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Secure, maintain, and upgrade
This page covers topics that will help you maintain a healthy, up-to-date, and secure Zulip installation, including:
You may also want to read this related content:
Upgrading
We recommend reading this entire section before doing your first upgrade.
To upgrade to a new version of the zulip server, download the appropriate release tarball from https://www.zulip.org/dist/releases/.
You also have the option of creating your own release tarballs from a
copy of the zulip.git repository using
tools/build-release-tarball
. And, starting with Zulip version 1.4,
you can upgrade Zulip to a version in a Git repository
directly.
Next, run as root:
/home/zulip/deployments/current/scripts/upgrade-zulip zulip-server-VERSION.tar.gz
The upgrade process will shut down the Zulip service and then run apt-get upgrade
, a
puppet apply, any database migrations, and then bring the Zulip service back
up. Upgrading will result in some brief downtime for the service, which should be
under 30 seconds unless there is an expensive transition involved. Unless you
have tested the upgrade in advance, we recommend doing upgrades at off hours.
Note that upgrading an existing Zulip production server from Ubuntu 14.04 Trusty to Ubuntu 16.04 Xenial will require significant manual intervention on your part to migrate the data in the database from Postgres 9.3 to Postgres 9.5. Contributions on testing and documenting this process are welcome!
Preserving local changes to configuration files
Warning: If you have modified configuration files installed by
Zulip (e.g. the nginx configuration), the Zulip upgrade process will
overwrite your configuration when it does the puppet apply
.
You can test whether this will happen assuming no upstream changes to
the configuration using scripts/zulip-puppet-apply
(without the
-f
option), which will do a test puppet run and output and changes
it would make. Using this list, you can save a copy of any files
that you've modified, do the upgrade, and then restore your
configuration.
If you need to do this, please report the issue so that we can make the Zulip puppet configuration flexible enough to handle your setup.
Troubleshooting with the upgrade log
The Zulip upgrade script automatically logs output to
/var/log/zulip/upgrade.log
. Please use those logs to include output
that shows all errors in any bug reports.
After the upgrade, we recommend checking /var/log/zulip/errors.log
to confirm that your users are not experiencing errors after the
upgrade.
Rolling back to a prior version
The Zulip upgrade process works by creating a new deployment under
/home/zulip/deployments/
containing a complete copy of the Zulip server code,
and then moving the symlinks at /home/zulip/deployments/current
and
/root/zulip
as part of the upgrade process.
This means that if the new version isn't working,
you can quickly downgrade to the old version by using
/home/zulip/deployments/<date>/scripts/restart-server
to return to
a previous version that you've deployed (the version is specified
via the path to the copy of restart-server
you call).
Updating settings
If required, you can update your settings by editing /etc/zulip/settings.py
and then run /home/zulip/deployments/current/scripts/restart-server
to
restart the server.
Applying Ubuntu system updates
While the Zulip upgrade script runs apt-get upgrade
, you are responsible for
running this on your system on a regular basis between Zulip upgrades to
ensure that it is up to date with the latest security patches.
API and your Zulip URL
To use the Zulip API with your Zulip server, you will need to use the
API endpoint of e.g. https://zulip.example.com/api
. Our Python
API example scripts support this via the
--site=https://zulip.example.com
argument. The API bindings
support it via putting site=https://zulip.example.com
in your
.zuliprc.
Every Zulip integration supports this sort of argument (or e.g. a
ZULIP_SITE
variable in a zuliprc file or the environment), but this
is not yet documented for some of the integrations (the included
integration documentation on /integrations
will properly document
how to do this for most integrations). We welcome pull requests for
integrations that don't discuss this!
Similarly, you will need to instruct your users to specify the URL for your Zulip server when using the Zulip desktop and mobile apps.
Memory leak mitigation
As a measure to mitigate the impact of potential memory leaks in one
of the Zulip daemons, the service automatically restarts itself
every Sunday early morning. See /etc/cron.d/restart-zulip
for the
precise configuration.
Upgrading from a git repository
Starting with version 1.4, the Zulip server supports doing deployments
from a Git repository. To configure this, you will need to add
zulip::static_asset_compiler
to your /etc/zulip/zulip.conf
file's
puppet_classes
entry, like this:
puppet_classes = zulip::voyager, zulip::static_asset_compiler
Then, run scripts/zulip-puppet-apply
to install the dependencies for
building Zulip's static assets. You can configure the git
repository that you'd like to use by adding a section like this to
/etc/zulip/zulip.conf
; by default it uses the main zulip
repository (shown below).
