Nginx-buildpack vendors NGINX inside a dyno and connects NGINX to an app server via UNIX domain sockets.
Some application servers (e.g. Ruby's Unicorn) halt progress when dealing with network I/O. Heroku's Cedar routing stack buffers only the headers of inbound requests. (The Cedar router will buffer the headers and body of a response up to 1MB) Thus, the Heroku router engages the dyno during the entire body transfer –from the client to dyno. For applications servers with blocking I/O, the latency per request will be degraded by the content transfer. By using NGINX in front of the application server, we can eliminate a great deal of transfer time from the application server. In addition to making request body transfers more efficient, all other I/O should be improved since the application server need only communicate with a UNIX socket on localhost. Basically, for webservers that are not designed for efficient, non-blocking I/O, we will benefit from having NGINX to handle all I/O operations.
- NGINX Version: 1.9.5
- NGINX Version: 1.9.5
- NGINX Version: 1.16.1
- Your webserver listens to the socket at
/tmp/nginx.socket
. - You touch
/tmp/app-initialized
when you are ready for traffic. - You can start your web server with a shell command.
- Add a custom nginx config to your app source code at
config/nginx.conf.erb
. You can start by copying the sample config for nginx solo mode.
- Unified NXNG/App Server logs.
- L2met friendly NGINX log format.
- Heroku request ids embedded in NGINX logs.
- Crashes dyno if NGINX or App server crashes. Safety first.
- Language/App Server agnostic.
- Customizable NGINX config.
- Application coordinated dyno starts.
NGINX will output the following style of logs:
measure.nginx.service=0.007 request_id=e2c79e86b3260b9c703756ec93f8a66d
You can correlate this id with your Heroku router logs:
at=info method=GET path=/ host=salty-earth-7125.herokuapp.com request_id=e2c79e86b3260b9c703756ec93f8a66d fwd="67.180.77.184" dyno=web.1 connect=1ms service=8ms status=200 bytes=21
You can configure custom log paths using the environment variables NGINX_ACCESS_LOG_PATH
and NGINX_ERROR_LOG_PATH
.
For example, if you wanted to stop nginx from logging your access logs you could set NGINX_ACCESS_LOG_PATH
to /dev/null
:
$ heroku config:set NGINX_ACCESS_LOG_PATH="/dev/null"
nginx-buildpack provides a command named bin/start-nginx
this command takes another command as an argument. You must pass your app server's startup command to start-nginx
.
For example, to get NGINX and Unicorn up and running:
$ cat Procfile
web: bin/start-nginx bundle exec unicorn -c config/unicorn.rb
nginx-buildpack provides a command named bin/start-nginx-solo
. This is for you if you don't want to run an additional app server on the Dyno.
This mode requires you to put a config/nginx.conf.erb
in your app code. You can start by coping the sample config for nginx solo mode.
For example, to get NGINX and Unicorn up and running:
$ cat Procfile
web: bin/start-nginx-solo
You can configure NGINX's worker_processes
directive via the
NGINX_WORKERS
environment variable.
For example, to set your NGINX_WORKERS
to 8 on a PX dyno:
$ heroku config:set NGINX_WORKERS=8
Similarly, the NGINX_WORKER_CONNECTIONS
environment variable can configure the worker_connections
directive:
$ heroku config:set NGINX_WORKER_CONNECTIONS=2048
You can provide your own NGINX config by creating a file named nginx.conf.erb
in the config directory of your app. Start by copying the buildpack's default config file.
See scripts/build_nginx for the build steps. Configuring is as easy as changing the "./configure" options.
You can run the builds in a Docker container:
$ make build # It outputs the latest builds to bin/cedar-*
To test the builds:
$ make shell
$ cp bin/nginx-$STACK bin/nginx
$ FORCE=1 bin/start-nginx
The buildpack will not start NGINX until a file has been written to /tmp/app-initialized
. Since NGINX binds to the dyno's $PORT and since the $PORT determines if the app can receive traffic, you can delay NGINX accepting traffic until your application is ready to handle it. The examples below show how/when you should write the file when working with Unicorn.
Here are 2 setup examples. One example for a new app, another for an existing app. In both cases, we are working with ruby & unicorn. Keep in mind that this buildpack is not ruby specific.
Update Buildpacks to use the latest stable version of this buildpack:
$ heroku buildpacks:add heroku-community/nginx
Alternatively, you can use the Github URL of this repo if you want to edge version.
Update Procfile:
web: bin/start-nginx bundle exec unicorn -c config/unicorn.rb
$ git add Procfile
$ git commit -m 'Update procfile for NGINX buildpack'
Update Unicorn Config
require 'fileutils'
listen '/tmp/nginx.socket'
before_fork do |server,worker|
FileUtils.touch('/tmp/app-initialized')
end
$ git add config/unicorn.rb
$ git commit -m 'Update unicorn config to listen on NGINX socket.'
Deploy Changes
$ git push heroku master
$ mkdir myapp; cd myapp
$ git init
Gemfile
source 'https://rubygems.org'
gem 'unicorn'
config.ru
run Proc.new {[200,{'Content-Type' => 'text/plain'}, ["hello world"]]}
config/unicorn.rb
require 'fileutils'
preload_app true
timeout 5
worker_processes 4
listen '/tmp/nginx.socket', backlog: 1024
before_fork do |server,worker|
FileUtils.touch('/tmp/app-initialized')
end
Install Gems
$ bundle install
Create Procfile
web: bin/start-nginx bundle exec unicorn -c config/unicorn.rb
Create & Push Heroku App:
$ heroku create
$ heroku buildpacks:add heroku/ruby
$ heroku buildpacks:add https://github.com/heroku/heroku-buildpack-nginx
$ git add .
$ git commit -am "init"
$ git push heroku master
$ heroku logs -t
Visit App
$ heroku open
Copyright (c) 2013 Ryan R. Smith Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.