docker-zulip
is the official Docker container image for running a
Zulip server in
production. Built images are available from: Docker
Hub:
$ docker pull zulip/docker-zulip:9.2-0`
Current Zulip version: 9.2
Current Docker image version: 9.2-0
We recommend using the Docker image if your organization has a preference for deploying services using Docker. Deploying with Docker moderately increases the effort required to install, maintain, and upgrade a Zulip installation, compared with the standard Zulip installer. 
To use docker-zulip
, you need the following:
- An installation of Docker and Docker Compose or a Kubernetes runtime engine.
- We recommend at least 2GB of available RAM for
running a production Zulip server; you'll want 4GB if you're
building the container (rather than using the prebuilt images). If
you're just testing and/or aren't expecting a lot of users/messages,
you can get away with significantly less especially for the
postgres
,memcached
, etc. containers, because Docker makes it easy to sharply limit the RAM allocated to the services Zulip depends on, like redis, memcached, and postgresql (at the cost of potential performance issues). - This project doesn't support
docker-rootless
; Zulip needs root access to set properties like the maximum number of open file descriptions viaulimit
(which is important for it to handle thousands of connected clients).
If you aren't already a Docker expert, we recommend starting by reading our brief overview of how Docker and containers work in the next section for important background that the rest of this documentation will assume.
Otherwise, you can jump to our documentation for your preferred container runtime:
Docker and other container systems are built around shareable container images. An image is a read-only template with instructions for creating a container.
Often, an image is based on another image, with a bit of additional
customization. For example, Zulip's zulip-postgresql
image extends
the standard postgresql
image (by installing a couple postgres
extensions). Meanwhile, the zulip
image is built on top of a
standard ubuntu
image, adding all the code for a Zulip
application/web server.
Every time you boot a container based on a given image, it's like booting off a CD-ROM: you get the exact same image (and anything written to the image's filesystem is lost). To handle persistent state that needs to persist after the Docker equivalent of a reboot or upgrades (like uploaded files or the Zulip database), container systems let you configure certain directories inside the container from the host.
This project's docker-compose.yml
configuration file uses Docker
managed volumes to store persistent Zulip
data. If you use the Docker Compose deployment, you
should make sure that Zulip's volumes are backed up, to ensure that
Zulip's data is backed up.
This project defines a Docker image for a Zulip server, as well as
sample configuration to run that Zulip server with each of the major
services that Zulip uses in its own container:
redis
, postgres
, rabbitmq
, memcached
.
To use this project, we recommend starting by cloning the repo (since
you'll want to edit the docker-compose.yml
file in this project):
git clone https://github.com/zulip/docker-zulip.git
cd docker-zulip
# Edit `docker-compose.yml` to configure; see docs below
If you're in hurry to try Zulip, you can skip to start the Zulip server, but for production use, you'll need to generate secrets and do some configuration.
With docker-compose
, it is traditional to configure a service by
setting environment variables declared in the zulip -> environment
section of the docker-compose.yml
file; this image follows that
convention.
Mandatory settings. You must configure these settings (more discussion in the main Zulip installation docs):
SETTING_EXTERNAL_HOST
: The hostname your users will use to connect to your Zulip server. If you're testing on your laptop, the default oflocalhost.localdomain
is great.SETTING_ZULIP_ADMINISTRATOR
: The email address to receive error and support emails generated by the Zulip server and its users.
Mandatory settings for produciton use. Before you allow production traffic, you need to generate secrets. We recommend using long random strings of alphanumeric characters for your secrets; not every special character works.
POSTGRES_PASSWORD
is the password for the PostgreSQL instance.SECRETS_postgres_password
configures the Zulip server to know the PostgreSQL password. WhileSECRETS_postgres_password
is synced to the Zulip container on every boot,POSTGRES_PASSWORD
is only accessed by the postgres container on first boot, so if you later want to change your postgres password after booting the container, you'll need to either do an ALTER ROLE query inside thepostgres
container or rebuild the postgres database (only if you don't need your data!).RABBITMQ_DEFAULT_PASS
andSECRETS_rabbitmq_password
are similar, just for the RabbitMQ container.MEMCACHED_PASSWORD
andSECRETS_memcached_password
are similar, just for the memcached container.REDIS_PASSWORD
andSECRETS_redis_password
are similar, just for the Redis container.SECRETS_secret_key
should be a long (e.g. 50 characters), random string. This value is important to keep secret and constant over time, since it is used to (among other things) sign login cookies (so if you change this, all your users will be forcibly logged out).SETTING_EMAIL_*
: Where you configure Zulip's ability to send outgoing email.
