---
title: 使用 kubectl patch 更新 API 对象
description: 使用 kubectl patch 更新 Kubernetes API 对象。做一个策略性的合并 patch 或 JSON 合并 patch。
content_type: task
weight: 40
---

<!--
---
title: Update API Objects in Place Using kubectl patch
description: Use kubectl patch to update Kubernetes API objects in place. Do a strategic merge patch or a JSON merge patch.
content_type: task
weight: 40
---
-->

<!-- overview -->

<!--
This task shows how to use `kubectl patch` to update an API object in place. The exercises
in this task demonstrate a strategic merge patch and a JSON merge patch.
-->

这个任务展示了如何使用 `kubectl patch` 就地更新 API 对象。这个任务中的练习演示了一个策略性合并 patch 和一个 JSON 合并 patch。



## {{% heading "prerequisites" %}}


{{< include "task-tutorial-prereqs.md" >}} {{< version-check >}}




<!-- steps -->

<!--
## Use a strategic merge patch to update a Deployment
-->

## 使用策略合并 patch 更新 Deployment

<!--
Here's the configuration file for a Deployment that has two replicas. Each replica
is a Pod that has one container:
-->

下面是具有两个副本的 Deployment 的配置文件。每个副本是一个 Pod，有一个容器：

{{< codenew file="application/deployment-patch.yaml" >}}

<!--
Create the Deployment:
-->

创建 Deployment：

```shell
kubectl create -f https://k8s.io/examples/application/deployment-patch.yaml
```

<!--
View the Pods associated with your Deployment:
-->
查看与 Deployment 相关的 Pod：

```shell
kubectl get pods
```

<!--
The output shows that the Deployment has two Pods. The `1/1` indicates that
each Pod has one container:
-->
输出显示 Deployment 有两个 Pod。`1/1` 表示每个 Pod 有一个容器:

```
NAME                        READY     STATUS    RESTARTS   AGE
patch-demo-28633765-670qr   1/1       Running   0          23s
patch-demo-28633765-j5qs3   1/1       Running   0          23s
```

<!--
Make a note of the names of the running Pods. Later, you will see that these Pods
get terminated and replaced by new ones.
-->
把运行的 Pod 的名字记下来。稍后，您将看到这些 Pod 被终止并被新的 Pod 替换。

<!--
At this point, each Pod has one Container that runs the nginx image. Now suppose
you want each Pod to have two containers: one that runs nginx and one that runs redis.
-->
此时，每个 Pod 都有一个运行 nginx 镜像的容器。现在假设您希望每个 Pod 有两个容器：一个运行 nginx，另一个运行 redis。

<!--
Create a file named `patch-file-containers.yaml` that has this content:
-->
创建一个名为 `patch-file-containers.yaml` 的文件。内容如下:

```yaml
spec:
  template:
    spec:
      containers:
      - name: patch-demo-ctr-2
        image: redis
```

<!--
Patch your Deployment:
-->
修补您的 Deployment：

```shell
kubectl patch deployment patch-demo --patch "$(cat patch-file-containers.yaml)"
```
<!--
View the patched Deployment:
-->
查看修补后的 Deployment：

```shell
kubectl get deployment patch-demo --output yaml
```

<!--
The output shows that the PodSpec in the Deployment has two Containers:
-->
输出显示 Deployment 中的 PodSpec 有两个容器:

```shell
containers:
- image: redis
  imagePullPolicy: Always
  name: patch-demo-ctr-2
  ...
- image: nginx
  imagePullPolicy: Always
  name: patch-demo-ctr
  ...
```

<!--
View the Pods associated with your patched Deployment:
-->
查看与 patch Deployment 相关的 Pod:

```shell
kubectl get pods
```

<!--
The output shows that the running Pods have different names from the Pods that
were running previously. The Deployment terminated the old Pods and created two
new Pods that comply with the updated Deployment spec. The `2/2` indicates that
each Pod has two Containers:
-->
输出显示正在运行的 Pod 与以前运行的 Pod 有不同的名称。Deployment 终止了旧的 Pod，并创建了两个
符合更新的部署规范的新 Pod。`2/2` 表示每个 Pod 有两个容器:

```
NAME                          READY     STATUS    RESTARTS   AGE
patch-demo-1081991389-2wrn5   2/2       Running   0          1m
patch-demo-1081991389-jmg7b   2/2       Running   0          1m
```

