diff options
Diffstat (limited to 'doc/user/project/repository/x509_signed_commits/index.md')
-rw-r--r-- | doc/user/project/repository/x509_signed_commits/index.md | 356 |
1 files changed, 281 insertions, 75 deletions
diff --git a/doc/user/project/repository/x509_signed_commits/index.md b/doc/user/project/repository/x509_signed_commits/index.md index 7c115734345..17031dd29af 100644 --- a/doc/user/project/repository/x509_signed_commits/index.md +++ b/doc/user/project/repository/x509_signed_commits/index.md @@ -5,72 +5,82 @@ info: "To determine the technical writer assigned to the Stage/Group associated type: concepts, howto --- -# Signing commits and tags with X.509 **(FREE)** +# Sign commits and tags with X.509 certificates **(FREE)** > [Introduced](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/17773) in GitLab 12.8. [X.509](https://en.wikipedia.org/wiki/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 SMIME, but Git also supports signing of commits and tags -with X.509 certificates in a similar way as with [GPG](../gpg_signed_commits/index.md). -The main difference is the trust anchor which is the PKI for X.509 certificates -instead of a web of trust with GPG. - -## How GitLab handles X.509 - -GitLab uses its own certificate store and therefore defines the trust chain. - +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)](../gpg_signed_commits/index.md). +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](../gpg_signed_commits/index.md#adding-a-gpg-key-to-your-account) + to their account. + +GitLab uses its own certificate store and therefore defines the +[trust chain](https://www.ssl.com/faqs/what-is-a-chain-of-trust/). For a commit or tag to be *verified* by GitLab: -- The signing certificate email must match a verified email address used by the committer in GitLab. -- The Certificate Authority has to be trusted by the GitLab instance, see also - [Omnibus install custom public certificates](https://docs.gitlab.com/omnibus/settings/ssl.html#install-custom-public-certificates). -- The signing time has to be within the time range of the [certificate validity](https://www.rfc-editor.org/rfc/rfc5280.html#section-4.1.2.5) +- The signing certificate email must match a verified email address in GitLab. +- The GitLab instance must be able to establish a full [trust chain](https://www.ssl.com/faqs/what-is-a-chain-of-trust/) + 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](https://docs.gitlab.com/omnibus/settings/ssl.html#install-custom-public-certificates). +- The signing time must be in the time range of the + [certificate validity](https://www.rfc-editor.org/rfc/rfc5280.html#section-4.1.2.5), which is usually up to three years. -- The signing time is equal or later than commit time. - -NOTE: -Certificate revocation lists are checked on a daily basis via background worker. +- The signing time is equal to, or later than, the commit time. -NOTE: -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](https://tools.ietf.org/html/rfc5280). +If a commit's status has already been determined and stored in the database, +use the Rake task [to re-check the status](../../../../raketasks/x509_signatures.md). +Refer to the [Troubleshooting section](#troubleshooting). +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](https://tools.ietf.org/html/rfc5280). - 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](https://gitlab.com/gitlab-org/gitlab/-/issues/336677). - The `X509v3 Subject Key Identifier` (SKI) in the issuer certificate and the signing certificate [must be 40 characters long](https://gitlab.com/gitlab-org/gitlab/-/issues/332503). - If your SKI is shorter, commits will not show as verified in GitLab, and + 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](https://gitlab.com/gitlab-org/gitlab/-/issues/332464), such as 'An error occurred while loading commit signatures' and `HTTP 422 Unprocessable Entity` errors. -## Obtaining an X.509 key pair +## Configure for signed commits -If your organization has Public Key Infrastructure (PKI), that PKI provides -an S/MIME key. +To sign your commits, tags, or both, you must: -If you do not have an S/MIME key pair from a PKI, you can either create your -own self-signed one, or purchase one. MozillaZine keeps a nice collection -of [S/MIME-capable signing authorities](http://kb.mozillazine.org/Getting_an_SMIME_certificate) -and some of them generate keys for free. +1. [Obtain an X.509 key pair](#obtain-an-x509-key-pair). +1. [Associate your X.509 certificate with Git](#associate-your-x509-certificate-with-git). +1. [Sign and verify commits](#sign-and-verify-commits). +1. [Sign and verify tags](#sign-and-verify-tags). -## Associating your X.509 certificate with Git +### Obtain an X.509 key pair -To take advantage of X.509 signing, you need Git 2.19.0 or later. You can -check your Git version with: +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. -```shell -git --version -``` +### 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. @@ -84,71 +94,267 @@ git config --global user.signingkey $signingkey git config --global gpg.format x509 ``` -### Windows and MacOS +#### Windows and macOS -Install [S/MIME Sign](https://github.com/github/smimesign) by downloading the -installer or via `brew install smimesign` on MacOS. +To configure Windows or macOS: -Get the ID of your certificate with `smimesign --list-keys` and set your -signing key `git config --global user.signingkey ID`, then configure X.509: +1. Install [S/MIME Sign](https://github.com/github/smimesign) by either: + - Downloading the installer. + - Running `brew install smimesign` on macOS. +1. Get the ID of your certificate by running `smimesign --list-keys`. +1. Set your signing key by running `git config --global user.signingkey ID`. +1. Configure X.509 with this command: -```shell -git config --global gpg.x509.program smimesign -git config --global gpg.format x509 -``` + ```shell + git config --global gpg.x509.program smimesign + git config --global gpg.format x509 + ``` -## Signing