zulip/zerver/lib/test_helpers.py

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from __future__ import absolute_import
from contextlib import contextmanager
from typing import cast, Any, Callable, Generator, Iterable, Tuple, Sized, Union, Optional
from django.test import TestCase
from django.template import loader
from django.http import HttpResponse
from django.utils.translation import ugettext as _
from zerver.lib.initial_password import initial_password
from zerver.lib.db import TimeTrackingCursor
from zerver.lib.handlers import allocate_handler_id
from zerver.lib.str_utils import force_text
from zerver.lib import cache
from zerver.lib import event_queue
from zerver.worker import queue_processors
from zerver.lib.actions import (
check_send_message, create_stream_if_needed, do_add_subscription,
get_display_recipient,
)
from zerver.models import (
get_realm,
get_stream,
get_user_profile_by_email,
resolve_email_to_domain,
Client,
Message,
Realm,
Recipient,
Stream,
Subscription,
UserMessage,
UserProfile,
)
from zerver.lib.request import JsonableError
import base64
import os
import re
import time
import ujson
from six.moves import urllib
from six import text_type
from contextlib import contextmanager
import six
API_KEYS = {} # type: Dict[str, str]
@contextmanager
def stub(obj, name, f):
# type: (Any, str, Callable[..., Any]) -> Generator[None, None, None]
old_f = getattr(obj, name)
setattr(obj, name, f)
yield
setattr(obj, name, old_f)
@contextmanager
def simulated_queue_client(client):
# type: (Any) -> Generator[None, None, None]
real_SimpleQueueClient = queue_processors.SimpleQueueClient
queue_processors.SimpleQueueClient = client # type: ignore # https://github.com/JukkaL/mypy/issues/1152
yield
queue_processors.SimpleQueueClient = real_SimpleQueueClient # type: ignore # https://github.com/JukkaL/mypy/issues/1152
@contextmanager
def tornado_redirected_to_list(lst):
# type: (List) -> Generator[None, None, None]
real_event_queue_process_notification = event_queue.process_notification
event_queue.process_notification = lst.append
yield
event_queue.process_notification = real_event_queue_process_notification
@contextmanager
def simulated_empty_cache():
# type: () -> Generator[List[Tuple[str, Union[text_type, List[text_type]], text_type]], None, None]
cache_queries = [] # type: List[Tuple[str, Union[text_type, List[text_type]], text_type]]
def my_cache_get(key, cache_name=None):
# type: (text_type, Optional[str]) -> Any
cache_queries.append(('get', key, cache_name))
return None
def my_cache_get_many(keys, cache_name=None):
# type: (List[text_type], Optional[str]) -> Dict[text_type, Any]
cache_queries.append(('getmany', keys, cache_name))
return None
old_get = cache.cache_get
old_get_many = cache.cache_get_many
cache.cache_get = my_cache_get
cache.cache_get_many = my_cache_get_many
yield cache_queries
cache.cache_get = old_get
cache.cache_get_many = old_get_many
@contextmanager
def queries_captured():
# type: () -> Generator[List[Dict[str, str]], None, None]
'''
Allow a user to capture just the queries executed during
the with statement.
