auth.md

Authentication at Run Time

This document describes how Tekton handles authentication when executing TaskRuns and PipelineRuns. Since authentication concepts and processes apply to both of those entities in the same manner, this document collectively refers to TaskRuns and PipelineRuns as Runs for the sake of brevity.

• Overview
• Understanding credential selection
• Using Secrets as a non-root user
• Limiting Secret access to specific Steps
• Configuring authentication for Git
  • Configuring basic-auth authentication for Git
  • Configuring ssh-auth authentication for Git
  • Using a custom port for SSH authentication
  • Using SSH authentication in git type Tasks
• Configuring authentication for Docker
  • Configuring basic-auth authentication for Docker
  • Configuring docker* authentication for Docker
• Technical reference
  • basic-auth for Git
  • ssh-auth for Git
  • basic-auth for Docker

Overview

Tekton supports authentication via the Kubernetes first-class Secret types listed below.

Git	Docker
kubernetes.io/basic-auth kubernetes.io/ssh-auth	kubernetes.io/basic-auth kubernetes.io/dockercfg kubernetes.io/dockerconfigjson

A Run gains access to these Secrets through its associated ServiceAccount. Tekton requires that each supported Secret includes a Tekton-specific annotation.

Tekton converts properly annotated Secrets of the supported types and stores them in a Step's container as follows:

• Git: Tekton produces a ~/.gitconfig file or a ~/.ssh directory.
• Docker: Tekton produces a ~/.docker/config.json file.

Each Secret type supports multiple credentials covering multiple domains and establishes specific rules governing credential formatting and merging. Tekton follows those rules when merging credentials of each supported type.

To consume these Secrets, Tekton performs credential initialization within every Pod it instantiates, before executing any Steps in the Run. During credential initialization, Tekton accesses each Secret associated with the Run and aggregates them into a /tekton/creds directory. Tekton then copies or symlinks files from this directory into the user's $HOME directory.

Understanding credential selection

A Run might require multiple types of authentication. For example, a Run might require access to multiple private Git and Docker repositories. You must properly annotate each Secret to specify the domains for which Tekton can use the credentials that the Secret contains. Tekton ignores all Secrets that are not properly annotated.

A credential annotation key must begin with tekton.dev/git- or tekton.dev/docker- and its value is the URL of the host for which you want Tekton to use that credential. In the following example, Tekton uses a basic-auth (username/password pair) Secret to access Git repositories at github.com and gitlab.com as well as Docker repositories at gcr.io:

apiVersion: v1
kind: Secret
metadata:
  annotations:
    tekton.dev/git-0: https://github.com
    tekton.dev/git-1: https://gitlab.com
    tekton.dev/docker-0: https://gcr.io
type: kubernetes.io/basic-auth
stringData:
  username: <cleartext username>
  password: <cleartext password>

And in this example, Tekton uses an ssh-auth Secret to access Git repositories at github.com only:

apiVersion: v1
kind: Secret
metadata:
  annotations:
    tekton.dev/git-0: github.com
type: kubernetes.io/ssh-auth
stringData:
  ssh-privatekey: <private-key>
  # This is non-standard, but its use is encouraged to make this more secure.
  # Omitting this results in the server's public key being blindly accepted.

Using Secrets as a non-root user

In certain scenarios you might need to use Secrets as a non-root user. For example:

• Your platform randomizes the user and/or groups that your containers use to execute.
• The Steps in your Task define a non-root securityContext.
• Your Task specifies a global non-root securityContext that applies to all Steps in the Task.

The following are considerations for executing Runs as a non-root user:

• ssh-auth for Git requires the user to have a valid home directory configured in /etc/passwd. Specifying a UID that has no valid home directory results in authentication failure.
• Since SSH authentication ignores the $HOME environment variable, you must either move or symlink the appropriate Secret files from the $HOME directory defined by Tekton (/tekton/home) to the the non-root user's valid home directory to use SSH authentication for either Git or Docker.

For an example of configuring SSH authentication in a non-root securityContext, see authenticating-git-commands.

Limiting Secret access to specific Steps

As described earlier in this document, Tekton stores supported Secrets in $HOME/tekton/home and makes them available to all Steps within a Task.

If you want to limit a Secret to only be accessible to specific Steps but not others, you must explicitly specify a Volume using the Secret definition and manually VolumeMount it into the desired Steps instead of using the procedures described later in this document.

Configuring authentication for Git

This section describes how to configure the following authentication schemes for use with Git:

• Configuring basic-auth authentication for Git
• Configuring ssh-auth authentication for Git
• Using a custom port for SSH authentication
• Using SSH authentication in git type Tasks

Configuring basic-auth authentication for Git

This section descibes how to configure a basic-auth type Secret for use with Git. In the example below, before executing any Steps in the Run, Tekton creates a ~/.gitconfig file containing the credentials specified in the Secret. When the Steps execute, Tekton uses those credentials to retrieve PipelineResources specified in the Run.

