, and they may have
# been registered with either uuid or id.
"user_uuid": user_uuid,
"user_id": user_profile_id,
}
send_to_push_bouncer("POST", "push/unregister/all", post_data)
return
PushDeviceToken.objects.filter(user_id=user_profile_id).delete()
#
# Push notifications in general
#
def push_notifications_configured() -> bool:
"""True just if this server has configured a way to send push notifications."""
if (
uses_notification_bouncer()
and settings.ZULIP_ORG_KEY is not None
and settings.ZULIP_ORG_ID is not None
): # nocoverage
# We have the needed configuration to send push notifications through
# the bouncer. Better yet would be to confirm that this config actually
# works -- e.g., that we have ever successfully sent to the bouncer --
# but this is a good start.
return True
if settings.DEVELOPMENT and (has_apns_credentials() or has_gcm_credentials()): # nocoverage
# Since much of the notifications logic is platform-specific, the mobile
# developers often work on just one platform at a time, so we should
# only require one to be configured.
return True
elif has_apns_credentials() and has_gcm_credentials(): # nocoverage
# We have the needed configuration to send through APNs and GCM directly
# (i.e., we are the bouncer, presumably.) Again, assume it actually works.
return True
return False
def initialize_push_notifications() -> None:
"""Called during startup of the push notifications worker to check
whether we expect mobile push notifications to work on this server
and update state accordingly.
"""
if sends_notifications_directly():
# This server sends push notifications directly. Make sure we
# are set to report to clients that push notifications are
# enabled.
for realm in Realm.objects.filter(push_notifications_enabled=False):
do_set_realm_property(realm, "push_notifications_enabled", True, acting_user=None)
do_set_push_notifications_enabled_end_timestamp(realm, None, acting_user=None)
return
if not push_notifications_configured():
for realm in Realm.objects.filter(push_notifications_enabled=True):
do_set_realm_property(realm, "push_notifications_enabled", False, acting_user=None)
do_set_push_notifications_enabled_end_timestamp(realm, None, acting_user=None)
if settings.DEVELOPMENT and not settings.TEST_SUITE:
# Avoid unnecessary spam on development environment startup
return # nocoverage
logger.warning(
"Mobile push notifications are not configured.\n "
"See https://zulip.readthedocs.io/en/latest/"
"production/mobile-push-notifications.html"
)
return
if uses_notification_bouncer():
# If we're using the notification bouncer, check if we can
# actually send push notifications, and update our
# understanding of that state for each realm accordingly.
send_server_data_to_push_bouncer(consider_usage_statistics=False)
return
logger.warning( # nocoverage
"Mobile push notifications are not fully configured.\n "
"See https://zulip.readthedocs.io/en/latest/production/mobile-push-notifications.html"
)
for realm in Realm.objects.filter(push_notifications_enabled=True): # nocoverage
do_set_realm_property(realm, "push_notifications_enabled", False, acting_user=None)
do_set_push_notifications_enabled_end_timestamp(realm, None, acting_user=None)
def get_mobile_push_content(rendered_content: str) -> str:
def get_text(elem: lxml.html.HtmlElement) -> str:
# Convert default emojis to their Unicode equivalent.
classes = elem.get("class", "")
if "emoji" in classes:
match = re.search(r"emoji-(?P<emoji_code>\S+)", classes)
if match:
emoji_code = match.group("emoji_code")
return hex_codepoint_to_emoji(emoji_code)
