11 KiB
Writing a new application feature
The changes needed to add a new feature will vary, of course, but this document provides a general outline of what you may need to do, as well as an example of the specific steps needed to add a new feature: adding a new option to the application that is dynamically synced through the data system in real-time to all browsers the user may have open.
As you read this, you may find you need to learn about Zulip's real-time push system; the real-time push and events documentation has a detailed explanation of how everything works.
General Process in brief
Adding a field to the database
Update the model: The server accesses the underlying database in
zerver/ models.py
. Add a new field in the appropriate class.
Create and run the migration: To create and apply a migration, run:
./manage.py makemigrations
./manage.py migrate
Test your changes: Once you've run the migration, restart memcached
on your development server (/etc/init.d/memcached restart
) and then
restart run-dev.py
to avoid interacting with cached objects.
Backend changes
Database interaction: Add any necessary code for updating and
interacting with the database in zerver/lib/actions.py
. It should
update the database and send an event announcing the change.
Application state: Modify the fetch_initial_state_data
and
apply_events
functions in zerver/lib/actions.py
to update the state
based on the event you just created.
Backend implementation: Make any other modifications to the backend required for your change.
New views: Add any new application views to zerver/urls.py
. This
includes both views that serve HTML (new pages on Zulip) as well as new
API endpoints that serve JSON-formatted data.
Testing: At the very least, add a test of your event data flowing
through the system in test_events.py
.
Frontend changes
JavaScript: Zulip's JavaScript is located in the directory
static/js/
. The exact files you may need to change depend on your
feature. If you've added a new event that is sent to clients, be sure to
add a handler for it to static/js/server_events.js
.
CSS: The primary CSS file is static/styles/zulip.css
. If your new
feature requires UI changes, you may need to add additional CSS to this
file.
Templates: The initial page structure is rendered via Jinja2
templates located in templates/zerver
. For JavaScript, Zulip uses
Handlebars templates located in static/templates
. Templates are
precompiled as part of the build/deploy process.
Testing: There are two types of frontend tests: node-based unit
tests and blackbox end-to-end tests. The blackbox tests are run in a
headless browser using Casper.js and are located in
frontend_tests/casper_tests/
. The unit tests use Node's assert
module are located in frontend_tests/node_tests/
. For more
information on writing and running tests see the testing
documentation.
Example Feature
This example describes the process of adding a new setting to Zulip: a flag that restricts inviting new users to admins only (the default behavior is that any user can invite other users). It is based on an actual Zulip feature, and you can review the original commit in the Zulip git repo. (Note that Zulip has since been upgraded from Django 1.6 to 1.8, so the migration format has changed.)
Update the model
First, update the database and model to store the new setting. Add a new
boolean field, invite_by_admins_only
, to the Realm model in
zerver/models.py
.
--- a/zerver/models.py
+++ b/zerver/models.py
@@ -139,6 +139,7 @@ class Realm(ModelReprMixin, models.Model):
restricted_to_domain = models.BooleanField(default=True) # type: bool
invite_required = models.BooleanField(default=False) # type: bool
+ invite_by_admins_only = models.BooleanField(default=False) # type: bool
create_stream_by_admins_only = models.BooleanField(default=False) # type: bool
mandatory_topics = models.BooleanField(default=False) # type: bool
Create the migration
Create the migration file: ./manage.py makemigrations
. Make sure to
commit the generated file to git: git add zerver/migrations/NNNN_realm_invite_by_admins_only.py
(NNNN is a number that is equal to the number of migrations.)
If you run into problems, the Django migration documentation is helpful.
Test your migration changes
Apply the migration: ./manage.py migrate
Output:
shell $ ./manage.py migrate
Operations to perform:
Synchronize unmigrated apps: staticfiles, analytics, pipeline
Apply all migrations: zilencer, confirmation, sessions, guardian, zerver, sites, auth, contenttypes
Synchronizing apps without migrations:
Creating tables...
Running deferred SQL...
Installing custom SQL...
Running migrations:
Rendering model states... DONE
Applying zerver.0026_realm_invite_by_admins_only... OK
Handle database interactions
Next, we will move on to implementing the backend part of this feature. Like typical apps, we will need our backend to update the database and send some response to the client that made the request.
Beyond that, we need to orchestrate notifications to other
clients (or other users, if you will) that our setting has changed.