<!--
Take a closer look at one of the patch-demo Pods:
-->
仔细查看其中一个 patch-demo Pod:

```shell
kubectl get pod <your-pod-name> --output yaml
```

<!--
The output shows that the Pod has two Containers: one running nginx and one running redis:
-->
输出显示 Pod 有两个容器:一个运行 nginx，一个运行 redis:

```
containers:
- image: redis
  ...
- image: nginx
  ...
```

<!--
### Notes on the strategic merge patch
-->

### 策略性合并类的 patch

<!--
The patch you did in the preceding exercise is called a *strategic merge patch*.
Notice that the patch did not replace the `containers` list. Instead it added a new
Container to the list. In other words, the list in the patch was merged with the
existing list. This is not always what happens when you use a strategic merge patch on a list.
In some cases, the list is replaced, not merged.
-->
您在前面的练习中所做的 patch 称为`策略性合并 patch`。
请注意，patch 没有替换`容器`列表。相反，它向列表中添加了一个新容器。换句话说，
patch 中的列表与现有列表合并。当您在列表中使用策略性合并 patch 时，并不总是这样。
在某些情况下，列表是替换的，而不是合并的。

<!--
With a strategic merge patch, a list is either replaced or merged depending on its
patch strategy. The patch strategy is specified by the value of the `patchStrategy` key
in a field tag in the Kubernetes source code. For example, the `Containers` field of `PodSpec`
struct has a `patchStrategy` of `merge`:
-->
对于策略性合并 patch，列表可以根据其 patch 策略进行替换或合并。patch 策略由 Kubernetes 源代码中字段标记中的 `patchStrategy` 键的值指定。
例如，`PodSpec` 结构体的 `Containers` 字段有 `merge` 的 `patchStrategy`：

```go
type PodSpec struct {
  ...
  Containers []Container `json:"containers" patchStrategy:"merge" patchMergeKey:"name" ...`
```

<!--
You can also see the patch strategy in the
[OpenApi spec](https://raw.githubusercontent.com/kubernetes/kubernetes/master/api/openapi-spec/swagger.json):
-->

您还可以在 [OpenApi spec](https://raw.githubusercontent.com/kubernetes/kubernetes/master/api/openapi-spec/swagger.json)
规范中看到 patch 策略：

```json
"io.k8s.api.core.v1.PodSpec": {
    ...
     "containers": {
      "description": "List of containers belonging to the pod. ...
      },
      "x-kubernetes-patch-merge-key": "name",
      "x-kubernetes-patch-strategy": "merge"
     },
```

<!--
And you can see the patch strategy in the
[Kubernetes API documentation](/docs/reference/generated/kubernetes-api/{{< param "version" >}}/#podspec-v1-core).
-->
您可以在 [Kubernetes API 文档](/docs/reference/generated/kubernetes-api/{{< param "version" >}}/#podspec-v1-core)
中看到 patch 策略

<!--
Create a file named `patch-file-tolerations.yaml` that has this content:
-->
创建一个名为 `patch-file-tolerations.yaml` 的文件。内容如下:

```yaml
spec:
  template:
    spec:
      tolerations:
      - effect: NoSchedule
        key: disktype
        value: ssd
```

<!--
Patch your Deployment:
-->
patch Deployment：


{{< tabs name="kubectl_patch_example" >}}
{{{< tab name="Bash" codelang="bash" >}}
kubectl patch deployment patch-demo --patch "$(cat patch-file-containers.yaml)"
{{< /tab >}}
{{< tab name="PowerShell" codelang="posh" >}}
kubectl patch deployment patch-demo --patch $(cat patch-file-containers.yaml)
{{< /tab >}}}
{{< /tabs >}}

<!--
View the patched Deployment:
-->
查看 patch Deployment：

```shell
kubectl get deployment patch-demo --output yaml
```

