Tasks
Install Tools
Setup an extension API server
Configure Pods and Containers
Configure Pods and Containers
Assign Memory Resources to Containers and Pods (EN)
Assign CPU Resources to Containers and Pods (EN)
Configure GMSA for Windows pods and containers (EN)
Configure Quality of Service for Pods (EN)
Assign Extended Resources to a Container (EN)
Configure a Pod to Use a Volume for Storage (EN)
Configure a Pod to Use a PersistentVolume for Storage (EN)
Configure a Pod to Use a Projected Volume for Storage (EN)
Configure a Security Context for a Pod or Container (EN)
Configure Service Accounts for Pods (EN)
Pull an Image from a Private Registry (EN)
Configure Liveness and Readiness Probes (EN)
将 Pod 分配给节点
Configure Pod Initialization (EN)
Attach Handlers to Container Lifecycle Events (EN)
Configure a Pod to Use a ConfigMap (EN)
Share Process Namespace between Containers in a Pod (EN)
Translate a Docker Compose File to Kubernetes Resources (EN)
给容器分配非透明整型资源
Administer a Cluster
Administration with kubeadm
Certificate Management with kubeadm (EN)
Upgrading kubeadm HA clusters from v1.11 to v1.12 (EN)
Upgrading kubeadm HA clusters from v1.12 to v1.13 (EN)
Upgrading kubeadm clusters from v1.11 to v1.12 (EN)
Upgrading kubeadm clusters from v1.12 to v1.13 (EN)
Upgrading kubeadm clusters from v1.13 to v1.14 (EN)
Manage Memory, CPU, and API Resources
Configure Default Memory Requests and Limits for a Namespace (EN)
Configure Default CPU Requests and Limits for a Namespace (EN)
Configure Minimum and Maximum Memory Constraints for a Namespace (EN)
Configure Minimum and Maximum CPU Constraints for a Namespace (EN)
Configure Memory and CPU Quotas for a Namespace (EN)
Configure a Pod Quota for a Namespace (EN)
Install a Network Policy Provider
Access Clusters Using the Kubernetes API (EN)
Access Services Running on Clusters (EN)
Advertise Extended Resources for a Node (EN)
Autoscale the DNS Service in a Cluster (EN)
Change the Reclaim Policy of a PersistentVolume (EN)
Change the default StorageClass (EN)
Cluster Management (EN)
Configure Multiple Schedulers (EN)
Configure Out Of Resource Handling (EN)
Configure Quotas for API Objects (EN)
Control CPU Management Policies on the Node (EN)
Customizing DNS Service (EN)
Debugging DNS Resolution (EN)
Declare Network Policy (EN)
Developing Cloud Controller Manager (EN)
Encrypting Secret Data at Rest (EN)
Guaranteed Scheduling For Critical Add-On Pods (EN)
IP Masquerade Agent User Guide (EN)
Kubernetes Cloud Controller Manager (EN)
Limit Storage Consumption (EN)
Namespaces Walkthrough (EN)
Operating etcd clusters for Kubernetes (EN)
Reconfigure a Node's Kubelet in a Live Cluster (EN)
Reserve Compute Resources for System Daemons (EN)
Safely Drain a Node while Respecting Application SLOs (EN)
Securing a Cluster (EN)
Set Kubelet parameters via a config file (EN)
Set up High-Availability Kubernetes Masters (EN)
Share a Cluster with Namespaces (EN)
Static Pods (EN)
Storage Object in Use Protection (EN)
Using CoreDNS for Service Discovery (EN)
Using a KMS provider for data encryption (EN)
Using sysctls in a Kubernetes Cluster (EN)
Accessing Clusters
Inject Data Into Applications
Run Applications
Run a Stateless Application Using a Deployment (EN)
Run a Single-Instance Stateful Application (EN)
Run a Replicated Stateful Application (EN)
Update API Objects in Place Using kubectl patch (EN)
Scale a StatefulSet (EN)
Delete a StatefulSet (EN)
Force Delete StatefulSet Pods (EN)
Perform Rolling Update Using a Replication Controller (EN)
Horizontal Pod Autoscaler (EN)
Horizontal Pod Autoscaler Walkthrough (EN)
Specifying a Disruption Budget for your Application (EN)
Use Port Forwarding to Access Applications in a Cluster
Run Jobs
Provide Load-Balanced Access to an Application in a Cluster
Access Applications in a Cluster
Web UI (Dashboard) (EN)
Accessing Clusters (EN)
Configure Access to Multiple Clusters (EN)
Use Port Forwarding to Access Applications in a Cluster (EN)
