A script to configure transparent encryption of sensitive files stored in a Git repository. Files that you choose will be automatically encrypted when you commit them, and automatically decrypted when you check them out. The process will degrade gracefully, so even people without your encryption password can safely commit changes to the repository's non-encrypted files.
transcrypt protects your data when it's pushed to remotes that you may not directly control (e.g., GitHub, Dropbox clones, etc.), while still allowing you to work normally on your local working copy. You can conveniently store things like passwords and private keys within your repository and not have to share them with your entire team or complicate your workflow.
transcrypt is in the same vein as existing projects like git-crypt and git-encrypt, which follow Git's documentation regarding the use of clean/smudge filters for encryption. In comparison to those other projects, transcrypt makes substantial improvements in the areas of usability and safety.
- transcrypt is just a Bash script and does not require compilation
- transcrypt uses OpenSSL's symmetric cipher routines rather than implementing its own crypto
- transcrypt does not have to remain installed after the initial repository configuration
- transcrypt generates a unique salt for each encrypted file
- transcrypt uses safety checks to avoid clobbering or duplicating configuration data
- transcrypt facilitates setting up additional clones as well as rekeying
- transcrypt adds an alias
git ls-crypt
to list all encrypted files
The decryption -> encryption process on an unchanged file must be deterministic for everything to work transparently. To do that, the same salt must be used each time we encrypt the same file. Rather than use a static salt common to all files, transcrypt first has OpenSSL generate an HMAC-SHA256 cryptographic hash-based message authentication code for each decrypted file (keyed with a combination of the filename and transcrypt password), and then uses the last 16 bytes of that HMAC for the file's unique salt. When the content of the file changes, so does the salt. Since an HMAC has been proven to be a PRF, this method of salt selection does not leak information about the original contents, but is still deterministic.
The requirements to run transcrypt are minimal:
- Bash
- Git
- OpenSSL
column
andhexdump
commands (on Ubuntu/Debian installbsdmainutils
)- if using OpenSSL 3+ one of:
xxd
(on Ubuntu/Debian is included withvim
) orprintf
command (with %b directive) orperl
...and optionally:
- GnuPG - for secure configuration import/export
You also need access to the transcrypt script itself. You can add it directly to your repository, or just put it somewhere in your $PATH:
$ git clone https://github.com/elasticdog/transcrypt.git
$ cd transcrypt/
$ sudo ln -s ${PWD}/transcrypt /usr/local/bin/transcrypt
A number of packages are available for installing transcrypt directly on your system via its native package manager. Some of these packages also include man page documentation as well as shell auto-completion scripts.
- Arch Linux
- Heroku (via Buildpacks)
- NixOS
- OS X (via Homebrew)
...see the INSTALL document for more details.
transcrypt will interactively prompt you for the required information, all you have to do run the script within a Git repository:
$ cd <path-to-your-repo>/
$ transcrypt
If you already know the values you want to use, you can specify them directly
using the command line options. Run transcrypt --help
for more details.
Once a repository has been configured with transcrypt, you can designate for files to be encrypted by applying the "crypt" filter, diff, and merge to a pattern in the top-level .gitattributes config. If that pattern matches a file in your repository, the file will be transparently encrypted once you stage and commit it:
$ cd <path-to-your-repo>/
$ echo 'sensitive_file filter=crypt diff=crypt merge=crypt' >> .gitattributes
$ git add .gitattributes sensitive_file
$ git commit -m 'Add encrypted version of a sensitive file'
The .gitattributes file should be committed and tracked along with everything else in your repository so clones will be aware of what is encrypted. Make sure you don't accidentally add a pattern that would encrypt this file :-)
For your reference, if you find the above description confusing, you'll find that this repository has been configured following these exact steps.
For convenience, transcrypt also adds a Git alias to allow you to list all of the currently encrypted files in a repository:
$ git ls-crypt
sensitive_file
Alternatively, you can use the --list
command line option:
$ transcrypt --list
sensitive_file
You can also use this to verify your .gitattributes patterns when designating
new files to be encrypted, as the alias will list pattern matches as long as
everything has been staged (via git add
).
After committing things, but before you push to a remote repository, you can validate that files are encrypted as expected by viewing them in their raw form:
$ git show HEAD:<path-to-file> --no-textconv
The <path-to-file>
in the above command must be relative to the top-level of
the repository. Alternatively, you can use the --show-raw
command line option
and provide a path relative to your current directory:
$ transcrypt --show-raw sensitive_file
If you have just cloned a repository containing files that are encrypted, you'll
want to configure transcrypt with the same cipher and password as the origin
repository. The owner of the origin repository can dump the credentials for you
by running the --display
command line option:
$ transcrypt --display
The current repository was configured using transcrypt v0.2.0
and has the following configuration:
CONTEXT: default
CIPHER: aes-256-cbc
PASSWORD: correct horse battery staple
Copy and paste the following command to initialize a cloned repository:
transcrypt -c aes-256-cbc -p 'correct horse battery staple'
Once transcrypt has stored the matching credentials, it will force a checkout of any exising encrypted files in order to decrypt them.
Periodically, you may want to change the encryption cipher or password used to encrypt the files in your repository. You can do that easily with transcrypt's rekey option:
$ transcrypt --rekey
As a warning, rekeying will remove your ability to see historical diffs of the encrypted files in plain text. Changes made with the new key will still be visible, and you can always see the historical diffs in encrypted form by disabling the text conversion filters:
$ git log --patch --no-textconv
After rekeying, all clones of your repository should flush their transcrypt credentials, fetch and merge the new encrypted files via Git, and then re-configure transcrypt with the new credentials.