# Handles realm emojis, avatars etc.
if elem.tag == "img":
return elem.get("alt", "")
if elem.tag == "blockquote":
return "" # To avoid empty line before quote text
return elem.text or ""
def format_as_quote(quote_text: str) -> str:
return "".join(
f"> {line}\n" for line in quote_text.splitlines() if line # Remove empty lines
)
def render_olist(ol: lxml.html.HtmlElement) -> str:
items = []
counter = int(ol.get("start")) if ol.get("start") else 1
nested_levels = sum(1 for ancestor in ol.iterancestors("ol"))
indent = ("\n" + " " * nested_levels) if nested_levels else ""
for li in ol:
items.append(indent + str(counter) + ". " + process(li).strip())
counter += 1
return "\n".join(items)
def render_spoiler(elem: lxml.html.HtmlElement) -> str:
header = elem.find_class("spoiler-header")[0]
text = process(header).strip()
if len(text) == 0:
return "(…)\n"
return f"{text} (…)\n"
def process(elem: lxml.html.HtmlElement) -> str:
plain_text = ""
if elem.tag == "ol":
plain_text = render_olist(elem)
elif "spoiler-block" in elem.get("class", ""):
plain_text += render_spoiler(elem)
else:
plain_text = get_text(elem)
sub_text = ""
for child in elem:
sub_text += process(child)
if elem.tag == "blockquote":
sub_text = format_as_quote(sub_text)
plain_text += sub_text
plain_text += elem.tail or ""
return plain_text
if settings.PUSH_NOTIFICATION_REDACT_CONTENT:
return (
"*"
+ _(
"This organization has disabled including message content in mobile push notifications"
)
+ "*"
)
elem = lxml.html.fragment_fromstring(rendered_content, create_parent=True)
change_katex_to_raw_latex(elem)
plain_text = process(elem)
return plain_text
def truncate_content(content: str) -> Tuple[str, bool]:
# We use Unicode character 'HORIZONTAL ELLIPSIS' (U+2026) instead
# of three dots as this saves two extra characters for textual
# content. This function will need to be updated to handle Unicode
# combining characters and tags when we start supporting themself.
if len(content) <= 200:
return content, False
return content[:200] + "", True
def get_base_payload(user_profile: UserProfile) -> Dict[str, Any]:
"""Common fields for all notification payloads."""
data: Dict[str, Any] = {}
# These will let the app support logging into multiple realms and servers.
data["server"] = settings.EXTERNAL_HOST
data["realm_id"] = user_profile.realm.id
data["realm_uri"] = user_profile.realm.uri
data["realm_name"] = user_profile.realm.name
data["user_id"] = user_profile.id
return data
def get_message_payload(
user_profile: UserProfile,
message: Message,
mentioned_user_group_id: Optional[int] = None,
mentioned_user_group_name: Optional[str] = None,
can_access_sender: bool = True,
) -> Dict[str, Any]:
"""Common fields for `message` payloads, for all platforms."""
data = get_base_payload(user_profile)
# `sender_id` is preferred, but some existing versions use `sender_email`.
data["sender_id"] = message.sender.id
if not can_access_sender:
# A guest user can only receive a stream message from an
# inaccessible user as we allow unsubscribed users to send
# messages to streams. For direct messages, the guest gains
# access to the user if they where previously inaccessible.
data["sender_email"] = Address(
username=f"user{message.sender.id}", domain=get_fake_email_domain(message.realm.host)
).addr_spec
else:
data["sender_email"] = message.sender.email
data["time"] = datetime_to_timestamp(message.date_sent)
if mentioned_user_group_id is not None:
assert mentioned_user_group_name is not None
data["mentioned_user_group_id"] = mentioned_user_group_id
data["mentioned_user_group_name"] = mentioned_user_group_name
if message.recipient.type == Recipient.STREAM:
data["recipient_type"] = "stream"
data["stream"] = get_message_stream_name_from_database(message)
data["stream_id"] = message.recipient.type_id
data["topic"] = message.topic_name()
elif message.recipient.type == Recipient.HUDDLE:
data["recipient_type"] = "private"
data["pm_users"] = huddle_users(message.recipient.id)
else: # Recipient.PERSONAL
data["recipient_type"] = "private"
return data
def get_apns_alert_title(message: Message) -> str:
"""
On an iOS notification, this is the first bolded line.
"""
if message.recipient.type == Recipient.HUDDLE:
recipients = get_display_recipient(message.recipient)
assert isinstance(recipients, list)
return ", ".join(sorted(r["full_name"] for r in recipients))
elif message.is_stream_message():
stream_name = get_message_stream_name_from_database(message)
return f"#{stream_name} > {message.topic_name()}"
# For 1:1 direct messages, we just show the sender name.
return message.sender.full_name
def get_apns_alert_subtitle(
message: Message,
trigger: str,
user_profile: UserProfile,
mentioned_user_group_name: Optional[str] = None,
can_access_sender: bool = True,
) -> str:
"""
On an iOS notification, this is the second bolded line.