commits +### Sign and verify commits -After you have [associated your X.509 certificate with Git](#associating-your-x509-certificate-with-git) you -can start signing your commits: +After you have [associated your X.509 certificate with Git](#associate-your-x509-certificate-with-git) you +can sign your commits: -1. Commit like you used to, the only difference is the addition of the `-S` flag: +1. When you create a Git commit, add the `-S` flag: ```shell git commit -S -m "feat: x509 signed commits" ``` -1. Push to GitLab and check that your commits [are verified](#verifying-commits). +1. Push to GitLab, and check that your commits are verified with the `--show-signature` flag: -If you don't want to type the `-S` flag every time you commit, you can tell Git -to sign your commits automatically: - -```shell -git config --global commit.gpgsign true -``` - -## Verifying commits + ```shell + git log --show-signature + ``` -To verify that a commit is signed, you can use the `--show-signature` flag: +1. *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: -```shell -git log --show-signature -``` + ```shell + git config --global commit.gpgsign true + ``` -## Signing tags +### Sign and verify tags -After you have [associated your X.509 certificate with Git](#associating-your-x509-certificate-with-git) you +After you have [associated your X.509 certificate with Git](#associate-your-x509-certificate-with-git) you can start signing your tags: -1. Tag like you used to, the only difference is the addition of the `-s` flag: +1. When you create a Git tag, add the `-s` flag: ```shell git tag -s v1.1.1 -m "My signed tag" ``` -1. Push to GitLab and check that your tags [are verified](#verifying-tags). +1. Push to GitLab and verify your tags are signed with this command: + + ```shell + git tag --verify v1.1.1 + ``` + +1. *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: -If you don't want to type the `-s` flag every time you tag, you can tell Git -to sign your tags automatically: + ```shell + git config --global tag.gpgsign true + ``` -```shell -git config --global tag.gpgsign true -``` +## Resources -## Verifying tags +- [Rake task for X.509 signatures](../../../../raketasks/x509_signatures.md) -To verify that a tag is signed, you can use the `--verify` flag: +## 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](../../../../raketasks/x509_signatures.md). + +After you make any changes, run this command: ```shell -git tag --verify v1.1.1 +sudo gitlab-rake gitlab:x509:update_signatures ``` + +### Main verification checks + +The code performs +[these key checks](https://gitlab.com/gitlab-org/gitlab/-/blob/v14.1.0-ee/lib/gitlab/x509/signature.rb#L33), +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](../../../../administration/operations/rails_console.md#starting-a-rails-console-session): + + ```shell + sudo gitlab-rails console + ``` + +1. 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: + + ```ruby + 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. + +1. Check the certificate on the commit: + + ```ruby + signature.x509_certificate.nil? + signature.x509_certificate.revoked? + ``` + + Both checks should return `false`: + + ```ruby + > signature.x509_certificate.nil? + => false + > signature.x509_certificate.revoked? + => false + ``` + + A [known issue](https://gitlab.com/gitlab-org/gitlab/-/issues/332503) causes + these checks to fail with `Validation failed: Subject key identifier is invalid`. + +1. Run a cryptographic check on the signature. The code must return `true`: + + ```ruby + signature.verified_signature + ``` + + If it returns `false` then [investigate this check further](#cryptographic-verification-checks). + +1. 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`: + + ```ruby + sigemail=signature.__send__:certificate_email + commitemail=commit.committer_email + sigemail == commitemail + ``` + + A [known issue](https://gitlab.com/gitlab-org/gitlab/-/issues/336677) exists: + only the first email in the `Subject Alternative Name` list is compared. To + display the `Subject Alternative Name` list, run: + + ```ruby + 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`. + +1. The email address on the commit must be associated with an account in GitLab. + This check should return `false`: + + ```ruby + signature.user.nil? + ``` + +1. Check the email address is associated with a user in GitLab. This check should + return a user, such as `#<User id:1234 @user_handle>`: + + ```ruby + 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. + +1. Confirm the developer's email address is verified. This check must return true: + + ```ruby + signature.user.verified_emails.include?(commit.committer_email) + ``` + + If the previous check returned `nil`, this command displays an error: + + ```plaintext + NoMethodError (undefined method `verified_emails' for nil:NilClass) + ``` + +1. The verification status is stored in the database. To display the database record: + + ```ruby + pp 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](#re-verify-commits). + + - `[]` 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](#main-verification-checks). + +1. Check the signature, without checking the issuer, returns `true`: + + ```ruby + signature.__send__ :valid_signature? + ``` + +1. Check the signing time and date. This check must return `true`: + + ```ruby + 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: + + ```ruby + commit.created_at + pp signature.__send__ :cert; nil + ``` + +1. Check the signature, including that TLS trust can be established. This check must return `true`: + + ```ruby + 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](https://docs.gitlab.com/omnibus/settings/ssl.html#install-custom-public-certificates). + + 1. After adding more certificates, (if these troubleshooting steps then pass) + run the Rake task to [re-verify commits](#re-verify-commits). + + 1. Display the certificates, including in the signature: + + ```ruby + 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`. |