If you are using a released version of Kubernetes, you should refer to the docs that go with that version.
The latest 1.0.x release of this document can be found [here](http://releases.k8s.io/release-1.0/docs/design/expansion.md).Documentation for other releases can be found at releases.k8s.io.
A proposal for the expansion of environment variables using a simple $(var)
syntax.
It is extremely common for users to need to compose environment variables or pass arguments to their commands using the values of environment variables. Kubernetes should provide a facility for the 80% cases in order to decrease coupling and the use of workarounds.
- Define the syntax format
- Define the scoping and ordering of substitutions
- Define the behavior for unmatched variables
- Define the behavior for unexpected/malformed input
- This design should describe the simplest possible syntax to accomplish the use-cases
- Expansion syntax will not support more complicated shell-like behaviors such as default values
(viz:
$(VARIABLE_NAME:"default")
), inline substitution, etc.
- As a user, I want to compose new environment variables for a container using a substitution syntax to reference other variables in the container's environment and service environment variables
- As a user, I want to substitute environment variables into a container's command
- As a user, I want to do the above without requiring the container's image to have a shell
- As a user, I want to be able to specify a default value for a service variable which may not exist
- As a user, I want to see an event associated with the pod if an expansion fails (ie, references variable names that cannot be expanded)
Currently, containers are injected with docker-style environment variables for the services in their pod's namespace. There are several variables for each service, but users routinely need to compose URLs based on these variables because there is not a variable for the exact format they need. Users should be able to build new environment variables with the exact format they need. Eventually, it should also be possible to turn off the automatic injection of the docker-style variables into pods and let the users consume the exact information they need via the downward API and composition.
It should be possible to reference an variable which is itself the result of an expansion, if the referenced variable is declared in the container's environment prior to the one referencing it. Put another way -- a container's environment is expanded in order, and expanded variables are available to subsequent expansions.
Users frequently need to pass the values of environment variables to a container's command.
Currently, Kubernetes does not perform any expansion of variables. The workaround is to invoke a
shell in the container's command and have the shell perform the substitution, or to write a wrapper
script that sets up the environment and runs the command. This has a number of drawbacks:
- Solutions that require a shell are unfriendly to images that do not contain a shell
- Wrapper scripts make it harder to use images as base images
- Wrapper scripts increase coupling to Kubernetes
Users should be able to do the 80% case of variable expansion in command without writing a wrapper script or adding a shell invocation to their containers' commands.
The current workaround for variable expansion in a container's command requires the container's
image to have a shell. This is unfriendly to images that do not contain a shell (scratch
images,
for example). Users should be able to perform the other use-cases in this design without regard to
the content of their images.
It is possible that a container with incorrect variable values or command line may continue to run for a long period of time, and that the end-user would have no visual or obvious warning of the incorrect configuration. If the kubelet creates an event when an expansion references a variable that cannot be expanded, it will help users quickly detect problems with expansions.
In order to limit complexity, we want to provide the right amount of functionality so that the 80% cases can be realized and nothing more. We felt that the essentials boiled down to:
- Ability to perform direct expansion of variables in a string
- Ability to specify default values via a prioritized mapping function but without support for defaults as a syntax-level feature
The exact syntax for variable expansion has a large impact on how users perceive and relate to the
feature. We considered implementing a very restrictive subset of the shell ${var}
syntax. This
syntax is an attractive option on some level, because many people are familiar with it. However,
this syntax also has a large number of lesser known features such as the ability to provide
default values for unset variables, perform inline substitution, etc.
In the interest of preventing conflation of the expansion feature in Kubernetes with the shell
feature, we chose a different syntax similar to the one in Makefiles, $(var)
. We also chose not
to support the bar $var
format, since it is not required to implement the required use-cases.
Nested references, ie, variable expansion within variable names, are not supported.
Ideally, it should be extremely clear when a variable reference couldn't be expanded. We decided
the best experience for unmatched variable references would be to have the entire reference, syntax
included, show up in the output. As an example, if the reference $(VARIABLE_NAME)
cannot be
expanded, then $(VARIABLE_NAME)
should be present in the output.
Although the $(var)
syntax does overlap with the $(command)
form of command substitution
supported by many shells, because unexpanded variables are present verbatim in the output, we
expect this will not present a problem to many users. If there is a collision between a variable
name and command substitution syntax, the syntax can be escaped with the form $$(VARIABLE_NAME)
,
which will evaluate to $(VARIABLE_NAME)
whether VARIABLE_NAME
can be expanded or not.
