We combine run_message_batch_query and run_archiving_in_chunks
functions, which makes the code simpler and more readable - we get rid
of hacky generator usage, for example.
In the process, move_expired_messages_* functions are adjusted, and now
they archive Messages as well as their related objects.
Appropriate adjustments in reaction to this are made in the main
archiving functions which call move_expired_messages_* (they no longer
need to call move_related_objects_to_archive).
Instead of having a bunch of custom code in the function, we make it use
run_message_batch_query and run_archiving_in_chunks to do the necessary
operations in a consistent way, using the same codepaths as the rest of
the archiving system.
This breaks test_archiving_messages_second_time temporarily, but we will
fix it and re-enable the test in the next commits, where we'll address
various other issues with re-archiving of messages.
We also remove the @transaction.atomic wrapper, because atomicity is
handled by the logic inside run_archiving_in_chunks.
We add a new model, ArchiveTransaction, to tie archived objects together
in a coherent way, according to the batches in which they are archived.
This enables making a better system for restoring from archive, and it
seems just more sensible to tie the archived objects in this way, rather
the somewhat vague setting of archive_timestamp to each object using
timezone_now().
Now that we have a system for storing HTTP headers for each integration, we
should fix the send_all button. Previously, it used the same user entered
custom HTTP header (from the GUI) for all of the fixtures, but now we
automatically determine the header with the new system instead.
For storing HTTP headers as a function of fixture name, previously
we required that the fixture_to_headers method should reside in a
separate module called headers.py.
However, as in many cases, this method will only take a few lines,
we decided to move this function into the view.py file of the
integration instead of requiring a whole new file called headers.py
This commit introduces the small change in the system architecture,
migrates the GitHub integration, and updates the docs accordingly.
In the GitHub integration we established that for many integrations,
we can directly map the fixture filename to the set of required
headers and by following a simple naming convention we can greatly
ease the logic involved in fixture_to_headers method required .
So to prevent the need for duplicating the logic used by the GitHub
integration, we created a method called `get_http_headers_from_filename`
which will take the name of the HTTP header (key) and then return a
corresponding method (in a decorator-like fashion) which could then be
equated to fixture_to_headers in headers.py.
The GitHub integration was modified to use this method and the docs
were updated to suggest using this when possible.
This fixes the mis-alphabetized `fluid_layout_width` at few places in
the codebase, along with that it also fixes sorting order of
`property_types` dictionary in models.py and few model fields of
`UserProfile` model class.
The markup output changed but the rendering is the same, so modified
expected output in tests.
There is a regression introduced in one of the new versions of KaTeX,
which produces a warning in our node tests:
```
No character metrics for ' ' in style 'Main-Bold'
```
but the rendering is correct so we can ignore it.
Tracking issue: KaTeX/KaTeX#1994
Fixes#12472.
When parsing custom HTTP headers in the integrations dev panel, http
headers from fixtures system and the send_webhook_fixture_message
we now use a singular source of logic: standardize_headers which
will take care of converting a dictionary of input headers into a
standard form that Django expects.
Previously, our Github authentication backend just used the user's
primary email address associated with GitHub, which was a reasonable
default, but quite annoying for users who have several email addresses
associated with their GitHub account.
We fix this, by adding a new screen where users can select which of
their (verified) GitHub email addresses to use for authentication.
This is implemented using the "partial" feature of the
python-social-auth pipeline system.
Each email is displayed as a button. Clicking on that button chooses
the email. The email value is stored in a hidden input above the
button. The `primary_email` is displayed on top followed by
`verified_non_primary_emails`. Backend name is also passed as
`backend` to the template, which in our case is GitHub.
Fixes#9876.
Now that we store HTTP headers in a way that is easy to retreive
by specifying the integration name and fixture name, we should
use it to pre-load the "Custom HTTP Headers" field in the
integrations dev panel.
Using this system, we can now associate any fixture of any integration
with a particular set of HTTP headers. A helper method called
determine_http_headers was introduced, and the test suite was upgraded
to use determine_http_headers.
Comments and documentation significantly edited by tabbott.
This function is an alternative to get_admin_users that we use in all
places where we explicitly want only human administrative users (not
administrative bots). The following commits will rename
get_admin_users for better clarity.
The argument parser has default empty values set for the options
`--password` and `--password-file`, and this causes the script to try and
read a password file even when the argument was not provided.
Our recently-added code for rewriting user IDs on data import didn't
correctly handle wildcard mentions and mentions generated by very old
versions of Zulip (pre data-user-id).
The previous query ended up doing an awkward join that did not
guarantee use of the Recipient index on zerver_message, turning a very
fast query into something that could take much longer for a single
stream than the rest of the import combined.
We also document support for user IDs in the pm-with narrow operator.
Edited by tabbott to document on /api rather than in the /help page.
Fixes part of #9474.
If the event key is None, the handler content_func never gets
defined, which leads to an UnboundLocalError. This can be easily
avoided by having a dedicated function that handles the case for
when the event key is None.
Namely, here we add the "plan_includes_wide_organization_logo" and
"upgrade_text_for_wide_organization_logo" to the page_params (which
is set in zerver/lib/events.py).
"plan_includes_wide_organization_logo" is True if the plan is not of
the Realm.LIMITED type. We need to add this extra boolean parameter
instead of just using "realm_plan_type" to make things a lot easier
to work with on the frontend side, especially considering that
handlebars won't allow checking for equality in its {{#if}} blocks.
When a realm's plan type is updated using "do_change_plan_type" we
notify active users of the realm. This way certain plan features
could be enabled instantaneously for active users.
If the invoice was paid then the message should simply be
"Invoice is now paid." with a link to the invoice.
Also, suppress the "status_transitions" and "payment_intent"events.
A function was written in `test_fixtures.py` to drop a test database
template if the corresponding database id doesn't belong to a file.
Alongside this fact, every file that is written is removed after 60
minutes. Meaning any potential database template can never exist
longer than one hour.
This follow-up work was added to deal with the potential race
conditions when running `test-backend`. Ensuring that all templates
are properly dealt with.
Essentially rewritten by tabbott for cleanliness.
Fixes the remainder of #12426.
The ids that will be used for each particular run of the test suite are
written to a unique file. Each file will then be used as a time
reference of when the suite was ran.
This change sets up the ability for a complete clean up of potentially
leaked database templates.
Tweaked by tabbott to remove these files after successful database
cleanup.