Newer
Older
divorce-your-linux-admin / Divorce-Your-Linux-Admin.rst

Divorce Your Linux Admin

Package Management For Lusers

If you run Linux on your own machines, you're used to having root and doing what you jolly well like. But, if you've ever spent more than about 10 minutes in a large coporate IT environment, you learn pretty quickly that root is hard to get, it takes a ton of paperwork to get anything done, and you usually have to wait forever. I've actually had the experience of waiting for 6 weeks to get permission to install a single symlink ... and I had root!

There is a good reason for this, of course. Security threats are very real, lawsuits are ominipresent, and the Geniuses In Charge (tm) are writing regulation and audit compliance rules that make root canals seem like fun. Information Security people may feel like they are the IRS of the business, but they perform an important and necessary task: Saying "No".

So ... is there a better way? Is there a way to eliminate the requirement for root in most day-to-day things we need to do as users and developers. Is there a way we can comply with the required corporate security constraints, but still run our own happy show? The answer is a qualified "Yes".

Some things do- and always will need root: Managing devices, storage, ulimits, and security configuration leap to mind. But, say, all you want is a newer version of java on your servers. Or suppose you want a package that isn't part of your standard OS load. vi is everywhere, but suppose you want to use emacs instead (as you should).

You could, of course, download the source for the programs you want, configure and compile them, and run them, say, out of your home directory. Oops ... standard IT corporate security practice is to never allow a compiler to exist on a production host. There are ways around this, but it's fairly painful to have to do that for every single package you may want. (If you don't think so, I encourage you to try and bootstrap the gcc compiler chain from scratch. It's a ton of fun. No, really, it is ...)

Wouldn't it be nice if we could implement package management in userland in a way that is repeatable, can be automated, and gives us control of our own universe without having to beg for root changes or have to wait for the vendor to release a new version. Well, Sparky, we have the techology to do just that.

It's worth mentioning that the approach outlined below is especially handy with cloud and on-demand computing. It makes automating your deploys pretty simple. It's also actually handy on your own machines when you do have root. The less you use superuser, the less chance you'll screw something up.

Warning

What follows has been implemented on an experimental basis. It's been tested in only a very limited number of systems but seems to work well. However, you should do your own detailed testing before deploying this into a production environment. Failure to do so may result in broken systems, hallway snickering, hives, and being transferred to your new development shop in Moose Dropping Pass, Alaska.

MacOS Rescues Linux

The approach we're going to describe got started in the Mac OSX world. Back when Apple finally came to their senses, and switched their OS to a Unix-base (FreeBSD 4.4), they only partly implemented the shell tools everyone had come to know and love. The homebrew project got spun up to allow any OSX user to install the command line applications they knew and loved from Unix. homebrew is essentially a userland package management system which can be run and modified without superuser power. Many of these packages (these days, perhaps all, I haven't checked) actually download a pre-compiled version under /usr/local.

This ended up being pretty popular with advanced Mac users. So much so, that a derivative project, linuxbrew, got spun up to take the Mac stuff, but apply it to Linux. That is, give the Linux user userland package management system. It too, has found success among the Linux literati.

But ... there is a fly in the ointment. When I first undertook this project, I thought I could just pick a directory on Linux machine and use linuxbrew to install what I wanted. No habla Senor Frog. Many Linux binaries are sensitive to where they are installed, where they can find their supporting libraries and a host of other things. So, if I install a binary with linuxbrew somewhere other than the default /home/linuxbrew, it's likely not going to work. But that ability is exactly what I needed. Each different application, user, or service ID should be free to install their desired tool set wherever they wish.

"So", sez me, "I'll just use linuxbrew to automate the download, configuration, compliation, and installation of all the packages." i.e., "I'll automate the build from source." (That roaring laughing you hear is coming from every Linux engineer who ever tried something like this.)

I will spare you sensitive readers the subsequent cursing, whining, begging, crying and caterwauling that ensured. Let's just say that making a position-dependent package management system work in a position-independent way is ... er, non-trivial. In fairness, it's not the fault of the linuxbrew people. They were super supportive and helpful with all this. It wasn't their code that was the problem (mostly, I did find a minor bug or two which the linuxbrew folks fixed at light speed). Most of the issues had to do with the packages themselves having embedded assumptions about where they can find tools during the compilation phase. That's right, the source code and configurations have hardwired assumptions about where they would find things like perl and make.

