Local corporate APT repositories

Vincent Bernat

Distributing software efficiently accross your platform can be difficult. Every distribution comes with a package manager which is usually suited for this task. APT can be relied upon on when using Debian or a derivative.

Unfortunately, the official repositories may not contain everything you need. When you require unpackaged software or more recent versions, it is possible to setup your own local repository.

Most of what is presented here was setup for Dailymotion and was greatly inspired by the work done by Raphaël Pinson at Orange.

Setting up your repositories🔗

There are three kinds of repositories you may want to setup:

  1. A distribution mirror. Such a mirror will save bandwidth, provide faster downloads and permanent access, even when someone types Google into Google.

  2. A local repository for your own packages with the ability to have a staging zone to test packages on some servers before putting them in production.

  3. Mirrors for unofficial repositories, like Ubuntu PPA. To avoid unexpected changes, such a repository will also get a staging and a production zone.

Before going further, it is quite important to understand what a repository is. Let’s illustrate with the following line from my /etc/apt/sources.list:

deb http://ftp.debian.org/debian/ unstable main contrib non-free

In this example, http://ftp.debian.org/debian/ is the repository and unstable is the distribution. A distribution is subdivided into components. We have three components: main, contrib and non-free.

To setup repositories, we will use reprepro. This is not the only solution but it has a good balance between versatility and simplicity. reprepro can only handle one repository. So, the first choice is about how you will split your packages in repositories, distributions and components.

Here is what matters:

  • A repository cannot contain two identical packages (same name, same version, same architecture).
  • Inside a component, you can only have one version of a package.
  • Usually, a distribution is a subset of the versions while a component is a subset of the packages. For example, in Debian, with the distribution unstable, you choose to get the most recent versions while with the component main, you choose to get DFSG-free software only.

If you go for several repositories, you will have to handle several reprepro instances and won’t be able to easily copy packages from one place to another. At Dailymotion, we put everything in the same repository but it would also be perfectly valid to have three repositories:

  • one to mirror the distribution,
  • one for your local packages, and
  • one to mirror unofficial repositories.

Here is our target setup:

Local APT repository
A repository with three distributions, including a staging area.

Initial setup🔗

First, create a system user to work with the repositories:

$ adduser --system --disabled-password --disabled-login \
>         --home /srv/packages \
>         --group reprepro

All operations should be done with this user only. If you want to setup several repositories, create a directory for each of them. Each repository has these subdirectories:

  • conf/ contains the configuration files,
  • gpg/ contains the GPG stuff to sign the repository,1
  • logs/ contains the logs,
  • www/ contains the repository that should be exported by the web server.

Here is the content of conf/options:

outdir +b/www
logdir +b/logs
gnupghome +b/gpg

Then, you need to create the GPG key to sign the repository:

$ GNUPGHOME=gpg gpg --gen-key
Please select what kind of key you want:
   (1) RSA and RSA (default)
   (2) DSA and Elgamal
   (3) DSA (sign only)
   (4) RSA (sign only)
Your selection? 1
RSA keys may be between 1024 and 4096 bits long.
What keysize do you want? (2048) 4096
Requested keysize is 4096 bits
Please specify how long the key should be valid.
         0 = key does not expire
      <n>  = key expires in n days
      <n>w = key expires in n weeks
      <n>m = key expires in n months
      <n>y = key expires in n years
Key is valid for? (0) 10y
Key expires at mer. 08 nov. 2023 22:30:58 CET
Is this correct? (y/N) y

Real name: Dailymotion Archive Automatic Signing Key
Email address: the-it-operations@dailymotion.com

By setting an empty password, you allow reprepro to run unattended. You will have to distribute the public key of your new repository to let APT check the archive signature. An easy way is to ship it in some package.

Local mirror of an official distribution🔗

Let’s start by mirroring a distribution. We want a local mirror of Ubuntu Precise. For this, we need to do two things:

  1. Setup a new distribution in conf/distributions.
  2. Configure the update sources in conf/updates.

Let’s add this block to conf/distributions:

# Ubuntu Precise
Origin: Ubuntu
Label: Ubuntu
Suite: precise
Version: 12.04
Codename: precise
Architectures: i386 amd64
Components: main restricted universe multiverse
UDebComponents: main restricted universe multiverse
Description: Ubuntu Precise 12.04 (with updates and security)
Contents: .gz .bz2
UDebIndices: Packages Release . .gz
Tracking: minimal
Update: - ubuntu-precise ubuntu-precise-updates ubuntu-precise-security
SignWith: yes

This defines the precise distribution in our repository. It contains four components: main, restricted, universe and multiverse (like the regular distribution in official repositories).

