from functools import lru_cache from typing import Any, Container, Dict, Iterable, List, Mapping, Optional, Sequence, Tuple, Union from urllib.parse import urlparse import orjson import requests from django.conf import settings from requests.adapters import ConnectionError, HTTPAdapter from requests.models import PreparedRequest, Response from requests.packages.urllib3.util.retry import Retry from zerver.lib.queue import queue_json_publish from zerver.models import Client, Realm, UserProfile from zerver.tornado.sharding import get_tornado_port, get_tornado_uri, notify_tornado_queue_name class TornadoAdapter(HTTPAdapter): def __init__(self) -> None: # All of the POST requests we make to Tornado are safe to # retry; allow retries of them, which is not the default. retry_methods = Retry.DEFAULT_METHOD_WHITELIST | {"POST"} retry = Retry(total=3, backoff_factor=1, method_whitelist=retry_methods) super().__init__(max_retries=retry) def send( self, request: PreparedRequest, stream: bool = False, timeout: Union[None, float, Tuple[float, float], Tuple[float, None]] = 0.5, verify: Union[bool, str] = True, cert: Union[None, bytes, str, Container[Union[bytes, str]]] = None, proxies: Optional[Mapping[str, str]] = None, ) -> Response: # Don't talk to Tornado through proxies, which only allow # requests to external hosts. proxies = {} try: resp = super().send( request, stream=stream, timeout=timeout, verify=verify, cert=cert, proxies=proxies ) except ConnectionError: parsed_url = urlparse(request.url) logfile = ( f"tornado-{parsed_url.port}.log" if settings.TORNADO_PROCESSES > 1 else "tornado.log" ) raise ConnectionError( f"Django cannot connect to Tornado server ({request.url}); " f"check {settings.ERROR_FILE_LOG_PATH} and {logfile}" ) resp.raise_for_status() return resp @lru_cache(None) def requests_client() -> requests.Session: c = requests.Session() adapter = TornadoAdapter() for scheme in ("https://", "http://"): c.mount(scheme, adapter) return c def request_event_queue( user_profile: UserProfile, user_client: Client, apply_markdown: bool, client_gravatar: bool, slim_presence: bool, queue_lifespan_secs: int, event_types: Optional[Sequence[str]] = None, all_public_streams: bool = False, narrow: Iterable[Sequence[str]] = [], bulk_message_deletion: bool = False, stream_typing_notifications: bool = False, user_settings_object: bool = False, ) -> Optional[str]: if not settings.USING_TORNADO: return None tornado_uri = get_tornado_uri(user_profile.realm) req = { "dont_block": "true", "apply_markdown": orjson.dumps(apply_markdown), "client_gravatar": orjson.dumps(client_gravatar), "slim_presence": orjson.dumps(slim_presence), "all_public_streams": orjson.dumps(all_public_streams), "client": "internal", "user_profile_id": user_profile.id, "user_client": user_client.name, "narrow": orjson.dumps(narrow), "secret": settings.SHARED_SECRET, "lifespan_secs": queue_lifespan_secs, "bulk_message_deletion": orjson.dumps(bulk_message_deletion), "stream_typing_notifications": orjson.dumps(stream_typing_notifications), "user_settings_object": orjson.dumps(user_settings_object), } if event_types is not None: req["event_types"] = orjson.dumps(event_types) resp = requests_client().post(tornado_uri + "/api/v1/events/internal", data=req) return resp.json()["queue_id"] def get_user_events( user_profile: UserProfile, queue_id: str, last_event_id: int ) -> List[Dict[str, Any]]: if not settings.USING_TORNADO: return [] tornado_uri = get_tornado_uri(user_profile.realm) post_data: Dict[str, Any] = { "queue_id": queue_id, "last_event_id": last_event_id, "dont_block": "true", "user_profile_id": user_profile.id, "secret": settings.SHARED_SECRET, "client": "internal", } resp = requests_client().post(tornado_uri + "/api/v1/events/internal", data=post_data) return resp.json()["events"] def send_notification_http(realm: Realm, data: Mapping[str, Any]) -> None: if not settings.USING_TORNADO or settings.RUNNING_INSIDE_TORNADO: # To allow the backend test suite to not require a separate # Tornado process, we simply call the process_notification # handler directly rather than making the notify_tornado HTTP # request. It would perhaps be better to instead implement # this via some sort of `responses` module configuration, but # perhaps it's more readable to have the logic live here. # # We use an import local to this function to prevent this hack # from creating import cycles. from zerver.tornado.event_queue import process_notification process_notification(data) else: tornado_uri = get_tornado_uri(realm) requests_client().post( tornado_uri + "/notify_tornado", data=dict(data=orjson.dumps(data), secret=settings.SHARED_SECRET), ) # The core function for sending an event from Django to Tornado (which # will then push it to web and mobile clients for the target users). # By convention, send_event should only be called from # zerver/lib/actions.py, which helps make it easy to find event # generation code. # # Every call point should be covered by a test in `test_events.py`, # with the schema verified in `zerver/lib/event_schema.py`. # # See https://zulip.readthedocs.io/en/latest/subsystems/events-system.html def send_event( realm: Realm, event: Mapping[str, Any], users: Union[Iterable[int], Iterable[Mapping[str, Any]]] ) -> None: """`users` is a list of user IDs, or in some special cases like message send/update or embeds, dictionaries containing extra data.""" port = get_tornado_port(realm) queue_json_publish( notify_tornado_queue_name(port), dict(event=event, users=list(users)), lambda *args, **kwargs: send_notification_http(realm, *args, **kwargs), )