At this point, the whole process had taken me a few dozen hours and I was sufficiently enraged that I just had to figure out. As we'll see shortly, I think I finally got there. But, in the mean time ...

Note

If you write software, config files, makefiles, test cases, or any part of the software delivery ecosystem with hardwired paths to things emebedded in them, you are officially a big bozo. Not the fun kind with a red nose and big shoes either. The only hardwired path that's OK is /bin/sh on a shebang line. But if you do things like this:

#!/usr/bin/python

You should be sent to work 1st level phone support on the midnight shift in Somalia until you learn better. Grrrrrr.

This is the right way to do this is:

#!/usr/bin/env python

env can reliably be found there and it will "discover" where python happens to actually be installed on that machine, so long as it is in $PATH somewhere. Similarly, learn to use constructs like:

DATE=$(which date)

DATE=${DATE:-/bin/date}

In short, NEVER make assumptions where things are. Always discover it at configuration time.

Preview Of Coming Attractions

What I eventually discovered was that getting this to work required a number of things:

  1. Everything has to be built from source in the directory location being targeted. The only exception is the brew program itself, which is position agnostic. So, if I want to build a tools tree under /my/fine/tools, then I have to clone linuxbrew into that directory and do the build from there.

  2. The initial build requires the OS compiler chain and related development tools to bootstrap up a minimal linuxbrew environment capable of compiling everything else. You can do this on your own machine (not recommended because you shouldn't be fidding around as root there), but a better way is to do it in a VM. In my case, I made it even simpler by doing everything in docker containers.

  3. Once you have a bootstrapped linuxbrew environment running - i.e., One that has a functioning gcc and supporting tool chain - you make a tar backup of it. You then untar that onto a machine that has (almost) no native OS development tools on it and do the remainder of the installations from there.

    It's "almost" because - due to the aforementioned dain bramaged open source packages, You have to have the OS copies of autoconfig, automake, perl, and make installed on your build machine. These open source packages just insist that perl is always to be found under /usr/bin, for example.

  4. When you're all done installing and configuring your linuxbrew environment, you just tar it off somewhere safe. You can then untar it onto any other Linux machine (with a reasonably current kernel) so long as you do so at the same directory location under which it was built.

    This lends itself nicely to automated deploys via tools like tsshbatch or ansible. You build a master tarball of your "standard" tools tree and then use automated deployment to put it everywhere.

Doing It The docker Way

Like I said, you can do this in a VM, but the step-by-step approach below uses docker containers which are easy to setup and tear down for testing. More importantly, you can install and remove native system packages as you go without gumming up your host system. I've used this approach extensively over the past several years for another important reason: I always have root on a container. That makes it trivial to do the required OS package management (installing- and removing native compilers, for example).

In my test environment, the containers have a number of properties. You don't have to do it this way, of course, but it makes things a lot simpler if you do:

  • They run sshd so I can log into them easily from the host system.

  • I have the ability to log in as an unprivileged user (test) or as root. test also has the ability to sudo to superuser.

  • They share a filesystem with the host so that I can read/write files from any running container AND the files I do write persist across container rebuilds.

  • The containers get started with the --security-opt seccomp=unconfined option. Building emacs revealed the need for this. By default, docker starts containers with restricted access to many of the host OS system calls. It does so in order to keep the container isolated from its host environment. But this badly broke the emacs build which had fits because the way the OS was allocating memory. The fix is to use the above argument to give the container full access to all the system call. You do not want to do this in normal container operations. This is strictly for building things. More information on this here:

    https://pastebin.tundraware.com/view/e309f836

Let's Do This Already

The steps below should be done in the order given.

Whenever it says, "create a new docker container", do so with the --security-opt seccomp=unconfined option.

This example assumes CentOS/RedHat7 docker images, so the native package management commands are based on yum.

This example assumes that we want to build our tools tree under /opt/TundraWare/tools. Feel free to use your own directory location, but do so consistently throughout the process.