[deployment]
git_repo_url = https://github.com/zulip/zulip.git
Once that is done (and assuming the currently installed version of Zulip is new enough that this script exists), you can do deployments by running as root:
/home/zulip/deployments/current/scripts/upgrade-zulip-from-git <branch>
and Zulip will automatically fetch the relevant branch from the specified repository, build the static assets, and deploy that version. Currently, the upgrade process is slow, but it doesn't need to be; there is ongoing work on optimizing it.
Backups
There are several pieces of data that you might want to back up:
-
The postgres database. That you can back up like any postgres database; we have some example tooling for doing that incrementally into S3 using wal-e in
puppet/zulip_internal/manifests/postgres_common.pp
(that's what we use for zulip.com's database backups). Note that this module isn't part of the Zulip server releases since it's part of the zulip.com configuration (see https://github.com/zulip/zulip/issues/293 for a ticket about fixing this to make life easier for running backups). -
Any user-uploaded files. If you're using S3 as storage for file uploads, this is backed up in S3, but if you have instead set
LOCAL_UPLOADS_DIR
, any files uploaded by users (including avatars) will be stored in that directory and you'll want to back it up. -
Your Zulip configuration including secrets from
/etc/zulip/
. E.g. if you lose the value ofsecret_key
, all users will need to login again when you setup a replacement server since you won't be able to verify their cookies; if you loseavatar_salt
, any user-uploaded avatars will need to be re-uploaded (since avatar filenames are computed using a hash ofavatar_salt
and user's email), etc. -
The logs under
/var/log/zulip
can be handy to have backed up, but they do get large on a busy server, and it's definitely lower-priority.
If you are interested in backups because you are moving from one Zulip server to another server and can't transfer a full postgres dump (which is definitely the simplest approach), our draft conversion and export design document may help. The tool is well designed and was tested carefully with dozens of realms as of mid-2016 but is not integrated into Zulip's regular testing process, and thus it is worth asking on the Zulip developers mailing list whether it needs any minor updates to do things like export newly added tables.
Restore from backups
To restore from backups, the process is basically the reverse of the above:
-
Install new server as normal by downloading a Zulip release tarball and then using
scripts/setup/install
, you don't need to run theinitialize-database
second stage which puts default data into the database. -
Unpack to
/etc/zulip
thesettings.py
andsecrets.conf
files from your backups. -
Restore your database from the backup using
wal-e
; if you raninitialize-database
anyway above, you'll want to firstscripts/setup/postgres-init-db
to drop the initial database first. -
If you're using local file uploads, restore those files to the path specified by
settings.LOCAL_UPLOADS_DIR
and (if appropriate) any logs. -
Start the server using
scripts/restart-server
.
This restoration process can also be used to migrate a Zulip installation from one server to another.
We recommend running a disaster recovery after you setup backups to
confirm that your backups are working; you may also want to monitor
that they are up to date using the Nagios plugin at:
puppet/zulip_internal/files/nagios_plugins/check_postgres_backup
.
Contributions to more fully automate this process or make this section of the guide much more explicit and detailed are very welcome!
Postgres streaming replication
Zulip has database configuration for using Postgres streaming replication; you can see the configuration in these files:
puppet/zulip_internal/manifests/postgres_slave.pp
puppet/zulip_internal/manifests/postgres_master.pp
puppet/zulip_internal/files/postgresql/*
Contribution of a step-by-step guide for setting this up (and moving
this configuration to be available in the main puppet/zulip/
tree)
would be very welcome!
Monitoring
The complete Nagios configuration (sans secret keys) used to
monitor zulip.com is available under puppet/zulip_internal
in the
Zulip Git repository (those files are not installed in the release
tarballs).
The Nagios plugins used by that configuration are installed
automatically by the Zulip installation process in subdirectories
under /usr/lib/nagios/plugins/
. The following is a summary of the
various Nagios plugins included with Zulip and what they check:
Application server and queue worker monitoring:
-
check_send_receive_time
(sends a test message through the system between two bot users to check that end-to-end message sending works) -
check_rabbitmq_consumers
andcheck_rabbitmq_queues
(checks for rabbitmq being down or the queue workers being behind) -
check_queue_worker_errors
(checks for errors reported by the queue workers) -
check_worker_memory
(monitors for memory leaks in queue workers) -
check_email_deliverer_backlog
andcheck_email_deliverer_process
(monitors for whether outgoing emails are being sent)
Database monitoring:
-
check_postgres_replication_lag
(checks streaming replication is up to date). -
check_postgres
(checks the health of the postgres database) -
check_postgres_backup
(checks backups are up to date; see above) -
check_fts_update_log
(monitors for whether full-text search updates are being processed)
Standard server monitoring:
-
check_website_response.sh
(standard HTTP check) -
check_debian_packages
(checks apt repository is up to date)
If you're using these plugins, bug reports and pull requests to make it easier to monitor Zulip and maintain it in production are encouraged!
