zulip/zerver/lib/test_helpers.py

694 lines
24 KiB
Python

import collections
import os
import re
import sys
import time
import weakref
from contextlib import contextmanager
from functools import wraps
from typing import (
IO,
TYPE_CHECKING,
Any,
Callable,
Dict,
Generator,
Iterable,
Iterator,
List,
Optional,
Tuple,
TypeVar,
Union,
cast,
)
from unittest import mock
import boto3
import fakeldap
import ldap
import orjson
from django.conf import settings
from django.contrib.auth.models import AnonymousUser
from django.db.migrations.state import StateApps
from django.http import HttpRequest, HttpResponse, HttpResponseRedirect
from django.http.request import QueryDict
from django.test import override_settings
from django.urls import URLResolver
from moto import mock_s3
from mypy_boto3_s3.service_resource import Bucket
import zerver.lib.upload
from zerver.lib import cache
from zerver.lib.actions import do_set_realm_property
from zerver.lib.avatar import avatar_url
from zerver.lib.cache import get_cache_backend
from zerver.lib.db import Params, ParamsT, Query, TimeTrackingCursor
from zerver.lib.integrations import WEBHOOK_INTEGRATIONS
from zerver.lib.request import ZulipRequestNotes, request_notes_map
from zerver.lib.upload import LocalUploadBackend, S3UploadBackend
from zerver.models import (
Client,
Message,
Realm,
Subscription,
UserMessage,
UserProfile,
get_client,
get_realm,
get_stream,
)
from zerver.tornado.handlers import AsyncDjangoHandler, allocate_handler_id
from zerver.worker import queue_processors
from zilencer.models import RemoteZulipServer
from zproject.backends import ExternalAuthDataDict, ExternalAuthResult
if TYPE_CHECKING:
# Avoid an import cycle; we only need these for type annotations.
from zerver.lib.test_classes import MigrationsTestCase, ZulipTestCase
class MockLDAP(fakeldap.MockLDAP):
class LDAPError(ldap.LDAPError):
pass
class INVALID_CREDENTIALS(ldap.INVALID_CREDENTIALS):
pass
class NO_SUCH_OBJECT(ldap.NO_SUCH_OBJECT):
pass
class ALREADY_EXISTS(ldap.ALREADY_EXISTS):
pass
@contextmanager
def stub_event_queue_user_events(
event_queue_return: Any, user_events_return: Any
) -> Iterator[None]:
with mock.patch("zerver.lib.events.request_event_queue", return_value=event_queue_return):
with mock.patch("zerver.lib.events.get_user_events", return_value=user_events_return):
yield
@contextmanager
def simulated_queue_client(client: Callable[[], object]) -> Iterator[None]:
with mock.patch.object(queue_processors, "SimpleQueueClient", client):
yield
@contextmanager
def cache_tries_captured() -> Iterator[List[Tuple[str, Union[str, List[str]], Optional[str]]]]:
cache_queries: List[Tuple[str, Union[str, List[str]], Optional[str]]] = []
orig_get = cache.cache_get
orig_get_many = cache.cache_get_many
def my_cache_get(key: str, cache_name: Optional[str] = None) -> Optional[Dict[str, Any]]:
cache_queries.append(("get", key, cache_name))
return orig_get(key, cache_name)
def my_cache_get_many(
keys: List[str], cache_name: Optional[str] = None
) -> Dict[str, Any]: # nocoverage -- simulated code doesn't use this
cache_queries.append(("getmany", keys, cache_name))
return orig_get_many(keys, cache_name)
with mock.patch.multiple(cache, cache_get=my_cache_get, cache_get_many=my_cache_get_many):
yield cache_queries
@contextmanager
def simulated_empty_cache() -> Iterator[List[Tuple[str, Union[str, List[str]], Optional[str]]]]:
cache_queries: List[Tuple[str, Union[str, List[str]], Optional[str]]] = []
def my_cache_get(key: str, cache_name: Optional[str] = None) -> Optional[Dict[str, Any]]:
cache_queries.append(("get", key, cache_name))
return None
def my_cache_get_many(
keys: List[str], cache_name: Optional[str] = None
) -> Dict[str, Any]: # nocoverage -- simulated code doesn't use this
cache_queries.append(("getmany", keys, cache_name))
return {}
with mock.patch.multiple(cache, cache_get=my_cache_get, cache_get_many=my_cache_get_many):
yield cache_queries
@contextmanager
def queries_captured(
include_savepoints: bool = False, keep_cache_warm: bool = False
) -> Generator[List[Dict[str, Union[str, bytes]]], None, None]:
"""
Allow a user to capture just the queries executed during
the with statement.