The Update line starts with a dash. This means reprepro will mark everything as deleted before updating with the provided sources. Old packages will not be kept when they are removed from Ubuntu. In conf/updates, we define the sources:

# Ubuntu Precise
Name: ubuntu-precise
Method: http://fr.archive.ubuntu.com/ubuntu
Fallback: http://de.archive.ubuntu.com/ubuntu
Suite: precise
Components: main main multiverse restricted universe
UDebComponents: main restricted universe multiverse
Architectures: amd64 i386
VerifyRelease: 437D05B5
GetInRelease: no

# Ubuntu Precise Updates
Name: ubuntu-precise-updates
Method: http://fr.archive.ubuntu.com/ubuntu
Fallback: http://de.archive.ubuntu.com/ubuntu
Suite: precise-updates
Components: main restricted universe multiverse
UDebComponents: main restricted universe multiverse
Architectures: amd64 i386
VerifyRelease: 437D05B5
GetInRelease: no

# Ubuntu Precise Security
Name: ubuntu-precise-security
Method: http://fr.archive.ubuntu.com/ubuntu
Fallback: http://de.archive.ubuntu.com/ubuntu
Suite: precise-security
Components: main restricted universe multiverse
UDebComponents: main restricted universe multiverse
Architectures: amd64 i386
VerifyRelease: 437D05B5
GetInRelease: no

The VerifyRelease lines are GPG key fingerprint to use to check the remote repository. The key needs to be imported in the local keyring:

$ gpg --keyring /usr/share/keyrings/ubuntu-archive-keyring.gpg \
>     --export 437D05B5 | GNUPGHOME=gpg gpg --import

Another important point is that we merge three distributions (precise, precise-updates and precise-security) into a single distribution (precise) in our local repository. This may cause some difficulties with tools expecting the three distributions to be available (like the Debian Installer2).

Next, you can run reprepro and ask it to update your local mirror:

$ reprepro update

This will take some time on the first run. You can execute this command every night. reprepro is not the fastest mirror solution but it is easy to setup, flexible and reliable.

Repository for local packages🔗

Let’s configure the repository to accept local packages. For each official distribution (like precise), we will configure two distributions:

  • precise-staging contains packages that have not been fully tested and not ready to go to production.
  • precise-prod contains production packages copied from precise-staging.

In our workflow, packages are introduced in precise-staging where they can be tested and will be copied to precise-prod when we want them to be available for production. You can adopt a more complex workflow if you need. The reprepro part is quite easy. We add the following blocks into conf/distributions:

# Dailymotion Precise packages (staging)
Origin: Dailymotion # ❸
Label: dm-staging   # ❸
Suite: precise-staging
Codename: precise-staging
Architectures: i386 amd64 source
Components: main role/dns role/database role/web # ❶
Description: Dailymotion Precise staging repository
Contents: .gz .bz2
Tracking: keep
SignWith: yes
NotAutomatic: yes # ❷
Log: packages.dm-precise-staging.log
 --type=dsc email-changes

# Dailymotion Precise packages (prod)
Origin: Dailymotion # ❸
Label: dm-prod      # ❸
Suite: precise-prod
Codename: precise-prod
Architectures: i386 amd64 source
Components: main role/dns role/database role/web # ❶
Description: Dailymotion Precise prod repository
Contents: .gz .bz2
Tracking: keep
SignWith: yes
Log: packages.dm-precise-prod.log

First notice we use several components (in ❶):

  • main will contain packages that are not specific to a subset of the platform. If you put a package in main, it should work correctly on any host.
  • role/* are components dedicated to a subset of the platform. For example, in role/dns, we ship a custom version of BIND.

The staging distribution has the NotAutomatic flag (in ❷) which disallows the package manager to install these packages except if the user explicitely requests it. Just below, when a new dsc file is uploaded, the hook email-changes will be executed. It should be in the conf/ directory.