$ transcrypt --flush-credentials
$ git fetch origin
$ git merge origin/main
$ transcrypt -c aes-256-cbc -p 'the-new-password'
Completion scripts for both Bash and Zsh are included in the contrib/ directory.
transcrypt [option...]
-c, --cipher=CIPHER
the symmetric cipher to utilize for encryption;
defaults to aes-256-cbc
-p, --password=PASSWORD
the password to derive the key from;
defaults to 30 random base64 characters
--set-openssl-path=PATH_TO_OPENSSL
use OpenSSL at this path; defaults to 'openssl' in $PATH
-y, --yes
assume yes and accept defaults for non-specified options
-d, --display
display the current repository's cipher and password
-r, --rekey
re-encrypt all encrypted files using new credentials
-f, --flush-credentials
remove the locally cached encryption credentials and re-encrypt
any files that had been previously decrypted
-F, --force
ignore whether the git directory is clean, proceed with the
possibility that uncommitted changes are overwritten
-u, --uninstall
remove all transcrypt configuration from the repository and
leave files in the current working copy decrypted
--upgrade
uninstall and re-install transcrypt configuration in the repository
to apply the newest scripts and .gitattributes configuration
-l, --list
list all of the transparently encrypted files in the repository,
relative to the top-level directory
-s, --show-raw=FILE
show the raw file as stored in the git commit object; use this
to check if files are encrypted as expected
-e, --export-gpg=RECIPIENT
export the repository's cipher and password to a file encrypted
for a gpg recipient
-i, --import-gpg=FILE
import the password and cipher from a gpg encrypted file
-C, --context=CONTEXT_NAME
name for a context with a different passphrase and cipher from
the 'default' context; use this advanced option to encrypt
different files with different passphrases
--list-contexts
list all contexts configured in the repository, and warn about
incompletely configured contexts
-v, --version
print the version information
-h, --help
view this help message
The method of using filters to selectively encrypt/decrypt files does add some overhead to Git by regularly forking OpenSSL processes and removing Git's ability to efficiently cache file changes. That said, it's not too different from tracking binary files, and when used as intended, transcrypt should not noticeably impact performance. There are much better options if your goal is to encrypt the entire repository.
Note that the configuration and encryption information is stored in plain text within the repository's .git/config file. This prevents them from being transferred to remote clones, but they are not protected from inquisitive users on your local machine.
For safety, you may prefer to only have the credentials stored when actually
updating encrypted files, and then flush them with --flush-credentials
once
you're done (make sure you have the credentials backed up elsewhere!). This will
also revert any decrypted files back to their encrypted form in your local
working copy.
Last up, regarding the default cipher choice of aes-256-cbc
...there aren't any
fantastic alternatives without pulling in outside dependencies. Ideally, we
would use an authenticated cipher mode like id-aes256-GCM
by default, but
there are a couple of issues:
-
I'd like to support OS X out of the box, and unfortunately they are the lowest common denominator when it comes to OpenSSL. For whatever reason, they still include OpenSSL 0.9.8y rather than a newer release. Unfortunately, GCM-based ciphers weren't added until OpenSSL 1.0.1 (back in early 2012).
-
Even with newer versions of OpenSSL, the authenticated cipher modes don't work exactly right when utilizing the command line
openssl enc
.
I'm contemplating if transcrypt should append an HMAC to the aes-256-cbc
ciphertext to provide authentication, or if we should live with the
malleability issues
as a known limitation. Essentially, malicious comitters without the transcrypt
password could potentially manipulate the plaintext in limited ways (given that
the attacker knows the original plaintext). Honestly, I'm not sure if the added
complexity here would be worth it given transcrypt's use case.
Context names let you encrypt some files with different passwords for a different audience, such as super-users. The 'default' context applies unless you set a context name.
Add a context by reinitialising transcrypt with a context name then add a pattern with crypt-<CONTEXTNAME> attributes to .gitattributes. For example, to encrypt a file _top-secret in a "super" context:
# Initialise a new "super" context, and set a different password
$ transcrypt --context=super
# Add a pattern to .gitattributes with "crypt-super" values
$ echo >> .gitattributes \\
'top-secret filter=crypt-super diff=crypt-super merge=crypt-super'
# Add and commit your top-secret and .gitattribute files
$ git add .gitattributes top-secret
$ git commit -m "Add top secret file for super-users only"
# List all contexts
$ transcrypt --list-contexts
# Display the cipher and password for the "super" context
$ transcrypt --context=super --display
transcrypt is provided under the terms of the MIT License.
Copyright © 2014-2020, Aaron Bull Schaefer.
Please use:
- the shellcheck tool to check for subtle bash
scripting errors in the transcrypt file, and apply the recommendations when
possible. E.g:
shellcheck transcrypt
- the shfmt tool to apply consistent formatting
to the transcrypt file, e.g:
shfmt -w transcrypt
- the Prettier tool to apply consistent formatting to the
README.md file, e.g:
prettier --write README.md
Tests are written using bats-core version of "Bash Automated Testing System" and stored in the tests/ directory.
To run the tests:
- install bats-core
- run all tests with:
bats tests/
- run an individual test with e.g:
bats tests/test_crypt.bats