Teleport
Teleport Role Templates
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As organizations grow, infrastructure teams have to figure out how to define access control policies that don't require manual configuration every time people join, leave, and form new teams.
Here are some common examples of such policies:
- Grant every single sign-on user an SSH login generated from their email.
- Assign each team member to their team's Kubernetes group.
- Limit the dev team to a read-only replica of a database.
Let's explore how Teleport's role templates provide a way to describe these and other policies.
Prerequisites
-
A running Teleport cluster version 17.0.1 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
.
- 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 17.0.1
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.
Local users
Imagine you have two users, Alice and Bob. We would like to set the following access policies:
- Alice can log in as SSH user
admin
and Kubernetes groupedit
- Bob can log in as
ubuntu
and Kubernetes groupview
We can create two roles, one for each user in file roles.yaml
:
kind: role
version: v7
metadata:
name: alice
spec:
allow:
logins: ['admin']
kubernetes_groups: ['edit']
node_labels:
'*': '*'
kubernetes_labels:
'*': '*'
kubernetes_resources:
- kind: '*'
namespace: '*'
name: '*'
verbs: ['*']
---
kind: role
version: v7
metadata:
name: bob
spec:
allow:
logins: ['ubuntu']
kubernetes_groups: ['view']
node_labels:
'*': '*'
kubernetes_labels:
'*': '*'
kubernetes_resources:
- kind: '*'
namespace: '*'
name: '*'
verbs: ['*']
You can create roles and invite Alice and Bob as local users:
tctl create -f roles.yamltctl users add alice --roles=alicetctl users add bob --roles=bob
Having one role per user is not going to scale well. Because the roles are so similar, we can assign variables to each user, and use just one role template for both Alice and Bob.
Let's create a role template called devs.yaml
:
kind: role
version: v7
metadata:
name: devs
spec:
allow:
logins: ['{{internal.logins}}']
kubernetes_groups: ['{{internal.kubernetes_groups}}']
node_labels:
'*': '*'
kubernetes_labels:
'*': '*'
kubernetes_resources:
- kind: '*'
namespace: '*'
name: '*'
verbs: ['*']
Any role becomes a template once it starts using template variables.
Just like roles, role templates are valid YAML and validate both the structure and types.
The role template devs
is using the internal
notation to refer to the local user's
traits logins
and kubernetes_groups
. The internal
notation only supports a limited
set of predefined traits. Use the external.<trait-name>
syntax if using a custom trait
with a local user.
Use tctl
to create a role template:
tctl create -f devs.yaml
The last step is to update Alice's and Bob's users with traits. Here is an
example of user resources in a file called traits.yaml
:
kind: user
version: v2
metadata:
name: alice
spec:
roles: ['devs']
traits:
logins: ['admin']
kubernetes_groups: ['edit']
---
kind: user
version: v2
metadata:
name: bob
spec:
roles: ['devs']
traits:
logins: ['ubuntu']
kubernetes_groups: ['view']
Update both users' entries with the tctl create -f
command:
tctl create -f traits.yamluser "alice" has been updated
Once Alice logs in, she will receive SSH and X.509 certificates with a new role. SSH logins and Kubernetes groups will also be set:
tsh login --proxy=teleport.example.com --user=alice> Profile URL: https://teleport.example.com:443
Logged in as: alice
Cluster: teleport.example.com
Roles: devs*
Logins: admin
Kubernetes: enabled
Kubernetes groups: edit
Valid until: 2021-03-26 07:13:57 -0700 PDT [valid for 12h0m0s]
Extensions: permit-port-forwarding, permit-pty
tsh login --proxy=mytenant.teleport.sh --user=alice> Profile URL: https://mytenant.teleport.sh:443
Logged in as: alice
Cluster: mytenant.teleport.sh
Roles: devs*
Logins: admin
Kubernetes: enabled
Kubernetes groups: edit
Valid until: 2021-03-26 07:13:57 -0700 PDT [valid for 12h0m0s]
Extensions: permit-port-forwarding, permit-pty
SSO users
Identity provider admins can assign metadata to a user such as group membership or access permissions. Administrators configure what metadata is shared with Teleport. Teleport receives user metadata keys and values as OIDC claims or SAML attributes during the single sign-on redirect flow:
