I pushed a bunch of commits that attempted to introduce
the concept of `client_message_id` into our server, as
part of cleaning up our codepaths related to messages you
sent (both for the locally echoed case and for the host
case).
When we deployed this, we had some strange failures involving
double-echoed messages and issues advancing the pointer that appeared
related to #5779. We didn't get to the bottom of exactly why the PR
caused havoc, but I decided there was a cleaner approach, anyway.
We are deprecating local_id/local_message_id on the Python server.
Instead of the server knowing about the client's implementation of
local id, with the message id = 9999.01 scheme, we just send the
server an opaque id to send back to us.
This commit changes the name from local_id -> client_message_id,
but it doesn't change the actual values passed yet.
The goal for client_key in future commits will be to:
* Have it for all messages, not just locally rendered messages
* Not have it overlap with server-side message ids.
The history behind local_id having numbers like 9999.01 is that
they are actually interim message ids and the numerical value is
used for rendering the message list when we do client-side rendering.
Prior to this commit, 7 megabytes of images (through 253 individual requests)
were heavily slowing down the initial load. With this commit, we load only the
logos (60 or so images).
Documentation and images for the individual integration sub-pages is requested
separately using the /integrations/doc/ endpoint, which returns HTML.
This system hasn't been in active use for several years, and had some
problems with it's design. So it makes sense to just remove it to declutter
the codebase.
Fixes#5655.
The change password form http://localhost:9991/#settings/your-account
don't have data-min-length and data-min-quality attributes. The
account_settings.handlebar which has the change password form is
rendered client side. So we have to pass the value of min length
and quality in page params to set the data-min-length and
data-min-quality attributes.
This fixes a bug where we would previously not validate the format of
APNS tokens before writing them to the database, which could lead to
exceptions in the push notifications system if a buggy mobile app
submitted invalid format tokens.
This prevents users from accidentally sending a confirmation link
specific to their account to their Zulip administrator if they reply
to the invitation, invitation reminder, account confirmation, or new
email confirmation emails.
No change in behavior.
Also makes the first step towards converting all uses of
settings.ZULIP_ADMINISTRATOR and settings.NOREPLY_EMAIL_ADDRESS to
FromAddress.*.
Once everything is converted, it will be easier to ensure that future
development doesn't break backwards compatibility with the old style of
settings emails.
This will allow for customized senders for emails, e.g. 'Zulip Digest' for
digest emails and 'Zulip Missed Messages' for missed message emails.
Also:
* Converts the sender name to always be "Zulip", if the from_email used to
be settings.NOREPLY_EMAIL_ADDRESS or settings.ZULIP_ADMINISTRATOR.
* Changes the default value of settings.NOREPLY_EMAIL_ADDRESS in the
prod_setting_template to no longer have a display name. The only use of
that display name was in the email pathway.
Two wrinkles here:
* It's actually a little subtle why `ok_to_include_history` is
correct; in particular, it's not true that a term `stream:foo` will
always limit the query to the stream `foo`. For this, add an
explanatory comment backed up by an assert.
* The TODO comment in `messages_in_narrow_backend` about assuming this
is a search, I'm pretty sure doesn't matter; it seems to only be
saying that we return the set of fields we would for a search.
They're harmless to send, and in any case it doesn't appear to be
true anymore that the client only calls this for a search: the
`can_apply_locally` function also causes narrows with `has:` to go
to the server. So just take that comment out.
(After writing the term "invariant" a few times in these comments and
now this commit message, my inner mathematician reminds me that this
property is properly termed a "monovariant" -- something does change,
but it changes only in one direction. Pretty sure saying "invariant"
communicates better here, though.)
Revert to the use of `do_add_alert_words()` in `add_alert_words()`
instead of `do_set_alert_words()` since it is used for serving a
PUT request. This change seems to be mistakenly done in commit
`d564a76f8e45b24cd2c66475ef7693582fb2f5fc'.
I think it makes sense to wrest the email sending from confirmation, now
that we have a clean email-sending interface in send_email. A few other
reasons:
* send_confirmation is get_link_for_object followed by send_email, but those
two functions have no arguments in common.
* Sending email through confirmation obfuscates the context dict, and is a
relatively complicated piece of the codebase anyone trying to deal with
the email system has to understand.
* The three emails previously being sent through confirmation don't have
that much in common, other than that they happen to have a confirmation
link in them.
The .split('/')[-1] in registration.py is a hack, but a hack used several
places in the codebase, so maybe one day get_link_for_object will also
return the confirmation_key.
We're about to make a change where we no longer deal with confirmation
objects in these email pathways.
The "if settings.DEVELOPMENT and realm_creation" is a bit of a hack, but no
worse a hack as was there before, I think. I think it's also less confusing
if the method signature matches what happens in production.
Server settings should just be added to the context in build_email, so that
the individual email pathways (and later, the email testing framework)
doesn't have to worry about it.
Previously the rendering code in test_emails.py did not match the rendering
code in send_email.py. This commit removes the duplication to reduce the
chance they drift in the future.
This commit also changes test_emails.html to ensure that we always display
both the HTML and text versions of an email.