zulip/zephyr/tornadoviews.py

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from django.conf import settings
from zephyr.models import Message, UserProfile, UserMessage, UserActivity
from zephyr.decorator import asynchronous, authenticated_api_view, \
authenticated_json_post_view, internal_notify_view, RespondAsynchronously, \
has_request_variables, POST, json_to_list, to_non_negative_int, \
JsonableError
from zephyr.lib.response import json_success, json_error
import os
import datetime
import simplejson
import socket
import time
import collections
import sys
import logging
import subprocess
from django.core.cache import cache
from zephyr.lib.cache import cache_with_key
from zephyr.lib.message_cache import cache_save_message, cache_get_message
SERVER_GENERATION = int(time.time())
class Callbacks(object):
TYPE_RECEIVE = 0
TYPE_POINTER_UPDATE = 1
TYPE_MAX = 2
def __init__(self):
self.table = {}
def add(self, key, cb_type, callback):
if not self.table.has_key(key):
self.create_key(key)
self.table[key][cb_type].append(callback)
def call(self, key, cb_type, **kwargs):
if not self.table.has_key(key):
self.create_key(key)
for cb in self.table[key][cb_type]:
cb(**kwargs)
self.table[key][cb_type] = []
def create_key(self, key):
self.table[key] = [[] for i in range(0, Callbacks.TYPE_MAX)]
callbacks_table = Callbacks()
def add_receive_callback(user_profile, cb):
callbacks_table.add(user_profile.id, Callbacks.TYPE_RECEIVE, cb)
def add_pointer_update_callback(user_profile, cb):
callbacks_table.add(user_profile.id, Callbacks.TYPE_POINTER_UPDATE, cb)
# in-process caching mechanism for tracking usermessages
#
# user_messages: Map user_profile_id => [deque of message ids he received]
#
# We don't use all the features of a deque -- the important ones are:
# * O(1) insert of new highest message id
# * O(k) read of highest k message ids
# * Automatic maximum size support.
user_messages = {}
USERMESSAGE_CACHE_COUNT = 25000
cache_minimum_id = sys.maxint
def initialize_user_messages():
global cache_minimum_id
try:
cache_minimum_id = Message.objects.all().order_by("-id")[0].id - USERMESSAGE_CACHE_COUNT
except Message.DoesNotExist:
cache_minimum_id = 1
for um in UserMessage.objects.filter(message_id__gte=cache_minimum_id).order_by("message"):
add_user_message(um.user_profile_id, um.message_id)
# Filling the memcached cache is a little slow, so do it in a child process.
subprocess.Popen(["python", os.path.join(os.path.dirname(__file__), "..", "manage.py"),
"fill_message_cache"])
def add_user_message(user_profile_id, message_id):
if cache_minimum_id == sys.maxint:
initialize_user_messages()
global user_messages
user_messages.setdefault(user_profile_id, collections.deque(maxlen=400))
user_messages[user_profile_id].appendleft(message_id)
def fetch_user_messages(user_profile_id, last):
if cache_minimum_id == sys.maxint:
initialize_user_messages()
global user_messages
# We need to do this check after initialize_user_messages has been called.
if last < cache_minimum_id:
# The user's client has a way-too-old value for 'last', we
# should return an error
raise JsonableError("last value of %d too old! Minimum valid is %d!" %
(last, cache_minimum_id))
# We need to initialize the deque here for any new users that were
# created since Tornado was started
user_messages.setdefault(user_profile_id, collections.deque(maxlen=400))
message_list = []
for message_id in user_messages[user_profile_id]:
if message_id <= last:
return reversed(message_list)
message_list.append(message_id)
return []
# The user receives this message
def receive_message(user_profile_id, message):
add_user_message(user_profile_id, message.id)
callbacks_table.call(user_profile_id, Callbacks.TYPE_RECEIVE,
messages=[message], update_types=["new_messages"])
# Simple caching implementation module for user pointers
#
# TODO: Write something generic in cache.py to support this
# functionality? The current primitives there don't support storing
# to the cache.
user_pointers = {}
def get_user_pointer(user_profile_id):
if user_pointers == {}:
# Once, on startup, fill in the user_pointers table with
# everyone's current pointers
for u in UserProfile.objects.all():
user_pointers[u.id] = u.pointer
if user_profile_id not in user_pointers:
