Command line tool for working with singularity-hub and packaging singularity containers.
Project description
# Singularity Python
[![Build Status](https://travis-ci.org/singularityware/singularity-python.svg?branch=master)](https://travis-ci.org/singularityware/singularity-python)
This is a python command line tool for working with [Singularity](singularityware.github.io) containers, specifically providing functions to visualize, package, and containers. Currently, most functions use Singularity on the commnd line, and require sudo, and this is expected to change when the software is updated to obtain image folders and files without an export that uses Singularity export.
The Singularity-Python code is licensed under the MIT open source license, which is a highly permissive license that places few limits upon reuse. This ensures that the code will be usable by the greatest number of researchers, in both academia and industry.
## Installation (current)
pip install singularity
## Installation (dev)
pip install git+git://github.com/singularityware/singularity-python.git
## Quick Start
Installation will place an executable, shub in your bin folder.
### Test your installation
After installation, you should be able to run shub on the command line, without any input args, to see if you have Singularity installed (and test the package):
- $ shub
Please specify one or more containers with –image(s)
- $ shub –help
- usage: shub [-h] [–image IMAGE] [–images IMAGES] [–debug]
[–outfolder OUTFOLDER] [–package] [–os] [–oscalc] [–tags] [–tree] [–simtree] [–subtract] [–simcalc] [–size SIZE]
Singularity Hub command line tool
- optional arguments:
- -h, --help
show this help message and exit
- --image IMAGE
full path to singularity image (for use with –package and –tree)
- --images IMAGES
images, separated by commas (for use with –simtree and –subtract
- --debug
use verbose logging to debug.
- --outfolder OUTFOLDER
full path to folder for output, stays in tmp (or pwd) if not specified
- --package
package a singularity container for singularity hub
- --os
estimate the operating system of your container.
- --oscalc
calculate similarity score for your container vs. docker library OS.
- --osplot
plot similarity scores for your container vs. docker library OS.
- --tags
retrieve list of software tags for an image, itself minus it’s base
- --tree
view the guts of an singularity image (use –image)
- --simtree
view common guts between two images (use –images)
- --subtract
subtract one container image from the second to make a difference tree (use –images first,subtract)
- --simcalc
calculate similarity (number) between images based on file contents.
- --size SIZE
If using Docker or shub image, you can change size (default is 1024)
### Classify your container Singularity python provides functions for quickly assessing the base operating system of your container, retrieving a list of software tags that are relevant when this base is subtracted, and getting similarity scores of your container to a library of base software.
#### Estimate the OS
You can do this on the command line as follows:
shub –image docker://python:latest –os [sudo] password for vanessa Most similar OS found to be debian:7.11 debian:7.11
or to do this from within Python, see the [provided example](examples/classify_image/estimate_os.py). From within python, you can export the sudopw as the environmental variable “pancakes” and it won’t need to ask. This is not ideal, but it’s required for now since we are using Singularity to export the image. This will likely be changed soon.
#### Get software tags Singularity Hub uses a simple algorithm to obtain a likely list of software that is important to your image. It assumes that (most) core installed software is in a folder called bin, and returns the list of these files with the estimated base image subtracted. You can do this as follows:
shub –image docker://python:latest –tags
We also provide an [example for Python](examples/classify_image/derive_tags.py). If you do this programatically, you can change the folder(s) that are included, meaning that you could get a custom list of software (eg, libraries in lib, or python packages in site-packages).
#### Compare to base OS If you want to get a complete list of scores for your image against a core set of latest [docker-os](singularity/analysis/packages/docker-os) images:
shub –image docker://python:latest –oscalc
or again see [this example](examples/classify_image/estimate_os.py) for doing this from within python.
You can also generate a [dynamic plot](https://singularityware.github.io/singularity-python/examples/classify_image/) for this data:
shub –image docker://python:latest –osplot
### View the inside of a container What’s inside that container? Right now, the main way to answer this question is to do some equivalent of ssh. shub provides a command line function for rendering a view to (immediately) show the contents of an image (folders and files) in your web browser. Important the browser will open, but you will need to use your password to use Singularity on the command line:
#### Docker Image shub will render the guts of any Docker image, even if it’s not currently on your system. You don’t need
shub –image docker://ubuntu:latest –tree
#### Singularity Package or Image
shub –image ubuntu.img –tree
This will open up something that looks like this:
![img/files.png](img/files.png) An [interactive demo](https://singularityware.github.io/singularity-python/examples/container_tree) is also available, and see the [example](examples/container_tree) for updates.
### Visualize Containers
#### Container Similarity Clustering Do you have sets of containers or packages, and want to cluster them based on similarities?