'''
queries = []
def wrapper_execute(self, action, sql, params=()):
# type: (TimeTrackingCursor, Callable, str, Iterable[Any]) -> None
start = time.time()
try:
return action(sql, params)
finally:
stop = time.time()
duration = stop - start
queries.append({
'sql': self.mogrify(sql, params),
'time': "%.3f" % duration,
})
old_execute = TimeTrackingCursor.execute
old_executemany = TimeTrackingCursor.executemany
def cursor_execute(self, sql, params=()):
# type: (TimeTrackingCursor, str, Iterable[Any]) -> None
return wrapper_execute(self, super(TimeTrackingCursor, self).execute, sql, params) # type: ignore # https://github.com/JukkaL/mypy/issues/1167
TimeTrackingCursor.execute = cursor_execute # type: ignore # https://github.com/JukkaL/mypy/issues/1167
def cursor_executemany(self, sql, params=()):
# type: (TimeTrackingCursor, str, Iterable[Any]) -> None
return wrapper_execute(self, super(TimeTrackingCursor, self).executemany, sql, params) # type: ignore # https://github.com/JukkaL/mypy/issues/1167
TimeTrackingCursor.executemany = cursor_executemany # type: ignore # https://github.com/JukkaL/mypy/issues/1167
yield queries
TimeTrackingCursor.execute = old_execute # type: ignore # https://github.com/JukkaL/mypy/issues/1167
TimeTrackingCursor.executemany = old_executemany # type: ignore # https://github.com/JukkaL/mypy/issues/1167
def find_key_by_email(address):
# type: (text_type) -> text_type
from django.core.mail import outbox
key_regex = re.compile("accounts/do_confirm/([a-f0-9]{40})>")
for message in reversed(outbox):
if address in message.to:
return key_regex.search(message.body).groups()[0]
def message_ids(result):
# type: (Dict[str, Any]) -> Set[int]
return set(message['id'] for message in result['messages'])
def message_stream_count(user_profile):
# type: (UserProfile) -> int
return UserMessage.objects. \
select_related("message"). \
filter(user_profile=user_profile). \
count()
def most_recent_usermessage(user_profile):
# type: (UserProfile) -> UserMessage
query = UserMessage.objects. \
select_related("message"). \
filter(user_profile=user_profile). \
order_by('-message')
return query[0] # Django does LIMIT here
def most_recent_message(user_profile):
# type: (UserProfile) -> Message
usermessage = most_recent_usermessage(user_profile)
return usermessage.message
def get_user_messages(user_profile):
# type: (UserProfile) -> List[Message]
query = UserMessage.objects. \
select_related("message"). \
filter(user_profile=user_profile). \
order_by('message')
return [um.message for um in query]
class DummyObject(object):
pass
class DummyTornadoRequest(object):
def __init__(self):
# type: () -> None
self.connection = DummyObject()
self.connection.stream = DummyStream() # type: ignore # monkey-patching here
class DummyHandler(object):
def __init__(self, assert_callback):
# type: (Any) -> None
self.assert_callback = assert_callback
self.request = DummyTornadoRequest()
allocate_handler_id(self)
# Mocks RequestHandler.async_callback, which wraps a callback to
# handle exceptions. We return the callback as-is.
def async_callback(self, cb):
# type: (Callable) -> Callable
return cb
def write(self, response):
# type: (str) -> None
raise NotImplemented
def zulip_finish(self, response, *ignore):
# type: (HttpResponse, *Any) -> None
if self.assert_callback:
self.assert_callback(response)
class DummySession(object):
session_key = "0"
class DummyStream(object):
def closed(self):
# type: () -> bool
return False
class POSTRequestMock(object):
method = "POST"
def __init__(self, post_data, user_profile, assert_callback=None):
# type: (Dict[str, Any], UserProfile, Optional[Callable]) -> None
self.REQUEST = self.POST = post_data
self.user = user_profile
self._tornado_handler = DummyHandler(assert_callback)
self.session = DummySession()
self._log_data = {} # type: Dict[str, Any]
self.META = {'PATH_INFO': 'test'}
class AuthedTestCase(TestCase):
# Helper because self.client.patch annoying requires you to urlencode
def client_patch(self, url, info={}, **kwargs):
# type: (str, Dict[str, Any], **Any) -> HttpResponse
encoded = urllib.parse.urlencode(info)
return self.client.patch(url, encoded, **kwargs)
def client_put(self, url, info={}, **kwargs):
# type: (str, Dict[str, Any], **Any) -> HttpResponse
encoded = urllib.parse.urlencode(info)
return self.client.put(url, encoded, **kwargs)
def client_delete(self, url, info={}, **kwargs):
# type: (str, Dict[str, Any], **Any) -> HttpResponse
encoded = urllib.parse.urlencode(info)
return self.client.delete(url, encoded, **kwargs)
def login_with_return(self, email, password=None):
# type: (text_type, Optional[text_type]) -> HttpResponse
if password is None:
password = initial_password(email)
return self.client.post('/accounts/login/',
{'username': email, 'password': password})
def login(self, email, password=None):
if password is None:
password = initial_password(email)
self.client.login(username=email, password=password)
def register(self, username, password, domain="zulip.com"):
# type: (text_type, text_type, text_type) -> HttpResponse
self.client.post('/accounts/home/',
{'email': username + "@" + domain})
return self.submit_reg_form_for_user(username, password, domain=domain)
def submit_reg_form_for_user(self, username, password, domain="zulip.com"):
# type: (text_type, text_type, text_type) -> HttpResponse
"""
Stage two of the two-step registration process.
