synapse-old/tests/push/test_http.py

661 lines
24 KiB
Python

# -*- coding: utf-8 -*-
# Copyright 2018 New Vector
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from mock import Mock
from twisted.internet.defer import Deferred
import synapse.rest.admin
from synapse.logging.context import make_deferred_yieldable
from synapse.rest.client.v1 import login, room
from synapse.rest.client.v2_alpha import receipts
from tests.unittest import HomeserverTestCase, override_config
class HTTPPusherTests(HomeserverTestCase):
servlets = [
synapse.rest.admin.register_servlets_for_client_rest_resource,
room.register_servlets,
login.register_servlets,
receipts.register_servlets,
]
user_id = True
hijack_auth = False
def make_homeserver(self, reactor, clock):
self.push_attempts = []
m = Mock()
def post_json_get_json(url, body):
d = Deferred()
self.push_attempts.append((d, url, body))
return make_deferred_yieldable(d)
m.post_json_get_json = post_json_get_json
config = self.default_config()
config["start_pushers"] = True
hs = self.setup_test_homeserver(config=config, proxied_http_client=m)
return hs
def test_sends_http(self):
"""
The HTTP pusher will send pushes for each message to a HTTP endpoint
when configured to do so.
"""
# Register the user who gets notified
user_id = self.register_user("user", "pass")
access_token = self.login("user", "pass")
# Register the user who sends the message
other_user_id = self.register_user("otheruser", "pass")
other_access_token = self.login("otheruser", "pass")
# Register the pusher
user_tuple = self.get_success(
self.hs.get_datastore().get_user_by_access_token(access_token)
)
token_id = user_tuple.token_id
self.get_success(
self.hs.get_pusherpool().add_pusher(
user_id=user_id,
access_token=token_id,
kind="http",
app_id="m.http",
app_display_name="HTTP Push Notifications",
device_display_name="pushy push",
pushkey="a@example.com",
lang=None,
data={"url": "example.com"},
)
)
# Create a room
room = self.helper.create_room_as(user_id, tok=access_token)
# The other user joins
self.helper.join(room=room, user=other_user_id, tok=other_access_token)
# The other user sends some messages
self.helper.send(room, body="Hi!", tok=other_access_token)
self.helper.send(room, body="There!", tok=other_access_token)
# Get the stream ordering before it gets sent
pushers = self.get_success(
self.hs.get_datastore().get_pushers_by({"user_name": user_id})
)
pushers = list(pushers)
self.assertEqual(len(pushers), 1)
last_stream_ordering = pushers[0]["last_stream_ordering"]
# Advance time a bit, so the pusher will register something has happened
self.pump()
# It hasn't succeeded yet, so the stream ordering shouldn't have moved
pushers = self.get_success(
self.hs.get_datastore().get_pushers_by({"user_name": user_id})
)
pushers = list(pushers)
self.assertEqual(len(pushers), 1)
self.assertEqual(last_stream_ordering, pushers[0]["last_stream_ordering"])
# One push was attempted to be sent -- it'll be the first message
self.assertEqual(len(self.push_attempts), 1)
self.assertEqual(self.push_attempts[0][1], "example.com")
self.assertEqual(
self.push_attempts[0][2]["notification"]["content"]["body"], "Hi!"
)
# Make the push succeed
self.push_attempts[0][0].callback({})
self.pump()
# The stream ordering has increased
pushers = self.get_success(
self.hs.get_datastore().get_pushers_by({"user_name": user_id})
)
pushers = list(pushers)
self.assertEqual(len(pushers), 1)
self.assertTrue(pushers[0]["last_stream_ordering"] > last_stream_ordering)
last_stream_ordering = pushers[0]["last_stream_ordering"]
# Now it'll try and send the second push message, which will be the second one
self.assertEqual(len(self.push_attempts), 2)
self.assertEqual(self.push_attempts[1][1], "example.com")
self.assertEqual(
self.push_attempts[1][2]["notification"]["content"]["body"], "There!"
