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JupyterHub Installation Guide

This document explains all the steps for a working JupyterHub installation on Ubuntu 16.04 LTS. The machine used for this purpose is a Virtual Machine on VMWare ESX server in our university. The VM has 6 CPU's, 32GB of RAM and 100GB of disk space partitioned into 25GB rootfs and 75GB /home folder.

After installing Ubuntu 16.04 LTS x86_64, here's what we did to create a fully working JupyterHub server. All the steps below are also available through a set bash scripts in this repository's setup folder.

Installing system dependencies

setup/00-sysdeps.sh

The following packages are needed in order for the JupyterHub and their components to work flawlessly. pandoc and texlive-* packages are necessary for saving a Jupyter notebook as PDF. We also installed octave as we'll provide an octave kernel for the users besides Python.

# apt-get install libsm6 libxrender1 libfontconfig1 build-essential gcc-multilib
# apt-get install npm nodejs-legacy octave
# apt-get install pandoc dvipng
# apt-get install texlive-latex-base dvipng texlive-latex-recommended \
              texlive-fonts-recommended cm-super texlive-latex-extra

# npm install -g configurable-http-proxy

Normally we should be fine with the above packages but if you have something to add, feel free to send a pull request!

Some additional stuff

We didn't want to clutter each login and also JupyterHub's log files with Ubuntu MOTD messages so we removed them all:

# rm /etc/update-motd.d/*

Also, to prepare for batched user account creation, let's create an empty notebooks folder in /etc/skel:

mkdir -p /etc/skel/notebooks

Installation of Anaconda

We decided to use the Anaconda distribution for Python to ease management of the Python ecosystem. Go download the latest Anaconda Python 3 installer from and install it under /opt/anaconda3. Change PATH globally so that every user starts to use the new anaconda distribution for their default Python environment:

# echo 'export PATH=/opt/anaconda3/bin:$PATH' > /etc/profile.d/anaconda.sh

Since JupyterHub requires a Python >= 3.3, we're using Python 3.x as our default Anaconda environment. Note that this won't prevent us from serving Python 2.x notebooks to users.

Next let's create a Python 2.7 environment and install anaconda distribution to that environment as well:

# conda create --name py27 python=2.7
# conda install -n py27 anaconda

Now when you logout and login back, your shell will default to the python3 environment:

# python
Python 3.5.1 |Anaconda 4.0.0 (64-bit)| (default, Dec  7 2015, 11:16:01) 
...

At any time you can switch to the 2.7 environment called py27 with the following command:

# source activate py27
# python
Python 2.7.11 |Anaconda 4.0.0 (64-bit)| (default, Dec  6 2015, 18:08:32) 
...

Finally for going back to the default Python 3 environment, you can type source deactivate.

Installation of JupyterHub and the kernels

setup/01-jupyterinst.sh

Now we can proceed with the installation of Jupyter packages. First let's install JupyterHub and Jupyter kernels for bash and octave. Please be sure that you are in the default Python 3.x environment before proceeding the following steps:

# pip install jupyterhub
# pip install bash_kernel octave_kernel
# python -m bash_kernel.install
# python -m octave_kernel.install

We also need to install python 2.7 kernel for serving Python 2 notebooks. For this, let's first switch to our Python 2.x conda environment then install the kernel:

# source activate py27
# ipython kernel install

Installing R Kernel

Adding support for R kernels requires a little bit more work. First add official R repositories to Ubuntu by following the steps here. After updating your repository index with apt-get upgrade install the following packages:

apt-get install r-base r-base-dev libzmq3-dev

We'll then launch an R interpreter and finally type the following commands to install the necessary R packages and the Jupyter kernel:

> install.packages(c('rzmq','repr','IRkernel','IRdisplay'),
                 repos = c('http://irkernel.github.io/', getOption('repos')))
...
...
> IRkernel::installspec(user = FALSE)
[InstallKernelSpec] Installed kernelspec ir in /usr/local/share/jupyter/kernels/ir

Testing the bare minimum

You may want to try if everything went smoothly by running the JupyterHub with default configuration:

# jupyterhub --no-ssl

Now visit http://<ip address>:8000 and login with your UNIX credentials. Check whether the New menu contains bash, octave, Python 2 and Python 3. Create some notebooks, execute cells to catch possible problems.

