Advanced Templating v1
Warning
Templating Engine v1 is deprecated and will be removed in the future. Please migrate to engine v2 and take a look at our upgrade guide for changes.
With External Secrets Operator you can transform the data from the external secret provider before it is stored as Kind=Secret
. You can do this with the Spec.Target.Template
. Each data value is interpreted as a golang template.
Examples
You can use templates to inject your secrets into a configuration file that you mount into your pod:
apiVersion: external-secrets.io/v1beta1
kind: ExternalSecret
metadata:
name: template
spec:
refreshInterval: 1h
secretStoreRef:
name: secretstore-sample
kind: SecretStore
target:
name: secret-to-be-created
# v1 is the default version
engineVersion: v1
# this is how the Kind=Secret will look like
template:
type: kubernetes.io/tls
data:
# multiline string
config: |
datasources:
- name: Graphite
type: graphite
access: proxy
url: http://localhost:8080
password: "{{ .password | toString }}" # <-- convert []byte to string
user: "{{ .user | toString }}" # <-- convert []byte to string
data:
- secretKey: user
remoteRef:
key: /grafana/user
- secretKey: password
remoteRef:
key: /grafana/password
You can also use pre-defined functions to extract data from your secrets. Here: extract key/cert from a pkcs12 archive and store it as PEM.
apiVersion: external-secrets.io/v1beta1
kind: ExternalSecret
metadata:
name: template
spec:
refreshInterval: 1h
secretStoreRef:
name: secretstore-sample
kind: SecretStore
target:
name: secret-to-be-created
# this is how the Kind=Secret will look like
template:
type: kubernetes.io/tls
data:
tls.crt: "{{ .mysecret | pkcs12cert | pemCertificate }}"
tls.key: "{{ .mysecret | pkcs12key | pemPrivateKey }}"
data:
# this is a pkcs12 archive that contains
# a cert and a private key
- secretKey: mysecret
remoteRef:
key: example
TemplateFrom
You do not have to define your templates inline in an ExternalSecret but you can pull ConfigMaps
or other Secrets that contain a template. Consider the following example:
# define your template in a config map
apiVersion: v1
kind: ConfigMap
metadata:
name: grafana-config-tpl
data:
config.yaml: |
datasources:
- name: Graphite
type: graphite
access: proxy
url: http://localhost:8080
password: "{{ .password | toString }}" # <-- convert []byte to string
user: "{{ .user | toString }}" # <-- convert []byte to string
---
apiVersion: external-secrets.io/v1beta1
kind: ExternalSecret
metadata:
name: my-template-example
spec:
# ...
target:
name: secret-to-be-created
template:
templateFrom:
- configMap:
# name of the configmap to pull in
name: grafana-config-tpl
# here you define the keys that should be used as template
items:
- key: config.yaml
data:
- secretKey: user
remoteRef:
key: /grafana/user
- secretKey: password
remoteRef:
key: /grafana/password
Helper functions
We provide a bunch of convenience functions that help you transform your secrets. A secret value is a []byte
.
Function | Description | Input | Output |
---|---|---|---|
pkcs12key | extracts the private key from a pkcs12 archive | []byte |
[]byte |
pkcs12keyPass | extracts the private key from a pkcs12 archive using the provided password | password string , data []byte |
[]byte |
pkcs12cert | extracts the certificate from a pkcs12 archive | []byte |
[]byte |
pkcs12certPass | extracts the certificate from a pkcs12 archive using the provided password | password string , data []byte |
[]byte |
pemPrivateKey | PEM encodes the provided bytes as private key | []byte |
string |
pemCertificate | PEM encodes the provided bytes as certificate | []byte |
string |
jwkPublicKeyPem | takes an json-serialized JWK as []byte and returns an PEM block of type PUBLIC KEY that contains the public key (see here) for details |
[]byte |
string |
jwkPrivateKeyPem | takes an json-serialized JWK as []byte and returns an PEM block of type PRIVATE KEY that contains the private key in PKCS #8 format (see here) for details |
[]byte |
string |
base64decode | decodes the provided bytes as base64 | []byte |
[]byte |
base64encode | encodes the provided bytes as base64 | []byte |
[]byte |
fromJSON | parses the bytes as JSON so you can access individual properties | []byte |
interface{} |
toJSON | encodes the provided object as json string | interface{} |
string |
toString | converts bytes to string | []byte |
string |
toBytes | converts string to bytes | string |
[]byte |
upper | converts all characters to their upper case | string |
string |
lower | converts all character to their lower case | string |
string |