Skip to content

Latest commit

 

History

History
109 lines (98 loc) · 5.2 KB

connectivity_example.md

File metadata and controls

109 lines (98 loc) · 5.2 KB
title permalink
Connectivity code example

Writing a code for computer connectivity

Here I am going to show what are the main components when writing a script for connectivity. As an example, I am going to use the jptremote.sh code I wrote. The full script can be downloaded on my github "Utilities" page.

The main goal of this code is to operate on your laptop/workstation a jupyter notebook/jupyter-lab running on a remote computer/server. This is useful if you have data or computational resources that are accessible only remotely.

jptremote.sh

At first, we begin by writing which interpreter we are using and we use the trap command to kill all subprocesses when terminating the script. This is important to make sure we close all connections and remote processes when we finish.

#!/usr/bin/env bash
trap "kill 0" SIGINT   #- kill all subshells on exit

Next, we need to start to define our options and set some defaults:

#- default inputs
port=8889                #- default port to use
d_server='None'          #- default destination server
t_server='None'          #- default tunnelling server (the one hosting the proxy)
conda_env='None'         #- conda environment where the notebook is stored
jupyter='jupyter-lab'    #- which program do we want to use
USER='None'              #- username of the remote server

After this, it is good practice to add a help function. Note that here I use the EOM (End Of Mark) to write a long string with newlines efficiently:

#- help function
HELP () {
cat << EOM
##############################################################
Program:   $0, Nicolas Celli 2022
Purpose:   Run jupyterlab/jupyter notebooks on remote machines
Syntax:
           -u Username for access to server
           -s Destination server where to run the jupyter notebook
           -t Tunnelling server needed as intermediate step to
              reach the destination server
           -p port on which to open jupyter (default 8889)
           -e anaconda environment from which to open jupyter (if any)
					 -j what notebook to run: either "jupyter-lab" or "jupyter notebook"
              (within quotes)
Example:
           $0 -u me -s my.server.com -t my.tunnel.server -p 8889 -e my_conda
##############################################################
EOM
}

Now we set up the reading of our options using bash getopts program. It reads a list of options (letters) that can either have an argument (denoted with :) or not (e.g. "h" below):

#- read in options
while getopts hs:t:p:e:j: OPT; do
  case ${OPT} in
    h)  HELP; exit;;
    u)  USER=`echo ${OPTARG}`;;
    s)  d_server=`echo ${OPTARG}`;;
    t)  t_server=`echo ${OPTARG}`;;
    p)  port=`echo ${OPTARG}`;;
    e)  conda_env=`echo ${OPTARG}`;;
    j)  jupyter=`echo ${OPTARG}`;;
    \?) echo "No correct option given; see help:"; HELP; exit;;
  esac
done

Here I am checking the options for the conda environment and the jupyter type, ensuring that the arguments make sense.

#- if any, enter a conda environment before running the notebook
if [ ! ${conda_env} == "None" ]; then
	conda_comm="conda activate ${conda_env} &&"
else
	conda_comm=""
fi

#- check for which jupyter program to run
if [ ${jupyter} != "jupyter-lab" ] && [ ${jupyter} != "jupyter notebook" ]; then
	echo '-j has to indicate either "jupyter-lab" or "jupyter notebook", exit' && exit
fi

In this line, we build the BASH command we want to execute remotely by concatenating the conda environment setup command $conda_comm (if any) and the jupyter lauch command. Note that the jupyter command is launched with nohup, so that it will run in the background and won't break even if the terminal shell is closed. Also note that we send the jupyter to a certain port defined in our options.

#- build remote command for jupyter
remotecomm="${conda_comm} nohup ${jupyter} --port=${port} --no-browser --ip=0.0.0.0 > jptset.out"

Now we use ssh (removing any possible alias by prepending \) through a proxy (-J option) to source the remote BASH and run our remote command. Also, we run the process in the background so that we can run the next bit of code.

#- execute remotely the command for jupyter
echo "Starting remote jupyter session on ${d_server}"
\ssh -J ${USER}@${t_server} ${USER}@${d_server} "source ~/.bashrc && ${remotecomm}" &

In this last section, we forward the chosen port from the remote server to our laptop/workstation using ssh. This will allow us to open the jupyter notebook/jupyter-lab on our own machine by going to the localhost:${port}.

#- forwarding the port to your computer for you to access the notebook
echo "Forwarding port ${port} to DIAS server ${d_server} "

printf "\n Access notebook by navigating in your browser to:\n  http://localhost:${port}/ \n\n"
\ssh -l ${USER} -L ${port}:"${d_server}":${port} -N ${t_server} || echo "Connection aborted"

#- Done!

And that's it! Once you add the folder with this script to your $PATH, you can call your remote jupyter by simply typing:

jptremote.sh -u my_username -s my.destination.server -t my.proxy.server -p my_port -e my_conda