<!--
The output shows that the PodSpec in the Deployment has only one Toleration:
-->
输出结果显示部署中的 PodSpec 只有一个默认：

```shell

containers:
- image: redis
  imagePullPolicy: Always
  name: patch-demo-ctr-2
  ...
- image: nginx
  imagePullPolicy: Always
  name: patch-demo-ctr
  ...
```
```shell


tolerations:
      - effect: NoSchedule
        key: disktype
        value: ssd
```

<!--
Notice that the `tolerations` list in the PodSpec was replaced, not merged. This is because
the Tolerations field of PodSpec does not have a `patchStrategy` key in its field tag. So the
strategic merge patch uses the default patch strategy, which is `replace`.
-->
请注意，PodSpec 中的 `tolerations` 列表被替换，而不是合并。这是因为 PodSpec 的 tolerance 字段的字段标签中没有
`patchStrategy` 键。所以策略合并 patch 使用默认的 patch 策略，也就是 `replace`。

```go
type PodSpec struct {
  ...
  Tolerations []Toleration `json:"tolerations,omitempty" protobuf:"bytes,22,opt,name=tolerations"`
```

<!--
## Use a JSON merge patch to update a Deployment
-->
## 使用 JSON 合并 patch 更新部署

<!--
A strategic merge patch is different from a
[JSON merge patch](https://tools.ietf.org/html/rfc7386).
With a JSON merge patch, if you
want to update a list, you have to specify the entire new list. And the new list completely
replaces the existing list.
-->
策略性合并 patch 不同于 [JSON 合并 patch](https://tools.ietf.org/html/rfc7386)。
使用 JSON 合并 patch，如果您想更新列表，您必须指定整个新列表。新的列表完全取代了现有的列表。

<!--
The `kubectl patch` command has a `type` parameter that you can set to one of these values:
-->
`kubectl patch` 命令有一个 `type` 参数，您可以将其设置为以下值之一:

<table>
  <tr><th>Parameter value</th><th>Merge type</th></tr>
  <tr><td>json</td><td><a href="https://tools.ietf.org/html/rfc6902">JSON Patch, RFC 6902</a></td></tr>
  <tr><td>merge</td><td><a href="https://tools.ietf.org/html/rfc7386">JSON Merge Patch, RFC 7386</a></td></tr>
  <tr><td>strategic</td><td>Strategic merge patch</td></tr>
</table>

<!--
For a comparison of JSON patch and JSON merge patch, see
[JSON Patch and JSON Merge Patch](http://erosb.github.io/post/json-patch-vs-merge-patch/).
-->
有关 JSON patch 和 JSON 合并 patch 的比较，查看[ JSON patch 和 JSON 合并 patch](http://erosb.github.io/post/json-patch-vs-merge-patch/)。

<!--
The default value for the `type` parameter is `strategic`. So in the preceding exercise, you
did a strategic merge patch.
-->
`type` 参数的默认值是 `strategic`。在前面的练习中，我们做了一个策略性的合并 patch。

<!--
Next, do a JSON merge patch on your same Deployment. Create a file named `patch-file-2.yaml`
that has this content:
-->
下一步，在相同的部署上执行 JSON 合并 patch。创建一个名为 `patch-file-2` 的文件。内容如下:

```yaml
spec:
  template:
    spec:
      containers:
      - name: patch-demo-ctr-3
        image: gcr.io/google-samples/node-hello:1.0
```

<!--
In your patch command, set `type` to `merge`:
-->
在 patch 命令中，将 `type` 设置为 `merge`：

```shell
kubectl patch deployment patch-demo --type merge --patch "$(cat patch-file-2.yaml)"
```

<!--
View the patched Deployment:
-->
查看 patch 部署：

```shell
kubectl get deployment patch-demo --output yaml
```

<!--
The `containers` list that you specified in the patch has only one Container.
The output shows that your list of one Container replaced the existing `containers` list.
-->
patch 中指定的`容器`列表只有一个容器。
输出显示您的一个容器列表替换了现有的`容器`列表。

```shell
spec:
  containers:
  - image: gcr.io/google-samples/node-hello:1.0
    ...
    name: patch-demo-ctr-3
```

