This repository contains Debian package definitions for Phusion Passenger, as well as tools for automatically building Passenger packages for multiple distributions and architectures.
The goal of this project is twofold:
- To allow Phusion to release Debian packages for multiple distributions and architectures, immediately after a Passenger source release, in a completely automated manner.
- To allow users to build their own Debian packages for Passenger, without having to wait for Phusion to do so.
Are you a user who wants to build your own packages for a Passenger version that hasn't been released yet? Read Tutorial: building your own packages.
Table of Contents
- Conceptual Introduction to Debian Packaging
- Overview
- Development
- Package building process
- Maintenance
- Jenkins integration
- Tutorial: building your own packages
- Related projects
Not familiar with Debian packaging? See ConceptualIntroductiontoDebianPackaging.md.
This project consists of three major tools:
- build -- Given a Passenger source directory, this script builds Debian packages for it.
- test -- Given a directory with built Debian packages (as produced by the
build
script), this script runs tests against them. - publish -- Given a directory with built Debian packages, this script publishes them to https://repos.phusionpassenger.com.
Debian package definitions are located in the debian_specs
directory:
debian_specs/passenger
-- Package definitions for Passenger, open source edition.debian_specs/passenger-enterprise
-- Package definitions for Passenger Enterprise.debian_specs/nginx
-- Package definitions for Nginx, with Passenger compiled in.
Other noteworthy tools:
shell
-- Open a shell in a new buildbox container for debugging purposes.jenkins/
-- Scripts to be run by our Jenkins continuous integration jobs, either after every commit or during release time.
This project utilizes Docker for isolation. Because of the usage of Docker, these tools can be run on any 64-bit Linux system, including non-Debian-based systems. Though in practice, we've only tested on Ubuntu.
This repository is included as a git submodule in the Passenger git repository, under the directory packaging/debian
. Instead of cloning the passenger_apt_automation
repository directly, you should clone the Passenger git repository, and work in the packaging/debian
directory instead. This scheme allows each Passenger version to lock down to a specific version of passenger_apt_automation
.
A Vagrantfile is provided so that you can develop this project in a VM. To get started, run:
host$ vagrant up
The Passenger source directory (../..
) will be automatically mounted inside the VM under /passenger
.
The package build process is as follows. First, the build
script is used to build Debian packages from a Passenger source code directory. Next, either the test
script is run to test the built packages, or the publish
script is run to publish the built packages to repos.phusionpassenger.com.
build ------------> test
\
\-----> publish
Everything begins with the build
script and a copy of the Passenger source code. Here's an example invocation:
./build -p /passenger -w work -c cache -o output pkg:all
-p
tells it where the Passenger source code is. N.B. this setting will be ignored (unless you use -R) if the cache already contains a .tar.gz file for the Passenger version in the specified source dir.-w
tells it where it's work directory is. This is a directory in which in stores temporary files while building packages. WARNING: everything inside this directory will be deleted before the build begins, so only specify a directory that doesn't contain anything important.-c
tells it where the cache directory is. The build script caches files into this directory so that subsequent runs will be faster.-o
tells it where to store the final built Debian packages (the output directory). WARNING: everything inside this directory will be deleted when the build finishes, so only specify a directory that doesn't contain anything important.- The final argument,
pkg:all
, is the task that the build script must run. The build script provides a number of tasks, such as tasks for building packages for specific distributions or architecture only, or tasks for building source packages only. Thepkg:all
task builds all source and binary packages for all supported distributions and architectures.
More command line options are available. Run ./build -h
to learn more. You can also run ./build -T
to learn which tasks are available.
When the build script is finished, the output directory (-o
) will contain one subdirectory per distribution that was built for, with each subdirectory containing packages for that distribution (in all architectures that were built for). For example:
output/
|
+-- noble/
| |
| +-- *.deb
| |
| +-- *.dsc
|
+-- focal/
| |
| +-- *.deb
| |
| +-- *.dsc
|
...
When using Vagrant, the directories referred to by -w
and -c
must be native filesystem directories. That is, they may not be located inside /vagrant, because /vagrant is a remote filesystem. I typically use -w ~/work -c ~/cache
when developing with Vagrant.