"""
sender_name = message.sender.full_name
if not can_access_sender:
# A guest user can only receive a stream message from an
# inaccessible user as we allow unsubscribed users to send
# messages to streams. For direct messages, the guest gains
# access to the user if they where previously inaccessible.
sender_name = str(UserProfile.INACCESSIBLE_USER_NAME)
if trigger == NotificationTriggers.MENTION:
if mentioned_user_group_name is not None:
return _("{full_name} mentioned @{user_group_name}:").format(
full_name=sender_name, user_group_name=mentioned_user_group_name
)
else:
return _("{full_name} mentioned you:").format(full_name=sender_name)
elif trigger in (
NotificationTriggers.TOPIC_WILDCARD_MENTION_IN_FOLLOWED_TOPIC,
NotificationTriggers.STREAM_WILDCARD_MENTION_IN_FOLLOWED_TOPIC,
NotificationTriggers.TOPIC_WILDCARD_MENTION,
NotificationTriggers.STREAM_WILDCARD_MENTION,
):
return _("{full_name} mentioned everyone:").format(full_name=sender_name)
elif message.recipient.type == Recipient.PERSONAL:
return ""
# For group direct messages, or regular messages to a stream,
# just use a colon to indicate this is the sender.
return sender_name + ":"
def get_apns_badge_count(
user_profile: UserProfile, read_messages_ids: Optional[Sequence[int]] = []
) -> int:
# NOTE: We have temporarily set get_apns_badge_count to always
# return 0 until we can debug a likely mobile app side issue with
# handling notifications while the app is open.
return 0
def get_apns_badge_count_future(
user_profile: UserProfile, read_messages_ids: Optional[Sequence[int]] = []
) -> int:
# Future implementation of get_apns_badge_count; unused but
# we expect to use this once we resolve client-side bugs.
return (
UserMessage.objects.filter(user_profile=user_profile)
.extra(where=[UserMessage.where_active_push_notification()])
.exclude(
# If we've just marked some messages as read, they're still
# marked as having active notifications; we'll clear that flag
# only after we've sent that update to the devices. So we need
# to exclude them explicitly from the count.
message_id__in=read_messages_ids
)
.count()
)
def get_message_payload_apns(
user_profile: UserProfile,
message: Message,
trigger: str,
mentioned_user_group_id: Optional[int] = None,
mentioned_user_group_name: Optional[str] = None,
can_access_sender: bool = True,
) -> Dict[str, Any]:
"""A `message` payload for iOS, via APNs."""
zulip_data = get_message_payload(
user_profile, message, mentioned_user_group_id, mentioned_user_group_name, can_access_sender
)
zulip_data.update(
message_ids=[message.id],
)
assert message.rendered_content is not None
with override_language(user_profile.default_language):
content, _ = truncate_content(get_mobile_push_content(message.rendered_content))
apns_data = {
"alert": {
"title": get_apns_alert_title(message),
"subtitle": get_apns_alert_subtitle(
message, trigger, user_profile, mentioned_user_group_name, can_access_sender
),
"body": content,
},
"sound": "default",
"badge": get_apns_badge_count(user_profile),
"custom": {"zulip": zulip_data},
}
return apns_data
def get_message_payload_gcm(
user_profile: UserProfile,
message: Message,
mentioned_user_group_id: Optional[int] = None,
mentioned_user_group_name: Optional[str] = None,
can_access_sender: bool = True,
) -> Tuple[Dict[str, Any], Dict[str, Any]]:
"""A `message` payload + options, for Android via GCM/FCM."""
data = get_message_payload(
user_profile, message, mentioned_user_group_id, mentioned_user_group_name, can_access_sender
)
if not can_access_sender:
# A guest user can only receive a stream message from an
# inaccessible user as we allow unsubscribed users to send
# messages to streams. For direct messages, the guest gains
# access to the user if they where previously inaccessible.
sender_avatar_url = get_avatar_for_inaccessible_user()
sender_name = str(UserProfile.INACCESSIBLE_USER_NAME)
else:
sender_avatar_url = absolute_avatar_url(message.sender)
sender_name = message.sender.full_name
assert message.rendered_content is not None
with override_language(user_profile.default_language):
content, truncated = truncate_content(get_mobile_push_content(message.rendered_content))
data.update(
event="message",
zulip_message_id=message.id, # message_id is reserved for CCS
content=content,
content_truncated=truncated,
sender_full_name=sender_name,
sender_avatar_url=sender_avatar_url,
)
gcm_options = {"priority": "high"}
return data, gcm_options
def get_remove_payload_gcm(
user_profile: UserProfile,
message_ids: List[int],
) -> Tuple[Dict[str, Any], Dict[str, Any]]:
"""A `remove` payload + options, for Android via GCM/FCM."""
