.. | ||
tests | ||
__init__.py | ||
__main__.py | ||
decode.py | ||
encode.py | ||
keyring.py | ||
proto.py | ||
README.md | ||
trezor-git-gpg-wrapper.sh |
Using TREZOR as hardware GPG agent
Generate new GPG signing key:
First, verify that you have GPG 2.1+ installed:
$ gpg2 --version | head -n1
gpg (GnuPG) 2.1.11
Update you TREZOR firmware to the latest version (at least 5430c82): see a sample build log.
Install the latest development version of trezor-agent
:
$ pip install git+https://github.com/romanz/trezor-agent.git@master
Define your GPG user ID as an environment variable:
$ export TREZOR_GPG_USER_ID="John Doe <john@doe.bit>"
There are two ways to generate TREZOR-based GPG public keys, as described below.
(1) create new GPG identity:
$ trezor-gpg create > identity.pub # create new TREZOR-based GPG identity
$ gpg2 --import identity.pub # import into local GPG public keyring
$ gpg2 --list-keys # verify that the new identity is created correctly
$ gpg2 --edit "${TREZOR_GPG_USER_ID}" trust # OPTIONAL: mark the key as trusted
(2) create new subkey for an existing GPG identity:
$ gpg2 --list-keys "${TREZOR_GPG_USER_ID}" # make sure this identity already exists
$ trezor-gpg create --subkey > identity.pub # create new TREZOR-based GPG subkey
$ gpg2 --import identity.pub # append it to an existing identity
$ gpg2 --list-keys "${TREZOR_GPG_USER_ID}" # verify that the new subkey is added to keyring
Generate GPG signatures using a TREZOR device:
$ trezor-gpg sign EXAMPLE # confirm signature using the device
$ gpg2 --verify EXAMPLE.asc # verify using standard GPG binary
Git commit & tag signatures:
Git can use GPG to sign and verify commits and tags (see here):
$ git config --local gpg.program "trezor-git-gpg-wrapper.sh"
$ git commit --gpg-sign # create GPG-signed commit
$ git log --show-signature -1 # verify commit signature
$ git tag --sign "TAG" # create GPG-signed tag
$ git verify-tag "TAG" # verify tag signature