)
# Make the second push succeed
self.push_attempts[1][0].callback({})
self.pump()
# The stream ordering has increased, again
pushers = self.get_success(
self.hs.get_datastore().get_pushers_by({"user_name": user_id})
)
pushers = list(pushers)
self.assertEqual(len(pushers), 1)
self.assertTrue(pushers[0]["last_stream_ordering"] > last_stream_ordering)
def test_sends_high_priority_for_encrypted(self):
"""
The HTTP pusher will send pushes at high priority if they correspond
to an encrypted message.
This will happen both in 1:1 rooms and larger rooms.
"""
# Register the user who gets notified
user_id = self.register_user("user", "pass")
access_token = self.login("user", "pass")
# Register the user who sends the message
other_user_id = self.register_user("otheruser", "pass")
other_access_token = self.login("otheruser", "pass")
# Register a third user
yet_another_user_id = self.register_user("yetanotheruser", "pass")
yet_another_access_token = self.login("yetanotheruser", "pass")
# Create a room
room = self.helper.create_room_as(user_id, tok=access_token)
# The other user joins
self.helper.join(room=room, user=other_user_id, tok=other_access_token)
# Register the pusher
user_tuple = self.get_success(
self.hs.get_datastore().get_user_by_access_token(access_token)
)
token_id = user_tuple.token_id
self.get_success(
self.hs.get_pusherpool().add_pusher(
user_id=user_id,
access_token=token_id,
kind="http",
app_id="m.http",
app_display_name="HTTP Push Notifications",
device_display_name="pushy push",
pushkey="a@example.com",
lang=None,
data={"url": "example.com"},
)
)
# Send an encrypted event
# I know there'd normally be set-up of an encrypted room first
# but this will do for our purposes
self.helper.send_event(
room,
"m.room.encrypted",
content={
"algorithm": "m.megolm.v1.aes-sha2",
"sender_key": "6lImKbzK51MzWLwHh8tUM3UBBSBrLlgup/OOCGTvumM",
"ciphertext": "AwgAErABoRxwpMipdgiwXgu46rHiWQ0DmRj0qUlPrMraBUDk"
"leTnJRljpuc7IOhsYbLY3uo2WI0ab/ob41sV+3JEIhODJPqH"
"TK7cEZaIL+/up9e+dT9VGF5kRTWinzjkeqO8FU5kfdRjm+3w"
"0sy3o1OCpXXCfO+faPhbV/0HuK4ndx1G+myNfK1Nk/CxfMcT"
"BT+zDS/Df/QePAHVbrr9uuGB7fW8ogW/ulnydgZPRluusFGv"
"J3+cg9LoPpZPAmv5Me3ec7NtdlfN0oDZ0gk3TiNkkhsxDG9Y"
"YcNzl78USI0q8+kOV26Bu5dOBpU4WOuojXZHJlP5lMgdzLLl"
"EQ0",
"session_id": "IigqfNWLL+ez/Is+Duwp2s4HuCZhFG9b9CZKTYHtQ4A",
"device_id": "AHQDUSTAAA",
},
tok=other_access_token,
)
# Advance time a bit, so the pusher will register something has happened
self.pump()
# Make the push succeed
self.push_attempts[0][0].callback({})
self.pump()
# Check our push made it with high priority
self.assertEqual(len(self.push_attempts), 1)
self.assertEqual(self.push_attempts[0][1], "example.com")
self.assertEqual(self.push_attempts[0][2]["notification"]["prio"], "high")
