11 KiB
git-secret - bash tool to store private data inside a git repo.
Usage: Setting up git-secret in a repository
These steps cover the basic process of using git-secret
to specify users and files that will interact with git-secret
,
and to encrypt and decrypt secrets.
-
Before starting, make sure you have created a
gpg
RSA key-pair: which are a public key and a secret key pair, identified by your email address and stored with your gpg configuration. Generally this gpg configuration and keys will be stored somewhere in your home directory. -
Begin with an existing or new git repository.
-
Initialize the
git-secret
repository by runninggit secret init
. The.gitsecret/
folder will be created, with subdirectorieskeys/
andpaths/
,.gitsecret/keys/random_seed
will be added to.gitignore
, and.gitignore
will be configured to not ignore.secret
files.
Note all the contents of the .gitsecret/
folder should be checked in, /except/ the random_seed
file.
This also means that of all the files in .gitsecret/
, only the random_seed
file should be mentioned in your .gitignore
file.
-
Add the first user to the
git-secret
repo keyring by runninggit secret tell your@email.id
. -
Now it's time to add files you wish to encrypt inside the
git-secret
repository. This can be done by runninggit secret add <filenames...>
command, which will also (as of 0.2.6) add entries to.gitignore
, stopping those files from being be added or committed to the repo unencrypted. -
Then run
git secret hide
to encrypt the files you added withgit secret add
. The files will be encrypted with the public keys in your git-secret repo's keyring, each corresponding to a user's email that you used withtell
.
After using git secret hide
to encrypt your data, it is safe to commit your changes.
NOTE: It's recommended to add the git secret hide
command to your pre-commit
hook, so you won't miss any changes.
- Later you can decrypt files with the
git secret reveal
command, or print their contents to stdout with thegit secret cat
command. If you used a password on your GPG key (always recommended), it will ask you for your password. And you're done!
Usage: Adding someone to a repository using git-secret
-
Get their
gpg
public-key. You won't need their secret key. They can export their public key for you using a command like:gpg --armor --export their@email.id > public_key.txt # --armor here makes it ascii
-
Import this key into your
gpg
keyring (in~/.gnupg
or similar) by runninggpg --import public_key.txt
-
Now add this person to your secrets repo by running
git secret tell their@email.id
(this will be the email address associated with their public key) -
Now remove the other user's public key from your personal keyring with
gpg --delete-keys their@email.id
-
The newly added user cannot yet read the encrypted files. Now, re-encrypt the files using
git secret reveal; git secret hide -d
, and then commit and push the newly encrypted files. (The -d options deletes the unencrypted file after re-encrypting it). Now the newly added user will be able to decrypt the files in the repo usinggit-secret reveal
.
Note that when you first add a user to a git-secret repo, they will not be able to decrypt existing files until another user re-encrypts the files with the new keyring.
If you do not
want unexpected keys added, you can configure some server-side security policy with the pre-receive
hook.
Using gpg
You can follow a quick gpg
tutorial at devdungeon. Here are the most useful commands to get started:
To generate a RSA key-pair, run:
gpg --gen-key
To export your public key, run:
gpg --armor --export your.email@address.com > public-key.gpg
To import the public key of someone else (to share the secret with them for instance), run:
gpg --import public-key.gpg
To make sure you get the original public keys of the indicated persons, be sure to use a secure channel to transfer it, or use a service you trust, preferably one that uses encryption such as Keybase, to retrieve their public key. Otherwise you could grant the wrong person access to your secrets by mistake!
Using git-secret for Continuous Integration / Continuous Deployment (CI/CD)
When using git-secret
for CI/CD, you get the benefit that any deployment is necessarily done with the correct configuration, since it is collocated
with the changes in your code.
One way of doing it is the following:
- create a gpg key for your CI/CD environment. You can chose any name and email address you want: for instance
MyApp Example <myapp@example.com>
if your app is called MyApp and your CI/CD provider is Example. It is easier not to define a passphrase for that key. However, if defining a passphrase is unavoidable, use a unique passphrase for the private key. - run
gpg --armor --export-secret-key myapp@example.com
to get your private key value - Create an env var on your CI/CD server
GPG_PRIVATE_KEY
and assign it the private key value. If a passphrase has been setup for the private key, create another env var on the CI/CD serverGPG_PASSPHRASE
and assign it the passphrase of the private key. - Then write your Continuous Deployment build script. For instance:
# As the first step: install git-secret,
# see: https://git-secret.io/installation
# Create private key file
echo "$GPG_PRIVATE_KEY" > ./private_key.gpg
# Import private key and avoid the "Inappropriate ioctl for device" error
gpg --batch --yes --pinentry-mode loopback --import private_key.gpg
# Reveal secrets without user interaction and with passphrase. If no passphrase
# is created for the key, remove `-p $GPG_PASSPHRASE`
git secret reveal -p "$GPG_PASSPHRASE"