This design encompasses the variable expansion syntax and specification and the changes needed to incorporate the expansion feature into the container's environment and command.
This section describes the expansion syntax, evaluation of variable values, and how unexpected or malformed inputs are handled.
The inputs to the expansion feature are:
- A utf-8 string (the input string) which may contain variable references
- A function (the mapping function) that maps the name of a variable to the variable's value, of
type
func(string) string
Variable references in the input string are indicated exclusively with the syntax
$(<variable-name>)
. The syntax tokens are:
$
: the operator(
: the reference opener)
: the reference closer
The operator has no meaning unless accompanied by the reference opener and closer tokens. The
operator can be escaped using $$
. One literal $
will be emitted for each $$
in the input.
The reference opener and closer characters have no meaning when not part of a variable reference.
If a variable reference is malformed, viz: $(VARIABLE_NAME
without a closing expression, the
operator and expression opening characters are treated as ordinary characters without special
meanings.
The scope in which variable references are expanded is defined by the mapping function. Within the
mapping function, any arbitrary strategy may be used to determine the value of a variable name.
The most basic implementation of a mapping function is to use a map[string]string
to lookup the
value of a variable.
In order to support default values for variables like service variables presented by the kubelet,
which may not be bound because the service that provides them does not yet exist, there should be a
mapping function that uses a list of map[string]string
like:
func MakeMappingFunc(maps ...map[string]string) func(string) string {
return func(input string) string {
for _, context := range maps {
val, ok := context[input]
if ok {
return val
}
}
return ""
}
}
// elsewhere
containerEnv := map[string]string{
"FOO": "BAR",
"ZOO": "ZAB",
"SERVICE2_HOST": "some-host",
}
serviceEnv := map[string]string{
"SERVICE_HOST": "another-host",
"SERVICE_PORT": "8083",
}
// single-map variation
mapping := MakeMappingFunc(containerEnv)
// default variables not found in serviceEnv
mappingWithDefaults := MakeMappingFunc(serviceEnv, containerEnv)
The necessary changes to implement this functionality are:
- Add a new interface,
ObjectEventRecorder
, which is like theEventRecorder
interface, but scoped to a single object, and a function that returns anObjectEventRecorder
given anObjectReference
and anEventRecorder
- Introduce
third_party/golang/expansion
package that provides:- An
Expand(string, func(string) string) string
function - A
MappingFuncFor(ObjectEventRecorder, ...map[string]string) string
function
- An
- Make the kubelet expand environment correctly
- Make the kubelet expand command correctly
In order to provide an event when an expansion references undefined variables, the mapping function
must be able to create an event. In order to facilitate this, we should create a new interface in
the api/client/record
package which is similar to EventRecorder
, but scoped to a single object:
// ObjectEventRecorder knows how to record events about a single object.
type ObjectEventRecorder interface {
// Event constructs an event from the given information and puts it in the queue for sending.
// 'reason' is the reason this event is generated. 'reason' should be short and unique; it will
// be used to automate handling of events, so imagine people writing switch statements to
// handle them. You want to make that easy.
// 'message' is intended to be human readable.
//
// The resulting event will be created in the same namespace as the reference object.
Event(reason, message string)
// Eventf is just like Event, but with Sprintf for the message field.
Eventf(reason, messageFmt string, args ...interface{})
// PastEventf is just like Eventf, but with an option to specify the event's 'timestamp' field.
PastEventf(timestamp util.Time, reason, messageFmt string, args ...interface{})
}
There should also be a function that can construct an ObjectEventRecorder
from a runtime.Object
and an EventRecorder
:
type objectRecorderImpl struct {
object runtime.Object
recorder EventRecorder
}
func (r *objectRecorderImpl) Event(reason, message string) {
r.recorder.Event(r.object, reason, message)
}
func ObjectEventRecorderFor(object runtime.Object, recorder EventRecorder) ObjectEventRecorder {
return &objectRecorderImpl{object, recorder}
}
The expansion package should provide two methods:
// MappingFuncFor returns a mapping function for use with Expand that
// implements the expansion semantics defined in the expansion spec; it
// returns the input string wrapped in the expansion syntax if no mapping
// for the input is found. If no expansion is found for a key, an event
// is raised on the given recorder.
func MappingFuncFor(recorder record.ObjectEventRecorder, context ...map[string]string) func(string) string {
// ...
