452 lines
17 KiB
Plaintext
452 lines
17 KiB
Plaintext
---
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layout: docs
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page_title: Kubernetes - Auth Methods
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description: |-
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The Kubernetes auth method allows automated authentication of Kubernetes
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Service Accounts.
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---
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# Kubernetes Auth Method
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@include 'x509-sha1-deprecation.mdx'
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The `kubernetes` auth method can be used to authenticate with Vault using a
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Kubernetes Service Account Token. This method of authentication makes it easy to
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introduce a Vault token into a Kubernetes Pod.
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You can also use a Kubernetes Service Account Token to [log in via JWT auth][k8s-jwt-auth].
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See the section on [How to work with short-lived Kubernetes tokens][short-lived-tokens]
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for a summary of why you might want to use JWT auth instead and how it compares to
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Kubernetes auth.
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-> **Note:** If you are upgrading to Kubernetes v1.21+, ensure the config option
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`disable_iss_validation` is set to true. Assuming the default mount path, you
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can check with `vault read -field disable_iss_validation auth/kubernetes/config`.
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See [Kubernetes 1.21](#kubernetes-1-21) below for more details.
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## Authentication
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### Via the CLI
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The default path is `/kubernetes`. If this auth method was enabled at a
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different path, specify `-path=/my-path` in the CLI.
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```shell-session
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$ vault write auth/kubernetes/login role=demo jwt=...
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```
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### Via the API
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The default endpoint is `auth/kubernetes/login`. If this auth method was enabled
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at a different path, use that value instead of `kubernetes`.
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```shell-session
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$ curl \
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--request POST \
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--data '{"jwt": "<your service account jwt>", "role": "demo"}' \
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http://127.0.0.1:8200/v1/auth/kubernetes/login
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```
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The response will contain a token at `auth.client_token`:
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```json
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{
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"auth": {
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"client_token": "38fe9691-e623-7238-f618-c94d4e7bc674",
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"accessor": "78e87a38-84ed-2692-538f-ca8b9f400ab3",
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"policies": ["default"],
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"metadata": {
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"role": "demo",
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"service_account_name": "vault-auth",
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"service_account_namespace": "default",
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"service_account_secret_name": "vault-auth-token-pd21c",
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"service_account_uid": "aa9aa8ff-98d0-11e7-9bb7-0800276d99bf"
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},
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"lease_duration": 2764800,
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"renewable": true
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}
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}
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```
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## Configuration
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Auth methods must be configured in advance before users or machines can
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authenticate. These steps are usually completed by an operator or configuration
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management tool.
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1. Enable the Kubernetes auth method:
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```bash
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vault auth enable kubernetes
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```
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1. Use the `/config` endpoint to configure Vault to talk to Kubernetes. Use
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`kubectl cluster-info` to validate the Kubernetes host address and TCP port.
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For the list of available configuration options, please see the
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[API documentation](/api-docs/auth/kubernetes).
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```bash
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vault write auth/kubernetes/config \
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token_reviewer_jwt="<your reviewer service account JWT>" \
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kubernetes_host=https://192.168.99.100:<your TCP port or blank for 443> \
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kubernetes_ca_cert=@ca.crt
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```
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!> **Note:** The pattern Vault uses to authenticate Pods depends on sharing
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the JWT token over the network. Given the [security model of
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Vault](/docs/internals/security), this is allowable because Vault is
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part of the trusted compute base. In general, Kubernetes applications should
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**not** share this JWT with other applications, as it allows API calls to be
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made on behalf of the Pod and can result in unintended access being granted
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to 3rd parties.
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1. Create a named role:
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```text
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vault write auth/kubernetes/role/demo \
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bound_service_account_names=vault-auth \
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bound_service_account_namespaces=default \
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policies=default \
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ttl=1h
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```
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This role authorizes the "vault-auth" service account in the default
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namespace and it gives it the default policy.
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For the complete list of configuration options, please see the [API
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documentation](/api-docs/auth/kubernetes).
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## Kubernetes 1.21
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Starting in version [1.21][k8s-1.21-changelog], the Kubernetes
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`BoundServiceAccountTokenVolume` feature defaults to enabled. This changes the
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JWT token mounted into containers by default in two ways that are important for
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Kubernetes auth:
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* It has an expiry time and is bound to the lifetime of the pod and service account.
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* The value of the JWT's `"iss"` claim depends on the cluster's configuration.
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The changes to token lifetime are important when configuring the
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[`token_reviewer_jwt`](/api-docs/auth/kubernetes#token_reviewer_jwt) option.