If things are working correctly the account should be fully
registered after this call.
"""
return self.client.post('/accounts/register/',
{'full_name': username, 'password': password,
'key': find_key_by_email(username + '@' + domain),
'terms': True})
def get_api_key(self, email):
# type: (str) -> str
if email not in API_KEYS:
API_KEYS[email] = get_user_profile_by_email(email).api_key
return API_KEYS[email]
def api_auth(self, email):
# type: (str) -> Dict[str, str]
credentials = "%s:%s" % (email, self.get_api_key(email))
return {
'HTTP_AUTHORIZATION': 'Basic ' + base64.b64encode(credentials)
}
def get_streams(self, email):
# type: (text_type) -> List[text_type]
"""
Helper function to get the stream names for a user
"""
user_profile = get_user_profile_by_email(email)
subs = Subscription.objects.filter(
user_profile=user_profile,
active=True,
recipient__type=Recipient.STREAM)
return [cast(text_type, get_display_recipient(sub.recipient)) for sub in subs]
def send_message(self, sender_name, raw_recipients, message_type,
content=u"test content", subject=u"test", **kwargs):
# type: (str, Union[text_type, List[text_type]], int, text_type, text_type, **Any) -> int
sender = get_user_profile_by_email(sender_name)
if message_type == Recipient.PERSONAL:
message_type_name = "private"
else:
message_type_name = "stream"
if isinstance(raw_recipients, six.string_types):
recipient_list = [raw_recipients]
else:
recipient_list = raw_recipients
(sending_client, _) = Client.objects.get_or_create(name="test suite")
return check_send_message(
sender, sending_client, message_type_name, recipient_list, subject,
content, forged=False, forged_timestamp=None,
forwarder_user_profile=sender, realm=sender.realm, **kwargs)
def get_old_messages(self, anchor=1, num_before=100, num_after=100):
# type: (int, int, int) -> List[Dict[str, Any]]
post_params = {"anchor": anchor, "num_before": num_before,
"num_after": num_after}
result = self.client.get("/json/messages", dict(post_params))
data = ujson.loads(result.content)
return data['messages']
def users_subscribed_to_stream(self, stream_name, realm_domain):
# type: (text_type, text_type) -> List[UserProfile]
realm = get_realm(realm_domain)
stream = Stream.objects.get(name=stream_name, realm=realm)
recipient = Recipient.objects.get(type_id=stream.id, type=Recipient.STREAM)
subscriptions = Subscription.objects.filter(recipient=recipient, active=True)
return [subscription.user_profile for subscription in subscriptions]
def assert_json_success(self, result):
# type: (HttpResponse) -> Dict[str, Any]
"""
Successful POSTs return a 200 and JSON of the form {"result": "success",
"msg": ""}.