If anything goes wrong during a build, please take a look at the various log files in the work directory. Of interest are:
- state.log -- Overview.
- pkg.*.log -- Build logs for a specific package, distribution and architecture.
Once packages have been built, you can test them with the test script. Here is an example invocation:
./test -p /passenger -x noble -d output/noble -c cache
-p
tells it where the Passenger source code is in order to find the unit tests (those aren't in the debian package). The code / resources / executables under test come from the debian package built by the build script.-x
tells it which distribution it should use for running the tests. To learn which distributions are supported, run./test -h
.-d
tells it where to find the packages that are to be tested. This must point to a subdirectory in the output directory produced by the build script, and the packages must match the test environment as specified by-x
. For example, if you specified-x noble
, and if the build script stored packages in the directoryoutput
, then you should pass-d output/noble
.-c
tells it where the cache directory is. The test script caches files into this directory so that subsequent runs will be faster.
When using Vagrant, the directory referred to by -c
must be a native filesystem directory. That is, it may not be located inside /vagrant, because /vagrant is a remote filesystem. I typically use -c ~/cache
when developing with Vagrant.
The Vagrant VM uses 2 GB of RAM, so make sure your host has at least 4 GB.
Once packages have been built, you can publish them to repos.phusionpassenger.com. The publish
script publishes all packages inside a build script output directory. Example invocation:
./publish -d output -u phusion -c ~/token_file -r passenger-testing publish:all
-d
tells it where the build script output directory is.-u
tells it the repo server API username.-c
tells it the path to the repo server API token file.-r
tells it the name of the package repository. For exampleapt-repo-(oss|enterprise)(.staging)
.- The last argument is the task to run. The
publish:all
publishes all packages inside the build script output directory.
Prior to changing the buildbox or testbox, you should update their version number as follows:
- Update the relevant part(s) in
internal/lib/docker_image_info.sh
. - Run
./internal/scripts/regen_distro_info_script.sh
.
In these instructions, we assume that the new distribution is Ubuntu 20.04 "Focal". Update the actual parameters accordingly.
-
Bump the the buildbox version number's tiny component. Open
internal/lib/docker_image_info.sh
and change the number underbuildbox_version
. -
Add a definition for this new distribution to
internal/lib/distro_info.rb
.- Add to either the
UBUNTU_DISTRIBUTIONS
or theDEBIAN_DISTRIBUTIONS
constant. - Add to the
DEFAULT_DISTROS
constant. - If it's a debian release you'll likely have to add the signing key to the buildbox's install.sh. (If debootstrap complains about a key in step 6).
- Add to either the
-
Run
internal/scripts/regen_distro_info_script.sh
. -
Rebuild the build box so that it has the latest distribution information:
make -C docker-images buildbox
-
Update the package definitions in
debian_specs/
.- Check if new ruby is available in distro update versions or comments in
debian_specs/passenger/helpers.rb
- Add
<% if %>
statements accordingly to output the appropriate content for the target distribution. (e.g. indebian_specs/passenger/control.erb
)
- Check if new ruby is available in distro update versions or comments in
-
Build publish packages for this distribution only. You can do that by running the build script with the
-d
option.For example:
./build -p /passenger -w work -c cache -o output -d focal pkg:all
-
Create a test box for this new distribution.
-
Create
docker-images/testbox-ubuntu-20.04/
(copy of testbox of previous release) -
Set the correct From in
docker-images/testbox-ubuntu-20.04/Dockerfile
-
Edit
docker-images/Makefile
and add entries for this new testbox.make -C docker-images testbox-ubuntu-20.04
When done, test Passenger under the new testbox:
./test -p /passenger -x focal -d output/focal -c cache
-
-
Commit and push all changes, then publish the new packages and the updated Docker images by running:
git add docker-images git commit -a -m "Add support for Ubuntu 20.04 Focal" git push cd docker-images make upload
-
Inside the passenger repository:
-
Update the
packaging/debian
submodule (which refers to thepassenger_apt_automation
repository) to the latest commit. Assuming you want the submodule to update to the latestmaster
branch commit:cd packaging/debian git checkout master git pull cd ../..