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If a short-lived token is used,
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Kubernetes will revoke it as soon as the pod or service account are deleted, or
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if the expiry time passes, and Vault will no longer be able to use the
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`TokenReview` API. See [How to work with short-lived Kubernetes tokens][short-lived-tokens]
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below for details on handling this change.
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In response to the issuer changes, Kubernetes auth has been updated in Vault
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1.9.0 to not validate the issuer by default. The Kubernetes API does the same
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validation when reviewing tokens, so enabling issuer validation on the Vault
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side is duplicated work. Without disabling Vault's issuer validation, it is not
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possible for a single Kubernetes auth configuration to work for default mounted
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pod tokens with both Kubernetes 1.20 and 1.21. Note that auth mounts created
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before Vault 1.9 will maintain the old default, and you will need to explicitly
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set `disable_iss_validation=true` before upgrading Kubernetes to 1.21. See
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[Discovering the service account `issuer`](#discovering-the-service-account-issuer)
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below for guidance if you wish to enable issuer validation in Vault.
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[k8s-1.21-changelog]: https://github.com/kubernetes/kubernetes/blob/master/CHANGELOG/CHANGELOG-1.21.md#api-change-2
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[short-lived-tokens]: #how-to-work-with-short-lived-kubernetes-tokens
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### How to work with short-lived Kubernetes tokens
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There are a few different ways to configure auth for Kubernetes pods when
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default mounted pod tokens are short-lived, each with their own tradeoffs. This
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table summarizes the options, each of which is explained in more detail below.
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| Option | All tokens are short-lived | Can revoke tokens early | Other considerations |
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| ------------------------------------ | -------------------------- | ----------------------- | -------------------- |
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| Use local token as reviewer JWT | Yes | Yes | Requires Vault (1.9.3+) to be deployed on the Kubernetes cluster |
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| Use client JWT as reviewer JWT | Yes | Yes | Operational overhead |
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| Use long-lived token as reviewer JWT | No | Yes | |
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| Use JWT auth instead | Yes | No | |
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-> **Note:** By default, Kubernetes currently extends the lifetime of admission
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injected service account tokens to a year to help smooth the transition to
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short-lived tokens. If you would like to disable this, set
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[--service-account-extend-token-expiration=false][k8s-extended-tokens] for
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`kube-apiserver` or specify your own `serviceAccountToken` volume mount. See
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[here](/docs/auth/jwt/oidc_providers#specifying-ttl-and-audience) for an example.
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[k8s-extended-tokens]: https://kubernetes.io/docs/reference/command-line-tools-reference/kube-apiserver/#options
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#### Use local service account token as the reviewer JWT
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When running Vault in a Kubernetes pod the recommended option is to use the pod's local
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service account token. Vault will periodically re-read the file to support
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short-lived tokens. To use the local token and CA certificate, omit
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`token_reviewer_jwt` and `kubernetes_ca_cert` when configuring the auth method.
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Vault will attempt to load them from `token` and `ca.crt` respectively inside
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the default mount folder `/var/run/secrets/kubernetes.io/serviceaccount/`.
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```bash
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vault write auth/kubernetes/config \
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kubernetes_host=https://$KUBERNETES_SERVICE_HOST:$KUBERNETES_SERVICE_PORT
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```
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!> **Note:** Requires Vault 1.9.3+. In earlier versions the service account
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token and CA certificate is read once and stored in Vault storage.
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When the service account token expires or is revoked, Vault will no longer be
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able to use the `TokenReview` API and client authentication will fail.
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#### Use the Vault client's JWT as the reviewer JWT
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When configuring Kubernetes auth, you can omit the `token_reviewer_jwt`, and Vault
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will use the Vault client's JWT as its own auth token when communicating with
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the Kubernetes `TokenReview` API. If Vault is running in Kubernetes, you also need
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to set `disable_local_ca_jwt=true`.
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This means Vault does not store any JWTs and allows you to use short-lived tokens
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everywhere but adds some operational overhead to maintain the cluster role
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bindings on the set of service accounts you want to be able to authenticate with
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Vault. Each client of Vault would need the `system:auth-delegator` ClusterRole:
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```bash
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kubectl create clusterrolebinding vault-client-auth-delegator \
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--clusterrole=system:auth-delegator \
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--group=group1 \
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--serviceaccount=default:svcaccount1 \
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...
