This commit adds the following:
1. A reaction model that consists of a user, a message and an emoji that
are unique together (a user cannot react to a particular message more
than once with the same emoji)
2. A reaction event that looks like:
{
'type': 'reaction',
'op': 'add',
'message_id': 3,
'emoji_name': 'doge',
'user': {
'user_id': 1,
'email': 'hamlet@zulip.com',
'full_name': 'King Hamlet'
}
}
3. A new API endpoint, /reactions, that accepts POST requests to add a
reaction to a message
4. A migration to add the new model to the database
5. Tests that check that
(a) Invalid requests cannot be made
(b) The reaction event body contains all the info
(c) The reaction event is sent to the appropriate users
(d) Reacting more than once fails
It is still missing important features like removing emoji and
fetching them alongside messages.
Refactor list_to_streams and create_streams_if_needed to take a list
of dictionaries, instead of a list of stream names. This is
preparation for being able to pass additional arguments into the
stream creation process.
An important note: This removes a set of validation code from the
start of add_subscriptions_backend; doing so is correct because
list_to_streams has that same validation code already.
[with some tweaks by tabbott for clarity]
Previously, if a new message arrived between when a user is subscribed
to the default streams and when the user's initial messages are
queried, we would try to create two UserMessage rows for the same
Message, resulting in an IntegrityError crash. We fix this and add a
test for that race condition.
send_event() expects a list of user ids (ints) except for the special case
of messages. This commit:
1. Fixes this in the call to send_event() in do_send_typing_notification()
2. Renames the variables in do_send_typing_notification() to better reflect
their content (for example, recipient_ids instead of recipients).
3. Renames the id field in the dicts sent in the typing event body (sender,
recipients) to user_id.
4. Adds assertions to the tests to verify that the tornado event user ids
are the same as the recipients in the event body.
5. Adds assertions to the tests to verify that the tornado event user
ids and the recipient user ids (in the event body) are the same as the
expected user ids (obtained from the emails using
get_user_profile_by_email)
6. Changes all assertTrues to assertEquals in the tests
This fixes#2151.
If a stream is public, we now send notifications to all realm users
if the name or description of the stream changes. For private
streams, the behavior remains the same.
We do this by introducing a method called
can_access_stream_user_ids().
(showell helped with this fix)
Fixes#2195
Previously, we set restrict_to_domain and invite_required differently
depending on whether we were setting up a community or a corporate
realm. Setting restrict_to_domain requires validation on the domain of the
user's email, which is messy in the web realm creation flow, since we
validate the user's email before knowing whether the user intends to set up
a corporate or community realm. The simplest solution is to have the realm
creation flow impose as few restrictions as possible (community defaults),
and then worry about restrict_to_domain etc. after the user is already in.
We set the test suite to explictly use the old defaults, since several of
the tests depend on the old defaults.
This commit adds a database migration.
We now send dictionaries for cross-realm bots. This led to the
following changes:
* Create get_cross_realm_dicts() in actions.py.
* Rename the page_params field to cross_realm_bots.
* Fix some back end tests.
* Add cross_realm_dict to people.js.
* Call people.add for cross-realm bots (if they are not already part of the realm).
* Remove hack to add in feedback@zulip.com on the client side.
* Add people.is_cross_realm_email() and use it in compose.js.
* Remove util.string_in_list_case_insensitive().
In preparation for a change to do_create_realm where we will use the
database default for restricted_to_domain rather than computing it within
do_create_realm, and due to which do_create_realm will no longer know
whether we are creating an open realm or not.
Does a database migration to rename Realm.subdomain to
Realm.string_id, and makes Realm.subdomain a property. Eventually,
Realm.string_id will replace Realm.domain as the handle by which we
retrieve Realm objects.
We now simply exclude all cross-realm bots from the set of emails
under consideration, and then if the remaining emails are all in
the same realm, we're good.
This fix changes two behaviors:
* You can no longer send a PM to an ordinary user in another realm
by piggy-backing a cross-realm bot on to the message. (This was
basically a bug, but it would never manifest under current
configurations.)
* You will be able to send PMs to multiple cross-realm bots at once.
(This was an arbitrary restriction. We don't really care about this
scenario much yet, and it fell out of the new implementation.)
This is a preliminary step towards eliminating the realm.domain field
in favor of realm.subdomain. Includes a database migration to create
these for existing realms.
When we added data on never_subscribed streams to what
populate_subscribers is called on, we failed to add the corresponding
data on subscribers to email_dict, the mapping of user IDs to emails
for the subscribers.
Because in the Zephyr world, stream names can be a secret, and also
Zephyr mirroring tends to involve many thousands of streams, we
shouldn't send this data.
POST to /typing creates a typing event
Required parameters are 'op' ('start' or 'stop') and 'to' (recipient
emails). If there are multiple recipients, the 'to' parameter
should be a JSON string of the list of recipient emails.
The event created looks like:
{
'type': 'typing',
'op': 'start',
'sender': 'hamlet@zulip.com',
'recipients': [{
'id': 1,
'email': 'othello@zulip.com'
}]
}
We now send peer_remove events to folks who have never subscribed
to the streams (except for private streams and zephyr).