gcm_payload = get_base_payload(user_profile)
gcm_payload.update(
event="remove",
zulip_message_ids=",".join(str(id) for id in message_ids),
# Older clients (all clients older than 2019-02-13) look only at
# `zulip_message_id` and ignore `zulip_message_ids`. Do our best.
zulip_message_id=message_ids[0],
)
gcm_options = {"priority": "normal"}
return gcm_payload, gcm_options
def get_remove_payload_apns(user_profile: UserProfile, message_ids: List[int]) -> Dict[str, Any]:
zulip_data = get_base_payload(user_profile)
zulip_data.update(
event="remove",
zulip_message_ids=",".join(str(id) for id in message_ids),
)
apns_data = {
"badge": get_apns_badge_count(user_profile, message_ids),
"custom": {"zulip": zulip_data},
}
return apns_data
def handle_remove_push_notification(user_profile_id: int, message_ids: List[int]) -> None:
"""This should be called when a message that previously had a
mobile push notification executed is read. This triggers a push to the
mobile app, when the message is read on the server, to remove the
message from the notification.
"""
if not push_notifications_configured():
return
user_profile = get_user_profile_by_id(user_profile_id)
# We may no longer have access to the message here; for example,
# the user (1) got a message, (2) read the message in the web UI,
# and then (3) it was deleted. When trying to send the push
# notification for (2), after (3) has happened, there is no
# message to fetch -- but we nonetheless want to remove the mobile
# notification. Because of this, verification of access to
# the messages is skipped here.
# Because of this, no access to the Message objects should be
# done; they are treated as a list of opaque ints.
# APNs has a 4KB limit on the maximum size of messages, which
# translated to several hundred message IDs in one of these
# notifications. In rare cases, it's possible for someone to mark
# thousands of push notification eligible messages as read at
# once. We could handle this situation with a loop, but we choose
# to truncate instead to avoid extra network traffic, because it's
# very likely the user has manually cleared the notifications in
# their mobile device's UI anyway.
#
# When truncating, we keep only the newest N messages in this
# remove event. This is optimal because older messages are the
# ones most likely to have already been manually cleared at some
# point in the past.
#
# We choose 200 here because a 10-digit message ID plus a comma and
# space consume 12 bytes, and 12 x 200 = 2400 bytes is still well
# below the 4KB limit (leaving plenty of space for metadata).
MAX_APNS_MESSAGE_IDS = 200
truncated_message_ids = sorted(message_ids)[-MAX_APNS_MESSAGE_IDS:]
gcm_payload, gcm_options = get_remove_payload_gcm(user_profile, truncated_message_ids)
apns_payload = get_remove_payload_apns(user_profile, truncated_message_ids)
android_devices = list(
PushDeviceToken.objects.filter(user=user_profile, kind=PushDeviceToken.GCM).order_by("id")
)
apple_devices = list(
PushDeviceToken.objects.filter(user=user_profile, kind=PushDeviceToken.APNS).order_by("id")
)
if uses_notification_bouncer():
send_notifications_to_bouncer(
user_profile, apns_payload, gcm_payload, gcm_options, android_devices, apple_devices
)
else:
user_identity = UserPushIdentityCompat(user_id=user_profile_id)
android_successfully_sent_count = send_android_push_notification(
user_identity, android_devices, gcm_payload, gcm_options
)
apple_successfully_sent_count = send_apple_push_notification(
user_identity, apple_devices, apns_payload
)
do_increment_logging_stat(
user_profile.realm,
COUNT_STATS["mobile_pushes_sent::day"],
None,
timezone_now(),
increment=android_successfully_sent_count + apple_successfully_sent_count,
)
# We intentionally use the non-truncated message_ids here. We are
# assuming in this very rare case that the user has manually
# dismissed these notifications on the device side, and the server
# should no longer track them as outstanding notifications.
with transaction.atomic(savepoint=False):
UserMessage.select_for_update_query().filter(
user_profile_id=user_profile_id,
message_id__in=message_ids,
).update(flags=F("flags").bitand(~UserMessage.flags.active_mobile_push_notification))
def handle_push_notification(user_profile_id: int, missed_message: Dict[str, Any]) -> None:
"""
missed_message is the event received by the
zerver.worker.queue_processors.PushNotificationWorker.consume function.