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```
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#### Continue using long-lived tokens
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You can create a long-lived secret using the instructions [here][k8s-create-secret]
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and use that as the `token_reviewer_jwt`. In this example, the `vault` service
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account would need the `system:auth-delegator` ClusterRole:
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```bash
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kubectl apply -f - <<EOF
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apiVersion: v1
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kind: Secret
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metadata:
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name: vault-k8s-auth-secret
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annotations:
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kubernetes.io/service-account.name: vault
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type: kubernetes.io/service-account-token
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EOF
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```
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Using this maintains previous workflows but does not benefit from the improved
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security posture of short-lived tokens.
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[k8s-create-secret]: https://kubernetes.io/docs/tasks/configure-pod-container/configure-service-account/#manually-create-a-service-account-api-token
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#### Use JWT auth
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Kubernetes auth is specialized to use Kubernetes' `TokenReview` API. However, the
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JWT tokens Kubernetes generates can also be verified using Kubernetes as an OIDC
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provider. The JWT auth method documentation has [instructions][k8s-jwt-auth] for
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setting up JWT auth with Kubernetes as the OIDC provider.
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[k8s-jwt-auth]: /docs/auth/jwt/oidc_providers#kubernetes
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This solution allows you to use short-lived tokens for all clients and removes
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the need for a reviewer JWT. However, the client tokens cannot be revoked before
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their TTL expires, so it is recommended to keep the TTL short with that
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limitation in mind.
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### Discovering the service account `issuer`
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-> **Note:** From Vault 1.9.0, `disable_iss_validation` and `issuer` are deprecated
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and the default for `disable_iss_validation` has changed to `true` for new
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Kubernetes auth mounts. The following section only applies if you have set
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`disable_iss_validation=false` or created your mount before 1.9 with the default
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value, but `disable_iss_validation=true` is the new recommended value for all
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versions of Vault.
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Kubernetes 1.21+ clusters may require setting the service account
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[`issuer`](/api-docs/auth/kubernetes#issuer) to the same value as
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`kube-apiserver`'s `--service-account-issuer` flag. This is because the service
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account JWTs for these clusters may have an issuer specific to the cluster
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itself, instead of the old default of `kubernetes/serviceaccount`. If you are
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unable to check this value directly, you can run the following and look for the
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`"iss"` field to find the required value:
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```bash
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echo '{"apiVersion": "authentication.k8s.io/v1", "kind": "TokenRequest"}' \
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| kubectl create -f- --raw /api/v1/namespaces/default/serviceaccounts/default/token \
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| jq -r '.status.token' \
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| cut -d . -f2 \
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| base64 -D
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```
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Most clusters will also have that information available at the
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`.well-known/openid-configuration` endpoint:
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```bash
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kubectl get --raw /.well-known/openid-configuration | jq -r .issuer
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```
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This value is then used when configuring Kubernetes auth, e.g.:
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```bash
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vault write auth/kubernetes/config \
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kubernetes_host="https://$KUBERNETES_SERVICE_HOST:$KUBERNETES_SERVICE_PORT" \
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issuer="\"test-aks-cluster-dns-d6cbb78e.hcp.uksouth.azmk8s.io\""
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```
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## Configuring Kubernetes
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This auth method accesses the [Kubernetes TokenReview API][k8s-tokenreview] to
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validate the provided JWT is still valid. Kubernetes should be running with
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`--service-account-lookup`. This is defaulted to true from Kubernetes 1.7.
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Otherwise deleted tokens in Kubernetes will not be properly revoked and
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will be able to authenticate to this auth method.
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Service Accounts used in this auth method will need to have access to the
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TokenReview API. If Kubernetes is configured to use RBAC roles, the Service
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Account should be granted permissions to access this API. The following
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example ClusterRoleBinding could be used to grant these permissions:
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```yaml
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apiVersion: rbac.authorization.k8s.io/v1beta1
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kind: ClusterRoleBinding
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metadata:
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name: role-tokenreview-binding
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namespace: default
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roleRef:
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apiGroup: rbac.authorization.k8s.io
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kind: ClusterRole
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name: system:auth-delegator
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subjects:
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- kind: ServiceAccount
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name: vault-auth
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namespace: default
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```
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## API
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The Kubernetes Auth Plugin has a full HTTP API. Please see the
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[API docs](/api-docs/auth/kubernetes) for more details.
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[k8s-tokenreview]: https://kubernetes.io/docs/reference/generated/kubernetes-api/v1.22/#tokenreview-v1-authentication-k8s-io
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## Code Example
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The following example demonstrates the Kubernetes auth method to authenticate
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with Vault.