"""
queries: List[Dict[str, Union[str, bytes]]] = []
def wrapper_execute(
self: TimeTrackingCursor,
action: Callable[[Query, ParamsT], None],
sql: Query,
params: ParamsT,
) -> None:
start = time.time()
try:
return action(sql, params)
finally:
stop = time.time()
duration = stop - start
if include_savepoints or not isinstance(sql, str) or "SAVEPOINT" not in sql:
queries.append(
{
"sql": self.mogrify(sql, params).decode(),
"time": f"{duration:.3f}",
}
)
def cursor_execute(
self: TimeTrackingCursor, sql: Query, params: Optional[Params] = None
) -> None:
return wrapper_execute(self, super(TimeTrackingCursor, self).execute, sql, params)
def cursor_executemany(self: TimeTrackingCursor, sql: Query, params: Iterable[Params]) -> None:
return wrapper_execute(
self, super(TimeTrackingCursor, self).executemany, sql, params
) # nocoverage -- doesn't actually get used in tests
if not keep_cache_warm:
cache = get_cache_backend(None)
cache.clear()
with mock.patch.multiple(
TimeTrackingCursor, execute=cursor_execute, executemany=cursor_executemany
):
yield queries
@contextmanager
def stdout_suppressed() -> Iterator[IO[str]]:
"""Redirect stdout to /dev/null."""
with open(os.devnull, "a") as devnull:
stdout, sys.stdout = sys.stdout, devnull
yield stdout
sys.stdout = stdout
def reset_emails_in_zulip_realm() -> None:
realm = get_realm("zulip")
do_set_realm_property(
realm,
"email_address_visibility",
Realm.EMAIL_ADDRESS_VISIBILITY_EVERYONE,
acting_user=None,
)
def get_test_image_file(filename: str) -> IO[bytes]:
test_avatar_dir = os.path.abspath(os.path.join(os.path.dirname(__file__), "../tests/images"))
return open(os.path.join(test_avatar_dir, filename), "rb")
def avatar_disk_path(
user_profile: UserProfile, medium: bool = False, original: bool = False
) -> str:
avatar_url_path = avatar_url(user_profile, medium)
assert avatar_url_path is not None
avatar_disk_path = os.path.join(
settings.LOCAL_UPLOADS_DIR,
"avatars",
avatar_url_path.split("/")[-2],
avatar_url_path.split("/")[-1].split("?")[0],
)
if original:
return avatar_disk_path.replace(".png", ".original")
return avatar_disk_path
def make_client(name: str) -> Client:
client, _ = Client.objects.get_or_create(name=name)
return client
def find_key_by_email(address: str) -> Optional[str]:
from django.core.mail import outbox
key_regex = re.compile("accounts/do_confirm/([a-z0-9]{24})>")
for message in reversed(outbox):
if address in message.to:
match = key_regex.search(message.body)
assert match is not None
[key] = match.groups()
return key
return None # nocoverage -- in theory a test might want this case, but none do
def message_stream_count(user_profile: UserProfile) -> int:
return UserMessage.objects.select_related("message").filter(user_profile=user_profile).count()
def most_recent_usermessage(user_profile: 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: UserProfile) -> Message:
usermessage = most_recent_usermessage(user_profile)
return usermessage.message
def get_subscription(stream_name: str, user_profile: UserProfile) -> Subscription:
stream = get_stream(stream_name, user_profile.realm)
recipient_id = stream.recipient_id
return Subscription.objects.get(
user_profile=user_profile, recipient_id=recipient_id, active=True
)
def get_user_messages(user_profile: 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 DummyHandler(AsyncDjangoHandler):
def __init__(self) -> None:
allocate_handler_id(self)
class HostRequestMock(HttpRequest):
"""A mock request object where get_host() works. Useful for testing
routes that use Zulip's subdomains feature"""
def __init__(
self,
post_data: Dict[str, Any] = {},
user_profile: Optional[Union[UserProfile, AnonymousUser, RemoteZulipServer]] = None,
host: str = settings.EXTERNAL_HOST,
client_name: Optional[str] = None,
meta_data: Optional[Dict[str, Any]] = None,
tornado_handler: Optional[AsyncDjangoHandler] = DummyHandler(),
path: str = "",