![examples/package_tree/docker-os.png](examples/package_tree/docker-os.png)
We have examples for both deriving scores and producing plots like the above, see [examples/package_tree](examples/package_tree)
#### Container Similarity Tree
![examples/similar_tree/simtree.png](examples/similar_tree/simtree.png)
What do two containers have in common, in terms of files and folders? shub provides a command line function for rendering a view to (immediately) show the similarity between to container images:
shub –images centos.img,ubuntu.img –simtree –debug
We can also compare a local image to a Docker image:
shub –images docker://ubuntu:latest,/home/vanessa/Desktop/ubuntu.img –simtree –debug
Or two Docker images:
shub –images docker://ubuntu:latest,docker://centos:latest –simtree
If you need output for any of the following, you can add the –debug argument. Note that when generating docker comparisons, the back end is obtaining the layers, creating the images, importing and packaging, so the result is not instantanous.
An [interactive demo](https://singularityware.github.io/singularity-python/examples/similar_tree/) is also available.
#### Container Difference Tree What files and folders differ between two containers? What does it look like if I subtract one image from the second? shub provides a command line tool to generate a visualization to do exactly this.
shub –subtract –images docker://ubuntu:latest,docker://centos:latest
As with simtree, this function supports both docker and singularity images as inputs.
![examples/difference_tree/difftree.png](examples/difference_tree/difftree.png)
An [interactive demo](https://singularityware.github.io/singularity-python/examples/difference_tree/) is also available.
### Compare Containers The same functions above can be used to show the exact similarities (intersect) and differences (files and/or folders unique to two images) between two images. You can get a data structure with this information as follows:
from singularity.analysis.compare import compare_containers
image1 = ‘ubuntu.img’ image2 = ‘centos.img’ by = “files.txt” # can also be “folders.txt”, or a list with both
comparison = compare_containers(image1,image2,by=by)
Note that you can also compare packages, or a container to a package:
- def compare_containers(container1=None,container2=None,by=None,
image_package1=None,image_package2=None)
#### Calculate similarity of images
We can calculate similarity of images based on the file content inside. For an example, see [examples/calculate_similarity](examples/calculate_similarity). We can compare two local images as follows:
$ shub –images /home/vanessa/Desktop/ubuntu.img,/home/vanessa/Desktop/ubuntu.img –simcalc
and the same applies for specification of Docker images, as in the previous example. Note that we are specifying images for the argument instead of image, and it’s a single string of image names separated by a comma.
### Package your container The driver of much of the above is the simple container package. A package is a zipped up file that contains the image, the singularity runscript as runscript, a VERSION file, and a list of files files.txt and folders folders.txt in the container.
![img/singularity-package.png](img/singularity-package.png)
The example package can be [downloaded for inspection](http://www.vbmis.com/bmi/project/singularity/package_image/ubuntu:latest-2016-04-06.img.zip), as can the [image used to create it](http://www.vbmis.com/bmi/project/singularity/package_image/ubuntu:latest-2016-04-06.img). This is one of the drivers underlying [singularity hub](http://www.singularity-hub.org) (under development).
files.txt and folders.txt: are simple text file lists with paths in the container, and this choice is currently done to provide the rawest form of the container contents. These files also are used to generate interactive visualizations, and calculate similarity between containers.
VERSION: is a text file with one line, an md5 hash generated for the image when it was packaged.
{{image}}.img: is of course the original singularity container (usually a .img file)
First, go to where you have some images:
ls ubuntu.img
You can now use the shub command line tool to package your image. Note that you must have [singularity installed](https://singularityware.lbl.gov/install-linux), and depending on the function you use, you will likely need to use sudo. We can use the –package argument to package our image:
shub –image ubuntu.img –package
If no output folder is specified, the resulting image (named in the format ubuntu.img.zip will be output in the present working directory. You can also specify an output folder:
shub –image ubuntu.img –package –outfolder /tmp
For the package command, you will need to put in your password to grant sudo priviledges, as packaging requires using the singularity export functionality.
For more details, and a walkthrough with sample data, please see [examples/package_image](examples/package_image)
### Build your container More information coming soon.
### Functions Provided You can also use the library as a module, and import singularity-python functions into your application. If you would like to see specific examples for something, [please ask](https://github.com/singularityware/singularity-python)!
## Help and Contribution Please contribute to the package, or post feedback and questions as [issues](https://github.com/singularityware/singularity-python). For points that require discussion of the larger group, please use the [Singularity List](https://groups.google.com/a/lbl.gov/forum/#!forum/singularity).
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