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Debian Repository

This guide explains:

  1. A basic overview of how Debian packages are structured
  2. What package managers, clients, and tools are used to manage Debian packages
  3. How the GitLab Debian repository functions

Debian package basics

There are two types of Debian packages: binary and source.

  • Binary - These are usually .deb files and contain executables, config files, and other data. A binary package must match your OS or architecture since it is already compiled. These are usually installed using dpkg. Dependencies must already exist on the system when installing a binary package.
  • Source - These are usually made up of .dsc files and compressed .tar files. A source package may be compiled on your system.

Packages are fetched with apt and installed with dpkg. When you use apt, it also fetches and installs any dependencies.

The .deb file follows the naming convention <PackageName>_<VersionNumber>-<DebianRevisionNumber>_<DebianArchitecture>.deb.

It includes a control file that contains metadata about the package. You can view the control file by using dpkg --info <deb_file>.

The .changes file is used to tell the Debian repository how to process updates to packages. It contains a variety of metadata for the package, including architecture, distribution, and version. In addition to the metadata, they contain three lists of checksums: sha1, sha256, and md5 in the Files section. Refer to sample_1.2.3~alpha2_amd64.changes for an example of how these files are structured.

How do people get Debian packages?

While you can download a single .deb file and install it with dpkg, most users consume Debian packages with apt using apt-get. apt wraps dpkg, adding dependency management and compilation.

How do people publish Debian packages?

It is not uncommon to use curl to publish packages depending on the type of Debian repository you are working with. However, dput-ng is the best tool to use as it will upload the relevant files based on the .changes file.

What is all this distribution business?

When it comes to Debian, packages don't exist on their own. They belong to a distribution. This can mean many things, but the main thing to note is users are used to having to specify the distribution.

What does a Debian Repository look like?

  • A Debian repository is made up of many releases.
  • Each release is given a stable codename. For the public Debian repository, these are names like "bullseye" and "jessie".
    • There is also the concept of suites which are essentially aliases of codenames synonymous with release channels like "stable" and "edge". Over time they change and point to different codenames.
  • Each release has many components. In the public repository, these are "main", "contrib", and "non-free".
  • Each release has many architectures such as "amd64", "arm64", or "i386".
  • Each release has a signed Release file (see below about GPG signing)

A standard directory-based Debian repository would be organized as:

dists\
      |--jessie/
      |--bullseye\
                  |Changelog
                  |Release
                  |InRelease
                  |Release.gpg
                  |--main\
                          |--amd64\
                          |--arm64\
                  |--contrib\
                  |--non-free\
pool\
     |--this is where the .deb files for all releases live

You can explore a mirror of the public Debian repository here: http://ftp.us.debian.org/debian/

In the public Debian repository, the entire directory structure, release files, GPG keys, and other files are all generated by a series of scripts called the Debian Archive Kit, or dak.

In the GitLab Debian repository, we don't deal with specific file directories. Instead, we use code and an underlying PostgreSQL database to organize the relationships between these different pieces.

What does a Debian Repository do?

The Debian community created many package repository systems before things like object storage existed, and they used FTP to upload artifacts to a remote server. Most current package repositories and registries are just directories on a server somewhere. Packages added to the official Debian distribution exist in a central public repository that a group of open source maintainers curates. The package maintainers use the Debian Archive Kit, or dak scripts to generate release files and do other maintenance tasks. So, in addition to storing and serving files, a complete Debian repository needs to accomplish the same behavior that dak provides. This behavior is what the GitLab Debian registry aims to do.

What are GPG keys, and what are signed releases

A GPG key is a public/private key pair for secure data transmission. Similar to an SSH key, there is a private and public key. Whoever has the public key can encrypt data, and whoever has the private key can decrypt data that was encrypted using the public key. You can also use GPG keys to sign data. Whoever has the private key can sign data or a file, and whoever has the public key can then check the signature and trust it came from the person with the matching private key.

We use GPG to sign the release file for the Debian packages. The release file is an index of all packages within a given distribution and their respective digests.

In the GitLab Debian registry, a background process generates a new release file whenever a user publishes a new package to their Debian repository. A GPG key is created for each distribution. If a user requests a release for that distribution, they can request the signed version and the public GPG key to verify the authenticity of that release file.

GitLab repository internals

When a file upload occurs:

  1. A new "incoming" package record is found or created. All new files are assigned to the "incoming" package. It is a holding area used until we know what package the file is actually associated with.
  2. A new "unknown" file is stored. It is unknown because we do not yet know if this file belongs to an existing package or not.

Once we know which package the file belongs to, it is associated with that package, and the "incoming" package is removed if no more files remain. The "unknown" status of the file is updated to the correct file type.