Other settings. If an environment variable name doesn't start with
SETTING
or SECRETS
in docker-compose.yml
, it is specific to the
Docker environment. Standard Zulip server settings
are secrets are set using the following syntax:
SETTING_MY_SETTING
will becomeMY_SETTING
in/etc/zulip/settings.py
SECRETS_my_secret
will becomemy_secret
in/etc/zulip/zulip-secrets.conf
.
Reading the comments in the sample Zulip's settings.py file is the best way to learn about the full set of Zulip's supported server-level settings.
Most settings in Zulip are just strings, but some are lists (etc.) which you need to encode in the YAML file. For example,
-
For
AUTHENTICATION_BACKENDS
, you enterZULIP_AUTH_BACKENDS
as a comma-separated list of the backend names (E.g."EmailAuthBackend,GitHubAuthBackend"
). -
LDAP authentication currently requires
MANUAL_CONFIGURATION
in order to encode theLDAPSearch
logic, see below.
Reducing RAM usage. By default, the Zulip server automatically detect
whether the system has enough memory to run Zulip queue processors in the
higher-throughput but more multiprocess mode (or to save 1.5GiB of RAM with
the multithreaded mode). This algorithm might see the host's memory, not the
docker container's memory. Set to QUEUE_WORKERS_MULTIPROCESS
to true
or
false
to override the automatic calculation.
SSL Certificates. By default, the image will generate a self-signed cert.
You can set SSL_CERTIFICATE_GENERATION: "certbot"
within docker-compose.yml
to enable automatically-renewed Let's Encrypt certificates. By using certbot
here, you are agreeing to the Let's Encrypt
ToS.
You can also provide an SSL certificate for your Zulip server by
putting it in /opt/docker/zulip/zulip/certs/
(by default, the
zulip
container startup script will generate a self-signed certificate and
install it in that directory).
Reverse proxies. To tell Zulip that it is behind a reverse proxy
or load balancer, you must set LOADBALANCER_IPS
to a comma-separated
list of IPs or CIDR ranges. This will tell Zulip to pass the real IP
of the client, instead of the IP of the proxy itself, by setting the
IPs under [loadbalancer]
in zulip.conf
.
Your proxy must provide both X-Forwarded-For
and
X-Forwarded-Proto
headers. See the Zulip documentation for sample
nginx, Apache2, and
HAProxy configurations, as well as notes for other
proxies.
The way the environment variables configuration process described in
the last section works is that the entrypoint.sh
script that runs
when the Docker image starts up will generate a
Zulip settings.py file file based on your settings
every time you boot the container. This is convenient, in that you
only need to edit the docker-compose.yml
file to configure your
Zulip server's settings.
An alternative approach is to set MANUAL_CONFIGURATION: "True"
and
LINK_SETTINGS_TO_DATA: "True"
in docker-compose.yml
. If you do that, you
can provide a settings.py
file and a zulip-secrets.conf
file in
/opt/docker/zulip/zulip/settings/etc-zulip/
, and the container will use those.
You can boot your Zulip installation with:
docker-compose pull
docker-compose up
This will boot the 5 containers declared in docker-compose.yml
. The
docker-compose
command will print a bunch of output, and then
eventually hang once everything is happily booted, usually ending with
a bunch of lines like this:
rabbitmq_1 | =INFO REPORT==== 27-May-2018::23:26:58 ===
rabbitmq_1 | accepting AMQP connection <0.534.0> (172.18.0.3:49504
-> 172.18.0.5:5672)
You can inspect what containers are running in another shell with
docker-compose ps
(remember to cd
into the docker-zulip
directory first).
If you hit Ctrl-C
, that will stop your Zulip server cluster. If
you'd prefer to have the containers run in the background, you can use
docker-compose up -d
.
If you want to build the Zulip image yourself, you can do that by
running docker-compose build
; see also
the documentation on building a custom Git version version.