# Add yet another person — we want to make this room not a 1:1
# (as encrypted messages in a 1:1 currently have tweaks applied
# so it doesn't properly exercise the condition of all encrypted
# messages need to be high).
self.helper.join(
room=room, user=yet_another_user_id, tok=yet_another_access_token
)
# Check no push notifications are sent regarding the membership changes
# (that would confuse the test)
self.pump()
self.assertEqual(len(self.push_attempts), 1)
# Send another encrypted event
self.helper.send_event(
room,
"m.room.encrypted",
content={
"ciphertext": "AwgAEoABtEuic/2DF6oIpNH+q/PonzlhXOVho8dTv0tzFr5m"
"9vTo50yabx3nxsRlP2WxSqa8I07YftP+EKWCWJvTkg6o7zXq"
"6CK+GVvLQOVgK50SfvjHqJXN+z1VEqj+5mkZVN/cAgJzoxcH"
"zFHkwDPJC8kQs47IHd8EO9KBUK4v6+NQ1uE/BIak4qAf9aS/"
"kI+f0gjn9IY9K6LXlah82A/iRyrIrxkCkE/n0VfvLhaWFecC"
"sAWTcMLoF6fh1Jpke95mljbmFSpsSd/eEQw",
"device_id": "SRCFTWTHXO",
"session_id": "eMA+bhGczuTz1C5cJR1YbmrnnC6Goni4lbvS5vJ1nG4",
"algorithm": "m.megolm.v1.aes-sha2",
"sender_key": "rC/XSIAiYrVGSuaHMop8/pTZbku4sQKBZwRwukgnN1c",
},
tok=other_access_token,
)
# Advance time a bit, so the pusher will register something has happened
self.pump()
self.assertEqual(len(self.push_attempts), 2)
self.assertEqual(self.push_attempts[1][1], "example.com")
self.assertEqual(self.push_attempts[1][2]["notification"]["prio"], "high")
def test_sends_high_priority_for_one_to_one_only(self):
"""
The HTTP pusher will send pushes at high priority if they correspond
to a message in a one-to-one room.
"""
# Register the user who gets notified
user_id = self.register_user("user", "pass")
access_token = self.login("user", "pass")
# Register the user who sends the message
other_user_id = self.register_user("otheruser", "pass")
other_access_token = self.login("otheruser", "pass")
# Register a third user
yet_another_user_id = self.register_user("yetanotheruser", "pass")
yet_another_access_token = self.login("yetanotheruser", "pass")
# Create a room
room = self.helper.create_room_as(user_id, tok=access_token)
# The other user joins
self.helper.join(room=room, user=other_user_id, tok=other_access_token)
# Register the pusher
user_tuple = self.get_success(
self.hs.get_datastore().get_user_by_access_token(access_token)
)
token_id = user_tuple.token_id
self.get_success(
self.hs.get_pusherpool().add_pusher(
user_id=user_id,
access_token=token_id,
kind="http",
app_id="m.http",
app_display_name="HTTP Push Notifications",
device_display_name="pushy push",
pushkey="a@example.com",
lang=None,
data={"url": "example.com"},
)
)
# Send a message
self.helper.send(room, body="Hi!", tok=other_access_token)
# Advance time a bit, so the pusher will register something has happened
self.pump()
# Make the push succeed
self.push_attempts[0][0].callback({})
self.pump()
# Check our push made it with high priority — this is a one-to-one room
self.assertEqual(len(self.push_attempts), 1)
self.assertEqual(self.push_attempts[0][1], "example.com")
self.assertEqual(self.push_attempts[0][2]["notification"]["prio"], "high")
# Yet another user joins
self.helper.join(
room=room, user=yet_another_user_id, tok=yet_another_access_token
)
# Check no push notifications are sent regarding the membership changes
# (that would confuse the test)
self.pump()
self.assertEqual(len(self.push_attempts), 1)
# Send another event
self.helper.send(room, body="Welcome!", tok=other_access_token)
# Advance time a bit, so the pusher will register something has happened
self.pump()
self.assertEqual(len(self.push_attempts), 2)
self.assertEqual(self.push_attempts[1][1], "example.com")
# check that this is low-priority
self.assertEqual(self.push_attempts[1][2]["notification"]["prio"], "low")
def test_sends_high_priority_for_mention(self):
"""
The HTTP pusher will send pushes at high priority if they correspond
to a message containing the user's display name.
