Sign commits and tags with X.509 certificates (FREE)

Introduced in GitLab 12.8.

X.509 is a standard format for public key certificates issued by a public or private Public Key Infrastructure (PKI). Personal X.509 certificates are used for authentication or signing purposes such as S/MIME (Secure/Multipurpose Internet Mail Extensions). However, Git also supports signing of commits and tags with X.509 certificates in a similar way as with GPG (GnuPG, or GNU Privacy Guard). The main difference is the way GitLab determines whether or not the developer's signature is trusted:

  • For X.509, a root certificate authority is added to the GitLab trust store. (A trust store is a repository of trusted security certificates.) Combined with any required intermediate certificates in the signature, the developer's certificate can be chained back to a trusted root certificate.
  • For GPG, developers add their GPG key to their account.

GitLab uses its own certificate store and therefore defines the trust chain. For a commit or tag to be verified by GitLab:

  • The signing certificate email must match a verified email address in GitLab.
  • The GitLab instance must be able to establish a full trust chain from the certificate in the signature to a trusted certificate in the GitLab certificate store. This chain may include intermediate certificates supplied in the signature. You may need to add certificates, such as Certificate Authority root certificates, to the GitLab certificate store.
  • The signing time must be in the time range of the certificate validity, which is usually up to three years.
  • The signing time is equal to, or later than, the commit time.

If a commit's status has already been determined and stored in the database, use the Rake task to re-check the status. Refer to the Troubleshooting section. GitLab checks certificate revocation lists on a daily basis with a background worker.

Limitations

  • Self-signed certificates without authorityKeyIdentifier, subjectKeyIdentifier, and crlDistributionPoints are not supported. We recommend using certificates from a PKI that are in line with RFC 5280.
  • If you have more than one email in the Subject Alternative Name list in your signing certificate, only the first one is used to verify commits.
  • The X509v3 Subject Key Identifier (SKI) in the issuer certificate and the signing certificate must be 40 characters long. If your SKI is shorter, commits don't show as verified in GitLab, and short subject key identifiers may also cause errors when accessing the project, such as 'An error occurred while loading commit signatures' and HTTP 422 Unprocessable Entity errors.

Configure for signed commits

To sign your commits, tags, or both, you must:

  1. Obtain an X.509 key pair.
  2. Associate your X.509 certificate with Git.
  3. Sign and verify commits.
  4. Sign and verify tags.

Obtain an X.509 key pair

If your organization has Public Key Infrastructure (PKI), that PKI provides an S/MIME key. If you do not have an S/MIME key pair from a PKI, you can either create your own self-signed pair, or purchase a pair.

Associate your X.509 certificate with Git

To take advantage of X.509 signing, you need Git 2.19.0 or later. You can check your Git version with the command git --version.

If you have the correct version, you can proceed to configure Git.

Linux

Configure Git to use your key for signing:

signingkey = $( gpgsm --list-secret-keys | egrep '(key usage|ID)' | grep -B 1 digitalSignature | awk '/ID/ {print $2}' )
git config --global user.signingkey $signingkey
git config --global gpg.format x509

Windows and macOS

To configure Windows or macOS:

  1. Install S/MIME Sign by either:

    • Downloading the installer.
    • Running brew install smimesign on macOS.
  2. Get the ID of your certificate by running smimesign --list-keys.

  3. Set your signing key by running git config --global user.signingkey ID.

  4. Configure X.509 with this command:

    git config --global gpg.x509.program smimesign
    git config --global gpg.format x509

Sign and verify commits

After you have associated your X.509 certificate with Git you can sign your commits:

  1. When you create a Git commit, add the -S flag:

    git commit -S -m "feat: x509 signed commits"
  2. Push to GitLab, and check that your commits are verified with the --show-signature flag:

    git log --show-signature
  3. If you don't want to type the -S flag every time you commit, run this command for Git to sign your commits every time:

    git config --global commit.gpgsign true

Sign and verify tags

After you have associated your X.509 certificate with Git you can start signing your tags:

  1. When you create a Git tag, add the -s flag:

    git tag -s v1.1.1 -m "My signed tag"
  2. Push to GitLab and verify your tags are signed with this command:

    git tag --verify v1.1.1
  3. If you don't want to type the -s flag every time you tag, run this command for Git to sign your tags each time:

    git config --global tag.gpgsign true

Related topics

Troubleshooting

Re-verify commits

GitLab stores the status of any checked commits in the database. You can use a Rake task to check the status of any previously checked commits.