Use a Service to Access an Application in a Cluster (EN)
Connect a Front End to a Back End Using a Service (EN)
Create an External Load Balancer (EN)
Configure Your Cloud Provider's Firewalls (EN)
List All Container Images Running in a Cluster (EN)
Set up Ingress on Minikube with the NGINX Ingress Controller (EN)
Communicate Between Containers in the Same Pod Using a Shared Volume (EN)
Configure DNS for a Cluster (EN)
Use a Service to Access an Application in a Cluster
删除 StatefulSet
Monitor, Log, and Debug
Monitor, Log, and Debug
Application Introspection and Debugging (EN)
Auditing
Core metrics pipeline (EN)
Debug Init Containers (EN)
Debug Services (EN)
Debugging Kubernetes nodes with crictl (EN)
Determine the Reason for Pod Failure (EN)
Developing and debugging services locally (EN)
Events in Stackdriver (EN)
Get a Shell to a Running Container (EN)
Logging Using Elasticsearch and Kibana (EN)
Logging Using Stackdriver (EN)
Monitor Node Health (EN)
Tools for Monitoring Resources (EN)
Troubleshooting (EN)
应用故障排查
调试Pods和Replication Controllers
调试StatefulSet
集群故障排查
Create an External Load Balancer
Extend Kubernetes
配置你的云平台防火墙
List All Container Images Running in a Cluster
Federation - Run an App on Multiple Clusters
Configure DNS for a Cluster
Manage Cluster Daemons
Install Service Catalog
Federation - Run an App on Multiple Clusters
Administer-clusters
Administration with kubeadm
Certificate Management with kubeadm (EN)
Upgrading kubeadm HA clusters from v1.11 to v1.12 (EN)
Upgrading kubeadm HA clusters from v1.12 to v1.13 (EN)
Upgrading kubeadm clusters from v1.11 to v1.12 (EN)
Upgrading kubeadm clusters from v1.12 to v1.13 (EN)
Upgrading kubeadm clusters from v1.13 to v1.14 (EN)
Manage Memory, CPU, and API Resources
Manage Memory, CPU, and API Resources
Configure Default Memory Requests and Limits for a Namespace
Configure Default CPU Requests and Limits for a Namespace
Configure Minimum and Maximum Memory Constraints for a Namespace
Configure Minimum and Maximum CPU Constraints for a Namespace
Configure Memory and CPU Quotas for a Namespace
Configure a Pod Quota for a Namespace (EN)
Install a Network Policy Provider
Access Clusters Using the Kubernetes API (EN)
Advertise Extended Resources for a Node (EN)
Autoscale the DNS Service in a Cluster (EN)
Configure Multiple Schedulers (EN)
Configure Out Of Resource Handling (EN)
Configure Quotas for API Objects (EN)
Debugging DNS Resolution (EN)
Developing Cloud Controller Manager (EN)
Encrypting Secret Data at Rest
IP Masquerade Agent User Guide (EN)
Kubernetes Cloud Controller Manager (EN)
Limit Storage Consumption (EN)
Namespaces Walkthrough (EN)
Operating etcd clusters for Kubernetes (EN)
Reconfigure a Node's Kubelet in a Live Cluster (EN)
Reserve Compute Resources for System Daemons (EN)
Safely Drain a Node while Respecting Application SLOs (EN)
Securing a Cluster (EN)
Set up High-Availability Kubernetes Masters (EN)
Share a Cluster with Namespaces (EN)
Storage Object in Use Protection (EN)
Using CoreDNS for Service Discovery (EN)
Using a KMS provider for data encryption (EN)
使用 Calico 来提供 NetworkPolicy
使用 Romana 来提供 NetworkPolicy
使用 Weave 网络来提供 NetworkPolicy
关键插件 Pod 的调度保证
在 Kubernetes 中配置私有 DNS 和上游域名服务器
在 Kubernetes 集群中使用 sysctl
声明网络策略
将 kubeadm 集群在 v1.8 版本到 v1.9 版本之间升级/降级
应用资源配额和限额
控制节点上的CPU管理策略
改变默认 StorageClass
更改 PersistentVolume 的回收策略
设置 Pod CPU 和内存限制
访问集群上运行的服务
通过配置文件设置 Kubelet 参数
配置命名空间下pod总数
集群管理
静态Pods
Extend kubectl with plugins (EN)
使用 Service 把前端连接到后端
使用Deployment运行一个无状态应用
同 Pod 内的容器使用共享卷通信
基于Replication Controller执行滚动升级
对 DaemonSet 执行回滚
弹缩StatefulSet
管理巨页(HugePages)
证书轮换
调度 GPU
运行一个单实例有状态应用
配置对多集群的访问
对 DaemonSet 执行回滚
本文展示了如何对 DaemonSet 执行回滚。
准备开始
- DaemonSet 滚动升级历史和 DaemonSet 回滚特性仅在 Kubernetes 1.7 及以后版本的
kubectl中支持。 - 确保您了解如何 对 DaemonSet 执行滚动升级。
对 DaemonSet 执行回滚
步骤 1: 找到想要 DaemonSet 回滚到的历史版本(revision)
如果只想回滚到最后一个版本,可以跳过这一步。
列出 DaemonSet 的所有版本:
kubectl rollout history daemonset <daemonset-name>该命令返回 DaemonSet 版本列表:
daemonsets "<daemonset-name>"
REVISION CHANGE-CAUSE
1 ...
