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Charts
Helm uses a packaging format called charts. A chart is a collection of files that describe a related set of Kubernetes resources. A single chart might be used to deploy something simple, like a memcached pod, or something complex, like a full web app stack with HTTP servers, databases, caches, and so on.
Charts are created as files laid out in a particular directory tree, then they can be packaged into versioned archives to be deployed.
This document explains the chart format, and provides basic guidance for building charts with Helm.
The Chart File Structure
A chart is organized as a collection of files inside of a directory. The
directory name is the name of the chart (without versioning information). Thus,
a chart describing WordPress would be stored in the wordpress/
directory.
Inside of this directory, Helm will expect a structure that matches this:
wordpress/
Chart.yaml # A YAML file containing information about the chart
LICENSE # OPTIONAL: A plain text file containing the license for the chart
README.md # OPTIONAL: A human-readable README file
requirements.yaml # OPTIONAL: A YAML file listing dependencies for the chart
values.yaml # The default configuration values for this chart
charts/ # A directory containing any charts upon which this chart depends.
templates/ # A directory of templates that, when combined with values,
# will generate valid Kubernetes manifest files.
templates/NOTES.txt # OPTIONAL: A plain text file containing short usage notes
Helm reserves use of the charts/
and templates/
directories, and of
the listed file names. Other files will be left as they are.
The Chart.yaml File
The Chart.yaml
file is required for a chart. It contains the following fields:
apiVersion: The chart API version, always "v1" (required)
name: The name of the chart (required)
version: A SemVer 2 version (required)
kubeVersion: A SemVer range of compatible Kubernetes versions (optional)
description: A single-sentence description of this project (optional)
keywords:
- A list of keywords about this project (optional)
home: The URL of this project's home page (optional)
sources:
- A list of URLs to source code for this project (optional)
maintainers: # (optional)
- name: The maintainer's name (required for each maintainer)
email: The maintainer's email (optional for each maintainer)
url: A URL for the maintainer (optional for each maintainer)
engine: gotpl # The name of the template engine (optional, defaults to gotpl)
icon: A URL to an SVG or PNG image to be used as an icon (optional).
appVersion: The version of the app that this contains (optional). This needn't be SemVer.
deprecated: Whether this chart is deprecated (optional, boolean)
tillerVersion: The version of Tiller that this chart requires. This should be expressed as a SemVer range: ">2.0.0" (optional)
If you are familiar with the Chart.yaml
file format for Helm Classic, you will
notice that fields specifying dependencies have been removed. That is because
the new Chart format expresses dependencies using the charts/
directory.
Other fields will be silently ignored.
Charts and Versioning
Every chart must have a version number. A version must follow the SemVer 2 standard. Unlike Helm Classic, Kubernetes Helm uses version numbers as release markers. Packages in repositories are identified by name plus version.
For example, an nginx
chart whose version field is set to version: 1.2.3
will be named:
nginx-1.2.3.tgz
More complex SemVer 2 names are also supported, such as
version: 1.2.3-alpha.1+ef365
. But non-SemVer names are explicitly
disallowed by the system.
NOTE: Whereas Helm Classic and Deployment Manager were both very GitHub oriented when it came to charts, Kubernetes Helm does not rely upon or require GitHub or even Git. Consequently, it does not use Git SHAs for versioning at all.
The version
field inside of the Chart.yaml
is used by many of the
Helm tools, including the CLI and the Tiller server. When generating a
package, the helm package
command will use the version that it finds
in the Chart.yaml
as a token in the package name. The system assumes
that the version number in the chart package name matches the version number in
the Chart.yaml
. Failure to meet this assumption will cause an error.
The appVersion field
Note that the appVersion
field is not related to the version
field. It is
a way of specifying the version of the application. For example, the drupal
chart may have an appVersion: 8.2.1
, indicating that the version of Drupal
included in the chart (by default) is 8.2.1
. This field is informational, and
has no impact on chart version calculations.