) -> None:
self.host = host
self.GET = QueryDict(mutable=True)
self.method = ""
# Convert any integer parameters passed into strings, even
# though of course the HTTP API would do so. Ideally, we'd
# get rid of this abstraction entirely and just use the HTTP
# API directly, but while it exists, we need this code
self.POST = QueryDict(mutable=True)
for key in post_data:
self.POST[key] = str(post_data[key])
self.method = "POST"
if meta_data is None:
self.META = {"PATH_INFO": "test"}
else:
self.META = meta_data
self.path = path
self.user = user_profile
self._body = b""
self.content_type = ""
request_notes_map[self] = ZulipRequestNotes(
client_name="",
log_data={},
tornado_handler=None if tornado_handler is None else weakref.ref(tornado_handler),
client=get_client(client_name) if client_name is not None else None,
)
@property
def body(self) -> bytes:
return super().body
@body.setter
def body(self, val: bytes) -> None:
self._body = val
def get_host(self) -> str:
return self.host
INSTRUMENTING = os.environ.get("TEST_INSTRUMENT_URL_COVERAGE", "") == "TRUE"
INSTRUMENTED_CALLS: List[Dict[str, Any]] = []
UrlFuncT = TypeVar("UrlFuncT", bound=Callable[..., HttpResponse]) # TODO: make more specific
def append_instrumentation_data(data: Dict[str, Any]) -> None:
INSTRUMENTED_CALLS.append(data)
def instrument_url(f: UrlFuncT) -> UrlFuncT:
if not INSTRUMENTING: # nocoverage -- option is always enabled; should we remove?
return f
else:
def wrapper(
self: "ZulipTestCase", url: str, info: object = {}, **kwargs: Any
) -> HttpResponse:
start = time.time()
result = f(self, url, info, **kwargs)
delay = time.time() - start
test_name = self.id()
if "?" in url:
url, extra_info = url.split("?", 1)
else:
extra_info = ""
if isinstance(info, HostRequestMock):
info = "<HostRequestMock>"
elif isinstance(info, bytes):
info = "<bytes>"
elif isinstance(info, dict):
info = {
k: "<file object>" if hasattr(v, "read") and callable(getattr(v, "read")) else v
for k, v in info.items()
}
append_instrumentation_data(
dict(
url=url,
status_code=result.status_code,
method=f.__name__,
delay=delay,
extra_info=extra_info,
info=info,
test_name=test_name,
kwargs=kwargs,
)
)
return result
return cast(UrlFuncT, wrapper) # https://github.com/python/mypy/issues/1927
def write_instrumentation_reports(full_suite: bool, include_webhooks: bool) -> None:
if INSTRUMENTING:
calls = INSTRUMENTED_CALLS
from zproject.urls import urlpatterns, v1_api_and_json_patterns
# Find our untested urls.
pattern_cnt: Dict[str, int] = collections.defaultdict(int)
def re_strip(r: Any) -> str:
return str(r).lstrip("^").rstrip("$")
def find_patterns(patterns: List[Any], prefixes: List[str]) -> None:
for pattern in patterns:
find_pattern(pattern, prefixes)
def cleanup_url(url: str) -> str:
if url.startswith("/"):
url = url[1:]
if url.startswith("http://testserver/"):
url = url[len("http://testserver/") :]
if url.startswith("http://zulip.testserver/"):
url = url[len("http://zulip.testserver/") :]
if url.startswith("http://testserver:9080/"):
url = url[len("http://testserver:9080/") :]
return url
def find_pattern(pattern: Any, prefixes: List[str]) -> None:
if isinstance(pattern, type(URLResolver)):
return # nocoverage -- shouldn't actually happen
if hasattr(pattern, "url_patterns"):
return
canon_pattern = prefixes[0] + re_strip(pattern.pattern.regex.pattern)
cnt = 0
for call in calls:
if "pattern" in call:
continue
url = cleanup_url(call["url"])
for prefix in prefixes:
if url.startswith(prefix):
match_url = url[len(prefix) :]
if pattern.resolve(match_url):
if call["status_code"] in [200, 204, 301, 302]:
cnt += 1
call["pattern"] = canon_pattern
pattern_cnt[canon_pattern] += cnt
find_patterns(urlpatterns, ["", "en/", "de/"])
find_patterns(v1_api_and_json_patterns, ["api/v1/", "json/"])
assert len(pattern_cnt) > 100
untested_patterns = {p.replace("\\", "") for p in pattern_cnt if pattern_cnt[p] == 0}