-
Update
dev/ci/tests/debian/Jenkinsfile
and add this new distro under theparameters
section. -
Commit and push the result:
git commit -a -m "Add packaging support for Ubuntu 20.04 Focal" git push
-
In these instructions, we assume that the distribution to be removed is Ubuntu 20.04 "Focal". Update the actual parameters accordingly.
-
Remove the distribution's definition from
internal/lib/distro_info.rb
,DEFAULT_DISTROS
constant. -
Run
./internal/scripts/regen_distro_info_script.sh
. -
Update the package definitions in
debian_specs/
. Remove<% if %>
statements that target only this distribution. -
Remove the test box for this distribution.
- Remove
docker-images/testbox-ubuntu-20.04/
- Edit
docker-images/Makefile
and remove entries for this distribution's testbox.
- Remove
-
Commit and push all changes:
git add -u docker-images git commit -a -m "Remove support for Ubuntu 20.04 Focal" git push
-
Inside the passenger repository:
-
Update the
packaging/debian
submodule (which refers to thepassenger_apt_automation
repository) to the latest commit, then commit the result. Assuming you want the submodule to update to the latestmaster
branch commit:cd packaging/debian git checkout master git pull cd ../..
-
Update
dev/ci/tests/debian/Jenkinsfile
and remove the deprecated distro under theparams
section. -
Commit and push the result:
git commit -a -m "Remove packaging support for Ubuntu 20.04 Focal" git push
-
The package building process works by running pbuilder-dist
inside a Docker container. pbuilder-dist
, in turn, is a Debian tool for managing chroots for building packages for specific distributions. Once in a while, the APT cache inside these chroots will get out of date, resulting in HTTP 404 errors while building packages, like this:
Get: 1 http://security.debian.org/ noble/updates/main libtasn1-3 amd64 2.13-2+deb7u2 [67.8 kB]
Err http://security.debian.org/ noble/updates/main libxml2 amd64 2.8.0+dfsg1-7+noble4
404 Not Found [IP: 212.211.132.250 80]
When this happens, it is time to update the chroot's APT cache. There are two ways to do this.
The first way is by deleting the pbuilder chroot tarball in the cache directory. It will be recreated next time you run a build process. For example:
rm ~/cache/base-noble-amd64.tgz
or
find /data/jenkins/ -name 'base-noble-*.tgz' -delete
The second way is by updating it in-place. For example:
- Run:
./shell -c ~/cache
. This will drop you into the buildbox shell. - Run:
initpbuilder noble amd64
. - Run:
pbuilder-dist noble amd64 update
. - Run
exit
to exit the build box shell.
Sometimes you want to build Nginx packages only, without building the Phusion Passenger packages. You can do this by invoking the build script with the pkg:nginx:all
task. For example:
./build -p /passenger -w work -c cache -o output -d focal pkg:nginx:all
After the build script finishes, you can publish these Nginx packages:
./publish -d output -u phusion -c ~/token_file -r passenger-testing publish:all
The Jenkins publishing script posts to some HTTPS servers. For security reasons, we pin the certificates, but these certificates expire after a while. You can update them by running:
./internal/scripts/pin_certificates
The jenkins
directory contains scripts which are invoked from jobs in the Phusion Jenkins CI server.
If a packaging test job fails, here's what you should do.
-
Checkout the Passenger source code, go to the commit for which the test failed, then cd into the packaging/debian directory.
git clone https://github.com/phusion/passenger.git git reset --hard <COMMIT FOR WHICH THE TEST FAILED> cd packaging/debian
-
If you're not on Linux, setup the Vagrant development environment and login to the VM:
vagrant up vagrant ssh
-
Build packages for the distribution for which the test failed.