Deprecating Charts
When managing charts in a Chart Repository, it is sometimes necessary to
deprecate a chart. The optional deprecated
field in Chart.yaml
can be used
to mark a chart as deprecated. If the latest version of a chart in the
repository is marked as deprecated, then the chart as a whole is considered to
be deprecated. The chart name can later be reused by publishing a newer version
that is not marked as deprecated. The workflow for deprecating charts, as
followed by the helm/charts
project is:
- Update chart's
Chart.yaml
to mark the chart as deprecated, bumping the version - Release the new chart version in the Chart Repository
- Remove the chart from the source repository (e.g. git)
Chart LICENSE, README and NOTES
Charts can also contain files that describe the installation, configuration, usage and license of a chart.
A LICENSE is a plain text file containing the license for the chart. The chart can contain a license as it may have programming logic in the templates and would therefore not be configuration only. There can also be separate license(s) for the application installed by the chart, if required.
A README for a chart should be formatted in Markdown (README.md), and should generally contain:
- A description of the application or service the chart provides
- Any prerequisites or requirements to run the chart
- Descriptions of options in
values.yaml
and default values - Any other information that may be relevant to the installation or configuration of the chart
The chart can also contain a short plain text templates/NOTES.txt
file that will be printed out
after installation, and when viewing the status of a release. This file is evaluated as a
template, and can be used to display usage notes, next steps, or any other
information relevant to a release of the chart. For example, instructions could be provided for
connecting to a database, or accessing a web UI. Since this file is printed to STDOUT when running
helm install
or helm status
, it is recommended to keep the content brief and point to the README
for greater detail.
Chart Dependencies
In Helm, one chart may depend on any number of other charts.
These dependencies can be dynamically linked through the requirements.yaml
file or brought in to the charts/
directory and managed manually.
Although manually managing your dependencies has a few advantages some teams need,
the preferred method of declaring dependencies is by using a
requirements.yaml
file inside of your chart.
Note: The dependencies:
section of the Chart.yaml
from Helm
Classic has been completely removed.
Managing Dependencies with requirements.yaml
A requirements.yaml
file is a simple file for listing your
dependencies.
dependencies:
- name: apache
version: 1.2.3
repository: http://example.com/charts
- name: mysql
version: 3.2.1
repository: http://another.example.com/charts
- The
name
field is the name of the chart you want. - The
version
field is the version of the chart you want. - The
repository
field is the full URL to the chart repository. Note that you must also usehelm repo add
to add that repo locally.
Once you have a dependencies file, you can run helm dependency update
and it will use your dependency file to download all the specified
charts into your charts/
directory for you.
$ helm dep up foochart
Hang tight while we grab the latest from your chart repositories...
...Successfully got an update from the "local" chart repository
...Successfully got an update from the "stable" chart repository
...Successfully got an update from the "example" chart repository
...Successfully got an update from the "another" chart repository
Update Complete.
Saving 2 charts
Downloading apache from repo http://example.com/charts
Downloading mysql from repo http://another.example.com/charts
When helm dependency update
retrieves charts, it will store them as
chart archives in the charts/
directory. So for the example above, one
would expect to see the following files in the charts directory:
charts/
apache-1.2.3.tgz
mysql-3.2.1.tgz
Managing charts with requirements.yaml
is a good way to easily keep
charts updated, and also share requirements information throughout a
team.
Alias field in requirements.yaml
In addition to the other fields above, each requirements entry may contain
the optional field alias
.
Adding an alias for a dependency chart would put a chart in dependencies using alias as name of new dependency.
One can use alias
in cases where they need to access a chart
with other name(s).
# parentchart/requirements.yaml
dependencies:
- name: subchart
repository: http://localhost:10191
version: 0.1.0
alias: new-subchart-1
- name: subchart
repository: http://localhost:10191
version: 0.1.0
alias: new-subchart-2
- name: subchart
repository: http://localhost:10191
version: 0.1.0
In the above example we will get 3 dependencies in all for parentchart
subchart
new-subchart-1
new-subchart-2
The manual way of achieving this is by copy/pasting the same chart in the
charts/
directory multiple times with different names.