<!--
List the running Pods:
-->
列表中运行的 Pod：

```shell
kubectl get pods
```

<!--
In the output, you can see that the existing Pods were terminated, and new Pods
were created. The `1/1` indicates that each new Pod is running only one Container.
-->
在输出中，您可以看到已经终止了现有的 Pod，并创建了新的 Pod。`1/1` 表示每个新 Pod只运行一个容器。

```shell
NAME                          READY     STATUS    RESTARTS   AGE
patch-demo-1307768864-69308   1/1       Running   0          1m
patch-demo-1307768864-c86dc   1/1       Running   0          1m
```

<!--
## Alternate forms of the kubectl patch command
-->

## kubectl patch 命令的其他形式

<!--
The `kubectl patch` command takes YAML or JSON. It can take the patch as a file or
directly on the command line.
-->
 `kubectl patch` 命令使用 YAML 或 JSON。它可以将 patch 作为文件，也可以直接在命令行中使用。

<!--
Create a file named `patch-file.json` that has this content:
-->
创建一个文件名称是 `patch-file.json` 内容如下：

```json
{
   "spec": {
      "template": {
         "spec": {
            "containers": [
               {
                  "name": "patch-demo-ctr-2",
                  "image": "redis"
               }
            ]
         }
      }
   }
}
```

<!--
The following commands are equivalent:
-->
以下命令是相同的：

```shell
kubectl patch deployment patch-demo --patch "$(cat patch-file.yaml)"
kubectl patch deployment patch-demo --patch 'spec:\n template:\n  spec:\n   containers:\n   - name: patch-demo-ctr-2\n     image: redis'

kubectl patch deployment patch-demo --patch "$(cat patch-file.json)"
kubectl patch deployment patch-demo --patch '{"spec": {"template": {"spec": {"containers": [{"name": "patch-demo-ctr-2","image": "redis"}]}}}}'
```

<!--
## Summary
-->

## 总结

<!--
In this exercise, you used `kubectl patch` to change the live configuration
of a Deployment object. You did not change the configuration file that you originally used to
create the Deployment object. Other commands for updating API objects include
[kubectl annotate](/docs/reference/generated/kubectl/kubectl-commands/#annotate),
[kubectl edit](/docs/reference/generated/kubectl/kubectl-commands/#edit),
[kubectl replace](/docs/reference/generated/kubectl/kubectl-commands/#replace),
[kubectl scale](/docs/reference/generated/kubectl/kubectl-commands/#scale),
and
[kubectl apply](/docs/reference/generated/kubectl/kubectl-commands/#apply).
-->
在本练习中，您使用 `kubectl patch` 更改部署对象的实时配置。您没有更改最初用于创建部署对象的配置文件。
用于更新 API 对象的其他命令包括
[kubectl annotate](/docs/reference/generated/kubectl/kubectl-commands/#annotate)，
[kubectl edit](/docs/reference/generated/kubectl/kubectl-commands/#edit)，
[kubectl replace](/docs/reference/generated/kubectl/kubectl-commands/#replace)，
[kubectl scale](/docs/reference/generated/kubectl/kubectl-commands/#scale)，
和
[kubectl apply](/docs/reference/generated/kubectl/kubectl-commands/#apply)。




## {{% heading "whatsnext" %}}


<!--
* [Kubernetes Object Management](/docs/concepts/overview/object-management-kubectl/overview/)
* [Managing Kubernetes Objects Using Imperative Commands](/docs/concepts/overview/object-management-kubectl/imperative-command/)
* [Imperative Management of Kubernetes Objects Using Configuration Files](/docs/concepts/overview/object-management-kubectl/imperative-config/)
* [Declarative Management of Kubernetes Objects Using Configuration Files](/docs/concepts/overview/object-management-kubectl/declarative-config/)
-->

* [Kubernetes 对象管理器](/docs/concepts/overview/object-management-kubectl/overview/)
* [使用命令管理 Kubernetes 对象](/docs/concepts/overview/object-management-kubectl/imperative-command/)
* [使用配置文件强制管理 Kubernetes 对象](/docs/concepts/overview/object-management-kubectl/imperative-config/)
* [使用配置文件对 Kubernetes 对象进行声明式管理](/docs/concepts/overview/object-management-kubectl/declarative-config/)