1. In secret.yaml, define a Secret that specifies the username and password that you want Tekton to use to access the target Git repository:

   apiVersion: v1
   kind: Secret
   metadata:
     name: basic-user-pass
     annotations:
       tekton.dev/git-0: https://github.com # Described below
   type: kubernetes.io/basic-auth
   stringData:
     username: <cleartext username>
     password: <cleartext password>

   In the above example, the value for tekton.dev/git-0 specifies the URL for which Tekton will use this Secret, as described in Understanding credential selection.

2. In serviceaccount.yaml, associate the Secret with the desired ServiceAccount:

   apiVersion: v1
   kind: ServiceAccount
   metadata:
     name: build-bot
   secrets:
     - name: basic-user-pass

3. In run.yaml, associate the ServiceAccount with your Run by doing one of the following:

   • Associate the ServiceAccount with your TaskRun:

    apiVersion: tekton.dev/v1beta1
    kind: TaskRun
    metadata:
      name: build-push-task-run-2
    spec:
      serviceAccountName: build-bot
      taskRef:
        name: build-push

   • Associate the ServiceAccount with your PipelineRun:

     apiVersion: tekton.dev/v1beta1
     kind: PipelineRun
     metadata:
       name: demo-pipeline
       namespace: default
     spec:
       serviceAccountName: build-bot
       pipelineRef:
         name: demo-pipeline

4. Execute the Run:

   kubectl apply --filename secret.yaml serviceaccount.yaml run.yaml

Configuring ssh-auth authentication for Git

This section descibes how to configure an ssh-auth type Secret for use with Git. In the example below, before executing any Steps in the Run, Tekton creates a ~/.ssh/config file containing the SSH key specified in the Secret. When the Steps execute, Tekton uses this key to retrieve PipelineResources specified in the Run.

1. In secret.yaml, define a Secret that specifies your SSH private key:

   apiVersion: v1
   kind: Secret
   metadata:
     name: ssh-key
     annotations:
       tekton.dev/git-0: github.com # Described below
   type: kubernetes.io/ssh-auth
   stringData:
     ssh-privatekey: <private-key>
     # This is non-standard, but its use is encouraged to make this more secure.
     # If it is not provided then the git server's public key will be requested
     # when the repo is first fetched.
     known_hosts: <known-hosts>

   In the above example, the value for tekton.dev/git-0 specifies the URL for which Tekton will use this Secret, as described in Understanding credential selection.

2. Generate the ssh-privatekey value. For example:

   cat ~/.ssh/id_rsa

3. Set the value of the known_hosts field to the generated ssh-privatekey value from the previous step.

4. In serviceaccount.yaml, associate the Secret with the desired ServiceAccount:

   apiVersion: v1
   kind: ServiceAccount
   metadata:
     name: build-bot
   secrets:
     - name: ssh-key

5. In run.yaml, associate the ServiceAccount with your Run by doing one of the following:

   • Associate the ServiceAccount with your TaskRun:

     apiVersion: tekton.dev/v1beta1
     kind: TaskRun
     metadata:
       name: build-push-task-run-2
     spec:
       serviceAccountName: build-bot
       taskRef:
         name: build-push

   • Associate the ServiceAccount with your PipelineRun:

   apiVersion: tekton.dev/v1beta1
   kind: PipelineRun
   metadata:
     name: demo-pipeline
     namespace: default
   spec:
     serviceAccountName: build-bot
     pipelineRef:
       name: demo-pipeline

6. Execute the Run:

   kubectl apply --filename secret.yaml serviceaccount.yaml run.yaml

Using a custom port for SSH authentication

You can specify a custom SSH port in your Secret. In the example below, any PipelineResource referencing a repository at example.com will connect to it on port 2222.

apiVersion: v1
kind: Secret
metadata:
  name: ssh-key-custom-port
  annotations:
    tekton.dev/git-0: example.com:2222
type: kubernetes.io/ssh-auth
stringData:
  ssh-privatekey: <private-key>
  known_hosts: <known-hosts>

Using SSH authentication in git type Tasks

You can use SSH authentication as described earlier in this document when invoking git commands directly in the Steps of a Task. Since ssh ignores the $HOME variable and only uses the user's home directory specified in /etc/passwd, each Step must symlink /tekton/home/.ssh to the home directory of its associated user.

Note: This explicit symlinking is not necessary when using a git type PipelineResource or the git-clone Task from Tekton Catalog.

For example usage, see authenticating-git-commands.

Configuring authentication for Docker

This section describes how to configure the following authentication schemes for use with Docker:

• Configuring basic-auth authentication for Docker
• Configuring docker* authentication for Docker

Configuring basic-auth authentication for Docker

This section describes how to configure the basic-auth (username/password pair) type Secret for use with Docker.

In the example below, before executing any Steps in the Run, Tekton creates a ~/.docker/config.json file containing the credentials specified in the Secret. When the Steps execute, Tekton uses those credentials when retrieving PipelineResources specified in the Run.

1. In secret.yaml, define a Secret that specifies the username and password that you want Tekton to use to access the target Docker registry:

   apiVersion: v1
   kind: Secret
   metadata:
     name: basic-user-pass
     annotations:
       tekton.dev/docker-0: https://gcr.io # Described below
   type: kubernetes.io/basic-auth
   stringData:
     username: <cleartext username>
     password: <cleartext password>

   In the above example, the value for tekton.dev/git-0 specifies the URL for which Tekton will use this Secret, as described in Understanding credential selection.