Clients find out about settings through two closely related code
paths. When a client first contacts the server, the server sends
the client its initial state. Subsequently, clients subscribe to
"events," which can (among other things) indicate that settings have
changed. For the backend piece, we will need our action to make a call to
send_event
to send the event to clients that are active. We will
also need to modify fetch_initial_state_data
so that future clients
see the new changes.
Anyway, getting back to implementation details...
In zerver/lib/actions.py
, create a new function named
do_set_realm_invite_by_admins_only
. This function will update the
database and trigger an event to notify clients when this setting
changes. In this case there was an existing realm|update
event type
which was used for setting similar flags on the Realm model, so it was
possible to add a new property to that event rather than creating a new
one. The property name matches the database field to make it easy to
understand what it indicates.
The second argument to send_event
is the list of users whose browser
sessions should be notified. Depending on the setting, this can be a
single user (if the setting is a personal one, like time display
format), only members in a particular stream or all active users in a
realm. :
# zerver/lib/actions.py
def do_set_realm_invite_by_admins_only(realm, invite_by_admins_only):
realm.invite_by_admins_only = invite_by_admins_only
realm.save(update_fields=['invite_by_admins_only'])
event = dict(
type="realm",
op="update",
property='invite_by_admins_only',
value=invite_by_admins_only,
)
send_event(event, active_user_ids(realm))
return {}
Update application state
You then need to add code that will handle the event and update the
application state. In zerver/lib/events.py
update the
fetch_initial_state
and apply_events
functions. :
def fetch_initial_state_data(user_profile, event_types, queue_id):
# ...
state['realm_invite_by_admins_only'] = user_profile.realm.invite_by_admins_only`
In this case you don't need to change apply_events
because there is
already code that will correctly handle the realm update event type: :
def apply_events(state, events, user_profile):
for event in events:
# ...
elif event['type'] == 'realm':
field = 'realm_' + event['property']
state[field] = event['value']
Add a new view
You then need to add a view for clients to access that will call the
newly-added actions.py
code to update the database. This example
feature adds a new parameter that should be sent to clients when the
application loads and be accessible via JavaScript, and there is already
a view that does this for related flags: update_realm
. So in this
case, we can add out code to the existing view instead of creating a
new one. :
# zerver/views/__init__.py
def home(request):
# ...
page_params = dict(
# ...
realm_invite_by_admins_only = register_ret['realm_invite_by_admins_only'],
# ...
)
Since this feature also adds a checkbox to the admin page, and adds a
new property the Realm model that can be modified from there, you also
need to make changes to the update_realm
function in the same file: :
# zerver/views/realm.py
def update_realm(request, user_profile, name=REQ(validator=check_string, default=None),
restricted_to_domain=REQ(validator=check_bool, default=None),
invite_required=REQ(validator=check_bool, default=None),
...more arguments):
# ...
if invite_by_admins_only is not None and
realm.invite_by_admins_only != invite_by_admins_only:
do_set_realm_invite_by_admins_only(realm, invite_by_admins_only)
data['invite_by_admins_only'] = invite_by_admins_only
Then make the required front end changes: in this case a checkbox needs to be added to the admin page (and its value added to the data sent back to server when a realm is updated) and the change event needs to be handled on the client.
To add the checkbox to the admin page, modify the relevant template,
static/templates/admin_tab.handlebars
(omitted here since it is
relatively straightforward). Then add code to handle changes to the new
form control in static/js/admin.js
. :
var url = "/json/realm";
var new_invite_by_admins_only =
$("#id_realm_invite_by_admins_only").prop("checked");
data[invite_by_admins_only] = JSON.stringify(new_invite_by_admins_only);
channel.patch({
url: url,
data: data,
success: function (data) {
# ...
if (data.invite_by_admins_only) {
ui.report_success("New users must be invited by an admin!", invite_by_admins_only_status);
} else {
ui.report_success("Any user may now invite new users!", invite_by_admins_only_status);
}
# ...
}
});
Finally, update server_events.js
to handle related events coming from
the server. :
# static/js/server_events.js
function dispatch_normal_event(event) {
switch (event.type) {
# ...
case 'realm':
if (event.op === 'update' && event.property === 'invite_by_admins_only') {
page_params.realm_invite_by_admins_only = event.value;
}
}
}
Any code needed to update the UI should be placed in
dispatch_normal_event
callback (rather than the channel.patch
)
function. This ensures the appropriate code will run even if the
changes are made in another browser window. In this example most of
the changes are on the backend, so no UI updates are required.