The Origin and Label lines (in ❸) are quite important to be able to define an explicit policy of which packages should be installed. Let’s say we use the following /etc/apt/sources.list file:

# Ubuntu packages
deb http://packages.dm.gg/dailymotion precise main restricted universe multiverse

# Dailymotion packages
deb http://packages.dm.gg/dailymotion precise-prod    main role/dns
deb http://packages.dm.gg/dailymotion precise-staging main role/dns

All servers have the precise-staging distribution. We must ensure we won’t install these packages by mistake. The NotAutomatic flag is one possible safe-guard. We also use a tailored /etc/apt/preferences:

Explanation: Dailymotion packages of a specific component should be more preferred
Package: *
Pin: release o=Dailymotion, l=dm-prod, c=role/*
Pin-Priority: 950

Explanation: Dailymotion packages should be preferred
Package: *
Pin: release o=Dailymotion, l=dm-prod
Pin-Priority: 900

Explanation: staging should never be preferred
Package: *
Pin: release o=Dailymotion, l=dm-staging
Pin-Priority: -100

By default, packages will have a priority of 500. By setting a priority of -100 to the staging distribution, we ensure the packages cannot be installed at all. This is stronger than NotAutomatic which sets the priority to 1. When a package exists in Ubuntu and in our local repository, we ensure that, if this is a production package, we will use ours by using a priority of 900 (or 950 if we match a specific role component).

Have a look at the “How APT Interprets Priorities” section of apt_preferences(5) manual page for additional information. Keep in mind that version matters only when the priority is the same. To check if everything works as you expect, use apt-cache policy:

$ apt-cache policy php5-memcache
  Installed: 3.0.8-1~precise2~dm1
  Candidate: 3.0.8-1~precise2~dm1
  Version table:
 *** 3.0.8-1~precise2~dm1 0
        950 http://packages.dm.gg/dailymotion/ precise-prod/role/web amd64 Packages
        100 /var/lib/dpkg/status
     3.0.8-1~precise1~dm4 0
        900 http://packages.dm.gg/dailymotion/ precise-prod/main amd64 Packages
       -100 http://packages.dm.gg/dailymotion/ precise-staging/main amd64 Packages
     3.0.6-1 0
        500 http://packages.dm.gg/dailymotion/ precise/universe amd64 Packages

If we want to install a package from the staging distribution, we can use apt-get with the -t precise-staging option to raise the priority of this distribution to 990.

Once you have tested your package, you can copy it from the staging distribution to the production distribution:

$ reprepro -C main copysrc precise-prod precise-staging wackadoodle

Local mirror of third-party repositories🔗

Sometimes, you want a software published on some third-party repository without to repackage it yourself. A common example is the repositories edited by hardware vendors. Like for an Ubuntu mirror, there are two steps: defining the distribution and defining the source.

We chose to put such mirrors into the same distributions as our local packages but with a dedicated component for each mirror. This way, these third-party packages will share the same workflow as our local packages: they will appear in the staging distribution, we validate them and copy them to the production distribution.

The first step is to add the components and an appropriate Update line to conf/distributions:

Origin: Dailymotion
Label: dm-staging
Suite: precise-staging
Components: main role/dns role/database role/web vendor/hp
Update: hp
# [...]

Origin: Dailymotion
Label: dm-prod
Suite: precise-prod
Components: main role/dns role/database role/web vendor/hp
# [...]

We added the vendor/hp component to both the staging and the production distributions. However, only the staging distribution gets an Update line (remember, packages will be copied manually into the production distribution).

We declare the source in conf/updates:

# HP repository
Name: hp
Method: http://downloads.linux.hp.com/SDR/downloads/ManagementComponentPack/
Suite: precise/current
Components: non-free>vendor/hp
Architectures: i386 amd64
VerifyRelease: 2689B887
GetInRelease: no

Don’t forget to add the GPG key to your local keyring. Notice an interesting feature of reprepro: we copy the remote non-free component to our local vendor/hp component.

Then, you can synchronize the mirror with reprepro update. Once the packages have been tested, you will have to copy them in the production distribution.

Building Debian packages🔗

Our reprepro setup seems complete, but how do we put packages into the staging distribution?

You have several options to build Debian packages for your local repository. It really depends on how much time you want to invest in this activity:

  1. Build packages from source by adding a debian/ directory. This is the classic way of building Debian packages. You can start from scratch or use an existing package as a base. In the latest case, the package can be from the official archive but for a more recent distribution or a backport or from an unofficial repository.

  2. Use a tool that will create a binary package from a directory, like fpm. Such a tool will try to guess a lot of things to minimize your work. It can even download everything for you.

There is no universal solution. If you don’t have the time budget for building packages from source, have a look at fpm. I would advise you to use the first approach when possible because you will get these perks for free:

  • You keep the sources in your repository. Whenever you need to rebuild something to fix an emergency bug, you won’t have to hunt the sources which may be unavailable when you need them the most. Of course, this only works if you build packages that don’t download stuff directly from the Internet.

  • You also keep the recipe3 to build the package in your repository. If someone enables some option and rebuild the package, you won’t accidently drop this option on the next build. These changes can be documented in debian/changelog. Moreover, you can use a version control software for the whole debian/ directory.