Next, if the file is a .changes format:

  1. The .changes file is parsed and any files listed within it are updated. All uploaded non-.changes files are correctly associated with various distributions and packages.
  2. The ::Packages::Debian::GenerateDistributionWorker and thus ::Packages::Debian::GenerateDistributionService are run.
    1. Component files are created or updated. Since we just updated package files that were listed in the .changes file, we now check the component/architecture files based on the changed checksum values.
    2. A new release is generated:
      1. A new GPG key is generated if one does not already exist for the distribution
      2. A Release file is written, signed by the GPG key, and then stored.
    3. Old component files are destroyed.

The three following diagrams show the path taken after a file is uploaded to the Debian API:

sequenceDiagram
    autonumber
    actor Client
    Client->>+DebianProjectPackages: PUT projects/:id/packages/debian/:file_name
    Note over DebianProjectPackages: If `.changes` file or distribution param present
    DebianProjectPackages->>+CreateTemporaryPackageService: Create temporary package
    Note over DebianProjectPackages: Else
    DebianProjectPackages->>+FindOrCreateIncomingService: Create "incoming" package
    Note over DebianProjectPackages: Finally
    DebianProjectPackages->>+CreatePackageFileService: Create "unknown" file
    Note over CreatePackageFileService: If `.changes` file or distribution param present
    CreatePackageFileService->>+ProcessPackageFileWorker: Schedule worker to process the file
    DebianProjectPackages->>+Client: 202 Created

    ProcessPackageFileWorker->>+ProcessPackageFileService: Start service

ProcessPackageFileWorker background job:

sequenceDiagram
    autonumber
    ProcessPackageFileWorker->>+ProcessPackageFileService: Start service
    ProcessPackageFileService->>+ExtractChangesMetadataService: Extract changes metadata
    ExtractChangesMetadataService->>+ExtractMetadataService: Extract file metadata
    ExtractMetadataService->>+ParseDebian822Service: run `dpkg --field` to get control file
    ExtractMetadataService->>+ExtractDebMetadataService: If .deb, .udeb or ddeb
    ExtractDebMetadataService->>+ParseDebian822Service: run `dpkg --field` to get control file
    ParseDebian822Service-->>-ExtractDebMetadataService: Parse String as Debian RFC822 control data format
    ExtractDebMetadataService-->>-ExtractMetadataService: Return the parsed control file
    ExtractMetadataService->>+ParseDebian822Service: if .dsc, .changes, or buildinfo
    ParseDebian822Service-->>-ExtractMetadataService:  Parse String as Debian RFC822 control data format
    ExtractMetadataService-->>-ExtractChangesMetadataService: Parse Metadata file
    ExtractChangesMetadataService-->>-ProcessPackageFileService: Return list of files and hashes from the .changes file
    loop process files listed in .changes
        ProcessPackageFileService->>+ExtractMetadataService: Process file
        ExtractMetadataService->>+ParseDebian822Service: run `dpkg --field` to get control file
        ExtractMetadataService->>+ExtractDebMetadataService: If .deb, .udeb or ddeb
        ExtractDebMetadataService->>+ParseDebian822Service: run `dpkg --field` to get control file
        ParseDebian822Service-->>-ExtractDebMetadataService: Parse String as Debian RFC822 control data format
        ExtractDebMetadataService-->>-ExtractMetadataService: Return the parsed control file
        ExtractMetadataService->>+ParseDebian822Service: if .dsc, .changes, or buildinfo
        ParseDebian822Service-->>-ExtractMetadataService:  Parse String as Debian RFC822 control data format
        ExtractMetadataService-->>-ProcessPackageFileService: Use parsed metadata to update "unknown" (or known) file
    end
    ProcessPackageFileService->>+GenerateDistributionWorker: Find distribution and start service

    GenerateDistributionWorker->>+GenerateDistributionService: Generate distribution

GenerateDistributionWorker background job:

sequenceDiagram
    autonumber
    GenerateDistributionWorker->>+GenerateDistributionService: Generate distribution
    GenerateDistributionService->>+GenerateDistributionService: generate component files based on new archs and updates from .changes
    GenerateDistributionService->>+GenerateDistributionKeyService: generate GPG key for distribution
    GenerateDistributionKeyService-->>-GenerateDistributionService: GPG key
    GenerateDistributionService-->>-GenerateDistributionService: Generate distribution file
    GenerateDistributionService->>+SignDistributionService: Sign release file with GPG key
    SignDistributionService-->>-GenerateDistributionService: Save the signed release file
    GenerateDistributionService->>+GenerateDistributionService: destroy no longer used component files

Distributions

You must create a distribution before publishing a package to it. When you create or update a distribution using the project or group distribution API, in addition to creating the initial backing records in the database, the GenerateDistributionService run as shown in the above sequence diagram.