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<CodeTabs>
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<CodeBlockConfig>
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```go
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package main
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import (
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"fmt"
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"os"
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vault "github.com/hashicorp/vault/api"
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auth "github.com/hashicorp/vault/api-docs/auth/kubernetes"
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)
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// Fetches a key-value secret (kv-v2) after authenticating to Vault with a Kubernetes service account.
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// For a more in-depth setup explanation, please see the relevant readme in the hashicorp/vault-examples repo.
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func getSecretWithKubernetesAuth() (string, error) {
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// If set, the VAULT_ADDR environment variable will be the address that
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// your pod uses to communicate with Vault.
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config := vault.DefaultConfig() // modify for more granular configuration
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client, err := vault.NewClient(config)
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if err != nil {
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return "", fmt.Errorf("unable to initialize Vault client: %w", err)
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}
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// The service-account token will be read from the path where the token's
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// Kubernetes Secret is mounted. By default, Kubernetes will mount it to
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// /var/run/secrets/kubernetes.io/serviceaccount/token, but an administrator
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// may have configured it to be mounted elsewhere.
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// In that case, we'll use the option WithServiceAccountTokenPath to look
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// for the token there.
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k8sAuth, err := auth.NewKubernetesAuth(
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"dev-role-k8s",
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auth.WithServiceAccountTokenPath("path/to/service-account-token"),
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)
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if err != nil {
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return "", fmt.Errorf("unable to initialize Kubernetes auth method: %w", err)
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}
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authInfo, err := client.Auth().Login(context.TODO(), k8sAuth)
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if err != nil {
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return "", fmt.Errorf("unable to log in with Kubernetes auth: %w", err)
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}
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if authInfo == nil {
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return "", fmt.Errorf("no auth info was returned after login")
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}
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// get secret from Vault, from the default mount path for KV v2 in dev mode, "secret"
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secret, err := client.KVv2("secret").Get(context.Background(), "creds")
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if err != nil {
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return "", fmt.Errorf("unable to read secret: %w", err)
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}
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// data map can contain more than one key-value pair,
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// in this case we're just grabbing one of them
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value, ok := secret.Data["password"].(string)
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if !ok {
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return "", fmt.Errorf("value type assertion failed: %T %#v", secret.Data["password"], secret.Data["password"])
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}
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return value, nil
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}
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```
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</CodeBlockConfig>
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<CodeBlockConfig>
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```cs
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using System;
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using System.IO;
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using VaultSharp;
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using VaultSharp.V1.AuthMethods;
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using VaultSharp.V1.AuthMethods.Kubernetes;
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using VaultSharp.V1.Commons;
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namespace Examples
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{
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public class KubernetesAuthExample
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{
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const string DefaultTokenPath = "path/to/service-account-token";
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// Fetches a key-value secret (kv-v2) after authenticating to Vault with a Kubernetes service account.
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// For a more in-depth setup explanation, please see the relevant readme in the hashicorp/vault-examples repo.
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public string GetSecretWithK8s()
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{
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var vaultAddr = Environment.GetEnvironmentVariable("VAULT_ADDR");
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if(String.IsNullOrEmpty(vaultAddr))
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{
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throw new System.ArgumentNullException("Vault Address");
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}
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var roleName = Environment.GetEnvironmentVariable("VAULT_ROLE");
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if(String.IsNullOrEmpty(roleName))
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{
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throw new System.ArgumentNullException("Vault Role Name");
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}
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// Get the path to service account token or fall back on default path
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string pathToToken = String.IsNullOrEmpty(Environment.GetEnvironmentVariable("SA_TOKEN_PATH")) ? DefaultTokenPath : Environment.GetEnvironmentVariable("SA_TOKEN_PATH");
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string jwt = File.ReadAllText(pathToToken);
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IAuthMethodInfo authMethod = new KubernetesAuthMethodInfo(roleName, jwt);
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var vaultClientSettings = new VaultClientSettings(vaultAddr, authMethod);
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IVaultClient vaultClient = new VaultClient(vaultClientSettings);
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// We can retrieve the secret after creating our VaultClient object
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Secret<SecretData> kv2Secret = null;
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kv2Secret = vaultClient.V1.Secrets.KeyValue.V2.ReadSecretAsync(path: "/creds").Result;
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var password = kv2Secret.Data.Data["password"];
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return password.ToString();
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}
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}
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}
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```
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</CodeBlockConfig>
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</CodeTabs>
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