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Analysis machines configuration

This repo contains mainly installation documentation (this file), some notes about bugs and fixes, and a spreadsheet summarizing the fleet.

Check the #analysis_machines Slack channel of https://mrsicflogelhofer.slack.com for more information, historical details, ask for help, etc.

Installation checklist for a new machine

Here is a quick checklist to install a new analysis machine:

  • install xubuntu 18.04 (xfce desktop is choosen for x2go compatibility)
  • install openssh-server with apt, to access the machine remotely
  • upgrade the system using apt upgrade
  • install additional useful softwares using apt, see list below
  • configure the /mnt/data partition using a btrfs RAID1 configuration or configure /home as a separate partition using a btrfs RAID1 configuration
  • install monitorix package, following its installation instructions
  • install East quadrant printer drivers and add a printer using xfce GUI
  • (optional) install virtualbox, provide a Windows virtual machine and stick a Windows license on the computer case
  • (optional) install proprietary drivers and related libraries (e.g. nvidia drivers and cuda)
  • (optional) install third-party softwares such as matlab, pycharm, slack and miniconda
  • add user(s) (+ a private folder in /mnt/data and their mount point for winstor)
  • provide the MAC address and the computer name to the IT, to get name resolution

Installation of additional softwares:

# development packages
sudo apt install build-essential gfortran bison flex cmake python3-pip python3-dev python3-venv
# GIT related packages
sudo apt install git meld tig gitg
# filesystem packages
sudo apt install btrfs-tools cifs-utils nfs-common gparted
# monitoring and diagnostic packages
sudo apt install iotop htop nload lnav dfc ncdu smartmontools
# remote session packages
sudo apt install x2goserver x2goclient
# other CLI softwares packages
sudo apt install screen tmux emacs vim-gtk tree ranger curl atool parallel
# other GUI softwares packages
sudo apt install synaptic gimp inkscape grsync

Configuration of the /mnt/data mount point:

sudo mkfs.btrfs -L data -d raid1 /dev/<drive1> /dev/<drive2> ...
sudo mkdir /mnt/data
sudo sh -c 'echo "\n# raid volume\nLABEL=data /mnt/data btrfs defaults 0 0" >> /etc/fstab'

Configuration of /home as a separate partition:

sudo mkfs.btrfs -L data -d raid1 /dev/<drive1> /dev/<drive2> ...
sudo sh -c 'echo "\n# raid volume\nLABEL=data /home btrfs defaults,nofail 0 0" >> /etc/fstab'

Note that main user(s) should be created before this mount point, to be able to log in graphically in case the RAID array fails (to get a proper /home folder on the original OS drive). The nofail option prevents the systems from blocking if the RAID don't mount, but then errors are quite silent.

Install monitorix (following its documentation and using IzzySoft APT repository, checked on 2019/02/11):

sudo sh -c 'echo "deb https://apt.izzysoft.de/ubuntu generic universe" > /etc/apt/sources.list.d/monitorix.list'
curl https://apt.izzysoft.de/izzysoft.asc | sudo apt-key add -
sudo apt update
sudo apt install monitorix

For the East quadrant printer (Kyocera M6026cdn), download the "Linux UPD driver https://www.kyoceradocumentsolutions.co.uk/en/support/downloads.html.name-L2diL2VuL21mcC9UQVNLQUxGQTM1NkNJ.html Then unpack it twice and install the ubuntu package:

aunpack KyoceraLinux*.zip
aunpack KyoceraLinuxPackages*.tar.gz
sudo dpkg -i KyoceraLinuxPackages-*/Ubuntu/Global/kyodialog_amd64/kyodialog_7.0-0_amd64.deb
sudo apt -f install  # fix missing dependencies
kyodialog7 --telemetry false  # turn off google analytics

For each user, use Printers from the xfce menu to add a printer:

  • select Network Printer > Internet Printing Protocol (ipp)
  • enter device URI: ipp://caxton.swc.ucl.ac.uk:631/printers/swc-L4-E-Quad
  • press forward and leave default parameters.

Create a user and (optional) give administrator rights:

sudo adduser <username>  # create the new user
sudo adduser <username> sudo  #  add use to sudo group (aka admin rights)

Install virtualbox:

sudo apt install virtualbox virtualbox-ext-pack virtualbox-guest-additions-iso

Make sure CPU virtualization is enabled in the BIOS/UEFI. Add user(s) to vboxusers to allow usb passthrough:

sudo adduser <username> vboxusers

Third-party packages:

  • slack can be installed with snap or downloading their .deb package,
  • pycharm can be installed with snap, but user needs a license for the professional version (as UCL member we get educational access for free)
  • matlab can be downloaded and installed via the MathWorks website, if you have a MathWorks account bound to UCL (use your UCL email address), but note that only staff (not students) can activate a campus license,
  • miniconda can be downloaded from the conda website, just make sure to install using sudo and the location /opt/miniconda3
    • to configure the shell of a user: /opt/miniconda3/bin/conda init
    • to disable the default environment: conda config --set auto_activate_base false

Administration script

This repository also provides a Fabric fabfile to execute repetitive tasks to administrate the machines.

It relies on Fabric and Patchwork. You can install them with pip as a normal user as follows:

pip3 install --user fabric patchwork

Then, invoke the tasks listed in the fabfile using fab <task>.

Use fab --list to display a list of available tasks.

Some tasks need sudo rights: add the --prompt-for-sudo-password option to enter it before commands execution.

You can restrict the target machine(s) using -H <hostname>[,<hostname>] option.

To authentificate yourself using ssh, you can either:

  • use --prompt-for-login-password option, to enter your password once everytime your run a task,
  • or use key-based ssh authentification
    • create an ssh key using ssh-keygen
    • copy it to the machines with ssh-copy-id -f <key_file.pub> <remote-machine>
    • add a section in your .ssh/config file to force usage of this key for analysis machines
    Host *.mrsic-flogel.swc.ucl.ac.uk
      IdentityFile <key_file>
      User <username>
    
    • (if next step asks for an authentication agent) run eval $(ssh-agent -s) in the same terminal as the next command
    • use ssh-add <key_file> to unlock it

Here is an example to check which machines have a fixed kernel version:

fab run --cmd "hostname && grep GRUB_DEFAULT /etc/default/grub"

And here a command using administrator rights to deploy the VPN client on one computer:

fab --prompt-for-sudo-password -H penknife.mrsic-flogel.swc.ucl.ac.uk deploy-vpn

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Notes and script for the Linux analysis machines

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