VyOS toplevel build =================== # What is VyOS VyOS is an open source operating system for network devices (routers, firewalls and so on). If you want to use it in your network, check out download and installation instructions at https://vyos.io If you want to modify VyOS and/or join its development, read on. VyOS is not new. It is a fork of Vyatta Core that was created when the open source version of it was discontinued. If you are a Vyatta Core user, you can upgrade your installation to VyOS. # What is this repository? VyOS is a GNU/Linux distribution based on Debian. Just like any other distribution, it consists of multiple packages. Some packages are taken from the upstream, while other are modified or written from scratch by VyOS developers. Every package maintained by the VyOS team has its own git repository. VyOS image build is therefore a multi-step process. Packages are compiled first, then an ISO is built from Debian packages and our own packages. This is the top level repository that contains links to repositories with VyOS specific packages (organized as Git submodules) and scripts and data that are used for building those packages and the installation image. # Structure of this repository There are several directories with their own purpose: build/ Used for temporary files used for the build and for build artifacts scripts/ Scripts that are used for the build process data/ Data required for building the ISO (such as boot splash) tools/ Scripts that are used for maintainer's tasks automation and other purposes, but not during ISO build process # Building VyOS installation images ## Prerequisites To build a VyOS 1.2.0 image, you need Debian 8 "Jessie" environment (with jessie-backports repository). If you do not have a Debian Jessie machine, you may create a chroot environment with the [debootstrap](https://wiki.debian.org/Debootstrap) tool. For example, on another version of Debian or another Debian-based distro, these commands will work: ```bash $ sudo apt-get install debootstrap $ sudo debootstrap jessie vyos-chroot $ sudo chroot vyos-chroot $ echo "deb http://deb.debian.org/debian jessie-backports main" >> /etc/apt/sources.list $ apt-get update ``` If you are working on a Debian Jessie machine, no special preparation is needed, you only need to enable jessie-backports and install build dependencies. An up-to-date dependency list can be found in our [Dockerfile](docker/Dockerfile). Several packages are required for building the ISO: * `python3` * `live-build` * `pbuilder` * `python3-pystache` The `./configure` script will warn you if any dependencies are missing. Individual packages may have other build dependencies. If some dependencies are missing, package build scripts will tell you. ## Building the ISO image Before you can build an image, you need to configure your build. To build an image, use the following commands: ```bash $ ./configure $ make iso ``` The `./configure` script has a number of options that you can see by calling it with `--help` ## Building the images for virtualization platforms ### QEMU Run following command after building the ISO image. ```bash $ make qemu ``` ### VMware Run following command after building the QEMU image. ```bash $ make vmware ``` # Building ISO or individual packages via Docker Using our [Dockerfile](docker/Dockerfile) you create your own Docker container that is used to build a VyOS ISO image or other required VyOS packages. The [Dockerfile](docker/Dockerfile) contains some of the most used packages needed to build a VyOS ISO, a qemu image, and several of the submodules. If you are interested which individual packages are required please check our [Dockerfile](docker/Dockerfile) which holds the most complete documentation of required packages. Listing individual packages here tend to be always outdated. We try to list required packages in groups through their inheritance in the [Dockerfile](docker/Dockerfile). To build the docker image ensure you have a working [Docker](https://www.docker.com) environment and then run the following commands: ```bash $ docker build -t vyos-builder docker ``` Run newly built container: ```bash $ docker run --rm -it --privileged -v $(pwd):/vyos -w /vyos vyos-builder bash ``` This will drop you into a bash shell with this vyos-build repo mounted at `/vyos`. Then follow the instructions bellow to build the VyOS ISO and QEMU image. ```bash vyos_bld@948a2be7c52c:/vyos$ uname -a Linux 948a2be7c52c 3.16.0-7-amd64 #1 SMP Debian 3.16.59-1 (2018-10-03) x86_64 GNU/Linux ``` **NOTE:** * Docker container must be run with `--privileged` flag * We recommended to run the container with a volume mapped in order to easy export built VyOS ISO images to the "external" world * UNIX ownership is automatically inherited from your host directory but can be altered by specifying the following environment variables when running the container: `-e GOSU_UID=$(id -u)` and/or `-e GOSU_GID=$(id -g)` After the Docker container is running you can follow up the instructions below in order to build the VyOS ISO image. ## Building subpackages inside Docker [scripts/build-packages](scripts/build-packages) provides an easy interface for automate the process of building all VyOS related packages that are not part of the upstream Debian version. Execute it in the root of the `vyos-build` directory to start compilation. ```bash $ scripts/build-packages -h usage: build-packages [-h] [-v] [-c] [-l] [-b BUILD [BUILD ...]] [-f] optional arguments: -h, --help show this help message and exit -v, --verbose Increase logging verbosity for each occurance -c, --clean Re-clone required Git repositories -l, --list-packages List all packages to build -b BUILD [BUILD ...], --build BUILD [BUILD ...] Whitespace separated list of packages to build -f, --fetch Fetch sources only, no build ``` Git repositoriers are automatically fetched and build on demand. If you wan't to work offline you can fetch all source code first with the `-f` option. The easiest way to compile is with the above mentioned [Docker](docker/Dockerfile) container, it includes all dependencies for compiling supported packages. ```bash $ docker run --rm -it -v $(pwd):/vyos -w /vyos \ --sysctl net.ipv6.conf.lo.disable_ipv6=0 \ vyos-builder \ ./scripts/build-packages ``` **NOTE:** `--sysctl net.ipv6.conf.lo.disable_ipv6=0` is required to build the `vyos-strongswan` package **NOTE:** Prior to executing this script you need to create or build the Docker container and checkout all packages you want to compile. ### Building a single package The script above runs all package build inside the Docker container, this is also possible to do by hand using: Executed from the root of `vyos-build` ```bash $ docker run --rm -it -v $(pwd):/vyos -w /vyos/packages/PACKAGENAME \ --sysctl net.ipv6.conf.lo.disable_ipv6=0 \ vyos-builder \ ./scripts/build-packages -b ``` **NOTE:** `--sysctl net.ipv6.conf.lo.disable_ipv6=0` is only needed when building `vyos-strongswan` and can be ignored on other packages. **NOTE:** `vyos-strongswan` will only compile on a Linux system, running on macOS or Windows might result in a unittest deadlock (it never exits). # Development process ## Git branches The default branch that contains the most recent VyOS code is called `current` rather than `master`. We know it's confusing, but it's not easy to fix. In a nutshell, the code we inherited from Vyatta Core had its `master` branch so out of sync with everything it was beyond any repair. Vyatta developers used to create a new branch not when a release is ready for code freeze, but rather before starting to work on a new release. This is hard to change in existing code, so this is just the way it is, for now. All new code goes to the `current` branch. When it's time for a code freeze, a new branch is created for the release, and new code from `current` is backported to the release branch as needed. In packages that originate from VyOS the master branch is kept in sync with `current`, but we still use `current` as default branch for uniformity. When the last legacy package is gone, we will switch to using the `master` branch and retire `current`. For branch naming we switched to use constellations: * `crux` * ...