2 ...
...- 在创建时,DaemonSet 的变化原因从
kubernetes.io/change-cause注解(annotation)复制到其版本中。 用户可以在kubectl中指定--record=true,将执行的命令记录在变化原因注解中。
执行以下命令,来查看指定版本的详细信息:
kubectl rollout history daemonset <daemonset-name> --revision=1该命令返回相应版本的详细信息:
daemonsets "<daemonset-name>" with revision #1
Pod Template:
Labels: foo=bar
Containers:
app:
Image: ...
Port: ...
Environment: ...
Mounts: ...
Volumes: ...步骤 2: 回滚到指定版本
# 在 --to-revision 中指定您从步骤 1 中获取的版本序号
kubectl rollout undo daemonset <daemonset-name> --to-revision=<revision>如果成功,命令会返回:
daemonset "<daemonset-name>" rolled back如果 --to-revision 参数未指定,将选中最近的版本。
步骤 3: 观察 DaemonSet 回滚进度
kubectl rollout undo daemonset 向服务器表明启动 DaemonSet 回滚。 真正的回滚是在服务器端异步完成的。
执行以下命令,来观察 DaemonSet 回滚进度:
kubectl rollout status ds/<daemonset-name> 回滚完成时,输出形如:
daemonset "<daemonset-name>" successfully rolled out理解 DaemonSet 版本
在前面的 kubectl rollout history 步骤中,您获得了一个版本列表,每个版本都存储在名为
ControllerRevision 的资源中。 ControllerRevision 仅在 Kubernetes 1.7 及以后的版本中可用。
查找原始的版本资源,来查看每个版本中存储了什么内容:
kubectl get controllerrevision -l <daemonset-selector-key>=<daemonset-selector-value>该命令返回 ControllerRevisions 列表:
NAME CONTROLLER REVISION AGE
<daemonset-name>-<revision-hash> DaemonSet/<daemonset-name> 1 1h
<daemonset-name>-<revision-hash> DaemonSet/<daemonset-name> 2 1h每个 ControllerRevision 中存储了相应 DaemonSet 版本的注解和模板。
kubectl rollout undo 采用特定 ControllerRevision ,并用
ControllerRevision 中存储的模板代替 DaemonSet 的模板。
kubectl rollout undo 相当于通过其他命令(如 kubectl edit 或 kubectl apply)将 DaemonSet 模板更新至先前的版本。
注意 DaemonSet 版本只会向前滚动。 也就是说,回滚完成后,所回滚到的 ControllerRevision 版本号 (.revision 字段) 会增加。 例如,如果用户在系统中有版本 1 和版本 2,并从版本 2 回滚到版本 1 ,带有 .revision: 1 的ControllerRevision 将变为 .revision: 3。
故障排除
反馈
此页是否对您有帮助?
Thanks for the feedback. If you have a specific, answerable question about how to use Kubernetes, ask it on Stack Overflow. Open an issue in the GitHub repo if you want to report a problem or suggest an improvement.
页面最后一次修改于 October 12, 2018 at 2:25 PM PST by
Update localization guidelines (#10485) (页面历史)