================== Deploying Gunicorn ================== We strongly recommend using Gunicorn behind a proxy server. Nginx Configuration =================== Although there are many HTTP proxies available, we strongly advise that you use Nginx_. If you choose another proxy server you need to make sure that it buffers slow clients when you use default Gunicorn workers. Without this buffering Gunicorn will be easily susceptible to denial-of-service attacks. You can use Hey_ to check if your proxy is behaving properly. An `example configuration`_ file for fast clients with Nginx_: .. literalinclude:: ../../examples/nginx.conf :language: nginx :caption: **nginx.conf** If you want to be able to handle streaming request/responses or other fancy features like Comet, Long polling, or Web sockets, you need to turn off the proxy buffering. **When you do this** you must run with one of the async worker classes. To turn off buffering, you only need to add ``proxy_buffering off;`` to your ``location`` block:: ... location @proxy_to_app { proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for; proxy_set_header Host $http_host; proxy_redirect off; proxy_buffering off; proxy_pass http://app_server; } ... If you want to ignore aborted requests like health check of Load Balancer, some of which close the connection without waiting for a response, you need to turn on `ignoring client abort`_. To ignore aborted requests, you only need to add ``proxy_ignore_client_abort on;`` to your ``location`` block:: ... proxy_ignore_client_abort on; ... .. note:: The default value of ``proxy_ignore_client_abort`` is ``off``. Error code 499 may appear in Nginx log and ``Ignoring EPIPE`` may appear in Gunicorn log if loglevel is set to ``debug``. It is recommended to pass protocol information to Gunicorn. Many web frameworks use this information to generate URLs. Without this information, the application may mistakenly generate 'http' URLs in 'https' responses, leading to mixed content warnings or broken applications. To configure Nginx to pass an appropriate header, add a ``proxy_set_header`` directive to your ``location`` block:: ... proxy_set_header X-Forwarded-Proto $scheme; ... If you are running Nginx on a different host than Gunicorn you need to tell Gunicorn to trust the ``X-Forwarded-*`` headers sent by Nginx. By default, Gunicorn will only trust these headers if the connection comes from localhost. This is to prevent a malicious client from forging these headers:: $ gunicorn -w 3 --forwarded-allow-ips="10.170.3.217,10.170.3.220" test:app When the Gunicorn host is completely firewalled from the external network such that all connections come from a trusted proxy (e.g. Heroku) this value can be set to '*'. Using this value is **potentially dangerous** if connections to Gunicorn may come from untrusted proxies or directly from clients since the application may be tricked into serving SSL-only content over an insecure connection. Gunicorn 19 introduced a breaking change concerning how ``REMOTE_ADDR`` is handled. Previous to Gunicorn 19 this was set to the value of ``X-Forwarded-For`` if received from a trusted proxy. However, this was not in compliance with :rfc:`3875` which is why the ``REMOTE_ADDR`` is now the IP address of **the proxy** and **not the actual user**. To have access logs indicate **the actual user** IP when proxied, set :ref:`access-log-format` with a format which includes ``X-Forwarded-For``. For example, this format uses ``X-Forwarded-For`` in place of ``REMOTE_ADDR``:: %({x-forwarded-for}i)s %(l)s %(u)s %(t)s "%(r)s" %(s)s %(b)s "%(f)s" "%(a)s" It is also worth noting that the ``REMOTE_ADDR`` will be completely empty if you bind Gunicorn to a UNIX socket and not a TCP ``host:port`` tuple. Using Virtualenv ================ To serve an app from a Virtualenv_ it is generally easiest to just install Gunicorn directly into the Virtualenv. This will create a set of Gunicorn scripts for that Virtualenv which can be used to run applications normally. If you have Virtualenv installed, you should be able to do something like this:: $ mkdir ~/venvs/ $ virtualenv ~/venvs/webapp $ source ~/venvs/webapp/bin/activate $ pip install gunicorn $ deactivate Then you just need to use one of the three Gunicorn scripts that was installed into ``~/venvs/webapp/bin``. Note: You can force the installation of Gunicorn in your Virtualenv by passing ``-I`` or ``--ignore-installed`` option to pip:: $ source ~/venvs/webapp/bin/activate $ pip install -I gunicorn Monitoring ========== .. note:: Make sure that when using either of these service monitors you do not enable the Gunicorn's daemon mode. These monitors expect that the process they launch will be the process they need to monitor. Daemonizing will fork-exec which creates an unmonitored process and generally just confuses the monitor services. Gaffer ------ Using Gafferd and gaffer ++++++++++++++++++++++++ Gaffer_ can be used to monitor Gunicorn. A simple configuration is:: [process:gunicorn] cmd = gunicorn -w 3 test:app cwd = /path/to/project Then you can easily manage Gunicorn using Gaffer_. Using a Procfile ++++++++++++++++ Create a ``Procfile`` in your project:: gunicorn = gunicorn -w 3 test:app You can launch any other applications that should be launched at the same time. Then you can start your Gunicorn application using Gaffer_:: gaffer start If gafferd is launched you can also load your Procfile in it directly:: gaffer load All your applications will be then supervised by gafferd. Runit ----- A popular method for deploying Gunicorn is to have it monitored by runit_. Here is an `example service`_ definition:: #!