After you make any changes, run this command:

sudo gitlab-rake gitlab:x509:update_signatures

Main verification checks

The code performs these key checks, which all must return verified:

  • x509_certificate.nil? should be false.
  • x509_certificate.revoked? should be false.
  • verified_signature should be true.
  • user.nil? should be false.
  • user.verified_emails.include?(@email) should be true.
  • certificate_email == @email should be true.

To investigate why a commit shows as Unverified:

  1. Start a Rails console:

    sudo gitlab-rails console
  2. Identify the project (either by path or ID) and full commit SHA that you're investigating. Use this information to create signature to run other checks against:

    project = Project.find_by_full_path('group/subgroup/project')
    project = Project.find_by_id('121')
    commit = project.repository.commit_by(oid: '87fdbd0f9382781442053b0b76da729344e37653')
    signedcommit=Gitlab::X509::Commit.new(commit)
    signature=Gitlab::X509::Signature.new(signedcommit.signature_text, signedcommit.signed_text, commit.committer_email, commit.created_at)

    If you make changes to address issues identified running through the checks, restart the Rails console and run though the checks again from the start.

  3. Check the certificate on the commit:

    signature.x509_certificate.nil?
    signature.x509_certificate.revoked?

    Both checks should return false:

    > signature.x509_certificate.nil?
    => false
    > signature.x509_certificate.revoked?
    => false

    A known issue causes these checks to fail with Validation failed: Subject key identifier is invalid.

  4. Run a cryptographic check on the signature. The code must return true:

    signature.verified_signature

    If it returns false then investigate this check further.

  5. Confirm the email addresses match on the commit and the signature:

    • The Rails console displays the email addresses being compared.
    • The final command must return true:
    sigemail=signature.__send__:certificate_email
    commitemail=commit.committer_email
    sigemail == commitemail

    A known issue exists: only the first email in the Subject Alternative Name list is compared. To display the Subject Alternative Name list, run:

    signature.__send__ :get_certificate_extension,'subjectAltName'

    If the developer's email address is not the first one in the list, this check fails, and the commit is marked unverified.

  6. The email address on the commit must be associated with an account in GitLab. This check should return false:

    signature.user.nil?
  7. Check the email address is associated with a user in GitLab. This check should return a user, such as #<User id:1234 @user_handle>:

    User.find_by_any_email(commit.committer_email)

    If it returns nil, the email address is not associated with a user, and the check fails.

  8. Confirm the developer's email address is verified. This check must return true:

    signature.user.verified_emails.include?(commit.committer_email)

    If the previous check returned nil, this command displays an error:

    NoMethodError (undefined method `verified_emails' for nil:NilClass)
  9. The verification status is stored in the database. To display the database record:

    pp CommitSignatures::X509CommitSignature.by_commit_sha(commit.sha);nil

    If all the previous checks returned the correct values:

    • verification_status: "unverified" indicates the database record needs updating. Use the Rake task.

    • [] indicates the database doesn't have a record yet. Locate the commit in GitLab to check the signature and store the result.

Cryptographic verification checks

If GitLab determines that verified_signature is false, investigate the reason in the Rails console. These checks require signature to exist. Refer to the signature step of the previous main verification checks.

  1. Check the signature, without checking the issuer, returns true:

    signature.__send__ :valid_signature?
  2. Check the signing time and date. This check must return true:

    signature.__send__ :valid_signing_time?
    • The code allows for code signing certificates to expire.

    • A commit must be signed during the validity period of the certificate, and at or after the commit's datestamp. Display the commit time and certificate details including not_before, not_after with:

      commit.created_at
      pp signature.__send__ :cert; nil
  3. Check the signature, including that TLS trust can be established. This check must return true:

    signature.__send__(:p7).verify([], signature.__send__(:cert_store), signature.__send__(:signed_text))
    1. If this fails, add the missing certificate(s) required to establish trust to the GitLab certificate store.

    2. After adding more certificates, (if these troubleshooting steps then pass) run the Rake task to re-verify commits.

    3. Display the certificates, including in the signature:

      pp signature.__send__(:p7).certificates ; nil

Ensure any additional intermediate certificate(s) and the root certificate are added to the certificate store. For consistency with how certificate chains are built on web servers:

  • Git clients that are signing commits should include the certificate and all intermediate certificates in the signature.
  • The GitLab certificate store should only contain the root.

If you remove a root certificate from the GitLab trust store, such as when it expires, commit signatures which chain back to that root display as unverified.