  • You can propose your package for inclusion into Debian. This will help many people once the package hits the archive.

UPDATED (2017.10): I present an alternate approach to create Debian packages without much effort in “Pragmatic Debian packaging.”


We chose pbuilder as a builder.4 Its setup is quite straightforward. Here is our /etc/pbuilderrc:

COMPONENTS=("main" "restricted" "universe" "multiverse")
OTHERMIRROR="deb http://packages.dm.gg/dailymotion ${DIST}-staging main"
DEBOOTSTRAPOPTS=("--arch" "$ARCH" "--variant=buildd" "${DEBOOTSTRAPOPTS[@]}" "--keyring=$KEYRING")

pbuilder is expected to be invoked with DIST, ARCH and optionally ROLE environment variables. Building the initial bases can be done like this:

for ARCH in i386 amd64; do
  for DIST in precise; do
    export ARCH
    export DIST
    pbuilder --create

We don’t create a base for each role. Instead, we use a D hook to add the appropriate source:

[ -z "$ROLE" ] || {
  cat >> /etc/apt/sources.list <<EOF
deb http://packages.dm.gg/dailymotion ${DIST}-staging role/${ROLE}

apt-get update

We ensure packages from our staging distribution are preferred over other packages by adding an /etc/apt/preferences file in a E hook:


cat > /etc/apt/preferences <<EOF
Explanation: Dailymotion packages are of higher priority
Package: *
Pin: release o=Dailymotion
Pin-Priority: 900

We also use a C hook to get a shell in case there is an error. This is convenient to debug a problem:

apt-get install -y --force-yes vim less
cd /tmp/buildd/*/debian/..
/bin/bash < /dev/tty > /dev/tty 2> /dev/tty

A manual build can be run with:

$ ARCH=amd64 DIST=precise ROLE=web pbuilder \
>         --build somepackage.dsc

Version numbering🔗

To avoid to apply complex rules to chose a version number for a package, we chose to treat everything as a backport, even in-house software. We use the following scheme: X-Y~preciseZ+dmW.

  • X is the upstream version.5

  • Y is the Debian version. If there is no Debian version, use 0.

  • Z is the Ubuntu backport version. Again, if such a version doesn’t exist, use 0.

  • W is our version of the package. We increment it when we make a change to the packaging. This is the only number we are allowed to control. All the others are set by an upstream entity, unless it doesn’t exist and in this case, you use 0.

Let’s suppose you need to backport wackadoodle. It is available in a more recent version of Ubuntu as 1.4-3. Your first backport will be 1.4-3~precise0+dm1. After a change to the packaging, the version will be 1.4-3~precise0+dm2. A new upstream version 1.5 is available and you need it. You will use 1.5-0~precise0+dm1.

Later, this new upstream version will be available in some version of Ubuntu as 1.5-3ubuntu1. You will rebase your changes on this version and get 1.5-3ubuntu1~precise0+dm1.

When using Debian instead of Ubuntu, a compatible convention could be : X-Y~bpo70+Z~dm+W.


To upload a package, a common setup is the following workflow:

  1. Upload the source package to an incoming directory.
  2. reprepro will notice the source package, check its correctness (signature, distribution) and put it in the archive.
  3. The builder will notice a new package needs to be built and build it.
  4. Once the package is built, the builder will upload the result to the incoming directory.
  5. reprepro will notice again the new binary package and integrate it in the archive.

This workflow has the disadvantage to have many moving pieces and to leave the user in the dark while the compilation is in progress. Instead, a build script is used to execute each step synchronously. The user can follow on their terminal that everything works as expected. The build script also handles uploading the final packages to the archive with the appropriate command:

$ reprepro -C main include precise-staging \
>      wackadoodle_1.4-3~precise0+dm4_amd64.changes

Happy hacking!

  1. The gpg/ directory could be shared by several repositories. 

  2. We teached Debian Installer to work with our setup with an appropriate preseed file

  3. fpm-cookery is a convenient tool to write recipes for fpm, similar to Homebrew or a BSD port tree. It could be used to achieve the same goal. 

  4. sbuild is an alternative to pbuilder and is the official builder for both Debian and Ubuntu. Historically, pbuilder was more focused on developers’ needs. 

  5. For a Git snapshot, we use something like 1.4-git20130905+1-ae42dc1 which is a snapshot made after version 1.4 (use 0.0 if no version has ever been released) at the given date. The following 1 is to be able to package different snapshots at the same date while the hash is here in case you need to retrieve the exact snapshot. 

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