9.0 KiB
JupyterHub Configuration with OrbStack on Mac (all in Docker)
Prerequisites
- OrbStack installed and running
File Structure
Your ~/jupyterhub-tp directory should contain:
~/jupyterhub-tp/
├── Dockerfile # Image for students (already created)
├── Dockerfile.hub # Image for JupyterHub (new)
├── jupyterhub_config.py # Configuration
├── docker-compose.yml # Orchestration
└── start-jupyterhub.sh # Startup script
Installation Steps
1. Create Directory Structure
mkdir -p ~/jupyterhub-tp
cd ~/jupyterhub-tp
2. Create All Necessary Files
Create the following files with the content from artifacts:
Dockerfile(artifact "Dockerfile for JupyterHub with R and Bash")Dockerfile.hub(artifact "Dockerfile for JupyterHub container")jupyterhub_config.py(artifact "JupyterHub Configuration")docker-compose.yml(artifact "docker-compose.yml")start-jupyterhub.sh(artifact "start-jupyterhub.sh")
3. Make Startup Script Executable
chmod +x start-jupyterhub.sh
4. Start JupyterHub
./start-jupyterhub.sh
5. Access JupyterHub
Open your browser and go to: http://localhost:8888
You can log in with any username and password: metabar2025
Useful Commands
View JupyterHub logs
docker-compose logs -f jupyterhub
View all containers (hub + students)
docker ps
Stop JupyterHub
docker-compose down
Restart JupyterHub (after config modification)
docker-compose restart jupyterhub
Rebuild after Dockerfile modification
# For student image
docker build -t jupyterhub-student:latest -f Dockerfile .
docker-compose restart jupyterhub
# For hub image
docker-compose up -d --build
View logs for a specific student
docker logs jupyter-username
Clean up after lab
# Stop and remove all containers
docker-compose down
# Remove student containers
docker ps -a | grep jupyter- | awk '{print $1}' | xargs docker rm -f
# Remove volumes (WARNING: deletes student data)
docker volume ls | grep jupyterhub-user | awk '{print $2}' | xargs docker volume rm
# Clean everything (containers + volumes + network)
docker-compose down -v
docker ps -a | grep jupyter- | awk '{print $1}' | xargs docker rm -f
docker volume prune -f
Managing Shared Data
Directory Structure for Each Student
Each student will see this directory structure in their JupyterLab (everything under work/ is persistent):
work/ # Personal workspace root (persistent)
├── [student files] # Their own files and notebooks
├── R_packages/ # Personal R packages (writable by student)
├── shared/ # Shared workspace (read/write, shared with all)
└── course/ # Course files (read-only, managed by admin)
├── R_packages/ # Shared R packages (read-only, installed by prof)
├── bin/ # Shared executables (in PATH)
└── [course materials] # Your course files
R Package Priority:
- R checks
work/R_packages/first (personal, writable) - Then
work/course/R_packages/(shared, read-only, installed by prof) - Then system libraries
Important: Everything is under work/, so all student files are automatically saved in their persistent volume.
User Accounts
Admin Account:
- Username:
admin - Password:
admin2025(change in docker-compose.yml:JUPYTERHUB_ADMIN_PASSWORD) - Can write to
course/directory
Student Accounts:
- Username: any name
- Password:
metabar2025(change in docker-compose.yml:JUPYTERHUB_PASSWORD) - Read-only access to
course/directory
Installing R Packages (Admin Only)
From your Mac (recommended):
chmod +x install-r-packages-admin.sh
# Install packages
./install-r-packages-admin.sh reshape2 plotly knitr
This script:
- Installs packages in the
course/R_packages/directory - All students can use them (read-only)
- No need to rebuild the image
From admin notebook:
Login as admin and create an R notebook:
# Install packages in course/R_packages (admin only, available to all students)
course_lib <- "/home/jovyan/work/course/R_packages"
dir.create(course_lib, recursive = TRUE, showWarnings = FALSE)
install.packages(c('reshape2', 'plotly', 'knitr'),
lib = course_lib,
repos = 'http://cran.rstudio.com/')
Note: Admin account has write access to the course directory.