Make sure the user doing all this has write access to your target tools directory.

This example assumes that /shared is common to both the host and docker instances. It's where we'll preseve our tarballs and other project artifacts across container rebuilds.

First, we're going to create the bootstrap instance:

  1. Create a new docker image. Log in as or become root on it. Then:

    yum -y groupinstall "Development Tools"
  2. Now login or revert back to being an unprivileged user. Then:

    git clone https://github.com/Linuxbrew/brew.git /opt/TundraWare/tools
  3. Update the path to search our new tools tree for things first. It's a good idea to also put this into .bashrc and then copy it to /shared for future use:

    export PATH="/opt/TundraWare/tools/bin:/opt/TundraWare/tools/sbin:$PATH"
  4. Now, bootstrap the environment using the native OS compiler tools:

    brew install git    # This also conveniently installs gcc and the supporting cast
    brew install make file-formula
  5. Save the result:

    tar -czvf /shared/bootstrap-linuxbrew.tar.gz /opt/TundraWare/tools

Now we can build a freestanding instance of the tools tree without (almost) any OS tools. The example below should be tuned for the packages you want:

  1. Create a new docker image. Log in as or become root on it. Then install the minimal set of tools required to accommodate the previously described package build silliness:

    yum -y install perl autoconf automake make

    Make sure the native development tools are NOT otherwise installed in this instance.

  2. Install our bootstrap environment:

    tar -xzvf /shared/bootstrap-linuxbrew.tar.gz -C /
  3. Fixup the path as in step 3) above.

  4. Do some housekeeping:

    brew config       # Check the environment
    brew prune        # Tidy up from the bootstrap build
    brew cleanup      # Get rid of old build artifacts
    brew doctor       # Check to make sure things look OK
  5. Now we can start installing our desired packages. Note that we are now using the ``linuxbrew`` compiler chain, NOT the system tools:

    brew install coreutils bash bc gnu-sed awk flex bison tree htop the_silver_searcher gnu-which less # also installs python2
    ln -s /opt/TundraWare/tools/bin/python2 /opt/TundraWare/tools/bin/python
    ln -s /opt/TundraWare/tools/bin/pip2 /opt/TundraWare/tools/bin/pip
    brew install perl go
    brew install screen tmux
    brew install emacs joe vim
    brew install nmap nload
    ... and so on.
  1. Save the results:

    tar -czvf /shared/full-linuxbrew.tar.gz /opt/TundraWare/tools

You should now be able to install and use this tool tree on a docker, VM, or physical Linux instance by doing this:

tar -xzvf /shared/full-linuxbrew.tar.gz /opt/TundraWare/tools
export PATH="/opt/TundraWare/tools/bin:/opt/TundraWare/tools/sbin:$PATH"

Gotchas

Here are a few things to keep in mind:

  • Some packages are just broken and require surgery to get working. As of this writing socat stubbornly refuses to go in via this process, for example.
  • When you bootstrap the system, you are building it with the OS' own compilers and header files. If you later copy your work to a machine with a wildly different older-, or new kernel you may run into compatibility issues. The fix is to redo the above on a host with the kernel version of interest.

Resources

The main linuxbrew page is:

http://linuxbrew.sh

The related GitHub projects are here:

https://github.com/Linuxbrew

If you run into a problem building a package, run this command:

brew gist-log package-name

This produces a Github gist URL you can submit to the devs for help.

Tim Daneliuk, tundra@tundraware.com

Divorce Your Linux Admin is Copyright (c) 2017 TundraWare Inc., Des Plaines, IL 60018 USA

Permission for unlimited distribution and use of this document is hereby given so long as this document is reproduced in full. This document may also be quoted in any part so long as original attribution is provided with the quoted material.

Document Information

Produced On: __DATE__

Version: __VERSION__

You can find the latest version of this document at:

http://www.tundraware.com/TechnicalNotes/Divorce-Your-Linux-Admin

A PDF version of the document may also be downloaded from:

http://www.tundraware.com/TechnicalNotes/Divorce-Your-Linux-Admin/Divorce-Your-Linux-Admin.pdf

This document was produced using reStucturedText and TeXLive.