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152 lines
6.6 KiB
Go
152 lines
6.6 KiB
Go
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/*
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Copyright 2021 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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/*
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Package applyconfigurations provides typesafe go representations of the apply
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configurations that are used to constructs Server-side Apply requests.
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# Basics
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The Apply functions in the typed client (see the k8s.io/client-go/kubernetes/typed packages) offer
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a direct and typesafe way of calling Server-side Apply. Each Apply function takes an "apply
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configuration" type as an argument, which is a structured representation of an Apply request. For
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example:
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import (
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...
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v1ac "k8s.io/client-go/applyconfigurations/autoscaling/v1"
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)
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hpaApplyConfig := v1ac.HorizontalPodAutoscaler(autoscalerName, ns).
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WithSpec(v1ac.HorizontalPodAutoscalerSpec().
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WithMinReplicas(0)
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)
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return hpav1client.Apply(ctx, hpaApplyConfig, metav1.ApplyOptions{FieldManager: "mycontroller", Force: true})
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Note in this example that HorizontalPodAutoscaler is imported from an "applyconfigurations"
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package. Each "apply configuration" type represents the same Kubernetes object kind as the
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corresponding go struct, but where all fields are pointers to make them optional, allowing apply
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requests to be accurately represented. For example, this when the apply configuration in the above
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example is marshalled to YAML, it produces:
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apiVersion: autoscaling/v1
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kind: HorizontalPodAutoscaler
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metadata:
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name: myHPA
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namespace: myNamespace
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spec:
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minReplicas: 0
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To understand why this is needed, the above YAML cannot be produced by the
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v1.HorizontalPodAutoscaler go struct. Take for example:
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hpa := v1.HorizontalPodAutoscaler{
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TypeMeta: metav1.TypeMeta{
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APIVersion: "autoscaling/v1",
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Kind: "HorizontalPodAutoscaler",
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},
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ObjectMeta: ObjectMeta{
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Namespace: ns,
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Name: autoscalerName,
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},
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Spec: v1.HorizontalPodAutoscalerSpec{
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MinReplicas: pointer.Int32Ptr(0),
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},
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}
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The above code attempts to declare the same apply configuration as shown in the previous examples,
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but when marshalled to YAML, produces:
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kind: HorizontalPodAutoscaler
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apiVersion: autoscaling/v1
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metadata:
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name: myHPA
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namespace: myNamespace
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creationTimestamp: null
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spec:
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scaleTargetRef:
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kind: ""
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name: ""
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minReplicas: 0
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maxReplicas: 0
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Which, among other things, contains spec.maxReplicas set to 0. This is almost certainly not what
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the caller intended (the intended apply configuration says nothing about the maxReplicas field),
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and could have serious consequences on a production system: it directs the autoscaler to downscale
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to zero pods. The problem here originates from the fact that the go structs contain required fields
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that are zero valued if not set explicitly. The go structs work as intended for create and update
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operations, but are fundamentally incompatible with apply, which is why we have introduced the
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generated "apply configuration" types.
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The "apply configurations" also have convenience With<FieldName> functions that make it easier to
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build apply requests. This allows developers to set fields without having to deal with the fact that
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all the fields in the "apply configuration" types are pointers, and are inconvenient to set using
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go. For example "MinReplicas: &0" is not legal go code, so without the With functions, developers
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would work around this problem by using a library, .e.g. "MinReplicas: pointer.Int32Ptr(0)", but
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string enumerations like corev1.Protocol are still a problem since they cannot be supported by a
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general purpose library. In addition to the convenience, the With functions also isolate
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developers from the underlying representation, which makes it safer for the underlying
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representation to be changed to support additional features in the future.
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# Controller Support
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The new client-go support makes it much easier to use Server-side Apply in controllers, by either of
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two mechanisms.
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Mechanism 1:
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When authoring new controllers to use Server-side Apply, a good approach is to have the controller
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recreate the apply configuration for an object each time it reconciles that object. This ensures
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that the controller fully reconciles all the fields that it is responsible for. Controllers
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typically should unconditionally set all the fields they own by setting "Force: true" in the
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ApplyOptions. Controllers must also provide a FieldManager name that is unique to the
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reconciliation loop that apply is called from.
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When upgrading existing controllers to use Server-side Apply the same approach often works
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well--migrate the controllers to recreate the apply configuration each time it reconciles any
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object. For cases where this does not work well, see Mechanism 2.
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Mechanism 2:
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When upgrading existing controllers to use Server-side Apply, the controller might have multiple
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code paths that update different parts of an object depending on various conditions. Migrating a
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controller like this to Server-side Apply can be risky because if the controller forgets to include
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any fields in an apply configuration that is included in a previous apply request, a field can be
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accidentally deleted. For such cases, an alternative to mechanism 1 is to replace any controller
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reconciliation code that performs a "read/modify-in-place/update" (or patch) workflow with a
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"extract/modify-in-place/apply" workflow. Here's an example of the new workflow:
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fieldMgr := "my-field-manager"
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deploymentClient := clientset.AppsV1().Deployments("default")
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// read, could also be read from a shared informer
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deployment, err := deploymentClient.Get(ctx, "example-deployment", metav1.GetOptions{})
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if err != nil {
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// handle error
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}
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// extract
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deploymentApplyConfig, err := appsv1ac.ExtractDeployment(deployment, fieldMgr)
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if err != nil {
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// handle error
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}
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// modify-in-place
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deploymentApplyConfig.Spec.Template.Spec.WithContainers(corev1ac.Container().
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WithName("modify-slice").
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WithImage("nginx:1.14.2"),
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)
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// apply
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applied, err := deploymentClient.Apply(ctx, extractedDeployment, metav1.ApplyOptions{FieldManager: fieldMgr})
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*/
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package applyconfigurations // import "k8s.io/client-go/applyconfigurations"
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