Previously we were using regexes to extract the language from our
locale files. Now we use LANG_INFO data structure provided by Django
to do the same and fallback to PO files only when language code is not
present in the Django data structure.
In the UI we use locale as the code for the language. Django expects
language code. For Simplified Chinese, 'zh_Hans' is the locale which
maps to a directaory under static/locale, and 'zh-hans' is the language
code, which is used in settings.LANGUAGES setting found in Django.
This replaces the former non-functional StateHandler
stub with a dictionary-like state object. Accessing it will
will read and store strings in the BotUserStateData model.
Each bot has a limited state size. To enforce this limit while
keeping data updates efficient, StateHandler caches the expensive
query for getting a bot's total state size. Assignments to a key
then only need to fetch that entry's previous size, if any, and
compare it to the new entry's size.
Some bots have class names that differ from their module name,
e.g. `helloworld.py` vs. `HelloWorld`. Our tests should accept
all of these, as long as a handler class is present.
I think an hour after signup is not the right time to try to get someone to
re-engage with a product.
This also makes the day1 email clearly a transactional email both in
experiencing the product and in the eyes of various anti-spam laws, and
allows us to remove the unsubscribe link.
The rules here are fuzzy, and it's quite possible none of Zulip's emails
need an address at all. Every country has its own rules though, which makes
it hard to tell. In general, transactional emails do not need an address,
and marketing emails do.
This modifies the realm creation form to (1) support a
realm_in_root_domain flag and (2) clearly check whether the root
domain is available inside check_subdomain_available before trying to
create a realm with it; this should avoid IntegrityErrors.
We were doing an unnecessary database query on every user registration
checking the availability of the user's subdomain, when in fact this
is only required for realm creation.
This removes the utterly unnecessary `triggers` dict (which always was
a dict with exactly one value True) in favor of a single field,
'trigger'.
Inspired by Kunal Gupta's work in #6659.
Since a user could use the same installation of the Zulip mobile app
with multiple Zulip servers, correct behavior is to allow reusing the
same token with multiple Zulip servers in the RemotePushDeviceToken
model.
While the missedmessage_hook logic originally did a reasonably good
job of avoiding double-sending notifications, there was a corner case
it didn't handle, namely a user who had been presence-idle when a
message was sent and became also event-queue-idle as well within the
next 10 minutes. For those users, they got a notification at message
send time, and the missedmessage_hook would deliver it a second time.
We fix this by just checking the conveniently available push_notified
and email_notified variables that indicate whether the message already
had a notification triggered.
Fixes#7031.
This should mean that maintaining two Zulip development environments
using the same Git checkout no longer has caching problems keeping
track of the migration status.