Passwordless
Passwordless takes advantage of WebAuthn to provide passwordless and usernameless authentication for Teleport.
Prerequisites
-
A running Teleport cluster version 14.3.33 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
.
- Teleport must be configured for WebAuthn. See the Second Factor: WebAuthn guide.
- A hardware device with support for WebAuthn and resident keys. As an alternative, you can use a Mac with biometrics / Touch ID or device that supports Windows Hello (Windows 10 19H1 or later).
- A web browser with WebAuthn support. To see if your browser supports WebAuthn, check the WebAuthn Compatibility page.
- A signed and notarized version of
tsh
is required for Touch ID. This means versions installed from Homebrew or compiled from source will not work. Download the macOS tsh installer. - 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 --user=email@example.com
$ tctl status
# Cluster teleport.example.com
# Version 14.3.33
# 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 Teleport cluster capable of WebAuthn is automatically capable of passwordless.
Step 1/2. Register
Register your passwordless device using tsh
:
$ tsh mfa add
# Choose device type [TOTP, WEBAUTHN, TOUCHID]: WEBAUTHN
# Enter device name: bio
# Allow passwordless logins [YES, NO]: YES
# Tap any *registered* security key
# Tap your *new* security key
# MFA device "bio" added.
You may pick either WEBAUTHN
or TOUCHID
as the device type. Make sure to
answer YES
to "Allow passwordless logins".
If you are using a hardware device, a passwordless registration will occupy a resident key slot. Resident keys, also called discoverable credentials, are stored in persistent memory in the authenticator (i.e., the device that is used to authenticate). In contrast, MFA keys are encrypted by the authenticator and stored in the Teleport Auth Server. Regardless of your device type, passwordless registrations may also be used for regular MFA.
If you plan on relying exclusively on passwordless, it's recommended to register
more than one device. A portable hardware device is ideal, as it can be shared
between tsh
, the Teleport Web UI, and different computers.
Registering Touch ID for tsh
Touch ID registrations are isolated by application. A Touch ID registration
for tsh
is different from a registration made from Chrome or Safari. You may
register the same Touch ID device from multiple applications to get
passwordless access in all of them.
Step 2/2. Authenticate
Authenticate using your passwordless credential:
- Teleport Community Edition
- Commercial
$ tsh login --proxy=example.com --auth=passwordless
# Tap your security key
# > Profile URL: https://example.com
# Logged in as: codingllama
# Cluster: example.com
# Roles: access, editor
# Logins: codingllama
# Kubernetes: enabled
# Valid until: 2021-10-04 23:32:29 -0700 PDT [valid for 12h0m0s]
# Extensions: permit-agent-forwarding, permit-port-forwarding, permit-pty
$ tsh login --proxy=example.com --auth=passwordless
# Tap your security key
# > Profile URL: https://example.com
# Logged in as: codingllama
# Cluster: example.com
# Roles: access, editor, reviewer
# Logins: codingllama
# Kubernetes: enabled
# Valid until: 2021-10-04 23:32:29 -0700 PDT [valid for 12h0m0s]
# Extensions: permit-agent-forwarding, permit-port-forwarding, permit-pty
A fully passwordless cluster defaults to passwordless logins, making
--auth=passwordless
unnecessary. See the next section to learn how to enable
passwordless by default.
You can also execute passwordless logins in the Teleport Web UI. To do so, look for the passwordless link in the Web UI.
Optional: Enable passwordless by default
Passwordless enthusiasts may enable passwordless by default in their clusters.
Note that this configuration changes Teleport's behavior even for users without
a passwordless device registered, so existing users may need to authenticate
using tsh login --proxy=example.com --auth=local
in order to get their first
passwordless registration.