# Alice has email alice@example.com. Email is a standard OIDC claim.
email: "alice@example.com"
# Alice is a member of groups admins and devs
groups: ["admins", "devs"]
# She can access prod and staging environments
env: ["prod", "staging"]
Let's create a role template called sso-users
that expects external attribute
logins
to be set by an identity provider. Save this role as sso-users.yaml
:
kind: role
version: v7
metadata:
name: sso-users
spec:
allow:
logins: ['{{external.logins}}']
node_labels:
'*': '*'
kubernetes_labels:
'*': '*'
kubernetes_resources:
- kind: '*'
namespace: '*'
name: '*'
verbs: ['*']
A GitHub connector called github.yaml
maps every member of team cyber
in
organization octocats
to the role sso-users
:
kind: github
version: v3
metadata:
name: github
spec:
# Client ID of GitHub OAuth app
client_id: client-id
# Client secret of GitHub OAuth app
client_secret: secret-data-here
# Connector display name that will be shown on the Web UI login screen
display: GitHub
# Callback URL that will be called after successful authentication
redirect_url: https://teleport.example.com/v1/webapi/github/callback
# Mapping of org/team memberships onto allowed Teleport roles
teams_to_roles:
- organization: octocats # GitHub organization name
team: cyber # GitHub team name within that organization
# Role names to map to
roles:
- sso-users
Create this connector using tctl
:
tctl create -f github.yaml
Once Bob logs in using SSO, he will receive SSH and X.509 certificates with
a new role and SSH logins generated using the sso-users
role template:
tsh login --proxy=teleport.example.com --auth=github> Profile URL: https://teleport.example.com:443
Logged in as: bob
Cluster: teleport.example.com
Roles: sso-users*
Logins: bob
Kubernetes: enabled
Kubernetes groups: edit
Valid until: 2021-03-26 07:13:57 -0700 PDT [valid for 12h0m0s]
Extensions: permit-port-forwarding, permit-pty
tsh login --proxy=mytenant.teleport.sh --auth=github> Profile URL: https://mytenant.teleport.sh:443
Logged in as: bob
Cluster: mytenant.teleport.sh
Roles: sso-users*
Logins: bob
Kubernetes: enabled
Kubernetes groups: edit
Valid until: 2021-03-26 07:13:57 -0700 PDT [valid for 12h0m0s]
Extensions: permit-port-forwarding, permit-pty
Interpolation rules
Administrators can configure what attributes identity providers return during single-sign on and present to Teleport. Let's review a couple of scenarios and see how Teleport interpolates the variables.
Let's go back to to the list of attributes for Alice's user entry:
# Alice has an email alice@example.com. Email is a standard OIDC claim.
email: "alice@example.com"
# Alice is a member of groups admins and devs
groups: ["admins", "devs"]
# She can access prod and staging environments
env: ["prod", "staging"]
Let's see how these variables are used with role template interpolation
:
kind: role
version: v7
metadata:
name: interpolation
spec:
allow:
# Role template fields can mix hard-coded values and variables.
logins: ['{{external.logins}}', 'admin']
# Roles support interpolation in string values.
kubernetes_users: ['IAM#{{external.email}};']
# Lists get expanded into lists.
kubernetes_groups: ['{{external.groups}}']
# Functions transform variables.
database_users: ['{{email.local(external.email)}}']
db_labels:
'env': '{{regexp.replace(external.env, "^(staging)$", "$1")}}'
# Labels can mix template and hard-coded values.
node_labels:
'env': '{{external.env}}'
'region': 'us-west-2'
kubernetes_labels:
'*': '*'
kubernetes_resources:
- kind: '*'
namespace: '*'
name: '*'
verbs: ['*']
After interpolation with Alice's SSO user attributes, the role template will behave as the following role:
kind: role
version: v7
metadata:
name: interpolation
spec:
allow:
# The variable external.logins is not sent by provider and it renders empty,
# leaving only hard-coded admin value
logins: ['admin']
# The variable external.email is expanded in a string.
kubernetes_users: ['IAM#alice@example.com;']
# The variable external.groups gets replaced with a list.
kubernetes_groups: ['devs', 'admins']
# The function email.local will take a local part of the external.email attribute.
database_users: ['alice']
# The function regexp.replace will transform and filter only matching values.
db_labels:
'env': 'staging'
# Node labels have 'env' replaced from a variable and 'region' hard-coded.
node_labels:
'env': ['prod', 'staging']
'region': 'us-west-2'
kubernetes_labels:
'*': '*'
kubernetes_resources:
- kind: '*'
namespace: '*'
name: '*'
verbs: ['*']
Available interpolation functions include:
Function | Description |
---|---|
email.local(variable) | Extracts the local part of an email address. email.local(alice@example.com) evaluates to alice . |
regexp.replace(variable, expression, replacement) | Finds all matches of expression and replaces them with replacement . This supports expansion, e.g. regexp.replace(external.email, "^(.*)@example.com$", "$1") . Values which do not match the expression will be filtered out. $N is used to refer to the Nth captured group, starting at $1 . |
Templating in Access Requests
Access and Reviewer Request specifications do not use the same interpolation
system as logins, labels etc. Instead, you can use the claims_to_roles
clause
in the request
and review
rules to specify one or more patterns to match.
For example, given the following rule template:
kind: role
version: v3
metadata:
name: product-admin
spec:
allow:
request:
# `roles` is a static list of roles a user with the `product-admin` role may
# request temporary access to
roles: [access]
claims_to_roles:
- claim: 'projects'
value: '^product-(.*)$' # matches all group names with a leading 'product-'
roles: ['$1-admin'] # generates a role name from the value capture
For example, we could grant Alice the product-admin
role and add some entries to
the projects
trait:
kind: user
version: v2
metadata:
name: alice
spec:
roles: ['dev', 'product-admin']
traits:
projects: ['internal-tooling', 'product-alpha', 'product-beta']
In this case, Alice would be allowed to request access to the RBAC roles access
(from the static
role list) and alpha-admin
and beta-admin
(from the claims_to_roles
mapping).
The same syntax applies for Review Requests.