This makes it super easy for frontend code using this view code to
produce a nice display of the history.
This also fixes an off-by-one error with the timestamps.
This list was likely to end up out of date quickly, since it wasn't
documented that you need to update it when adding a queue. The best
solution is to just not require it to be updated.
Our lists of rabbitmq queues was likely to end up out of date, since
there was nothing enforcing that the various lists of queues were
correct or the same as each other.
Based on work by Kartik Maji in #1204.
This has a few significant changes from the original version:
* We correctly handle filling in data for topic edits
* Has a complete test suite verifying correctness of the logic
* Currently, it doesn't include a special "start" entry
Things we may want to further change include:
* Adding a special "start" entry.
* Reversing the order of the history data returned for clarity.
This is important for, in the future, being able to display who edited
the topic of a message if that wasn't the person who originally sent
the message.
The new behavior is:
(1) If enter-sends is enabled, just send the messsage.
(2) If enter-sends is not enabled, return focus to the compose area.
Based on great work by khantaalaman in #3673.
Fixes#3489.
Add a new section after the Hello World walkthrough for additional detail that
doesn't directly apply to this example. Included are discussions on creating
negative tests and handling custom query parameters.
Remaining integration of the material originally for #3478
Fill in additonal detail following the existing document structure.
Includes authentication, custom streams, negative tests, and types
of test data and fixtures. Also fix typos and reformat to match the
new integration doc style.
Partial integration of the material originally for #3478
This adds an assertion, when `test-backend` is run with `--coverage`,
that we have 100% test coverage on a list of files that we expect to.
There's a whitelist/blacklist, managed in tools/test-backend.
Fixes#3363.
Our URL routing previously attempting to segment the /users/ endpoint
namespace into /me (affecting yourself) or /username@domain (affecting
other users) by regular expressions incorrectly, specifically in the
case of email addresses starting with `me`. This prevented various
admin actions like removing a user as an organization administrator.
This is a fairly risky, invasive change that speeds up
stream deactivation by no longer sending subscription/remove
events for individual subscribers to all of the clients who
care about a stream. Instead, we let the client handle the
stream deactivation on a coarser level.
The back end changes here are pretty straightforward.
On the front end we handle stream deactivations by removing the
stream (as needed) from the streams sidebar and/or the stream
settings page. We also remove the stream from the internal data
structures.
There may be some edge cases where live updates don't handle
everything, such as if you are about to compose a message to a
stream that has been deactivated. These should be rare, as admins
generally deactivate streams that have been dormant, and they
should be recoverable either by getting proper error handling when
you try to send to the stream or via reload.
(There was a method with the same name before, but it wasn't
being used. The new version will accept stream_id instead
of name, and we will use it as part of deactivating streams.)
This fix prevents stream deactivation from being basically
un-usable for medium to large sites. Instead of calling
bulk_remove_subscriptions one at a time for every individual
member of the realm, we call it once for all the users that
care about the stream. This change makes a huge difference, but
the feature is still a bit clunky, and we should only temporarily
revert to this fix if future, more-invasive fixes have flaws.
Fixes#3631.
We were apparently incorrectly harcdoding the client for the main
logged-in site loading to website, rather than using the existing
logic that could sort out the desktop apps.
We already do detection of the client on the backend based on
User-Agent and the fact that it's a JSON view, which is pretty safe.
This fixes an issue where the server was not treating the Electron app
as its own client.
This significantly simplify the logic for our logging process, making
it the case that websockets message sending requests always are logged
as having the exact same client as a normal AJAX request from that
server.