To enable passwordless by default, add connector_name: passwordless
to your
cluster configuration:
- Self-Hosted
- Teleport Enterprise Cloud
- Static Config
- Dynamic resources
Auth Server teleport.yaml
file:
auth_service:
authentication:
type: local
second_factor: on
webauthn:
rp_id: example.com
connector_name: passwordless # passwordless by default
Create a cap.yaml
file or get the existing configuration using
tctl get cluster_auth_preference
:
kind: cluster_auth_preference
version: v2
metadata:
name: cluster-auth-preference
spec:
type: local
second_factor: "on"
webauthn:
rp_id: example.com
connector_name: passwordless # passwordless by default
Update the configuration:
$ tctl create -f cap.yaml
# cluster auth preference has been updated
Create a cap.yaml
file or get the existing configuration using
tctl get cluster_auth_preference
:
kind: cluster_auth_preference
version: v2
metadata:
name: cluster-auth-preference
spec:
type: local
second_factor: "on"
webauthn:
rp_id: example.com
connector_name: passwordless # passwordless by default
Update the configuration:
$ tctl create -f cap.yaml
# cluster auth preference has been updated
Troubleshooting
"Allow passwordless logins" doesn't appear
If you don't see the "Allow passwordless logins" prompt during tsh mfa add
,
you may be using an older version of tsh
. Download the latest tsh
from our
installation page.
Hardware device not usable
tsh
only prompts for hardware devices with certain capabilities for
passwordless registrations. If your device isn't blinking it may not be capable
of passwordless logins.
Below is a non-comprehensive list of requirements:
- Device must support WebAuthn (sometimes also called FIDO2 or CTAP2).
- Device must be capable of user verification (biometrics or PIN).
- Device must have a PIN set.
- Device must have fingerprints enrolled (if biometric). This typically means both a PIN and fingerprints.
tsh
relies in an embedded libfido2 to access hardware devices. If you are
running on Linux, you may be missing the necessary udev rules to access your
device. Try following the installation instructions for libfido2, which may provide you the
necessary udev rules.
Touch ID not usable
If you are having trouble with Touch ID, make sure that you are using the latest
standalone version of tsh
. Download the macOS tsh installer.
Touch ID support requires Macs with a Touch ID sensor and Secure Enclave. It also requires macOS >= 10.13 (macOS High Sierra).
You can run the tsh touchid diag
command to verify requirements. A capable
device and tsh
binary should show an output similar to the one below:
$ tsh touchid diag
# Has compile support? true
# Has signature? true
# Has entitlements? true
# Passed LAPolicy test? true
# Passed Secure Enclave test? true
# Touch ID enabled? true
Windows Webauthn not usable
Windows Webauthn support for tsh
requires Windows 10 19H1 or later.
You can run the tsh webauthnwin diag
command to verify requirements. A capable
device and tsh
binary should show the following output:
$ tsh webauthnwin diag
# WebauthWin available: true
# Compile support: true
# DLL API version: 4
# Has platform UV: true
# Register successful: true
# Login successful: true
Disable passwordless
If you want to forbid passwordless access to your cluster, add passwordless: false
to your configuration:
- Self-Hosted
- Teleport Enterprise Cloud
- Static Config
- Dynamic resources
Auth Server teleport.yaml
file:
# snippet from /etc/teleport.yaml:
auth_service:
authentication:
type: local
second_factor: on
webauthn:
rp_id: example.com
passwordless: false # disable passwordless
Create a cap.yaml
file or get the existing configuration using
tctl get cluster_auth_preference
:
kind: cluster_auth_preference
version: v2
metadata:
name: cluster-auth-preference
spec:
type: local
second_factor: "on"
webauthn:
rp_id: example.com
passwordless: false # disable passwordless
Update the configuration:
$ tctl create -f cap.yaml
# cluster auth preference has been updated
Create a cap.yaml
file or get the existing configuration using
tctl get cluster_auth_preference
:
kind: cluster_auth_preference
version: v2
metadata:
name: cluster-auth-preference
spec:
type: local
second_factor: "on"
webauthn:
rp_id: example.com
passwordless: false # disable passwordless
Update the configuration:
$ tctl create -f cap.yaml
# cluster auth preference has been updated