"""
# Register the user who gets notified
user_id = self.register_user("user", "pass")
access_token = self.login("user", "pass")
# Register the user who sends the message
other_user_id = self.register_user("otheruser", "pass")
other_access_token = self.login("otheruser", "pass")
# Register a third user
yet_another_user_id = self.register_user("yetanotheruser", "pass")
yet_another_access_token = self.login("yetanotheruser", "pass")
# Create a room
room = self.helper.create_room_as(user_id, tok=access_token)
# The other users join
self.helper.join(room=room, user=other_user_id, tok=other_access_token)
self.helper.join(
room=room, user=yet_another_user_id, tok=yet_another_access_token
)
# Register the pusher
user_tuple = self.get_success(
self.hs.get_datastore().get_user_by_access_token(access_token)
)
token_id = user_tuple.token_id
self.get_success(
self.hs.get_pusherpool().add_pusher(
user_id=user_id,
access_token=token_id,
kind="http",
app_id="m.http",
app_display_name="HTTP Push Notifications",
device_display_name="pushy push",
pushkey="a@example.com",
lang=None,
data={"url": "example.com"},
)
)
# Send a message
self.helper.send(room, body="Oh, user, hello!", tok=other_access_token)
# Advance time a bit, so the pusher will register something has happened
self.pump()
# Make the push succeed
self.push_attempts[0][0].callback({})
self.pump()
# Check our push made it with high priority
self.assertEqual(len(self.push_attempts), 1)
self.assertEqual(self.push_attempts[0][1], "example.com")
self.assertEqual(self.push_attempts[0][2]["notification"]["prio"], "high")
# Send another event, this time with no mention
self.helper.send(room, body="Are you there?", tok=other_access_token)
# Advance time a bit, so the pusher will register something has happened
self.pump()
self.assertEqual(len(self.push_attempts), 2)
self.assertEqual(self.push_attempts[1][1], "example.com")
# check that this is low-priority
self.assertEqual(self.push_attempts[1][2]["notification"]["prio"], "low")
def test_sends_high_priority_for_atroom(self):
"""
The HTTP pusher will send pushes at high priority if they correspond
to a message that contains @room.
"""
# Register the user who gets notified
user_id = self.register_user("user", "pass")
access_token = self.login("user", "pass")
# Register the user who sends the message
other_user_id = self.register_user("otheruser", "pass")
other_access_token = self.login("otheruser", "pass")
# Register a third user
yet_another_user_id = self.register_user("yetanotheruser", "pass")
yet_another_access_token = self.login("yetanotheruser", "pass")
# Create a room (as other_user so the power levels are compatible with
# other_user sending @room).
room = self.helper.create_room_as(other_user_id, tok=other_access_token)
# The other users join
self.helper.join(room=room, user=user_id, tok=access_token)
self.helper.join(
room=room, user=yet_another_user_id, tok=yet_another_access_token
)
# Register the pusher
user_tuple = self.get_success(
self.hs.get_datastore().get_user_by_access_token(access_token)
)
token_id = user_tuple.token_id
self.get_success(
self.hs.get_pusherpool().add_pusher(
user_id=user_id,
access_token=token_id,
kind="http",
app_id="m.http",
app_display_name="HTTP Push Notifications",
device_display_name="pushy push",
pushkey="a@example.com",
lang=None,
data={"url": "example.com"},
)
)
# Send a message
self.helper.send(
room,
body="@room eeek! There's a spider on the table!",
tok=other_access_token,
)
# Advance time a bit, so the pusher will register something has happened
self.pump()
# Make the push succeed
self.push_attempts[0][0].callback({})
self.pump()
# Check our push made it with high priority
self.assertEqual(len(self.push_attempts), 1)
self.assertEqual(self.push_attempts[0][1], "example.com")
self.assertEqual(self.push_attempts[0][2]["notification"]["prio"], "high")
# Send another event, this time as someone without the power of @room
self.helper.send(
room, body="@room the spider is gone", tok=yet_another_access_token
)
# Advance time a bit, so the pusher will register something has happened
self.pump()
self.assertEqual(len(self.push_attempts), 2)
self.assertEqual(self.push_attempts[1][1], "example.com")
# check that this is low-priority
self.assertEqual(self.push_attempts[1][2]["notification"]["prio"], "low")
def test_push_unread_count_group_by_room(self):
"""
The HTTP pusher will group unread count by number of unread rooms.
"""
# Carry out common push count tests and setup
self._test_push_unread_count()
# Carry out our option-value specific test
#
# This push should still only contain an unread count of 1 (for 1 unread room)
self.assertEqual(
self.push_attempts[5][2]["notification"]["counts"]["unread"], 1
)
@override_config({"push": {"group_unread_count_by_room": False}})
def test_push_unread_count_message_count(self):
"""
The HTTP pusher will send the total unread message count.