exempt_patterns = {
# We exempt some patterns that are called via Tornado.
"api/v1/events",
"api/v1/events/internal",
"api/v1/register",
# We also exempt some development environment debugging
# static content URLs, since the content they point to may
# or may not exist.
"coverage/(?P<path>.+)",
"confirmation_key/",
"node-coverage/(?P<path>.+)",
"docs/(?P<path>.+)",
"help/change-the-topic-of-a-message",
"help/configure-missed-message-emails",
"help/community-topic-edits",
"help/delete-a-stream",
"for/working-groups-and-communities/",
"help/only-allow-admins-to-add-emoji",
"api/delete-stream",
"casper/(?P<path>.+)",
"static/(?P<path>.+)",
"flush_caches",
"external_content/(?P<digest>[^/]+)/(?P<received_url>[^/]+)",
*(webhook.url for webhook in WEBHOOK_INTEGRATIONS if not include_webhooks),
}
untested_patterns -= exempt_patterns
var_dir = "var" # TODO make sure path is robust here
fn = os.path.join(var_dir, "url_coverage.txt")
with open(fn, "wb") as f:
for call in calls:
f.write(orjson.dumps(call, option=orjson.OPT_APPEND_NEWLINE))
if full_suite:
print(f"INFO: URL coverage report is in {fn}")
print("INFO: Try running: ./tools/create-test-api-docs")
if full_suite and len(untested_patterns): # nocoverage -- test suite error handling
print("\nERROR: Some URLs are untested! Here's the list of untested URLs:")
for untested_pattern in sorted(untested_patterns):
print(f" {untested_pattern}")
sys.exit(1)
def load_subdomain_token(response: HttpResponse) -> ExternalAuthDataDict:
assert isinstance(response, HttpResponseRedirect)
token = response.url.rsplit("/", 1)[1]
data = ExternalAuthResult(login_token=token, delete_stored_data=False).data_dict
assert data is not None
return data
FuncT = TypeVar("FuncT", bound=Callable[..., None])
def use_s3_backend(method: FuncT) -> FuncT:
@mock_s3
@override_settings(LOCAL_UPLOADS_DIR=None)
def new_method(*args: Any, **kwargs: Any) -> Any:
zerver.lib.upload.upload_backend = S3UploadBackend()
try:
return method(*args, **kwargs)
finally:
zerver.lib.upload.upload_backend = LocalUploadBackend()
return new_method
def create_s3_buckets(*bucket_names: str) -> List[Bucket]:
session = boto3.Session(settings.S3_KEY, settings.S3_SECRET_KEY)
s3 = session.resource("s3")
buckets = [s3.create_bucket(Bucket=name) for name in bucket_names]
return buckets
def use_db_models(
method: Callable[["MigrationsTestCase", StateApps], None]
) -> Callable[["MigrationsTestCase", StateApps], None]: # nocoverage
def method_patched_with_mock(self: "MigrationsTestCase", apps: StateApps) -> None:
ArchivedAttachment = apps.get_model("zerver", "ArchivedAttachment")
ArchivedMessage = apps.get_model("zerver", "ArchivedMessage")
ArchivedUserMessage = apps.get_model("zerver", "ArchivedUserMessage")
Attachment = apps.get_model("zerver", "Attachment")
BotConfigData = apps.get_model("zerver", "BotConfigData")
BotStorageData = apps.get_model("zerver", "BotStorageData")
Client = apps.get_model("zerver", "Client")
CustomProfileField = apps.get_model("zerver", "CustomProfileField")
CustomProfileFieldValue = apps.get_model("zerver", "CustomProfileFieldValue")
DefaultStream = apps.get_model("zerver", "DefaultStream")
DefaultStreamGroup = apps.get_model("zerver", "DefaultStreamGroup")
EmailChangeStatus = apps.get_model("zerver", "EmailChangeStatus")
Huddle = apps.get_model("zerver", "Huddle")
Message = apps.get_model("zerver", "Message")
MultiuseInvite = apps.get_model("zerver", "MultiuseInvite")
UserTopic = apps.get_model("zerver", "UserTopic")
PreregistrationUser = apps.get_model("zerver", "PreregistrationUser")
PushDeviceToken = apps.get_model("zerver", "PushDeviceToken")
Reaction = apps.get_model("zerver", "Reaction")
Realm = apps.get_model("zerver", "Realm")
RealmAuditLog = apps.get_model("zerver", "RealmAuditLog")
RealmDomain = apps.get_model("zerver", "RealmDomain")
RealmEmoji = apps.get_model("zerver", "RealmEmoji")