}
// Expand replaces variable references in the input string according to
// the expansion spec using the given mapping function to resolve the
// values of variables.
func Expand(input string, mapping func(string) string) string {
// ...
}
The Kubelet should be made to correctly expand variables references in a container's environment, command, and args. Changes will need to be made to:
- The
makeEnvironmentVariables
function in the kubelet; this is used byGenerateRunContainerOptions
, which is used by both the docker and rkt container runtimes - The docker manager
setEntrypointAndCommand
func has to be changed to perform variable expansion - The rkt runtime should be made to support expansion in command and args when support for it is implemented
These examples are in the context of the mapping:
Name | Value |
---|---|
VAR_A |
"A" |
VAR_B |
"B" |
VAR_C |
"C" |
VAR_REF |
$(VAR_A) |
VAR_EMPTY |
"" |
No other variables are defined.
Input | Result |
---|---|
"$(VAR_A)" |
"A" |
"___$(VAR_B)___" |
"___B___" |
"___$(VAR_C)" |
"___C" |
"$(VAR_A)-$(VAR_A)" |
"A-A" |
"$(VAR_A)-1" |
"A-1" |
"$(VAR_A)_$(VAR_B)_$(VAR_C)" |
"A_B_C" |
"$$(VAR_B)_$(VAR_A)" |
"$(VAR_B)_A" |
"$$(VAR_A)_$$(VAR_B)" |
"$(VAR_A)_$(VAR_B)" |
"f000-$$VAR_A" |
"f000-$VAR_A" |
"foo\\$(VAR_C)bar" |
"foo\Cbar" |
"foo\\\\$(VAR_C)bar" |
"foo\\Cbar" |
"foo\\\\\\\\$(VAR_A)bar" |
"foo\\\\Abar" |
"$(VAR_A$(VAR_B))" |
"$(VAR_A$(VAR_B))" |
"$(VAR_A$(VAR_B)" |
"$(VAR_A$(VAR_B)" |
"$(VAR_REF)" |
"$(VAR_A)" |
"%%$(VAR_REF)--$(VAR_REF)%%" |
"%%$(VAR_A)--$(VAR_A)%%" |
"foo$(VAR_EMPTY)bar" |
"foobar" |
"foo$(VAR_Awhoops!" |
"foo$(VAR_Awhoops!" |
"f00__(VAR_A)__" |
"f00__(VAR_A)__" |
"$?_boo_$!" |
"$?_boo_$!" |
"$VAR_A" |
"$VAR_A" |
"$(VAR_DNE)" |
"$(VAR_DNE)" |
"$$$$$$(BIG_MONEY)" |
"$$$(BIG_MONEY)" |
"$$$$$$(VAR_A)" |
"$$$(VAR_A)" |
"$$$$$$$(GOOD_ODDS)" |
"$$$$(GOOD_ODDS)" |
"$$$$$$$(VAR_A)" |
"$$$A" |
"$VAR_A)" |
"$VAR_A)" |
"${VAR_A}" |
"${VAR_A}" |
"$(VAR_B)_______$(A" |
"B_______$(A" |
"$(VAR_C)_______$(" |
"C_______$(" |
"$(VAR_A)foobarzab$" |
"Afoobarzab$" |
"foo-\\$(VAR_A" |
"foo-\$(VAR_A" |
"--$($($($($--" |
"--$($($($($--" |
"$($($($($--foo$(" |
"$($($($($--foo$(" |
"foo0--$($($($(" |
"foo0--$($($($(" |
"$(foo$$var) |
$(foo$$var) |
Notice the $(var)
syntax.
apiVersion: v1
kind: Pod
metadata:
name: expansion-pod
spec:
containers:
- name: test-container
image: gcr.io/google_containers/busybox
command: [ "/bin/sh", "-c", "env" ]
env:
- name: PUBLIC_URL
value: "http://$(GITSERVER_SERVICE_HOST):$(GITSERVER_SERVICE_PORT)"
restartPolicy: Never
apiVersion: v1
kind: Pod
metadata:
name: expansion-pod
spec:
containers:
- name: test-container
image: gcr.io/google_containers/busybox
command: [ "/bin/sh", "-c", "env" ]
env:
- name: POD_NAMESPACE
valueFrom:
fieldRef:
fieldPath: "metadata.namespace"
- name: PUBLIC_URL
value: "http://gitserver.$(POD_NAMESPACE):$(SERVICE_PORT)"
restartPolicy: Never