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encryption.rst

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Encrypted Containers

Users can build a secure, confidential container environment by encrypting the root file system.

Overview

In {Singularity} >= v3.4.0 a new feature to build and run encrypted containers has been added to allow users to encrypt the file system image within a SIF. This encryption can be performed using either a passphrase or asymmetrically via an RSA key pair in Privacy Enhanced Mail (PEM/PKCS1) format. The container is encrypted in transit, at rest, and even while running. In other words, there is no intermediate, decrypted version of the container on disk. Container decryption occurs at runtime completely within kernel space.

Note

This feature utilizes the Linux dm-crypt library and cryptsetup utility and requires cryptsetup version of >= 2.0.0. This version should be standard with recent Linux versions such as, but users of older Linux versions may have to update.

Encrypting a container

A container can be encrypted either by supplying a plaintext passphrase or a PEM file containing an asymmetric RSA public key. Of these two methods the PEM file is more secure and is therefore recommended for production use.

Note

In {Singularity} 3.4, the definition file stored with the container will not be encrypted. If it contains sensitive information you should remove it before encryption via singularity sif del 1 myimage.sif. Metadata encryption will be addressed in a future release.

An -e|--encrypt flag to singularity build is used to indicate that the container needs to be encrypted.

A passphrase or a key-file used to perform the encryption is supplied at build time via an environment variable or a command line option.

Encryption Method Environment Variable Commandline Option
Passphrase SINGULARITY_ENCRYPTION_PASSPHRASE --passphrase
Asymmetric Key (PEM) SINGULARITY_ENCRYPTION_PEM_PATH --pem-path

The -e|--encrypt flag is implicitly set when the --passphrase or --pem-path flags are passed with the build command. If multiple encryption related flags and/or environment variables are set, the following precedence is respected.

  1. --pem-path
  2. --passphrase
  3. SINGULARITY_ENCRYPTION_PEM_PATH
  4. SINGULARITY_ENCRYPTION_PASSPHRASE

Passphrase Encryption

Note

Passphrase encryption is less secure than encrypting containers using an RSA key pair (detailed below). Passphrase encryption is provided as a convenience, and as a way for users to familiarize themselves with the encrypted container workflow, but users running encrypted containers in production are encouraged to use asymmetric keys.

In case of plaintext passphrase encryption, a passphrase is supplied by one of the following methods.

Encrypting with a passphrase interactively

$ sudo singularity build --passphrase encrypted.sif encrypted.def
Enter encryption passphrase: <secret>
INFO:    Starting build...

Using an environment variable

$ sudo SINGULARITY_ENCRYPTION_PASSPHRASE=<secret> singularity build --encrypt encrypted.sif encrypted.def
Starting build...

In this case it is necessary to use the --encrypt flag since the presence of an environment variable alone will not trigger the encrypted build workflow.

While this example shows how an environment variable can be used to set a passphrase, you should set the environment variable in a way that will not record your passphrase on the command line. For instance, you could save a plain text passphrase in a file (e.g. secret.txt) and use it like so.

$ export SINGULARITY_ENCRYPTION_PASSPHRASE=$(cat secret.txt)

$ sudo -E singularity build --encrypt encrypted.sif encrypted.def
Starting build...

PEM File Encryption

{Singularity} currently supports RSA encryption using a public/private key-pair. Keys are supplied in PEM format. The public key is used to encrypt containers that can be decrypted on a host that has access to the secret private key.

You can create a pair of RSA keys suitable for encrypting your container with the ssh-keygen command, and then create a PEM file with a few specific flags like so:

# Generate a key pair
$ ssh-keygen -t rsa -b 2048 -m pem -N ''
Generating public/private rsa key pair.
Enter file in which to save the key (/home/vagrant/.ssh/id_rsa): rsa
Your identification has been saved in rsa
Your public key has been saved in rsa.pub
The key fingerprint is:
[snip...]

# Convert the public key to PEM PKCS1 format
$ ssh-keygen -f ./rsa.pub -e -m pem >rsa_pub.pem

# Rename the private key (already PEM PKCS1) to a nice name
$ mv rsa rsa_pri.pem

You would use the rsa_pub.pem file to encrypt your container and the rsa_pri.pem file to run it.

Encrypting with a command line option

$ sudo singularity build --pem-path=rsa_pub.pem encrypted.sif encrypted.def
Starting build...

Encrypting with an environment variable

$ sudo SINGULARITY_ENCRYPTION_PEM_PATH=rsa_pub.pem singularity build --encrypt encrypted.sif encrypted.def
Starting build...

In this case it is necessary to use the --encrypt flag since the presence of an environment variable alone will not trigger the encrypted build workflow.

Running an encrypted container

To run, shell, or exec an encrypted image, credentials to decrypt the image need to be supplied at runtime either in a key-file or a plaintext passphrase.

Running a container encrypted with a passphrase

A passphrase can be supplied at runtime by either of the ways listed in the sections above.

Running with a passphrase interactively

$ singularity run --passphrase encrypted.sif
Enter passphrase for encrypted container: <secret>

Running with a passphrase in an environment variable

$ SINGULARITY_ENCRYPTION_PASSPHRASE="secret" singularity run encrypted.sif

While this example shows how an environment variable can be used to set a passphrase, you should set the environment variable in a way that will not record your passphrase on the command line. For instance, you could save a plain text passphrase in a file (e.g. secret.txt) and use it like so.

$ export SINGULARITY_ENCRYPTION_PASSPHRASE=$(cat secret.txt)

$ singularity run encrypted.sif

Running a container encrypted with a PEM file

A private key is supplied using either of the methods listed in the Encryption section above.

Running using a command line option

$ singularity run --pem-path=rsa_pri.pem encrypted.sif

Running using an environment variable

$ SINGULARITY_ENCRYPTION_PEM_PATH=rsa_pri.pem singularity run encrypted.sif