"""
# Carry out common push count tests and setup
self._test_push_unread_count()
# Carry out our option-value specific test
#
# We're counting every unread message, so there should now be 4 since the
# last read receipt
self.assertEqual(
self.push_attempts[5][2]["notification"]["counts"]["unread"], 4
)
def _test_push_unread_count(self):
"""
Tests that the correct unread count appears in sent push notifications
Note that:
* Sending messages will cause push notifications to go out to relevant users
* Sending a read receipt will cause a "badge update" notification to go out to
the user that sent the receipt
"""
# Register the user who gets notified
user_id = self.register_user("user", "pass")
access_token = self.login("user", "pass")
# Register the user who sends the message
other_user_id = self.register_user("other_user", "pass")
other_access_token = self.login("other_user", "pass")
# Create a room (as other_user)
room_id = self.helper.create_room_as(other_user_id, tok=other_access_token)
# The user to get notified joins
self.helper.join(room=room_id, user=user_id, tok=access_token)
# Register the pusher
user_tuple = self.get_success(
self.hs.get_datastore().get_user_by_access_token(access_token)
)
token_id = user_tuple.token_id
self.get_success(
self.hs.get_pusherpool().add_pusher(
user_id=user_id,
access_token=token_id,
kind="http",
app_id="m.http",
app_display_name="HTTP Push Notifications",
device_display_name="pushy push",
pushkey="a@example.com",
lang=None,
data={"url": "example.com"},
)
)
# Send a message
response = self.helper.send(
room_id, body="Hello there!", tok=other_access_token
)
# To get an unread count, the user who is getting notified has to have a read
# position in the room. We'll set the read position to this event in a moment
first_message_event_id = response["event_id"]
# Advance time a bit (so the pusher will register something has happened) and
# make the push succeed
self.push_attempts[0][0].callback({})
self.pump()
# Check our push made it
self.assertEqual(len(self.push_attempts), 1)
self.assertEqual(self.push_attempts[0][1], "example.com")
# Check that the unread count for the room is 0
#
# The unread count is zero as the user has no read receipt in the room yet
self.assertEqual(
self.push_attempts[0][2]["notification"]["counts"]["unread"], 0
)
# Now set the user's read receipt position to the first event
#
# This will actually trigger a new notification to be sent out so that
# even if the user does not receive another message, their unread
# count goes down
request, channel = self.make_request(
"POST",
"/rooms/%s/receipt/m.read/%s" % (room_id, first_message_event_id),
{},
access_token=access_token,
)
self.assertEqual(channel.code, 200, channel.json_body)
# Advance time and make the push succeed
self.push_attempts[1][0].callback({})
self.pump()
# Unread count is still zero as we've read the only message in the room
self.assertEqual(len(self.push_attempts), 2)
self.assertEqual(
self.push_attempts[1][2]["notification"]["counts"]["unread"], 0
)
# Send another message
self.helper.send(
room_id, body="How's the weather today?", tok=other_access_token
)
# Advance time and make the push succeed
self.push_attempts[2][0].callback({})
self.pump()
# This push should contain an unread count of 1 as there's now been one
# message since our last read receipt
self.assertEqual(len(self.push_attempts), 3)
self.assertEqual(
self.push_attempts[2][2]["notification"]["counts"]["unread"], 1
)
# Since we're grouping by room, sending more messages shouldn't increase the
# unread count, as they're all being sent in the same room
self.helper.send(room_id, body="Hello?", tok=other_access_token)
# Advance time and make the push succeed
self.pump()
self.push_attempts[3][0].callback({})
self.helper.send(room_id, body="Hello??", tok=other_access_token)
# Advance time and make the push succeed
self.pump()
self.push_attempts[4][0].callback({})
self.helper.send(room_id, body="HELLO???", tok=other_access_token)
# Advance time and make the push succeed
self.pump()
self.push_attempts[5][0].callback({})
self.assertEqual(len(self.push_attempts), 6)