Users and Groups

setup/02-users.sh

You can write down your lecturers and students into the files lecturers.list and students.list in setup/. You can also add some of the users to the admins.list to limit SSH access only to those users. The users in admins.list will also be set as admin users for JupyterHub. Here's the script that manages all of this:

#!/bin/bash

# Add lecturers group
addgroup lecturers

# Add lecturer users
while IFS=, read NAME PW; do
    echo "Creating lecturer $NAME"
    if [ -z $PW ]; then
        useradd -s "/bin/bash" -m -N -g users -G sudo,adm,lecturers $NAME
    else
        useradd -s "/bin/bash" -m -N -g users -G sudo,adm,lecturers -p "$PW" $NAME
    fi
done < <(egrep -v '^#' lecturers.list)

# Add some admin users, add them to SSHD allowed list
ADMINS=`tr "\n" " " < admins.list`
echo "Administrators with SSH access: $ADMINS"
echo "AllowUsers $ADMINS" >> /etc/ssh/sshd_config
systemctl reload ssh.service

# Add regular users
while IFS=, read NAME PW; do
    echo "Creating student $NAME"
    if [ -z $PW ]; then
        useradd -s "/bin/bash" -m -N -g users $NAME
    else
        useradd -s "/bin/bash" -m -N -g users -p "$PW" $NAME
    fi
done < <(egrep -v '^#' students.list)

# Create fontconfig-cache so that the first execution of cells
# don't take time with some ugly warning messages.
echo "Creating fontconfig cache in HOME folders..."
for u in $(ls /home/); do
  sudo -H -u $u fc-cache
done

JupyterHub configuration

setup/03-jupyterconf.sh

  • Note that since our server will only be used for educational purposes and will not be accessible from outside of the university, I choosed to go with plain HTTP which is normally not recommended. For supporting HTTPS, please check here.
  • Copy over your custom logo to setup/data/logo.png if you'd like to customize the logo of JupyterHub.
  • If you'd like to enable cull_idle_servers script you need to decide an admin user to generate a token for. Look at the TODO item below.
#!/bin/bash

# Set the files and the folders
CONFDIR="/etc/jupyterhub"
SERVDIR="/srv/jupyterhub"
LOGFILE="/var/log/jupyterhub.log"
CONFFILE=${CONFDIR}/jupyterhub.py

# Create the folders
mkdir -p $CONFDIR ${SERVDIR}/ssl &> /dev/null

# Set permissions
chmod 700 $CONFDIR $SERVDIR

# Create default configuration
jupyterhub --generate-config -f $CONFFILE

# Generate cookie secret
openssl rand -base64 2048 > ${SERVDIR}/cookie_secret

# Generate proxy auth token
PROXY_TOKEN=`openssl rand -hex 32`

# Copy over logo
cp data/logo.png ${SERVDIR}

# Get admin users
ADMINS=`python -c 'print(set(open("admins.list").read().strip().split("\n")))'`

# Setup configuration
echo "c.JupyterHub.proxy_auth_token = '$PROXY_TOKEN'" >> $CONFFILE
echo "c.JupyterHub.cookie_secret_file = '${SERVDIR}/cookie_secret'" >> $CONFFILE
echo "c.JupyterHub.cookie_max_age_days = 1" >> $CONFFILE
echo "c.JupyterHub.db_url = '${SERVDIR}/jupyterhub.sqlite'" >> $CONFFILE
echo "c.JupyterHub.extra_log_file = '${LOGFILE}'" >> $CONFFILE
echo "c.JupyterHub.logo_file = '${SERVDIR}/logo.png'" >> $CONFFILE
echo "c.Spawner.notebook_dir = '~/notebooks'" >> $CONFFILE
echo "c.Authenticator.admin_users = $ADMINS" >> $CONFFILE

# Restrict permissions
chmod 600 ${CONFDIR}/*
chmod 600 ${SERVDIR}/*

# Install systemd services
cp data/jupyterhub.service /etc/systemd/system
systemctl daemon-reload
systemctl enable jupyterhub.service jupyterhub-idle-killer.service

# Optional: Install cull_idle_servers
wget http://raw.githubusercontent.com/jupyterhub/jupyterhub/master/examples/cull-idle/cull_idle_servers.py \
    -O ${SERVDIR}/cull-idle-servers
chmod +x ${SERVDIR}/cull-idle-servers

# Copy systemd file
cp data/jupyterhub-idle-killer.service /etc/systemd/system

# Generate API token
API_TOKEN=`openssl rand -hex 32`

# TODO: Pick an admin user here for the cull service
API_USER="lect1"

echo "c.JupyterHub.api_tokens = {'${API_TOKEN}' : '${API_USER}'}" >> $CONFFILE
sed -i "s/%%APITOKEN%%/${API_TOKEN}/" /etc/systemd/system/jupyterhub-idle-killer.service

systemctl enable jupyterhub-idle-killer.service

Result

If everything goes well, you can start the systemd services to let the journey begin!

# systemctl start jupyterhub.service
# systemctl start jupyterhub-idle-killer.service

Here's a screenshot of resource utilization during a first year mathematics class with ~40 students:

htop

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