Scalability
This section attempts to address the considerations involved with running Zulip with a large team (>1000 users).
-
We recommend using a remote postgres database for isolation, though it is not required. In the following, we discuss a relatively simple configuration with two types of servers: application servers (running Django, Tornado, RabbitMQ, Redis, Memcached, etc.) and database servers.
-
You can scale to a pretty large installation (O(~1000) concurrently active users using it to chat all day) with just a single reasonably large application server (e.g. AWS c3.2xlarge with 8 cores and 16GB of RAM) sitting mostly idle (<10% CPU used and only 4GB of the 16GB RAM actively in use). You can probably get away with half that (e.g. c3.xlarge), but ~8GB of RAM is highly recommended at scale. Beyond a 1000 active users, you will eventually want to increase the memory cap in
memcached.conf
from the default 512MB to avoid high rates of memcached misses. -
For the database server, we highly recommend SSD disks, and RAM is the primary resource limitation. We have not aggressively tested for the minimum resources required, but 8 cores with 30GB of RAM (e.g. AWS's m3.2xlarge) should suffice; you may be able to get away with less especially on the CPU side. The database load per user is pretty optimized as long as
memcached
is working correctly. This has not been tested, but from extrapolating the load profile, it should be possible to scale a Zulip installation to 10,000s of active users using a single large database server without doing anything complicated like sharding the database. -
For reasonably high availability, it's easy to run a hot spare application server and a hot spare database (using Postgres streaming replication; see the section on configuring this). Be sure to check out the section on backups if you're hoping to run a spare application server; in particular you probably want to use the S3 backend for storing user-uploaded files and avatars and will want to make sure secrets are available on the hot spare.
-
Zulip does not support dividing traffic for a given Zulip realm between multiple application servers. There are two issues: you need to share the memcached/Redis/RabbitMQ instance (these should can be moved to a network service shared by multiple servers with a bit of configuration) and the Tornado event system for pushing to browsers currently has no mechanism for multiple frontend servers (or event processes) talking to each other. One can probably get a factor of 10 in a single server's scalability by supporting multiple tornado processes on a single server, which is also likely the first part of any project to support exchanging events amongst multiple servers.
Questions, concerns, and bug reports about this area of Zulip are very welcome! This is an area we are hoping to improve.
Securing your Zulip server
Zulip's security model is discussed in a separate document.
Management commands
Zulip has a large library of Django management
commands.
To use them, you will want to be logged in as the zulip
user and for
the purposes of this documentation, we assume the current working
directory is /home/zulip/deployments/current
.
Below, we show several useful examples, but there are more than 100 in total. We recommend skimming the usage docs (or if there are none, the code) of a management command before using it, since they are generally less polished and more designed for expert use than the rest of the Zulip system.
manage.py shell
You can get an iPython shell with full access to code within the Zulip
project using manage.py shell
, e.g., you can do the following to
change an email address:
$ /home/zulip/deployments/current/manage.py shell
In [1]: user_profile = get_user_profile_by_email("email@example.com")
In [2]: do_change_user_email(user_profile, "new_email@example.com")
manage.py dbshell
This will start a postgres shell connected to the Zulip database.
Grant administrator access
You can make any user a realm administrator on the command line with
the knight
management command:
./manage.py knight username@example.com -f
Creating API super users with manage.py
If you need to manage the IRC, Jabber, or Zephyr mirrors, you will
need to create API super users. To do this, use ./manage.py knight
with the --permission=api_super_user
argument. See
bots/irc-mirror.py
and bots/jabber_mirror.py
for further detail on
these.
Exporting users and realms with manage.py export
If you need to do an export of a single user or of an entire realm, we
have tools in management/
that essentially export Zulip data to the
file system.
export_single_user.py
exports the message history and realm-public
metadata for a single Zulip user (including that user's received
messages as well as their sent messages).
A good overview of the process for exporting a single realm when moving a realm to a new server (without moving a full database dump) is in management/export.py. We recommend you read the comment there for words of wisdom on speed, what is and is not exported, what will break upon a move to a new server, and suggested procedure.
Other useful manage.py commands
There are a large number of useful management commands under
zerver/management/commands/
; you can also see them listed using
./manage.py
with no arguments.