BwUniCluster2.0/Containers: Difference between revisions
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[[File:singularity_logo.svg|left|100px]]Membership in a special group is required to be able to use Singularity . Please refer to the Support channels to request access. |
Revision as of 17:10, 24 June 2021
Introduction
To date, only few container runtime environments integrate well with HPC environments due to security concerns and differing assumptions in some areas.
For example native Docker environments require elevated privileges, which is not an option on shared HPC resources. Docker's "rootless mode" is also currently not supported on our HPC systems because it does not support necessary features such as cgroups resource controls, security profiles, overlay networks, furthermore GPU passthrough is difficult. Necessary subuid (newuidmap) and subgid (newgidmap) settings may impose security issues.
On bwUniCluster Enroot and Singularity are supported.
Further rootless container runtime environments (Podman, …) might be supported in the future, depending on how support for e.g. network interconnects, security features and HPC file systems develops.
ENROOT
Enroot enables you to run Docker containers on HPC systems. It is developed by NVIDIA. It is the recommended tool to use containers on bwUniCluster and integrates well with GPU usage. Enroot is available to all users by default.
Usage
Excellent documentation is provided on NVIDIA's github page. This documentation here therefore confines itself to simple examples to get to know the essential functionalities.
Using Docker containers with Enroot requires three steps:
- Importing an image
- Creating a container
- Starting a container
Optionally containers can also be exported and transferred.
Importing a container image
enroot import docker://alpine
This pulls the latest alpine image from dockerhub (default registry). You will obtain the file alpine.sqsh.
enroot import docker://nvcr.io#nvidia/pytorch:21.04-py3
This pulls the latest pytorch image from NVIDIA's NGC registry. You will obtain the file nvidia+pytorch+21.04-py3.sqsh.
enroot import docker://registry.scc.kit.edu#myProject/myImage:latest
This pulls your latest image from the KIT registry. You obtain the file myImage.sqsh.
Creating a container
Create a container named nvidia+pytorch+21.04-py3 by unpacking the .sqsh-file.
enroot create --name nvidia+pytorch+21.04-py3 nvidia+pytorch+21.04-py3.sqsh
"Creating" a container means that the squashed container image is unpacked inside $ENROOT_DATA_PATH/
. By default this variable points to $HOME/.local/share/enroot/
.
Starting a container
- Start the container nvidia+pytorch+21.04-py3 in read-write mode (--rw) and run bash inside the container.
enroot start --rw nvidia+pytorch+21.04-py3 bash
- Start container in --rw-mode and get root access (--root) inside the container.
enroot start --root --rw nvidia+pytorch+21.04-py3 bash
You can now install software with root privileges, depending on the containerized Linux distribution e.g. withapt-get install …
,apk add …
,yum install …
,pacman -S …
- Start container and mount (-m) a local directory to
/work
inside the container.enroot start -m <localDir>:/work --rw nvidia+pytorch+21.04-py3 bash
- Start container, mount a directory and start the application jupyter lab.
enroot start -m <localDir>:/work --rw nvidia+pytorch+21.04-py3 jupyter lab
Exporting and transfering containers
If you intend to use Docker images which you built e.g. on your local desktop, and transfer them somewhere else, there are several possibilities to do so:
enroot import --output myImage.sqsh dockerd://myImage
Import an image from the locally running Docker daemon. Copy the .sqsh-file to bwUniCluster and import it withenroot import
.
enroot export --output myImage.sqsh myImage
Export an existing enroot container. Copy the .sqsh-file to bwUniCluster and import it with enroot import.
enroot bundle --output myImage.run myImage.sqsh
Create a self extracting bundle from a container image. Copy the .run-file to bwUniCluster. You can run the self extracting image via ./myImage.run even if enroot is not installed!
Container management
You can list all containers on the system and additional information (--fancy parameter) with the enroot list
command.
The unpacked images can be removed with the enroot remove command.
FAQ
- How can I run JupyterLab in a container and connect to it?
- Start an interactive session with or without GPUs. Notice the compute node ID the session is running on, and start a container with a running JupyterLab, e.g.:
enroot start -m <localDir>:/work --rw nvidia+pytorch+21.04-py3 jupyter lab
- Open a terminal on your desktop and create a SSH-tunnel to the running JupyterLab instance on the compute node. Insert the node ID, where the interactive session is running on:
ssh -L8888:<computeNodeID>:8888 <yourAccount>@uc2.scc.kit.edu
- Open a web browser and open the URL localhost:8888
- Enter the token, which is visible in the output of the first terminal.
Copy the string behind thetoken=
and paste it into the input field in the browser.
- Start an interactive session with or without GPUs. Notice the compute node ID the session is running on, and start a container with a running JupyterLab, e.g.:
- Are GPUs accessible from within a running container?
Yes.
Unlike Docker, Enroot does not need further command line options to enable GPU passthrough like--runtime=nvidia
or--privileged
.
- Is there something like
enroot-compose
?
AFAIK no.
Enroot is mainly intended for HPC workloads, not for operating multi-container applications. However, starting and running these applications separately is possible.
- Can I use workspaces to store containers?
Yes.
You can define the location of configuration files and storage with environment variables. TheENROOT_DATA_PATH
variable should be set accordingly. Please refer to NVIDIA's documentation on runtime configuration.
Additional resources
Source code: https://github.com/NVIDIA/enroot
Documentation: https://github.com/NVIDIA/enroot/blob/master/doc
Additional information: FOSDEM 2020 talk + slides
Singularity
Membership in a special group is required to be able to use Singularity . Please refer to the Support channels to request access.