"""
self.assertEqual(result.status_code, 200, result)
json = ujson.loads(result.content)
self.assertEqual(json.get("result"), "success")
# We have a msg key for consistency with errors, but it typically has an
# empty value.
self.assertIn("msg", json)
return json
def get_json_error(self, result, status_code=400):
# type: (HttpResponse, int) -> Dict[str, Any]
self.assertEqual(result.status_code, status_code)
json = ujson.loads(result.content)
self.assertEqual(json.get("result"), "error")
return json['msg']
def assert_json_error(self, result, msg, status_code=400):
# type: (HttpResponse, str, int) -> None
"""
Invalid POSTs return an error status code and JSON of the form
{"result": "error", "msg": "reason"}.
"""
self.assertEqual(self.get_json_error(result, status_code=status_code), msg)
def assert_length(self, queries, count, exact=False):
# type: (Sized, int, bool) -> None
actual_count = len(queries)
if exact:
return self.assertTrue(actual_count == count,
"len(%s) == %s, != %s" % (queries, actual_count, count))
return self.assertTrue(actual_count <= count,
"len(%s) == %s, > %s" % (queries, actual_count, count))
def assert_json_error_contains(self, result, msg_substring, status_code=400):
# type: (HttpResponse, str, int) -> None
self.assertIn(msg_substring, self.get_json_error(result, status_code=status_code))
def fixture_data(self, type, action, file_type='json'):
# type: (text_type, text_type, text_type) -> text_type
return force_text(open(os.path.join(os.path.dirname(__file__),
"../fixtures/%s/%s_%s.%s" % (type, type, action, file_type))).read())
# Subscribe to a stream directly
def subscribe_to_stream(self, email, stream_name, realm=None):
# type: (text_type, text_type, Optional[Realm]) -> None
if realm is None:
realm = get_realm(resolve_email_to_domain(email))
stream = get_stream(stream_name, realm)
if stream is None:
stream, _ = create_stream_if_needed(realm, stream_name)
user_profile = get_user_profile_by_email(email)
do_add_subscription(user_profile, stream, no_log=True)
# Subscribe to a stream by making an API request
def common_subscribe_to_streams(self, email, streams, extra_post_data={}, invite_only=False):
# type: (str, Iterable[text_type], Dict[str, Any], bool) -> HttpResponse
post_data = {'subscriptions': ujson.dumps([{"name": stream} for stream in streams]),
'invite_only': ujson.dumps(invite_only)}
post_data.update(extra_post_data)
result = self.client.post("/api/v1/users/me/subscriptions", post_data, **self.api_auth(email))
return result
def send_json_payload(self, email, url, payload, stream_name=None, **post_params):
# type: (text_type, text_type, Union[text_type, Dict[str, Any]], Optional[text_type], **Any) -> Message
if stream_name is not None:
self.subscribe_to_stream(email, stream_name)
result = self.client.post(url, payload, **post_params)
self.assert_json_success(result)
# Check the correct message was sent
msg = self.get_last_message()
self.assertEqual(msg.sender.email, email)
self.assertEqual(get_display_recipient(msg.recipient), stream_name)
return msg
def get_last_message(self):
# type: () -> Message
return Message.objects.latest('id')
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def get_second_to_last_message(self):
return Message.objects.all().order_by('-id')[1]
def get_all_templates():
# type: () -> List[str]
templates = []
relpath = os.path.relpath
isfile = os.path.isfile
path_exists = os.path.exists
is_valid_template = lambda p, n: not n.startswith('.') and isfile(p)
def process(template_dir, dirname, fnames):
# type: (str, str, Iterable[str]) -> None
for name in fnames:
path = os.path.join(dirname, name)
if is_valid_template(path, name):
templates.append(relpath(path, template_dir))
for engine in loader.engines.all():
template_dirs = [d for d in engine.template_dirs if path_exists(d)]
for template_dir in template_dirs:
template_dir = os.path.normpath(template_dir)
os.path.walk(template_dir, process, template_dir)
return templates