We also use logic that is more similar to how
bulk_add_subscriptions() works.
There are two reasons for this change. First, we want to be
consistent with notify_subscriptions_added(), which doesn't
handle "peer" events. Second, we want to fix this code in a
subsequent commit not to do one user at a time, which is
inefficient.
merge_vars is the user meta data we store in mailchimp. This commit changes
what we store from realm.domain to realm.id, since realm.domain is being
deprecated, and changes the OPTIN_TIME to a nicer format.
This changes `from django.utils.importlib import import_module` to
`from importlib import import_module`, as `django.utils.importlib` will
be removed in django version 1.9.
Adds a new field org_type to Realm. Defaults for restricted_to_domain
and invite_required are now controlled by org_type at time of realm
creation (see zerver.lib.actions.do_create_realm), rather than at the
database level. Note that the backend defaults are all
org_type=corporate, since that matches the current assumptions in the
codebase, whereas the frontend default is org_type=community, since if
a user isn't sure they probably want community.
Since we will likely in the future enable/disable various
administrative features based on whether an organization is corporate
or community, we discuss those issues in the realm creation form.
Before we actually implement any such features, we'll want to make
sure users understand what type of organization they are a member of.
Choice of org_type (via radio button) has been added to the realm
creation flow and the realm creation management command, and the
open-realm option removed.
The database defaults have not been changed, which allows our testing code
to work unchanged.
[includes some HTML/CSS work by Brock Whittaker to make it look nice]
This pulls message-related code from models.py into a new
module called message.py, and it starts to break some bugdown
dependencies. All the methods here are basically related to
serializing Message objects as dictionaries for caches and
events.
extract_message_dict
stringify_message_dict
message_to_dict
message_to_dict_json
MessageDict.to_dict_uncached
MessageDict.to_dict_uncached_helper
MessageDict.build_dict_from_raw_db_row
MessageDict.build_message_dict
This fix also removes a circular dependency related
to get_avatar_url.
Also, there was kind of a latent bug in Message.need_to_render_content
where it was depending on other calls to Message to import bugdown
and set it globally in the namespace. We really need to just
eliminate the function, since it's so small and used by code that
may be doing very sketchy things, but for now I just fix it. (The
bug would possibly be exposed by moving build_message_dict out to the
library.)
I move these three functions to lib/cache.py:
to_dict_cache_key_id
to_dict_cache_key
flush_message
This will prepare us for a more significant refactoring that
eventually breaks down some circular dependencies with
Message and bugdown.
This adds support for running a Zulip production server with each
realm on its own unique subdomain, e.g. https://realm_name.example.com.
This patch includes a ton of important features:
* Configuring the Zulip sesion middleware to issue cookier correctly
for the subdomains case.
* Throwing an error if the user tries to visit an invalid subdomain.
* Runs a portion of the Casper tests with REALMS_HAVE_SUBDOMAINS
enabled to test the subdomain signup process.
* Updating our integrations documentation to refer to the current subdomain.
* Enforces that users can only login to the subdomain of their realm
(but does not restrict the API; that will be tightened in a future commit).
Note that toggling settings.REALMS_HAVE_SUBDOMAINS on a live server is
not supported without manual intervention (the main problem will be
adding "subdomain" values for all the existing realms).
[substantially modified by tabbott as part of merging]
We can now rely on UserProfile.last_reminder being time zone
aware, or even if it isn't, it's a self-correcting problem the
first time a reminder is sent. (It's a non-problem to be off
by a few timezones if somebody still has an old value there, because
they will still be outside the 1-minute nag window even with the
timezone disparity.)
We no longer use all the alert words for all the users in the
entire realm when we look for alert words in a newly sent/edited
message. Now we limit the search to only all the alert words
for all the users who will get UserMessage records. This will
hopefully make a big difference for big realms where most messages
are only sent to a small subset of users.
The bugdown parser no longer has a concept of which users need which
alert words, since it can't really do anything actionable with that info
from a rendering standpoint.
Instead, our calling code passes in a set of search words to the parser.
The parser returns the list of words it finds in the message.
Then the model method builds up the list of user ids that should be
flagged as having alert words in the message.
This refactoring is a little more involved than I'd like, but there are
still some circular dependency issues with rendering code, so I need to
pass in the rather complicated realm_alert_words data structure all the way
from the action through the model to the renderer.
This change shouldn't change the overall behavior of the system, except
that it does remove some duplicate regex checks that were occurring when
multiple users may have had the same alert word.
We now use render_incoming_message() to render all incoming
new messages (sends/edits), so that they will get the same treatment.
This change also establishes do_send_messages() as the code
path to get new messages rendered. It removes some
logic from check_message() that only happened on certain code paths
for sending messages, and which would only detect failures by
expensively rendering messages, so it wasn't much of a guard.
This change also helps to phase out maybe_render_content(), which
deepens the call stack without providing much clarity to the reader,
since it's behavior is so variable.
Finally, this sets up to fix a flaw in the way we compute which
users have alert words in their messages (in a subsequent commit).
We now raise an exception in bugdown.do_convert() if rendering
fails, to avoid silent failures, and then calling code can convert
the exception to a JsonableError.