# This is a new user created since Tornado was started, so
# they will have an initial pointer of -1.
return -1
return user_pointers[user_profile_id]
def set_user_pointer(user_profile_id, pointer):
user_pointers[user_profile_id] = pointer
def update_pointer(user_profile_id, new_pointer, pointer_updater):
set_user_pointer(user_profile_id, new_pointer)
callbacks_table.call(user_profile_id, Callbacks.TYPE_POINTER_UPDATE,
new_pointer=new_pointer,
update_types=["pointer_update"])
@internal_notify_view
def notify_new_message(request):
recipient_profile_ids = map(int, json_to_list(request.POST['users']))
message = cache_get_message(int(request.POST['message']))
for user_profile_id in recipient_profile_ids:
receive_message(user_profile_id, message)
return json_success()
@internal_notify_view
def notify_pointer_update(request):
user_profile_id = int(request.POST['user'])
new_pointer = int(request.POST['new_pointer'])
pointer_updater = request.POST['pointer_updater']
update_pointer(user_profile_id, new_pointer, pointer_updater)
return json_success()
@asynchronous
@authenticated_json_post_view
def json_get_updates(request, user_profile, handler):
client_id = request.session.session_key
return get_updates_backend(request, user_profile, handler, client_id,
client=request._client, apply_markdown=True)
@asynchronous
@authenticated_api_view
@has_request_variables
def api_get_messages(request, user_profile, handler, client_id=POST(default=None),
apply_markdown=POST(default=False, converter=simplejson.loads)):
return get_updates_backend(request, user_profile, handler, client_id,
apply_markdown=apply_markdown,
client=request._client)
def format_updates_response(messages=[], apply_markdown=True,
user_profile=None, new_pointer=None,
client=None, update_types=[],
client_server_generation=None):
if client is not None and client.name.endswith("_mirror"):
messages = [m for m in messages if m.sending_client.name != client.name]
ret = {'messages': [message.to_dict(apply_markdown) for message in messages],
"result": "success",
"msg": "",
'update_types': update_types}
if client_server_generation is not None:
ret['server_generation'] = SERVER_GENERATION
if new_pointer is not None:
ret['new_pointer'] = new_pointer
if user_profile.realm.domain == "mit.edu":
try:
activity = UserActivity.objects.get(user_profile = user_profile,
query="/api/v1/get_messages",
client__name="zephyr_mirror")
ret['zephyr_mirror_active'] = \
(activity.last_visit.replace(tzinfo=None) >
datetime.datetime.utcnow() - datetime.timedelta(minutes=5))
except UserActivity.DoesNotExist:
ret['zephyr_mirror_active'] = False
return ret
def return_messages_immediately(user_profile, client_id, last,
client_server_generation,
client_pointer, dont_block, **kwargs):
update_types = []
new_pointer = None
if dont_block:
update_types.append("nonblocking_request")
if (client_server_generation is not None and
client_server_generation != SERVER_GENERATION):
update_types.append("client_reload")
ptr = get_user_pointer(user_profile.id)
if (client_pointer is not None and ptr > client_pointer):
new_pointer = ptr
update_types.append("pointer_update")
if last is not None:
message_ids = fetch_user_messages(user_profile.id, last)
messages = map(cache_get_message, message_ids)
# Filter for mirroring before checking whether there are any
# messages to pass on. If we don't do this, when the only message
# to forward is one that was sent via the mirroring, the API
# client will end up in an endless loop requesting more data from
# us.
if "client" in kwargs and kwargs["client"].name.endswith("_mirror"):
messages = [m for m in messages if
m.sending_client.name != kwargs["client"].name]
else: # last is None, so we're not interested in any old messages
messages = []
if messages:
update_types.append("new_messages")
if update_types:
return format_updates_response(messages=messages,
user_profile=user_profile,
new_pointer=new_pointer,
client_server_generation=client_server_generation,
update_types=update_types,
**kwargs)
return None
def send_with_safety_check(response, handler, apply_markdown=True, **kwargs):
# Make sure that Markdown rendering really happened, if requested.
# This is a security issue because it's where we escape HTML.
# c.f. ticket #64
#
# apply_markdown=True is the fail-safe default.
if response['result'] == 'success' and apply_markdown:
for msg in response['messages']:
if msg['content_type'] != 'text/html':
handler.set_status(500)
handler.finish('Internal error: bad message format')
return
if response['result'] == 'error':
handler.set_status(400)
handler.finish(response)
@has_request_variables
def get_updates_backend(request, user_profile, handler, client_id,
last = POST(converter=to_non_negative_int, default=None),
client_server_generation = POST(whence='server_generation', default=None,
converter=int),
client_pointer = POST(whence='pointer', converter=int, default=None),
dont_block = POST(converter=simplejson.loads, default=False),
**kwargs):
resp = return_messages_immediately(user_profile, client_id, last,
client_server_generation,
client_pointer,
dont_block, **kwargs)
if resp is not None:
send_with_safety_check(resp, handler, **kwargs)
# We have already invoked handler.finish(), so we bypass the usual view
# response path. We are "responding asynchronously" except that it
# already happened. This is slightly weird, but lets us share
# send_with_safety_check with the code below.
return RespondAsynchronously
# Enter long-polling mode.
#
# Instead of responding to the client right away, leave our connection open
# and return to the Tornado main loop. One of the notify_* views will
# eventually invoke one of these callbacks, which will send the delayed
# response.
def cb(**cb_kwargs):
if handler.request.connection.stream.closed():
return
try:
# It would be nice to be able to do these checks in
# UserProfile.receive, but it doesn't know what the value
# of "last" was for each callback.
if last is not None and "messages" in cb_kwargs:
messages = cb_kwargs["messages"]
# Make sure the client doesn't get a message twice
# when messages are processed out of order.
if messages[0].id <= last:
# We must return a response because we don't have
# a way to re-queue a callback and so the client
# must do it by making a new request
handler.finish({"result": "success",
"msg": "",
'update_types': []})
return
kwargs.update(cb_kwargs)
res = format_updates_response(user_profile=user_profile,
client_server_generation=client_server_generation,
**kwargs)
send_with_safety_check(res, handler, **kwargs)
except socket.error:
pass
add_receive_callback(user_profile, handler.async_callback(cb))
if client_pointer is not None:
add_pointer_update_callback(user_profile, handler.async_callback(cb))
# runtornado recognizes this special return value.
return RespondAsynchronously