TungstenFabric (formely
OpenContrail, the opensource version of
Contrail by Juniper Networks)
is one of the most established SDN solutions on the market today. At
Cloudwatt, the SDN features of TungstenFabric provide the networking
features of our IaaS offer. TungstenFabric allows us to provide
virtual private networks, security groups and also more advanced
features such as SNAT and LBaaS. We have been using OpenContrail ever
since 2014 (using version 1.6 back then) and over time have also made
some upstream contributions.
Last month we published
nixpkgs-tungsten - a
Nix based collection of tools and packages
for working with and deploying TungstenFabric services.
In this blog post we will explore nixpkgs-tungsten, explain the motivation behind it, present its
main features and show how to get started with it using the please script we provide with it.
Motivation
While the commercial version of TungstenFabric comes with paid support by Juniper we decided to use the
open source version instead. Technical support is convenient but in our case we prefer the level of
freedom and control that we get from using the open source version. Driving factors to this decision
were:
- Having full control over the packaging process
- Being able to test recent features or apply security patches
- Being able to customize TungstenFabric packages to our specific needs
- Contributing to, and benefiting from the F/OSS ecosystem
The sources to all TungstenFabric components are available under the Juniper
organization on GitHub. The
juniper/contrail-packages provides scripts organized
around a Makefile for creating binary packages. There are a few shortcomings however:
- Only supports creating
rpm packages (deb support has been deprecated)
- No tools for provisioning build time requirements
- No straight-forward way to customize
- No granular builds (thus not appropriate for an active development workflow)
- Long build times (caused by the lack of control over the build granularity)
For these reasons we decided to instead invest into building our own TungstenFabric distribution based on
Nix. We decided to open source nixpkgs-tungsten because we like
to give back to the community we benefit so much from. We hope that it might provide value to
others interested in TungstenFabric as well.
Note that nixpkgs-tungsten is not our only Nix based project. We also maintain other projects which in turn
import nixpkgs-tungsten in order to:
- Build debian packages used in production
- Apply Cloudwatt specific patches to TungstenFabric sources
- Run additional tests specific to our production environment
We will however only cover nixpkgs-tungsten itself in this blog post.
About Nix
Nix enables us to record and provision all dependencies of a project in a declarative and composable
manner. The information is maintained as part of the version controlled source code of the project.
This is achieved through several inter-connected solutions that are all part of the Nix ecosystem:
- The Nix language: A simple, domain specific functional programming language for describing packages
- The nixpkgs collection of Nix expressions: Thousands of Nix expressions describing programs, libraries and services
- The Nix package manager: Command-line tools for building and installing nix expressions
- NixOS: An operating system built on top of Nix package manager
This article will not explore the Nix language itself in much more detail and rather focus on what have built
with it. But if you want to learn more, there are
many
external resources to
learn more.
What’s In The Box
nixpks-tungsten provides the following, most relevant features:
- A collection of easy-to-change, installable and configurable components, tools and services
- Lightweight development environments to work on any of these packages
- Creation, provisioning and running of QEMU based Virtual Machines to test all packages
Requirements for using nixpkgs-tungsten:
- A Linux setup with permissions to run
sudo
- A Linux kernel with
kvm support if you want to use the virtualization features
- curl
The included ./please bash script
exposes the main functionality of nixpkgs-tungsten. Neither an existing Nix installation nor prior
experience in using Nix are required to start using nixpkgs-tungsten.
Getting Started
To get started, clone the repository and run the ./please init script:
$ git clone https://github.com/cloudwatt/nixpkgs-tungsten
$ cd nixpkgs-tungsten
$ ./please init
This will install Nix and configure it for use with nixpkgs-tungsten. Most importantly, this will
ensure that Nix uses a TungstenFabric specific binary cache. With the binary cache configured, packages
that have already been built on our CI server can be retrieved from there and don’t have to be built
again locally.
To verify that the setup was successful you can run the doctor command:
$ ./please doctor
[please]: Running sanity checks:
- Nix installed : OK
- contrail channel: OK
- contrail cache: OK
- kvm support: OK
All essential tests passed.
Using Completions
The please script supports context-sensitive bash completion. While using it isn’t
strictly necessary, it does add a level of convenience. The completion can be
enabled with a single command as follows:
$ source <(please completions)
Afterwards typing ./please<TAB> should yield several completion options. You
will also get completions per command. Try ./please install <TAB>.
Finding And Installing Packages
nixpkgs-tungsten provides various TungstenFabric (called contrail
for historical reasons) related packages. Use the list command to
get an overview of everything that is available:
$ ./please list
contrailApiCliWithExtra
contrailGremlin
contrailIntrospectCli
gremlinChecks
gremlinConsole
gremlinFsck
gremlinServer
contrail32.analyticsApi
contrail32.apiServer
contrail32.collector
contrail32.configUtils
contrail32.control
contrail32.discovery
...