RealmFilter = apps.get_model("zerver", "RealmFilter")
Recipient = apps.get_model("zerver", "Recipient")
Recipient.PERSONAL = 1
Recipient.STREAM = 2
Recipient.HUDDLE = 3
ScheduledEmail = apps.get_model("zerver", "ScheduledEmail")
ScheduledMessage = apps.get_model("zerver", "ScheduledMessage")
Service = apps.get_model("zerver", "Service")
Stream = apps.get_model("zerver", "Stream")
Subscription = apps.get_model("zerver", "Subscription")
UserActivity = apps.get_model("zerver", "UserActivity")
UserActivityInterval = apps.get_model("zerver", "UserActivityInterval")
UserGroup = apps.get_model("zerver", "UserGroup")
UserGroupMembership = apps.get_model("zerver", "UserGroupMembership")
UserHotspot = apps.get_model("zerver", "UserHotspot")
UserMessage = apps.get_model("zerver", "UserMessage")
UserPresence = apps.get_model("zerver", "UserPresence")
UserProfile = apps.get_model("zerver", "UserProfile")
zerver_models_patch = mock.patch.multiple(
"zerver.models",
ArchivedAttachment=ArchivedAttachment,
ArchivedMessage=ArchivedMessage,
ArchivedUserMessage=ArchivedUserMessage,
Attachment=Attachment,
BotConfigData=BotConfigData,
BotStorageData=BotStorageData,
Client=Client,
CustomProfileField=CustomProfileField,
CustomProfileFieldValue=CustomProfileFieldValue,
DefaultStream=DefaultStream,
DefaultStreamGroup=DefaultStreamGroup,
EmailChangeStatus=EmailChangeStatus,
Huddle=Huddle,
Message=Message,
MultiuseInvite=MultiuseInvite,
UserTopic=UserTopic,
PreregistrationUser=PreregistrationUser,
PushDeviceToken=PushDeviceToken,
Reaction=Reaction,
Realm=Realm,
RealmAuditLog=RealmAuditLog,
RealmDomain=RealmDomain,
RealmEmoji=RealmEmoji,
RealmFilter=RealmFilter,
Recipient=Recipient,
ScheduledEmail=ScheduledEmail,
ScheduledMessage=ScheduledMessage,
Service=Service,
Stream=Stream,
Subscription=Subscription,
UserActivity=UserActivity,
UserActivityInterval=UserActivityInterval,
UserGroup=UserGroup,
UserGroupMembership=UserGroupMembership,
UserHotspot=UserHotspot,
UserMessage=UserMessage,
UserPresence=UserPresence,
UserProfile=UserProfile,
)
zerver_test_helpers_patch = mock.patch.multiple(
"zerver.lib.test_helpers",
Client=Client,
Message=Message,
Subscription=Subscription,
UserMessage=UserMessage,
UserProfile=UserProfile,
)
zerver_test_classes_patch = mock.patch.multiple(
"zerver.lib.test_classes",
Client=Client,
Message=Message,
Realm=Realm,
Recipient=Recipient,
Stream=Stream,
Subscription=Subscription,
UserProfile=UserProfile,
)
with zerver_models_patch, zerver_test_helpers_patch, zerver_test_classes_patch:
method(self, apps)
return method_patched_with_mock
def create_dummy_file(filename: str) -> str:
filepath = os.path.join(settings.TEST_WORKER_DIR, filename)
with open(filepath, "w") as f:
f.write("zulip!")
return filepath
def zulip_reaction_info() -> Dict[str, str]:
return dict(
emoji_name="zulip",
emoji_code="zulip",
reaction_type="zulip_extra_emoji",
)
@contextmanager
def mock_queue_publish(
method_to_patch: str,
**kwargs: object,
) -> Iterator[mock.MagicMock]:
inner = mock.MagicMock(**kwargs)
# This helper ensures that events published to the queues are
# serializable as JSON; unserializable events would make RabbitMQ
# crash in production.
def verify_serialize(
queue_name: str,
event: Dict[str, object],
processor: Optional[Callable[[object], None]] = None,
) -> None:
marshalled_event = orjson.loads(orjson.dumps(event))
assert marshalled_event == event
inner(queue_name, event, processor)
with mock.patch(method_to_patch, side_effect=verify_serialize):
yield inner
def patch_queue_publish(
method_to_patch: str,
) -> Callable[[Callable[..., None]], Callable[..., None]]:
def inner(func: Callable[..., None]) -> Callable[..., None]:
@wraps(func)
def _wrapped(*args: object, **kwargs: object) -> None:
with mock_queue_publish(method_to_patch) as m:
func(*args, m, **kwargs)
return _wrapped
return inner