"""
if not push_notifications_configured():
return
user_profile = get_user_profile_by_id(user_profile_id)
if user_profile.is_bot: # nocoverage
# We don't expect to reach here for bot users. However, this code exists
# to find and throw away any pre-existing events in the queue while
# upgrading from versions before our notifiability logic was implemented.
# TODO/compatibility: This block can be removed when one can no longer
# upgrade from versions <= 4.0 to versions >= 5.0
logger.warning(
"Send-push-notification event found for bot user %s. Skipping.", user_profile_id
)
return
if not (
user_profile.enable_offline_push_notifications
or user_profile.enable_online_push_notifications
):
# BUG: Investigate why it's possible to get here.
return # nocoverage
with transaction.atomic(savepoint=False):
try:
(message, user_message) = access_message(
user_profile, missed_message["message_id"], lock_message=True
)
except JsonableError:
if ArchivedMessage.objects.filter(id=missed_message["message_id"]).exists():
# If the cause is a race with the message being deleted,
# that's normal and we have no need to log an error.
return
logging.info(
"Unexpected message access failure handling push notifications: %s %s",
user_profile.id,
missed_message["message_id"],
)
return
if user_message is not None:
# If the user has read the message already, don't push-notify.
if user_message.flags.read or user_message.flags.active_mobile_push_notification:
return
# Otherwise, we mark the message as having an active mobile
# push notification, so that we can send revocation messages
# later.
user_message.flags.active_mobile_push_notification = True
user_message.save(update_fields=["flags"])
else:
# Users should only be getting push notifications into this
# queue for messages they haven't received if they're
# long-term idle; anything else is likely a bug.
if not user_profile.long_term_idle:
logger.error(
"Could not find UserMessage with message_id %s and user_id %s",
missed_message["message_id"],
user_profile_id,
exc_info=True,
)
return
trigger = missed_message["trigger"]
# TODO/compatibility: Translation code for the rename of
# `wildcard_mentioned` to `stream_wildcard_mentioned`.
# Remove this when one can no longer directly upgrade from 7.x to main.
if trigger == "wildcard_mentioned":
trigger = NotificationTriggers.STREAM_WILDCARD_MENTION # nocoverage
# TODO/compatibility: Translation code for the rename of
# `followed_topic_wildcard_mentioned` to `stream_wildcard_mentioned_in_followed_topic`.
# Remove this when one can no longer directly upgrade from 7.x to main.
if trigger == "followed_topic_wildcard_mentioned":
trigger = NotificationTriggers.STREAM_WILDCARD_MENTION_IN_FOLLOWED_TOPIC # nocoverage
# TODO/compatibility: Translation code for the rename of
# `private_message` to `direct_message`. Remove this when
# one can no longer directly upgrade from 7.x to main.
if trigger == "private_message":
trigger = NotificationTriggers.DIRECT_MESSAGE # nocoverage
mentioned_user_group_name = None
# mentioned_user_group_id will be None if the user is personally mentioned
# regardless whether they are a member of the mentioned user group in the
# message or not.
mentioned_user_group_id = missed_message.get("mentioned_user_group_id")
if mentioned_user_group_id is not None:
user_group = UserGroup.objects.get(id=mentioned_user_group_id, realm=user_profile.realm)
mentioned_user_group_name = user_group.name
# Soft reactivate if pushing to a long_term_idle user that is personally mentioned
soft_reactivate_if_personal_notification(user_profile, {trigger}, mentioned_user_group_name)
if message.is_stream_message():
# This will almost always be True. The corner case where you
# can be receiving a message from a user you cannot access
# involves your being a guest user whose access is restricted
# by a can_access_all_users_group policy, and you can't access
# the sender because they are sending a message to a public
# stream that you are subscribed to but they are not.
can_access_sender = check_can_access_user(message.sender, user_profile)
else:
# For private messages, the recipient will gain access
# to the sender if they did not had access previously.
can_access_sender = True
apns_payload = get_message_payload_apns(
user_profile,
message,
trigger,
mentioned_user_group_id,
mentioned_user_group_name,
can_access_sender,
)
gcm_payload, gcm_options = get_message_payload_gcm(
user_profile, message, mentioned_user_group_id, mentioned_user_group_name, can_access_sender
)
logger.info("Sending push notifications to mobile clients for user %s", user_profile_id)
android_devices = list(
PushDeviceToken.objects.filter(user=user_profile, kind=PushDeviceToken.GCM).order_by("id")
)
apple_devices = list(
PushDeviceToken.objects.filter(user=user_profile, kind=PushDeviceToken.APNS).order_by("id")
)
if uses_notification_bouncer():
send_notifications_to_bouncer(
user_profile, apns_payload, gcm_payload, gcm_options, android_devices, apple_devices
)
return
logger.info(
"Sending mobile push notifications for local user %s: %s via FCM devices, %s via APNs devices",
user_profile_id,
len(android_devices),
len(apple_devices),
)
user_identity = UserPushIdentityCompat(user_id=user_profile.id)
apple_successfully_sent_count = send_apple_push_notification(
user_identity, apple_devices, apns_payload
)
android_successfully_sent_count = send_android_push_notification(
user_identity, android_devices, gcm_payload, gcm_options
)
do_increment_logging_stat(
user_profile.realm,
COUNT_STATS["mobile_pushes_sent::day"],
None,
timezone_now(),
increment=apple_successfully_sent_count + android_successfully_sent_count,
)
def send_test_push_notification_directly_to_devices(
user_identity: UserPushIdentityCompat,
devices: Sequence[DeviceToken],
base_payload: Dict[str, Any],
remote: Optional["RemoteZulipServer"] = None,
) -> None:
payload = copy.deepcopy(base_payload)
payload["event"] = "test"
apple_devices = [device for device in devices if device.kind == PushDeviceToken.APNS]
android_devices = [device for device in devices if device.kind == PushDeviceToken.GCM]
# Let's make the payloads separate objects to make sure mutating to make e.g. Android
# adjustments doesn't affect the Apple payload and vice versa.
apple_payload = copy.deepcopy(payload)
android_payload = copy.deepcopy(payload)
realm_uri = base_payload["realm_uri"]
realm_name = base_payload["realm_name"]
apns_data = {
"alert": {
"title": _("Test notification"),
"body": _("This is a test notification from {realm_name} ({realm_uri}).").format(
realm_name=realm_name, realm_uri=realm_uri
),
},
"sound": "default",
"custom": {"zulip": apple_payload},
}
send_apple_push_notification(user_identity, apple_devices, apns_data, remote=remote)
android_payload["time"] = datetime_to_timestamp(timezone_now())
gcm_options = {"priority": "high"}
send_android_push_notification(
user_identity, android_devices, android_payload, gcm_options, remote=remote
)
def send_test_push_notification(user_profile: UserProfile, devices: List[PushDeviceToken]) -> None:
base_payload = get_base_payload(user_profile)
if uses_notification_bouncer():
for device in devices:
post_data = {
"user_uuid": str(user_profile.uuid),
"user_id": user_profile.id,
"token": device.token,
"token_kind": device.kind,
"base_payload": base_payload,
}
logger.info("Sending test push notification to bouncer: %r", post_data)
send_json_to_push_bouncer("POST", "push/test_notification", post_data)
return
# This server doesn't need the bouncer, so we send directly to the device.
user_identity = UserPushIdentityCompat(
user_id=user_profile.id, user_uuid=str(user_profile.uuid)
)
send_test_push_notification_directly_to_devices(
user_identity, devices, base_payload, remote=None
)
class InvalidPushDeviceTokenError(JsonableError):
code = ErrorCode.INVALID_PUSH_DEVICE_TOKEN
def __init__(self) -> None:
pass
@staticmethod
@override
def msg_format() -> str:
return _("Device not recognized")
class InvalidRemotePushDeviceTokenError(JsonableError):
code = ErrorCode.INVALID_REMOTE_PUSH_DEVICE_TOKEN
def __init__(self) -> None:
pass
@staticmethod
@override
def msg_format() -> str:
return _("Device not recognized by the push bouncer")