./build -w ~/work -c ~/cache -o ~/output -p /passenger -d focal -a amd64 -j 2 -R pkg:all
Be sure to customize the value passed to
-d
based on the distribution for which the test failed. -
Run the tests with the debugging console enabled:
./test -p /passenger -x focal -d ~/output/focal -c ~/cache -D
Be sure to customize the values passed to
-x
and-d
based on the distribution for which the test failed.
If the test fails now, a shell will be opened inside the test container, in which you can do anything you want. Please note that this is a root shell, but the tests are run as the app
user, so be sure to prefix test commands with setuser app
. You can see in internal/test/test.sh which commands are invoked inside the container in order to run the tests.
Inside the test container, you will be dropped into the directory /tmp/passenger, which is a copy of the Passenger source directory. The original Passenger source directory is mounted under /passenger.
Packages are built to output/<distro>
. You can play around manually with examining and installing these in a docker image:
docker run -v dir/on/host/output/<distro>:/dir/in/docker/img -it ubuntu:20.04
apt-get update && apt-get upgrade
dpkg -I passenger_5.1.x-1~distro1_amd64.deb # view info
dpkg -i passenger_5.1.x-1~distro1_amd64.deb # install passenger (probably need to install a module too)
apt --fix-broken install # to install dependencies
Are you a user who wants to build Debian packages for a Passenger version that hasn't been released yet? Maybe because you want to gain access to a bug fix that isn't part of a release yet? Then this tutorial is for you.
You can follow this tutorial on any OS you want. You do not necessarily have to follow this tutorial on the OS you wish to build packages for. For example, it is possible to build packages for Ubuntu 20.04 while following this tutorial on OS X.
If you are following this tutorial on a Linux system, then you must install Docker.
If you are following this tutorial on any other OS, then you must install Vagrant and VirtualBox.
NOTE: If you are on macOS, installing Docker for Mac is NOT enough. You MUST use Vagrant+VirtualBox.
First, clone the Passenger git repository and its submodules:
git clone https://github.com/phusion/passenger.git
cd passenger
git submodule update --init --recursive
Checkout the branch you want. At the time of writing (2017 July 6), you will most likely be interested in the stable-5.1
branch because that's the branch that is slated to become the next release version.
git checkout stable-5.1
Then go to the directory packaging/debian
:
cd packaging/debian
If you are on a Linux system, then you can skip to step 3.
If you are not on a Linux system, then you must spin up the Vagrant VM. Type:
vagrant up
Wait until the VM has booted, then run:
vagrant ssh
You will now be dropped in an SSH session inside the VM. Any futher steps must be followed inside this SSH session.
Use the ./build
script to build packages. You must tell the build script which distribution and architecture it should build for. Run:
./build -p <PATH TO PASSENGER> -w ~/work -c ~/cache -o output -a <ARCHITECTURE> -d <DISTRIBUTION> pkg:all
Replace <PATH TO PASSENGER>
with one of these:
- If you are on a Linux system, it should be
../..
. - If you are on a non-Linux system (and using Vagrant), it should be
/passenger
.
Replace <ARCHITECTURE>
with either arm64
or amd64
. Replace <DISTRIBUTION>
with the codename of the distribution you want to build for. For example:
focal
-- Ubuntu 20.04jammy
-- Ubuntu 22.04noble
-- Ubuntu 24.04bullseye
-- Debian 11bookworm
-- Debian 12
You can find the codename of your distribution version on Wikipedia: Ubuntu codenames, Debian codenames.
Here is an example invocation for building packages for Ubuntu 24.04, x86_64:
# If you are on a Linux system:
./build -p ../.. -w ~/work -c ~/cache -o output -a amd64 -d noble pkg:all
# If you are on a non-Linux system (and using Vagrant):
./build -p /passenger -w ~/work -c ~/cache -o output -a amd64 -d noble pkg:all
When the build is finished, you can find the packages in the output
directory.
If you are on a non-Linux OS (and thus using Vagrant), you should know that this output
directory is accessible from your host OS too. It is a subdirectory inside <PASSENGER REPO>/packaging/debian
.
If you are not on a Linux system, then you should spin down the Vagrant VM. Run this on your host OS, inside the packaging/debian
subdirectory:
vagrant halt