While most of the TungstenFabric components are probably not that interesting to be installed on your
development machine, there are others which are. One example is the
contrail-api-cli. In the output above it is listed
as contrailApiCliWithExtra. We can use the install command to install it:
$ ./please install contrailApiCliWithExtra
[please]: Running "nix-env -f default.nix -iA contrailApiCliWithExtra"
installing 'contrail-api-cli-with-extra-0.4.0rc1'
these paths will be fetched (1.66 MiB download, 79.71 MiB unpacked):
/nix/store/004n2glrkaa1y4p5v296h9bw57j7rb61-python2.7-contrail-api-cli-extra-0.5.9
/nix/store/0994dq5q810d8bb8f3nyhpg3lf4awm9r-python2.7-debtcollector-1.21.0
/nix/store/0inigr6iwym7vl8vpnjjig6fs6c7grya-python2.7-six-1.11.0
/nix/store/0kswkvj5ycbkrcfvhk2pjw8jgsqg76qj-python2.7-certifi-2018.8.24
/nix/store/1xqi4pljh380fi0ynps40r2ysrflibff-python2.7-wcwidth-0.1.7
/nix/store/3g4zz45zr6lgz56pb0n2f9zl0hpr8xnl-python2.7-funcsigs-1.0.2
[...]
building '/nix/store/6a9wnl4jci3xf9bp4w7iqb2yqi5v86rq-user-environment.drv'...
created 5364 symlinks in user environment
After the installation is complete, you can start using the tool:
$ contrail-api-cli
usage: contrail-api-cli [-h] [--debug]
[--schema-version {5.0,4.1,1.10,3.0,2.21,3.2,3.1}]
[--logging-conf LOGGING_CONF]
[--config-dir CONFIG_DIR] [--host HOST] [--port PORT]
[--protocol PROTOCOL] [--base-uri BASE_URI]
[--insecure] [--os-cacert <ca-certificate>]
[--os-cert <certificate>] [--os-key <key>]
[--timeout <seconds>] [--collect-timing]
[--os-auth-type <name>] [--os-username OS_USERNAME]
[--os-password OS_PASSWORD] [--ns COMMAND_NAMESPACE]
{schema,shell,exec,edit,tree,batch,cat,relative,ln,kv,man,rm,pyt
hon,du,ls,find-orphaned-projects,fix-subnets,fix-vn-id,apply-sg,fix-fip-locks,reschedule
-vm,rpf,fix-sg,graph,fix-zk-ip,check-bad-refs,manage-rt,provision,dot,fix-ri,fsck}
...
Of course you can also uninstall packages again:
$ ./please uninstall contrailApiCliWithExtra
[please]: Running "nix-env -e contrail-api-cli-with-extra-0.4.0rc1"
uninstalling 'contrail-api-cli-with-extra-0.4.0rc1'
$ contrail-api-cli
contrail-api-cli: comand not found
A Development Workflow For TungstenFabric Packages
Let’s say you want to add a new feature to the TungstenFabric vrouter agent. Using please this is a
straight forward process where you don’t have to spend any time setting up the required environment
with the necessary tools and libraries - they will be provided to you.
1. Finding the right package
We may start by using please list to look for the right package:
$ ./please list Agent
contrail32.vrouterAgent
contrail41.vrouterAgent
contrail50.vrouterAgent
2. Using the shell command
Assuming we are working on version 5.0 we may then continue with the shell command:
$ ./please shell contrail50.vrouterAgent
[please]: Running "nix-shell default.nix -A contrail50.vrouterAgent"
Nix will now download all build dependencies as defined in the corresponding
vrouter-agent.nix
file. Once all downloads have been completed you will be placed in a shell.
3. Getting the sources
The next step is to retrieve the sources of the vrouter agent using unpackPhase:
$ unpackPhase
unpacking source archive /nix/store/25j5fv2d1qvlhlrqsryg1s8nsd4c8q9a-contrail-workspace
source root is contrail-workspace
In all Nix shell environments there is always going to be a command called unpackPhase.
Running it will unpack the sources and print the directory name. In our case contrail-workspace.
4. Building
The vrouter agent is built using scons. It can be built as follows:
$ scons -j4 --optimization=production contrail-vrouter-agent
The build will start right away.
5. Summary
With a few simple steps we were able to trigger a build for the vrouter agent. The same applies
for any other package provided by nixpkgs-tungsten. Note that you of course don’t have to run
unpackPhase multiple times.
Starting a VM for testing purposes
nixpkgs-tungsten comes with a couple of test scenarios which make use of the NixOS testing
framework. In these tests we define and
build machine configurations, start them using QEMU and carry out various assertions. We use these
tests for quality control to ensure that the packages we are creating are actually behaving as they
should. We also run them on our CI to validate all our changes.
In addition to just executing predefined test scenarios we can also start these virtual
machines in an interactive fashion. This way we can get a fully working TungstenFabric setup
in a single virtual machine to conduct any kind of tests.
The run-vm can be used for this purpose:
$ ./please run-vm contrail50.test.allInOne
The VM is configured to automatically forward ssh trafic to the host machine
on port 2222. This allows you to run commands such as:
$ ssh -p 2222 root@localhost
or
$ ssh -p 2222 root@localhost -t contrail-api-cli ls virtual-network
Note that there are other test setups (as you may discover by using the bash
completion for the run-vm command), but the allInOne is the one you most
probably want to use since it includes all available TungstenFabric packages.
Beyond The Basics
The goal of this blog post was to introduce nixpkgs-tungsten, briefly explain our
motivation for developing it and to showcase how easy it is to get started
with it.
What we haven’t looked at are the NixOS modules that we are providing for
multiple TungstenFabric packages and how we make use of them. This however requires
some more context and is best left for another blog post.