Tags and Condition fields in requirements.yaml
In addition to the other fields above, each requirements entry may contain
the optional fields tags
and condition
.
All charts are loaded by default. If tags
or condition
fields are present,
they will be evaluated and used to control loading for the chart(s) they are applied to.
Condition - The condition field holds one or more YAML paths (delimited by commas). If this path exists in the parent's values and resolves to a boolean value, the chart will be enabled or disabled based on that boolean value. Only the first valid path found in the list is evaluated and if no paths exist then the condition has no effect. For multiple level dependencies the condition is prependend by the path to the parent chart.
Tags - The tags field is a YAML list of labels to associate with this chart. In the top parent's values, all charts with tags can be enabled or disabled by specifying the tag and a boolean value.
# parentchart/requirements.yaml
dependencies:
- name: subchart1
repository: http://localhost:10191
version: 0.1.0
condition: subchart1.enabled
tags:
- front-end
- subchart1
- name: subchart2
repository: http://localhost:10191
version: 0.1.0
condition: subchart2.enabled
tags:
- back-end
- subchart2
# subchart2/requirements.yaml
dependencies:
- name: subsubchart
repository: http://localhost:10191
version: 0.1.0
condition: subsubchart.enabled
# parentchart/values.yaml
subchart1:
enabled: true
subchart2:
subsubchart:
enabled: false
tags:
front-end: false
back-end: true
In the above example all charts with the tag front-end
would be disabled but since the
subchart1.enabled
path evaluates to 'true' in the parent's values, the condition will override the
front-end
tag and subchart1
will be enabled.
Since subchart2
is tagged with back-end
and that tag evaluates to true
, subchart2
will be
enabled. Also note that although subchart2
has a condition specified in requirements.yaml
, there
is no corresponding path and value in the parent's values so that condition has no effect.
subsubchart
is disabled by default but can be enabled by setting subchart2.subsubchart.enabled=true
.
Hint: disabling subchart2
via tag will also disable all sub-charts (even if overriding the value subchart2.subsubchart.enabled=true
).
Using the CLI with Tags and Conditions
The --set
parameter can be used as usual to alter tag and condition values.
helm install --set tags.front-end=true --set subchart2.enabled=false
Tags and Condition Resolution
- Conditions (when set in values) always override tags.
- The first condition path that exists wins and subsequent ones for that chart are ignored.
- Tags are evaluated as 'if any of the chart's tags are true then enable the chart'.
- Tags and conditions values must be set in the top parent's values.
- The
tags:
key in values must be a top level key. Globals and nestedtags:
tables are not currently supported.
Importing Child Values via requirements.yaml
In some cases it is desirable to allow a child chart's values to propagate to the parent chart and be
shared as common defaults. An additional benefit of using the exports
format is that it will enable future
tooling to introspect user-settable values.
The keys containing the values to be imported can be specified in the parent chart's requirements.yaml
file
using a YAML list. Each item in the list is a key which is imported from the child chart's exports
field.
To import values not contained in the exports
key, use the child-parent format.
Examples of both formats are described below.
Using the exports format
If a child chart's values.yaml
file contains an exports
field at the root, its contents may be imported
directly into the parent's values by specifying the keys to import as in the example below:
# parent's requirements.yaml file
...
import-values:
- data
# child's values.yaml file
...
exports:
data:
myint: 99
Since we are specifying the key data
in our import list, Helm looks in the exports
field of the child
chart for data
key and imports its contents.
The final parent values would contain our exported field:
# parent's values file
...
myint: 99
Please note the parent key data
is not contained in the parent's final values. If you need to specify the
parent key, use the 'child-parent' format.
Using the child-parent format
To access values that are not contained in the exports
key of the child chart's values, you will need to
specify the source key of the values to be imported (child
) and the destination path in the parent chart's
values (parent
).
The import-values
in the example below instructs Helm to take any values found at child:
path and copy them
to the parent's values at the path specified in parent:
# parent's requirements.yaml file
dependencies:
- name: subchart1
repository: http://localhost:10191
version: 0.1.0
...
import-values:
- child: default.data
parent: myimports
In the above example, values found at default.data
in the subchart1's values will be imported
to the myimports
key in the parent chart's values as detailed below:
# parent's values.yaml file
myimports:
myint: 0
mybool: false
mystring: "helm rocks!"