# carry on with your build script, secret files are available ...
Note: your CI/CD might not allow you to create a multiline value. In that case, you can export it on one line with
gpg --armor --export-secret-key myapp@example.com | tr '\n' ','
You can then create your private key file with:
echo "$GPG_PRIVATE_KEY" | tr ',' '\n' > ./private_key.gpg
Also note: the gpg
version on the CI/CD server MUST INTEROPERATE with the one used locally. Otherwise, gpg
decryption can fail, which leads to git secret reveal
reporting cannot find decrypted version of file
error. The best way to ensure this is to use the same version of gnupg on different systems.
Environment Variables and Configuration
You can configure the version of gpg
used, or the extension your encrypted files use, to suit your workflow better.
To do so, just set the required variable to the value you need.
This can be done in your shell environment file or with each git-secret
command.
See below, or the man page of git-secret
for an explanation of the environment variables git-secret
uses.
The settings available to be changed are:
-
$SECRETS_VERBOSE
- sets the verbose flag to on for allgit-secret
commands; is identical to using-v
on each command that supports it. -
$SECRETS_GPG_COMMAND
- sets thegpg
alternatives, defaults togpg
. It can be changed togpg
,gpg2
,pgp
,/usr/local/gpg
or any other value. After doing so rerun the tests to be sure that it won't break anything. Tested withgpg
andgpg2
. -
$SECRETS_GPG_ARMOR
- sets thegpg
--armor
mode. Can be set to1
to store secrets file as text. By default is0
and store files as binaries. -
$SECRETS_EXTENSION
- sets the secret files extension, defaults to.secret
. It can be changed to any valid file extension. -
$SECRETS_DIR
- sets the directory wheregit-secret
stores its files, defaults to.gitsecret
. It can be changed to any valid directory name. -
$SECRETS_PINENTRY
- allows user to specify a setting forgpg
's--pinentry
option. Seegpg
docs for details about gpg's--pinentry
option.
The .gitsecret
folder (can be overridden with SECRETS_DIR
)
This folder contains information about the files encrypted by git-secret, and about which public/private key sets can access the encrypted data.
You can change the name of this directory using the SECRETS_DIR environment variable.
Use the various git-secret
commands to manipulate the files in .gitsecret
,
you should not change the data in these files directly.
Exactly which files exist in the .gitsecret
folder and what their contents are
vary slightly across different versions of gpg. Also, some versions of gpg
might not work well with keyrings created or modified with newer versions of gpg.
Thus it is best to use git-secret with the same version of gpg being used by all users.
This can be forced by installing matching versions of gpg
and using SECRETS_GPG_COMMAND
environment variable.
For example, there is an issue between gpg
version 2.1.20 and later versions
which can cause problems reading and writing keyring files between systems
(this shows up in errors like 'gpg: skipped packet of type 12 in keybox').
This is not the only issue it is possible to encounter sharing files between different versions
of gpg
.
Generally you are most likely to encounter issues between gpg
versions if you use git-secret tell
or git-secret removeperson
to modify
your repo's git-secret
keyring using a newer version of gpg
, and then try to operate
on that keyring using an older version of gpg
.
The git-secret
internal data is separated into two directories:
.gitsecret/paths
This directory currently contains only the file mapping.cfg
, which lists all the files git-secret will consider secret.
In other words, the path mappings: what files are tracked to be hidden and revealed.
All other internal data used by git-secret is stored in the directory:
.gitsecret/keys
This directory contains data used by git-secret
and gpg
to encrypt files to
be accessed by the permitted users.
In particular, this directory contains a gnupg keyring
with public keys for the emails used with tell
.
This is the keyring used to encrypt files with git-secret-hide
.
git-secret-reveal
and git-secret-cat
, which decrypt secrets,
instead use the user's private keys (which probably reside somewhere like ~/.gnupg/).
Note that user's private keys, needed for decryption, are not in the .gitsecret/keys
directory.
Generally speaking, all the files in this directory except random_seed
should be checked into your repo.
By default, git secret init
will add the file .gitsecret/keys/random_seed
to your .gitignore
file.
Again, you can change the name of this directory using the SECRETS_DIR environment variable.