2. In serviceaccount.yaml, associate the Secret with the desired ServiceAccount:

   apiVersion: v1
   kind: ServiceAccount
   metadata:
     name: build-bot
   secrets:
     - name: basic-user-pass

3. In run.yaml, associate the ServiceAccount with your Run by doing one of the following:

   • Associate the ServiceAccount with your TaskRun:

     apiVersion: tekton.dev/v1beta1
     kind: TaskRun
     metadata:
       name: build-push-task-run-2
     spec:
       serviceAccountName: build-bot
       taskRef:
         name: build-push

   • Associate the ServiceAccount with your PipelineRun:

     apiVersion: tekton.dev/v1beta1
     kind: PipelineRun
     metadata:
       name: demo-pipeline
       namespace: default
     spec:
       serviceAccountName: build-bot
       pipelineRef:
         name: demo-pipeline

4. Execute the Run:

   kubectl apply --filename secret.yaml serviceaccount.yaml run.yaml

Configuring docker* authentication for Docker

This section describes how to configure authentication using the dockercfg and dockerconfigjson type Secrets for use with Docker. In the example below, before executing any Steps in the Run, Tekton creates a ~/.docker/config.json file containing the credentials specified in the Secret. When the Steps execute, Tekton uses those credentials to access the target Docker registry. f Note: If you specify both the Tekton basic-auth and the above Kubernetes Secrets, Tekton merges all credentials from all specified Secrets but Tekton's basic-auth Secret overrides either of the Kubernetes Secrets.

1. Define a Secret based on your Docker client configuration file.

   kubectl create secret generic regcred \
    --from-file=.dockerconfigjson=<path/to/.docker/config.json> \
    --type=kubernetes.io/dockerconfigjson

   For more information, see Pull an Image from a Private Registry in the Kubernetes documentation.

2. In serviceaccount.yaml, associate the Secret with the desired ServiceAccount:

   apiVersion: v1
   kind: ServiceAccount
   metadata:
     name: build-bot
   secrets:
     - name: regcred

3. In run.yaml, associate the ServiceAccount with your Run by doing one of the following:

   • Associate the ServiceAccount with your TaskRun:

     apiVersion: tekton.dev/v1beta1
     kind: TaskRun
     metadata:
       name: build-with-basic-auth
     spec:
       serviceAccountName: build-bot
       steps:
       ...

   • Associate the ServiceAccount with your PipelineRun:

     apiVersion: tekton.dev/v1beta1
     kind: PipelineRun
     metadata:
       name: demo-pipeline
       namespace: default
     spec:
       serviceAccountName: build-bot
       pipelineRef:
         name: demo-pipeline

4. Execute the build:

   kubectl apply --filename secret.yaml --filename serviceaccount.yaml --filename taskrun.yaml

Technical reference

This section provides a technical reference for the implementation of the authentication mechanisms described earlier in this document.

basic-auth for Git

Given URLs, usernames, and passwords of the form: https://url{n}.com, user{n}, and pass{n}, Tekton generates the following:

=== ~/.gitconfig ===
[credential]
    helper = store
[credential "https://url1.com"]
    username = "user1"
[credential "https://url2.com"]
    username = "user2"
...
=== ~/.git-credentials ===
https://user1:[email protected]
https://user2:[email protected]
...

ssh-auth for Git

Given hostnames, private keys, and known_hosts of the form: url{n}.com, key{n}, and known_hosts{n}, Tekton generates the following.

If no value is specified for known_hosts, Tekton configures SSH to accept any public key returned by the server on first query. Tekton does this by setting Git's core.sshCommand variable to ssh -o StrictHostKeyChecking=accept-new.

=== ~/.ssh/id_key1 ===
{contents of key1}
=== ~/.ssh/id_key2 ===
{contents of key2}
...
=== ~/.ssh/config ===
Host url1.com
    HostName url1.com
    IdentityFile ~/.ssh/id_key1
Host url2.com
    HostName url2.com
    IdentityFile ~/.ssh/id_key2
...
=== ~/.ssh/known_hosts ===
{contents of known_hosts1}
{contents of known_hosts2}
...

basic-auth for Docker

Given URLs, usernames, and passwords of the form: https://url{n}.com, user{n}, and pass{n}, Tekton generates the following. Since Docker doesn't support the kubernetes.io/ssh-auth type Secret, Tekton ignores annotations on Secrets of that type.

=== ~/.docker/config.json ===
{
  "auths": {
    "https://url1.com": {
      "auth": "$(echo -n user1:pass1 | base64)",
      "email": "[email protected]",
    },
    "https://url2.com": {
      "auth": "$(echo -n user2:pass2 | base64)",
      "email": "[email protected]",
    },
    ...
  }
}

---

Except as otherwise noted, the content of this page is licensed under the Creative Commons Attribution 4.0 License, and code samples are licensed under the Apache 2.0 License.