# subchart1's values.yaml file
default:
data:
myint: 999
mybool: true
The parent chart's resulting values would be:
# parent's final values
myimports:
myint: 999
mybool: true
mystring: "helm rocks!"
The parent's final values now contains the myint
and mybool
fields imported from subchart1.
Managing Dependencies manually via the charts/
directory
If more control over dependencies is desired, these dependencies can
be expressed explicitly by copying the dependency charts into the
charts/
directory.
A dependency can be either a chart archive (foo-1.2.3.tgz
) or an
unpacked chart directory. But its name cannot start with _
or .
.
Such files are ignored by the chart loader.
For example, if the WordPress chart depends on the Apache chart, the
Apache chart (of the correct version) is supplied in the WordPress
chart's charts/
directory:
wordpress:
Chart.yaml
requirements.yaml
# ...
charts/
apache/
Chart.yaml
# ...
mysql/
Chart.yaml
# ...
The example above shows how the WordPress chart expresses its dependency
on Apache and MySQL by including those charts inside of its charts/
directory.
TIP: To drop a dependency into your charts/
directory, use the
helm fetch
command
Operational aspects of using dependencies
The above sections explain how to specify chart dependencies, but how does this affect
chart installation using helm install
and helm upgrade
?
Suppose that a chart named "A" creates the following Kubernetes objects
- namespace "A-Namespace"
- statefulset "A-StatefulSet"
- service "A-Service"
Furthermore, A is dependent on chart B that creates objects
- namespace "B-Namespace"
- replicaset "B-ReplicaSet"
- service "B-Service"
After installation/upgrade of chart A, a single Helm release is created/modified. The release will create/update all of the above Kubernetes objects in the following order:
- A-Namespace
- B-Namespace
- A-StatefulSet
- B-ReplicaSet
- A-Service
- B-Service
This is because when Helm installs/upgrades charts, the Kubernetes objects from the charts and all its dependencies are
- aggregated into a single set; then
- sorted by type followed by name; and then
- created/updated in that order.
Hence a single release is created with all the objects for the chart and its dependencies.
The install order of Kubernetes types is given by the enumeration InstallOrder in kind_sorter.go (see the Helm source file).
Templates and Values
Helm Chart templates are written in the Go template language, with the addition of 50 or so add-on template functions from the Sprig library and a few other specialized functions.
All template files are stored in a chart's templates/
folder. When
Helm renders the charts, it will pass every file in that directory
through the template engine.
Values for the templates are supplied two ways:
- Chart developers may supply a file called
values.yaml
inside of a chart. This file can contain default values. - Chart users may supply a YAML file that contains values. This can be
provided on the command line with
helm install
.
When a user supplies custom values, these values will override the
values in the chart's values.yaml
file.
Template Files
Template files follow the standard conventions for writing Go templates (see the text/template Go package documentation for details). An example template file might look something like this:
apiVersion: v1
kind: ReplicationController
metadata:
name: deis-database
namespace: deis
labels:
app.kubernetes.io/managed-by: deis
spec:
replicas: 1
selector:
app.kubernetes.io/name: deis-database
template:
metadata:
labels:
app.kubernetes.io/name: deis-database
spec:
serviceAccount: deis-database
containers:
- name: deis-database
image: {{.Values.imageRegistry}}/postgres:{{.Values.dockerTag}}
imagePullPolicy: {{.Values.pullPolicy}}
ports:
- containerPort: 5432
env:
- name: DATABASE_STORAGE
value: {{default "minio" .Values.storage}}
The above example, based loosely on https://github.com/deis/charts, is a template for a Kubernetes replication controller.
It can use the following four template values (usually defined in a
values.yaml
file):
imageRegistry
: The source registry for the Docker image.dockerTag
: The tag for the docker image.pullPolicy
: The Kubernetes pull policy.storage
: The storage backend, whose default is set to"minio"
All of these values are defined by the template author. Helm does not require or dictate parameters.