You can now connect to your Zulip server. For example, if you set
this up on a laptop with the default port mappings and
SETTING_EXTERNAL_HOST
, typing http://localhost/
will take you to
your server. Note that in this default scenario, (1) you'll have to
proceed past a self-signed SSL error, and (2) you won't be able to
login until you create an organization, but visiting the URL is a good
way to confirm that your networking configuration is working
correctly.
You can now follow the normal Zulip installer instructions for how to create a Zulip organization and log in to your new Zulip server. You'll generate the realm creation link as follows:
docker-compose exec -u zulip zulip \
"/home/zulip/deployments/current/manage.py generate_realm_creation_link"
But don't forget to review the getting started links at the end of the main installation guide.
From time to time, you'll need to attach a shell to the Zulip
container so that you can run manage.py
commands, check logs, etc.
The following are helpful examples:
# Get a (root) shell in the container so you can access logs
docker-compose exec zulip bash
# Run a Zulip management command
docker-compose exec -u zulip zulip \
"/home/zulip/deployments/current/manage.py list_realms"
Since that process for running management commands is a pain, we recommend using a wrapper script for running management commands.
If you are sitting behind a custom CA and want to build the Zulip image yourself, special care is required.
The Zulip build process installs packages via yarn
and pip
, and
these need packages to be configured to use your custom CA
certificates. You will need to get your certificate bundle into the
docker image, either by adding a COPY
somewhere or by replacing the
FROM
s with a custom ubuntu image that includes your bundle. The
recommended way is to have your own base image which has your bundle
ready at the default /etc/ssl/certs/ca-certificates.crt
.
The next and last step is to set up the CUSTOM_CA_CERTIFICATES
argument in docker-compose.yml
to point to your CA bundle, e.g.
to /etc/ssl/certs/ca-certificates.crt
.
At this point you are ready to build Zulip.
See the separate upgrading document for upgrading instructions.
A Kubernetes pod file is in the kubernetes/
folder; you can run it
with kubectl create -f ./kubernetes/
.
You should read the docker-compose
section above to understand how
this works, since it's a very similar setup. You'll want to clone
this repository, edit the zulip-rc.yml
to configure the image, etc.
The fastest way to get Kubernetes up and running for testing without signing up for a cloud service is to install Minikube on your system.
Read the Helm Chart README to learn more about installing Zulip on a Kubernetes cluster with Helm.
Feedback is welcome in the [helm-chart-thread]: https://chat.zulip.org/#narrow/stream/21-provision-help/subject/K8.20and.20Helm/near/589098
This image is not designed to make it easy to run multiple copies of
the zulip
application server container (and you need to know a lot
about Zulip to do this sort of thing successfully). If you're
interested in running a high-availablity Zulip installation, your best
bet is to get in touch with the Zulip team at [email protected]
.
When running your container in production, you may want to put your
Zulip container behind an HTTP proxy.
This wiki page documents how to do this correctly
with nginx
.
See also the Zulip documentation on reverse proxies
By default, Zulip will only interact with user traffic over HTTPS.
However, if your networking environment is such that the Zulip server
is behind a load balancer and you need the Zulip server to respond
over HTTP, you can configure that via setting DISABLE_HTTPS: "True"
in the Docker environment (docker-compose.yml
).
Common issues include:
- Invalid configuration resulting in the
zulip
container not starting; checkdocker-compose ps
to see if it started, and then read the logs for the Zulip container to see why it failed. - A new Zulip setting not being passed through the Docker
entrypoint.sh script properly. If you
run into this sort of problem you can work around it by specifying a
ZULIP_CUSTOM_SETTINGS
with one setting per line below, but please report an issue so that we can fix this for everyone else.
You can get community support and tell the developers about your experiences using this project on #production-help on chat.zulip.org, the Zulip community server.
In late May 2018, we completed a complete rewrite of this project's documentation, so we'd love any and all feedback!
We love community contributions, and respond quickly to issues and PRs. Some particularly useful ways to contribute right now are:
- Contribute to this documentation by opening issues about what confused you or submitting pull requests!
- Reporting bugs or rough edges!
Huge thanks to everyone who has contributed. Special thanks to
Alexander Trost, who created
docker-zulip
and did a huge amount of the early work required to
make a high-quality Docker image for Zulip possible.