Students can also install their own packages:
Students can install packages in their personal work/R_packages/:
# Install in personal library (each student has their own)
install.packages(c('mypackage')) # Will install in work/R_packages/
Using R Packages (Students)
Students simply load packages normally:
library(reshape2) # R checks: 1) work/R_packages/ 2) work/course/R_packages/ 3) system
library(plotly)
R automatically searches in this order:
- Personal packages:
/home/jovyan/work/R_packages/(R_LIBS_USER) - Prof packages:
/home/jovyan/work/course/R_packages/(R_LIBS_SITE) - System packages
List Available Packages
# List all available packages (personal + course + system)
installed.packages()[,"Package"]
# Check personal packages
list.files("/home/jovyan/work/R_packages")
# Check course packages (installed by prof)
list.files("/home/jovyan/work/course/R_packages")
Deposit Files for Course
To put files in the course/ directory (accessible read-only):
# Create a temporary directory
mkdir -p ~/jupyterhub-tp/course-files
# Copy your files into it
cp my_notebooks.ipynb ~/jupyterhub-tp/course-files/
cp my_data.csv ~/jupyterhub-tp/course-files/
# Copy into Docker volume
docker run --rm \
-v jupyterhub-course:/target \
-v ~/jupyterhub-tp/course-files:/source \
alpine sh -c "cp -r /source/* /target/"
Access Shared Files Between Students
Students can collaborate via the shared/ directory:
# In a notebook, to read a shared file
import pandas as pd
df = pd.read_csv('/home/jovyan/work/shared/group_data.csv')
# To write a shared file
df.to_csv('/home/jovyan/work/shared/alice_results.csv')
Retrieve Student Work
# List user volumes
docker volume ls | grep jupyterhub-user
# Copy files from a specific student
docker run --rm \
-v jupyterhub-user-alice:/source \
-v ~/submissions:/target \
alpine sh -c "cp -r /source/* /target/alice/"
# Copy all shared work
docker run --rm \
-v jupyterhub-shared:/source \
-v ~/submissions/shared:/target \
alpine sh -c "cp -r /source/* /target/"
User Management
Option 1: Predefined User List
In jupyterhub_config.py, uncomment and modify:
c.Authenticator.allowed_users = {'student1', 'student2', 'student3'}
Option 2: Allow Everyone (for testing)
By default, the configuration allows any user:
c.Authenticator.allow_all = True
⚠️ Warning: DummyAuthenticator is ONLY for local testing!
Kernel Verification
Once logged in, create a new notebook and verify you have access to:
- Python 3 (default kernel)
- R (R kernel)
- Bash (bash kernel)
Customization for Your Labs
Add Additional R Packages
Modify the Dockerfile (before USER ${NB_UID}):
RUN R -e "install.packages(c('your_package'), repos='http://cran.rstudio.com/')"
Then rebuild:
docker build -t jupyterhub-student:latest -f Dockerfile .
docker-compose restart jupyterhub
Add Python Packages
Add to the Dockerfile (before USER ${NB_UID}):
RUN pip install numpy pandas matplotlib seaborn
Distribute Files to Students
Create a files_lab/ directory and add to the Dockerfile:
COPY files_lab/ /home/${NB_USER}/lab/
RUN chown -R ${NB_UID}:${NB_GID} /home/${NB_USER}/lab
Change Port (if 8000 is occupied)
Modify in docker-compose.yml:
ports:
- "8001:8000" # Accessible on localhost:8001
Advantages of This Approach
✅ Everything in Docker: No need to install Python/JupyterHub on your Mac
✅ Portable: Easy to deploy on another Mac or server
✅ Isolated: No pollution of your system environment
✅ Easy to Clean: A simple docker-compose down is enough
✅ Reproducible: Students will have exactly the same environment
Troubleshooting
Error "Cannot connect to Docker daemon":
- Check that OrbStack is running
- Verify the socket exists:
ls -la /var/run/docker.sock
Student containers don't start:
- Check logs:
docker-compose logs jupyterhub - Verify student image exists:
docker images | grep jupyterhub-student
Port 8000 already in use:
- Change port in
docker-compose.yml
After config modification, changes are not applied:
docker-compose restart jupyterhub
I want to start from scratch:
docker-compose down -v
docker rmi jupyterhub-hub jupyterhub-student
# Then rebuild everything
./start-jupyterhub.sh