Deploying Machine ID on GitLab CI
In this guide, you will use Teleport Machine ID to allow a GitLab pipeline to securely connect to a Teleport SSH node without the need for long-lived secrets.
Machine ID for GitLab works with GitLab's cloud-hosted option and with self-hosted GitLab installations. The minimum supported GitLab version is 15.7.
This mitigates the risk of long-lived secrets such as passwords or SSH private keys being exfiltrated from your GitLab organization and provides many of the other benefits of Teleport such as auditing and finely-grained access control.
Prerequisites
Machine ID for GitLab is available starting from Teleport v12.2
.
-
A running Teleport cluster version 15.4.22 or above. If you want to get started with Teleport, sign up for a free trial or set up a demo environment.
-
The
tctl
admin tool andtsh
client tool.On Teleport Enterprise, you must use the Enterprise version of
tctl
, which you can download from your Teleport account workspace. Otherwise, visit Installation for instructions on downloadingtctl
andtsh
for Teleport Community Edition.
- To check that you can connect to your Teleport cluster, sign in with
tsh login
, then verify that you can runtctl
commands using your current credentials.tctl
is supported on macOS and Linux machines. For example:If you can connect to the cluster and run the$ tsh login --proxy=teleport.example.com [email protected]
$ tctl status
# Cluster teleport.example.com
# Version 15.4.22
# CA pin sha256:abdc1245efgh5678abdc1245efgh5678abdc1245efgh5678abdc1245efgh5678tctl status
command, you can use your current credentials to run subsequenttctl
commands from your workstation. If you host your own Teleport cluster, you can also runtctl
commands on the computer that hosts the Teleport Auth Service for full permissions. - A GitLab project to connect to Teleport. This can either be on GitLab's cloud-hosted offering (gitlab.com) or on a self-hosted GitLab instance. When using a self-hosted GitLab instance, your Teleport Auth Server must be able to connect to your GitLab instance and your GitLab instance must be configured with a valid TLS certificate.
Step 1/4. Create a Bot
Next, you need to create a Bot. A Bot is a Teleport identity for a machine or group of machines. Like users, bots have a set of roles and traits which define what they can access.
Create bot.yaml
:
kind: bot
version: v1
metadata:
# name is a unique identifier for the Bot in the cluster.
name: example
spec:
# roles is a list of roles to grant to the Bot. Don't worry if you don't know
# what roles you need to specify here, the Access Guides will walk you through
# creating and assigning roles to the already created Bot.
roles: []
Make sure you replace example
with a unique, descriptive name for your Bot.
Use tctl
to apply this file:
$ tctl create bot.yaml
Step 2/4. Create a join token
To allow GitLab CI to authenticate to your Teleport cluster, you'll first need to create a join token. A GitLab join token contains allow rules that describe which pipelines can use that token in order to join the Teleport cluster. A rule can contain multiple fields, and any pipeline that matches all the fields within a single rule is granted access.
In this example, you will create a token with a rule that grants access to any
GitLab CI job within a specific GitLab project. Determine the fully qualified
path of your GitLab project. This will include your username (or group) and the
name of your project, e.g my-user/my-project
.
Create a file named bot-token.yaml
. Ensure you substitute any values as
suggested by the comments in this example:
kind: token
version: v2
metadata:
name: example-bot
spec:
# The Bot role indicates that this token grants access to a bot user, rather
# than allowing a node to join. This role is built in to Teleport.
roles: [Bot]
join_method: gitlab
# The bot_name indicates which bot user this token grants access to. This
# should match the name of the bot that you created in step 1.
bot_name: example
gitlab:
# domain should be the domain of your GitLab instance. If you are using
# GitLab's cloud hosted offering, omit this field entirely.
domain: gitlab.example.com
# allow specifies rules that control which GitLab tokens will be accepted
# by Teleport. Tokens not matching any allow rule will be denied.
allow:
# project_path should be the fully qualified path of your GitLab
# project that you determined earlier. This will grant access to any
# GitLab CI run in that project.
- project_path: my-user/my-project
You can find a full list of the token configuration options for GitLab joining on the GitLab CI reference page.
Apply this to your Teleport cluster using tctl
:
$ tctl create -f bot-token.yaml
Step 3/4. Configure a GitLab Pipeline
With the bot and join token created, you can now configure a GitLab pipeline
that sets up tbot
to use these.
To configure tbot
, a YAML file will be used. In this example we'll store this
within the repository itself, but this could be generated or created by the
CI pipeline itself.
Create tbot.yaml
within your repository:
version: v2
proxy_server: example.teleport.sh:443
onboarding:
join_method: gitlab
token: example-bot
oneshot: true
storage:
type: memory
# outputs will be filled in during the completion of an access guide.
outputs: []
Replace:
example.teleport.sh:443
with the address of your Teleport Proxy or Auth Server. Prefer using the address of a Teleport Proxy.example-bot
with the name of the token you created in the second step
Now, the GitLab CI pipeline can be defined. Before the pipeline can use tbot
,
it must be available within the environment. For this example, we'll show
downloading tbot
as part of the CI step, but in a production implementation
you may wish to build a docker image that contains this binary to avoid
depending on the Teleport CDN.
Create .gitlab-ci.yml
within your repository:
stages:
- deploy
deploy-job:
stage: deploy
# id_tokens configures ID Tokens that GitLab will automatically inject into
# the environment of your GitLab run.
#
# See https://docs.gitlab.com/ee/ci/secrets/id_token_authentication.html
# for further explanation of the id_tokens configuration in GitLab.
id_tokens:
TBOT_GITLAB_JWT:
# aud for TBOT_GITLAB_JWT must be configured with the name of your
# Teleport cluster. This is not necessarily the address of your Teleport
# cluster and will not include a port or scheme (http/https)
#
# This helps the Teleport Auth Server know that the token is intended for
# it, and not a different service or Teleport cluster.
aud: teleport.example.com
script:
- cd /tmp
- 'curl -O https://cdn.teleport.dev/teleport-v15.4.22-linux-amd64-bin.tar.gz'
- tar -xvf teleport-v15.4.22-linux-amd64-bin.tar.gz
- sudo ./teleport/install
- 'TELEPORT_ANONYMOUS_TELEMETRY=1 tbot start -c tbot.yaml'
Replace teleport.example.com
with the name of your Teleport cluster. This
is not necessarily the address of your Teleport cluster and will not include
a port or scheme (e.g. http/https).
TELEPORT_ANONYMOUS_TELEMETRY
enables the submission of anonymous usage
telemetry. This helps us shape the future development of tbot
. You can disable
this by omitting this.
Commit and push these two files to the repository.
Check your GitLab CI status, and examine the log results from the commit for failure.
Step 4/4. Configure outputs
You have now prepared the base configuration for tbot
. At this point, it
identifies itself to the Teleport cluster and renews its own credentials but
does not output any credentials for other applications to use.
Follow one of the access guides to configure an output that meets your access needs.
Further steps
- For more information about GitLab joining, read the GitLab CI reference page.
- For more information about GitLab itself, read their documentation.
- Follow the access guides to finish configuring
tbot
for your environment. - Read the configuration reference to explore all the available configuration options.
- More information about
TELEPORT_ANONYMOUS_TELEMETRY
.