To see many working charts, check out the Helm Charts project
Predefined Values
Values that are supplied via a values.yaml
file (or via the --set
flag) are accessible from the .Values
object in a template. But there
are other pre-defined pieces of data you can access in your templates.
The following values are pre-defined, are available to every template, and cannot be overridden. As with all values, the names are case sensitive.
Release.Name
: The name of the release (not the chart)Release.Time
: The time the chart release was last updated. This will match theLast Released
time on a Release object.Release.Namespace
: The namespace the chart was released to.Release.Service
: The service that conducted the release. Usually this isTiller
.Release.IsUpgrade
: This is set to true if the current operation is an upgrade or rollback.Release.IsInstall
: This is set to true if the current operation is an install.Release.Revision
: The revision number. It begins at 1, and increments with eachhelm upgrade
.Chart
: The contents of theChart.yaml
. Thus, the chart version is obtainable asChart.Version
and the maintainers are inChart.Maintainers
.Files
: A map-like object containing all non-special files in the chart. This will not give you access to templates, but will give you access to additional files that are present (unless they are excluded using.helmignore
). Files can be accessed using{{index .Files "file.name"}}
or using the{{.Files.Get name}}
or{{.Files.GetString name}}
functions. You can also access the contents of the file as[]byte
using{{.Files.GetBytes}}
Capabilities
: A map-like object that contains information about the versions of Kubernetes ({{.Capabilities.KubeVersion}}
, Tiller ({{.Capabilities.TillerVersion}}
, and the supported Kubernetes API versions ({{.Capabilities.APIVersions.Has "batch/v1"
)
NOTE: Any unknown Chart.yaml fields will be dropped. They will not
be accessible inside of the Chart
object. Thus, Chart.yaml cannot be
used to pass arbitrarily structured data into the template. The values
file can be used for that, though.
Values files
Considering the template in the previous section, a values.yaml
file
that supplies the necessary values would look like this:
imageRegistry: "quay.io/deis"
dockerTag: "latest"
pullPolicy: "Always"
storage: "s3"
A values file is formatted in YAML. A chart may include a default
values.yaml
file. The Helm install command allows a user to override
values by supplying additional YAML values:
$ helm install --values=myvals.yaml wordpress
When values are passed in this way, they will be merged into the default
values file. For example, consider a myvals.yaml
file that looks like
this:
storage: "gcs"
When this is merged with the values.yaml
in the chart, the resulting
generated content will be:
imageRegistry: "quay.io/deis"
dockerTag: "latest"
pullPolicy: "Always"
storage: "gcs"
Note that only the last field was overridden.
NOTE: The default values file included inside of a chart must be named
values.yaml
. But files specified on the command line can be named
anything.
NOTE: If the --set
flag is used on helm install
or helm upgrade
, those
values are simply converted to YAML on the client side.
NOTE: If any required entries in the values file exist, they can be declared as required in the chart template by using the 'required' function
Any of these values are then accessible inside of templates using the
.Values
object:
apiVersion: v1
kind: ReplicationController
metadata:
name: deis-database
namespace: deis
labels:
app.kubernetes.io/managed-by: deis
spec:
replicas: 1
selector:
app.kubernetes.io/name: deis-database
template:
metadata:
labels:
app.kubernetes.io/name: deis-database
spec:
serviceAccount: deis-database
containers:
- name: deis-database
image: {{.Values.imageRegistry}}/postgres:{{.Values.dockerTag}}
imagePullPolicy: {{.Values.pullPolicy}}
ports:
- containerPort: 5432
env:
- name: DATABASE_STORAGE
value: {{default "minio" .Values.storage}}
Scope, Dependencies, and Values
Values files can declare values for the top-level chart, as well as for
any of the charts that are included in that chart's charts/
directory.
