Template Functions and Pipelines

So far, we’ve seen how to place information into a template. But that information is placed into the template unmodified. Sometimes we want to transform the supplied data in a way that makes it more useable to us.

Let’s start with a best practice: When injecting strings from the .Values object into the template, we ought to quote these strings. We can do that by calling the quote function in the template directive:

  1. apiVersion: v1
  2. kind: ConfigMap
  3. metadata:
  4. name: {{ .Release.Name }}-configmap
  5. data:
  6. myvalue: "Hello World"
  7. drink: {{ quote .Values.favorite.drink }}
  8. food: {{ quote .Values.favorite.food }}

Template functions follow the syntax functionName arg1 arg2.... In the snippet above, quote .Values.favorite.drink calls the quote function and passes it a single argument.

Helm has over 60 available functions. Some of them are defined by the Go template language itself. Most of the others are part of the Sprig template library. We’ll see many of them as we progress through the examples.

While we talk about the “Helm template language” as if it is Helm-specific, it is actually a combination of the Go template language, some extra functions, and a variety of wrappers to expose certain objects to the templates. Many resources on Go templates may be helpful as you learn about templating.

Pipelines

One of the powerful features of the template language is its concept of pipelines. Drawing on a concept from UNIX, pipelines are a tool for chaining together a series of template commands to compactly express a series of transformations. In other words, pipelines are an efficient way of getting several things done in sequence. Let’s rewrite the above example using a pipeline.

  1. apiVersion: v1
  2. kind: ConfigMap
  3. metadata:
  4. name: {{ .Release.Name }}-configmap
  5. data:
  6. myvalue: "Hello World"
  7. drink: {{ .Values.favorite.drink | quote }}
  8. food: {{ .Values.favorite.food | quote }}

In this example, instead of calling quote ARGUMENT, we inverted the order. We “sent” the argument to the function using a pipeline (|): .Values.favorite.drink | quote. Using pipelines, we can chain several functions together:

  1. apiVersion: v1
  2. kind: ConfigMap
  3. metadata:
  4. name: {{ .Release.Name }}-configmap
  5. data:
  6. myvalue: "Hello World"
  7. drink: {{ .Values.favorite.drink | quote }}
  8. food: {{ .Values.favorite.food | upper | quote }}

Inverting the order is a common practice in templates. You will see .val | quote more often than quote .val. Either practice is fine.

When evaluated, that template will produce this:

  1. # Source: mychart/templates/configmap.yaml
  2. apiVersion: v1
  3. kind: ConfigMap
  4. metadata:
  5. name: trendsetting-p-configmap
  6. data:
  7. myvalue: "Hello World"
  8. drink: "coffee"
  9. food: "PIZZA"

Note that our original pizza has now been transformed to "PIZZA".

When pipelining arguments like this, the result of the first evaluation (.Values.favorite.drink) is sent as the last argument to the function. We can modify the drink example above to illustrate with a function that takes two arguments: repeat COUNT STRING:

  1. apiVersion: v1
  2. kind: ConfigMap
  3. metadata:
  4. name: {{ .Release.Name }}-configmap
  5. data:
  6. myvalue: "Hello World"
  7. drink: {{ .Values.favorite.drink | repeat 5 | quote }}
  8. food: {{ .Values.favorite.food | upper | quote }}

The repeat function will echo the given string the given number of times, so we will get this for output:

  1. # Source: mychart/templates/configmap.yaml
  2. apiVersion: v1
  3. kind: ConfigMap
  4. metadata:
  5. name: melting-porcup-configmap
  6. data:
  7. myvalue: "Hello World"
  8. drink: "coffeecoffeecoffeecoffeecoffee"
  9. food: "PIZZA"

Using the default function

One function frequently used in templates is the default function: default DEFAULT_VALUE GIVEN_VALUE. This function allows you to specify a default value inside of the template, in case the value is omitted. Let’s use it to modify the drink example above:

  1. drink: {{ .Values.favorite.drink | default "tea" | quote }}

If we run this as normal, we’ll get our coffee:

  1. # Source: mychart/templates/configmap.yaml
  2. apiVersion: v1
  3. kind: ConfigMap
  4. metadata:
  5. name: virtuous-mink-configmap
  6. data:
  7. myvalue: "Hello World"
  8. drink: "coffee"
  9. food: "PIZZA"

Now, we will remove the favorite drink setting from values.yaml:

  1. favorite:
  2. #drink: coffee
  3. food: pizza

Now re-running helm install --dry-run --debug fair-worm ./mychart will produce this YAML:

  1. # Source: mychart/templates/configmap.yaml
  2. apiVersion: v1
  3. kind: ConfigMap
  4. metadata:
  5. name: fair-worm-configmap
  6. data:
  7. myvalue: "Hello World"
  8. drink: "tea"
  9. food: "PIZZA"

In an actual chart, all static default values should live in the values.yaml, and should not be repeated using the default command (otherwise they would be redundant). However, the default command is perfect for computed values, which can not be declared inside values.yaml. For example:

  1. drink: {{ .Values.favorite.drink | default (printf "%s-tea" (include "fullname" .)) }}

In some places, an if conditional guard may be better suited than default. We’ll see those in the next section.

Template functions and pipelines are a powerful way to transform information and then insert it into your YAML. But sometimes it’s necessary to add some template logic that is a little more sophisticated than just inserting a string. In the next section we will look at the control structures provided by the template language.

Using the lookup function

The lookup function can be used to look up resources in a running cluster. The synopsis of the lookup function is lookup apiVersion, kind, namespace, name -> resource or resource list.

parametertype
apiVersionstring
kindstring
namespacestring
namestring

Both name and namespace are optional and can be passed as an empty string ("").

The following combination of parameters are possible:

BehaviorLookup function
kubectl get pod mypod -n mynamespacelookup “v1” “Pod” “mynamespace” “mypod”
kubectl get pods -n mynamespacelookup “v1” “Pod” “mynamespace” “”
kubectl get pods —all-namespaceslookup “v1” “Pod” “” “”
kubectl get namespace mynamespacelookup “v1” “Namespace” “” “mynamespace”
kubectl get namespaceslookup “v1” “Namespace” “” “”

When lookup returns an object, it will return a dictionary. This dictionary can be further navigated to extract specific values.

The following example will return the annotations present for the mynamespace object:

  1. (lookup "v1" "Namespace" "" "mynamespace").metadata.annotations

When lookup returns a list of objects, it is possible to access the object list via the items field:

  1. {{ range $index, $service := (lookup "v1" "Service" "mynamespace" "").items }}
  2. {{/* do something with each service */}}
  3. {{ end }}

When no object is found, an empty value is returned. This can be used to check for the existence of an object.

The lookup function uses Helm’s existing Kubernetes connection configuration to query Kubernetes. If any error is returned when interacting with calling the API server (for example due to lack of permission to access a resource), helm’s template processing will fail.

Keep in mind that Helm is not supposed to contact the Kubernetes API Server during a helm template or a helm install|upgrade|delete|rollback --dry-run, so the lookup function will return an empty list (i.e. dict) in such a case.

Operators are functions

For templates, the operators (eq, ne, lt, gt, and, or and so on) are all implemented as functions. In pipelines, operations can be grouped with parentheses ((, and )).

Now we can turn from functions and pipelines to flow control with conditions, loops, and scope modifiers.