Teleport
Deploying Machine ID on Jenkins
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Jenkins is an open source automation server that is frequently used to build Continuous Integration and Continuous Delivery (CI/CD) pipelines.
In this guide, we will demonstrate how to migrate existing Jenkins pipelines to utilize Machine ID with minimal changes.
Prerequisites
You will need the following tools to use Teleport with Jenkins.
-
A running Teleport cluster version 16.4.7 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.Visit Installation for instructions on downloading
tctl
andtsh
.
ssh
OpenSSH tool- Jenkins
- 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. For example:If you can connect to the cluster and run thetsh login --proxy=teleport.example.com --user=email@example.comtctl statusCluster teleport.example.com
Version 16.4.7
CA pin sha256:abdc1245efgh5678abdc1245efgh5678abdc1245efgh5678abdc1245efgh5678
tctl 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.
Architecture
Before we begin, it should be noted that Jenkins is a tool that is notoriously difficult to secure. Machine ID is one part of securing your infrastructure, but it alone is not sufficient. Below we will provide some basic guidance which can help improve the security posture of your Jenkins installation.
Single-host deployments
The simplest Jenkins deployments have the
controller (process that stores configuration, plugins, UI) and agents (process
that executes tasks) run on the same host. This deployment model is simple to
get started with, however any compromise of the jenkins
user within a single
pipeline can lead to the compromise of your entire CI/CD infrastructure.
Multihost deployments
A slightly more complex, but more secure deployment is running your Jenkins controllers and agents on different hosts and pinning workloads to specific agents. This is an improvement over the simple deployment because you can limit the blast radius of the compromise of a single pipeline to a subset of your CI/CD infrastructure instead of all of your infrastructure.
Best practices
We strongly encourage the use of the second deployment model whenever possible, with ephemeral hosts and IAM joining when possible. When using Machine ID with this model, create and run Machine ID bots per-host and pin particular pipelines to a worker. This will allow you to give each pipeline the minimal scope for server access, reduce the blast radius if one pipeline is compromised, and allow you to remotely audit and lock pipelines if you detect malicious behavior.
Step 1/2 Configure and start Machine ID
First, determine if you would like to create a new role for Machine ID or use
an existing role. You can run tctl get roles
to examine your existing roles.
In the example below, create a file called api-workers.yaml
with the content below
to create a new role called api-workers
that will allow you to log in to Nodes
with the label group: api
and Linux user jenkins
.
kind: "role"
version: "v3"
metadata:
name: "api-workers"
spec:
allow:
logins: ["jenkins"]
node_labels:
"group": "api"
On your client machine, log in to Teleport using tsh
before using tctl
.
tctl create -f api-workers.yamltctl bots add jenkins --roles=api-workers
Connect to the Teleport Auth Server and use tctl
to examine what roles exist on
your system.
tctl create -f api-workers.yamltctl bots add jenkins --roles=api-workers
Machine ID allows you to use Linux Access Control Lists (ACLs) to control access to certificates on disk. You will use this to limit the access Jenkins has to the short-lived certificates Machine ID issues.
In the example that follows, you will create a Linux user called teleport
to
run Machine ID but short-lived certificates will be written to disk as the
Linux user jenkins
.
sudo adduser \ --disabled-password \ --no-create-home \ --shell=/bin/false \ --gecos "" \ teleport
Create and initialize the directories you will need using the tbot init
command.
sudo tbot init \ --destination-dir=/opt/machine-id \ --bot-user=teleport \ --owner=teleport:teleport \ --reader-user=jenkins
Create the bot data directory and grant permissions to access it to the Linux user (in our example, teleport
) which tbot
will run as.
Make the bot directory and assign ownership to teleport user
sudo mkdir -p /var/lib/teleport/botsudo chown teleport:teleport /var/lib/teleport/botAllow teleport user to open directory
sudo chmod +x /var/lib/teleport /var/lib/teleport/bot
Next, you need to start Machine ID in the background of each Jenkins worker.
First create a configuration file for Machine ID at /etc/tbot.yaml
.
version: v2
# Replace "example.teleport.sh:443" with the address of your Teleport Proxy or
# Teleport Cloud tenant.
proxy_server: "example.teleport.sh:443"
onboarding:
join_method: "token"
# Replace the token field with the name of the token that was output when you
# ran `tctl bots add`.
token: "00000000000000000000000000000000"
storage:
type: directory
path: /var/lib/teleport/bot
outputs:
- type: identity
destination:
type: directory
path: /opt/machine-id
Create a tbot
systemd unit file
By default, tbot
will run in daemon mode. However, this must then be
configured as a service within the service manager on the Linux host. The
service manager will start tbot
on boot and ensure it is restarted if it
fails. For this guide, systemd will be demonstrated but tbot
should be
compatible with all common alternatives.
Use tbot install systemd
to generate a systemd service file:
tbot install systemd \ --write \ --config /etc/tbot.yaml \ --user teleport \ --group teleport \ --anonymous-telemetry
Ensure that you replace:
teleport
with the name of Linux user you wish to runtbot
as./etc/tbot.yaml
with the path to the configuration file you have created.
You can omit --write
to print the systemd service file to the console instead
of writing it to disk.
--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.
Next, enable the service so that it will start on boot and then start the service:
sudo systemctl daemon-reloadsudo systemctl enable tbotsudo systemctl start tbot
Check the service has started successfully:
sudo systemctl status tbot
Step 2/2. Update and run Jenkins pipelines
Using Machine ID within a Jenkins pipeline is now a one-line change. For
example, if you want to run the hostname
command on a remote host, add the
following to your Jenkins pipeline.
steps {
sh "ssh -F /opt/machine-id/ssh_config root@node-name.example.com hostname"
}
You are all set. You have provided Jenkins with short-lived certificates tied to a machine identity that can be rotated, audited, and controlled with all the familiar Teleport access controls.