Or, to phrase it differently, a values file can supply values to the
chart as well as to any of its dependencies. For example, the
demonstration WordPress chart above has both mysql
and apache
as
dependencies. The values file could supply values to all of these
components:
title: "My WordPress Site" # Sent to the WordPress template
mysql:
max_connections: 100 # Sent to MySQL
password: "secret"
apache:
port: 8080 # Passed to Apache
Charts at a higher level have access to all of the variables defined
beneath. So the WordPress chart can access the MySQL password as
.Values.mysql.password
. But lower level charts cannot access things in
parent charts, so MySQL will not be able to access the title
property. Nor,
for that matter, can it access apache.port
.
Values are namespaced, but namespaces are pruned. So for the WordPress
chart, it can access the MySQL password field as .Values.mysql.password
. But
for the MySQL chart, the scope of the values has been reduced and the
namespace prefix removed, so it will see the password field simply as
.Values.password
.
Global Values
As of 2.0.0-Alpha.2, Helm supports special "global" value. Consider this modified version of the previous example:
title: "My WordPress Site" # Sent to the WordPress template
global:
app: MyWordPress
mysql:
max_connections: 100 # Sent to MySQL
password: "secret"
apache:
port: 8080 # Passed to Apache
The above adds a global
section with the value app: MyWordPress
.
This value is available to all charts as .Values.global.app
.
For example, the mysql
templates may access app
as {{.Values.global.app}}
, and
so can the apache
chart. Effectively, the values file above is
regenerated like this:
title: "My WordPress Site" # Sent to the WordPress template
global:
app: MyWordPress
mysql:
global:
app: MyWordPress
max_connections: 100 # Sent to MySQL
password: "secret"
apache:
global:
app: MyWordPress
port: 8080 # Passed to Apache
This provides a way of sharing one top-level variable with all
subcharts, which is useful for things like setting metadata
properties
like labels.
If a subchart declares a global variable, that global will be passed downward (to the subchart's subcharts), but not upward to the parent chart. There is no way for a subchart to influence the values of the parent chart.
Also, global variables of parent charts take precedence over the global variables from subcharts.
References
When it comes to writing templates and values files, there are several standard references that will help you out.
Using Helm to Manage Charts
The helm
tool has several commands for working with charts.
It can create a new chart for you:
$ helm create mychart
Created mychart/
Once you have edited a chart, helm
can package it into a chart archive
for you:
$ helm package mychart
Archived mychart-0.1.-.tgz
You can also use helm
to help you find issues with your chart's
formatting or information:
$ helm lint mychart
No issues found
Chart Repositories
A chart repository is an HTTP server that houses one or more packaged
charts. While helm
can be used to manage local chart directories, when
it comes to sharing charts, the preferred mechanism is a chart
repository.
Any HTTP server that can serve YAML files and tar files and can answer GET requests can be used as a repository server.
Helm comes with built-in package server for developer testing (helm serve
). The Helm team has tested other servers, including Google Cloud
Storage with website mode enabled, and S3 with website mode enabled.
A repository is characterized primarily by the presence of a special
file called index.yaml
that has a list of all of the packages supplied
by the repository, together with metadata that allows retrieving and
verifying those packages.
On the client side, repositories are managed with the helm repo
commands. However, Helm does not provide tools for uploading charts to
remote repository servers. This is because doing so would add
substantial requirements to an implementing server, and thus raise the
barrier for setting up a repository.
Chart Starter Packs
The helm create
command takes an optional --starter
option that lets you
specify a "starter chart".
Starters are just regular charts, but are located in $HELM_HOME/starters
.
As a chart developer, you may author charts that are specifically designed
to be used as starters. Such charts should be designed with the following
considerations in mind:
- The
Chart.yaml
will be overwritten by the generator. - Users will expect to modify such a chart's contents, so documentation should indicate how users can do so.
- All occurrences of
<CHARTNAME>
in files within thetemplates
directory will be replaced with the specified chart name so that starter charts can be used as templates. Additionally, occurrences of<CHARTNAME>
invalues.yaml
will also be replaced.
Currently the only way to add a chart to $HELM_HOME/starters
is to manually
copy it there. In your chart's documentation, you may want to explain that
process.