This sends an event when a new avatar is uploaded that refreshes the
avatar for all browser clients without the need to reload the browser.
Fixes: #1359.
Most directly useful for the migration to zulipchat.com.
Creates a new field in UserProfile to store the tos_version, as well as two
new settings TOS_VERSION and FIRST_TIME_TOS_TEMPLATE. We check for a version
mismatch between what the user has signed and the current
settings.TOS_VERSION whenever the user hits the home page, and redirect them
if needed.
Note that accounts_accept_terms.html and
zerver.views.accounts_accept_terms were unused before this commit
(they date from c327446537)
Adds a new field default language in the zerver_realm model.
This realm level default language will be used as default language
for newly created users. Realm level default language can be
changed from the administration page.
Fixes#1372.
This function is only called in cases where user_profile isn't None,
and the code reads better if we just check that first rather than
checking it on every line that accesses user_profile.
This allows the frontend to fetch data on the subscribers list (etc.)
for streams where the user has never been subscribed, making it
possible to implement UI showing details like subscribe counts on the
subscriptions page.
This is likely a performance regression for very large teams with
large numbers of streams; we'll want to do some testing to determine
the impact (and thus whether we should make this feature only fully
enabled for larger realms).
There were a bunch of authorization and well-formedness checks in
zerver.lib.actions.do_update_message that I moved to
zerver.views.messages.update_message_backend.
Reason: by convention, functions in actions.py complete their actions;
error checking should be done outside the file when possible.
Fixes: #1150.
This is controlled through the admin tab and a new field in the Realms table.
Notes:
* The admin tab setting takes a value in minutes, whereas the backend stores it
in seconds.
* This setting is unused when allow_message_editing is false.
* There is some generosity in how the limit is enforced. For instance, if the
user sees the hovering edit button, we ensure they have at least 5 seconds to
click it, and if the user gets to the message edit form, we ensure they have
at least 10 seconds to make the edit, by relaxing the limit.
* This commit also includes a countdown timer in the message edit form.
Resolves#903.
This is controlled through the admin tab and a new field in the Realms
table. This mirrors the behavior of the old hardcoded setting
feature_flags.disable_message_editing. Partially resolves#903.
Originally this cache was used to transmit data from Django to Tornado
(and also for general message caching purposes), but now nothing
actually reads from this cache, so we can eliminate it.
The functions truncate_content, truncate_body and truncate_topic
are only meant to be used on text strings. So change its
parameter types from AnyStr to text_type.
Change choices of UserProfile.avatar_sources and UserProfile.tutorial_status
from str literals to unicode literals. This is done because these fields
are CharFields, which are of type `six.text_type`. So the set of values
which they can take should also be of the type `six.text_type`.
Also fix clashing annotations.
str_utils.py has functions for converting strings from one type to
another. It also has a TypeVar called NonBinaryStr, which is like AnyStr
except that it doesn't allow bytes.
[Substantially revised by tabbott]
This probably still has some bugs in it, but having mostly complete
annotations for models.py will help a lot for the annotations folks
are adding to other files.
In function bulk_add_subscriptions, some variables were named
`stream_name` but their type is Stream, not a string. Rename
those variables to `stream`.
Long ago, there was work on an experimental integration model where
every user in a realm would have administrative control over all bots,
with the goal of simplifying the process of setting up communally
administered bots for smaller teams. While that new model was never
fully implemented (and thus never setup as an option), an error in
that original implementation meant that the data on all bots in a
realm, including their API keys, was sent to the browsers of users via
the `realm_bots` variable in `page_params`. The data wasn't displayed
in the UI for non-admin users, but was available via e.g. the
javascript console.
This commit updates this behavior to only send sensitive bot data like
API keys to the owner of the bot (and realm admins).
We may in the future implement a model simplifying communally
administered integrations, but if we do that, those bots should be
limited in their capabilities (e.g. only able to send webhook
messages).
This bug has been present since Zulip was released as open source.
The old code for this lookup was unnecessarily complicated because we
were working around Guardian, where the `is_realm_admin` check was
extremely expensive.
This commit adds the capability to keep track and remove uploaded
files. Unclaimed attachments are files that have been uploaded to the
server but are not referred in any messages. A management command to
remove old unclaimed files after a week is also included.
Tests for getting the file referred in messages are also included.
Previously we needed to use a specified password when activating a
formerly mirror dummy user, in order for that user to be able to
(re)set their password and login. Now that we have our own password
reset form, this is no longer required.
As documented in https://github.com/zulip/zulip/issues/441, Guardian
has quite poor performance, and in fact almost 50% of the time spent
running the Zulip backend test suite on my laptop was inside Guardian.
As part of this migration, we also clean up the old API_SUPER_USERS
variable used to mark EMAIL_GATEWAY_BOT as an API super user; now that
permission is managed entirely via the database.
When rebasing past this commit, developers will need to do a
`manage.py migrate` in order to apply the migration changes before the
server will run again.
We can't yet remove Guardian from INSTALLED_APPS, requirements.txt,
etc. in this release, because otherwise the reverse migration won't
work.
Fixes#441.