/bin/sh GUNICORN=/usr/local/bin/gunicorn ROOT=/path/to/project PID=/var/run/gunicorn.pid APP=main:application if [ -f $PID ]; then rm $PID; fi cd $ROOT exec $GUNICORN -c $ROOT/gunicorn.conf.py --pid=$PID $APP Save this as ``/etc/sv/[app_name]/run``, and make it executable (``chmod u+x /etc/sv/[app_name]/run``). Then run ``ln -s /etc/sv/[app_name] /etc/service/[app_name]``. If runit is installed, Gunicorn should start running automatically as soon as you create the symlink. If it doesn't start automatically, run the script directly to troubleshoot. Supervisor ---------- Another useful tool to monitor and control Gunicorn is Supervisor_. A `simple configuration`_ is:: [program:gunicorn] command=/path/to/gunicorn main:application -c /path/to/gunicorn.conf.py directory=/path/to/project user=nobody autostart=true autorestart=true redirect_stderr=true Upstart ------- Using Gunicorn with upstart is simple. In this example we will run the app "myapp" from a virtualenv. All errors will go to ``/var/log/upstart/myapp.log``. **/etc/init/myapp.conf**:: description "myapp" start on (filesystem) stop on runlevel [016] respawn setuid nobody setgid nogroup chdir /path/to/app/directory exec /path/to/virtualenv/bin/gunicorn myapp:app Systemd ------- A tool that is starting to be common on linux systems is Systemd_. It is a system services manager that allows for strict process management, resources and permissions control. Below are configuration files and instructions for using systemd to create a unix socket for incoming Gunicorn requests. Systemd will listen on this socket and start gunicorn automatically in response to traffic. Later in this section are instructions for configuring Nginx to forward web traffic to the newly created unix socket: **/etc/systemd/system/gunicorn.service**:: [Unit] Description=gunicorn daemon Requires=gunicorn.socket After=network.target [Service] Type=notify # the specific user that our service will run as User=someuser Group=someuser # another option for an even more restricted service is # DynamicUser=yes # see http://0pointer.net/blog/dynamic-users-with-systemd.html RuntimeDirectory=gunicorn WorkingDirectory=/home/someuser/applicationroot ExecStart=/usr/bin/gunicorn applicationname.wsgi ExecReload=/bin/kill -s HUP $MAINPID KillMode=mixed TimeoutStopSec=5 PrivateTmp=true [Install] WantedBy=multi-user.target **/etc/systemd/system/gunicorn.socket**:: [Unit] Description=gunicorn socket [Socket] ListenStream=/run/gunicorn.sock # Our service won't need permissions for the socket, since it # inherits the file descriptor by socket activation # only the nginx daemon will need access to the socket SocketUser=www-data # Optionally restrict the socket permissions even more. # SocketMode=600 [Install] WantedBy=sockets.target Next enable and start the socket (it will autostart at boot too):: systemctl enable --now gunicorn.socket Now let's see if the nginx daemon will be able to connect to the socket. Running ``sudo -u www-data curl --unix-socket /run/gunicorn.sock http``, our Gunicorn service will be automatically started and you should see some HTML from your server in the terminal. .. note:: systemd employs cgroups to track the processes of a service, so it doesn't need pid files. In the rare case that you need to find out the service main pid, you can use ``systemctl show --value -p MainPID gunicorn.service``, but if you only want to send a signal an even better option is ``systemctl kill -s HUP gunicorn.service``. .. note:: ``www-data`` is the default nginx user in debian, other distributions use different users (for example: ``http`` or ``nginx``). Check your distro to know what to put for the socket user, and for the sudo command. You must now configure your web proxy to send traffic to the new Gunicorn socket. Edit your ``nginx.conf`` to include the following: **/etc/nginx/nginx.conf**:: user www-data; ... http { server { listen 8000; server_name 127.0.0.1; location / { proxy_pass http://unix:/run/gunicorn.sock; } } } ... .. note:: The listen and server_name used here are configured for a local machine. In a production server you will most likely listen on port 80, and use your URL as the server_name. Now make sure you enable the nginx service so it automatically starts at boot:: systemctl enable nginx.service Either reboot, or start Nginx with the following command:: systemctl start nginx Now you should be able to test Nginx with Gunicorn by visiting http://127.0.0.1:8000/ in any web browser. Systemd is now set up. Logging ======= Logging can be configured by using various flags detailed in the `configuration documentation`_ or by creating a `logging configuration file`_. Send the ``USR1`` signal to rotate logs if you are using the logrotate utility:: kill -USR1 $(cat /var/run/gunicorn.pid) .. note:: Overriding the ``LOGGING`` dictionary requires to set ``disable_existing_loggers: False`` to not interfere with the Gunicorn logging. .. warning:: Gunicorn error log is here to log errors from Gunicorn, not from another application. .. _Nginx: https://nginx.org/ .. _Hey: https://github.com/rakyll/hey .. _`example configuration`: https://github.com/benoitc/gunicorn/blob/master/examples/nginx.conf .. _runit: http://smarden.org/runit/ .. _`example service`: https://github.com/benoitc/gunicorn/blob/master/examples/gunicorn_rc .. _Supervisor: http://supervisord.org/ .. _`simple configuration`: https://github.com/benoitc/gunicorn/blob/master/examples/supervisor.conf .. _`configuration documentation`: http://docs.gunicorn.org/en/latest/settings.html#logging .. _`logging configuration file`: https://github.com/benoitc/gunicorn/blob/master/examples/logging.conf .. _Virtualenv: https://pypi.python.org/pypi/virtualenv .. _Systemd: https://www.freedesktop.org/wiki/Software/systemd/ .. _Gaffer: https://gaffer.readthedocs.io/ .. _`ignoring client abort`: http://nginx.org/en/docs/http/ngx_http_proxy_module.html#proxy_ignore_client_abort