- Function Overview
- Product Bulletin
- Service Overview
- Billing
- Getting Started
-
User Guide
- Clusters
- Workloads
- Network
- Storage
- O&M
- Namespaces
- ConfigMaps and Secrets
- Auto Scaling
- Add-ons
- Helm Chart
- Permissions
- Settings
- Best Practices
-
API Reference
- Before You Start
- API Overview
- Calling APIs
-
APIs
- Autopilot Cluster Management
- Add-on Management for Autopilot Clusters
-
Autopilot Cluster Upgrade
- Upgrading a Cluster
- Obtaining Cluster Upgrade Task Details
- Retrying a Cluster Upgrade Task
- Obtaining a List of Cluster Upgrade Task Details
- Performing a Pre-upgrade Check for a Cluster
- Obtaining Details About a Pre-upgrade Check Task of a Cluster
- Obtaining a List of Pre-upgrade Check Tasks of a Cluster
- Performing a Post-upgrade Check for a Cluster
- Backing Up a Cluster
- Obtaining a List of Cluster Backup Task Details
- Obtaining the Cluster Upgrade Information
- Obtaining a Cluster Upgrade Path
- Obtaining the Configuration of Cluster Upgrade Feature Gates
- Enabling the Cluster Upgrade Process Booting Task
- Obtaining a List of Upgrade Workflows
- Obtaining Details About a Specified Cluster Upgrade Booting Task
- Updating the Status of a Specified Cluster Upgrade Booting Task
- Quota Management for Autopilot Clusters
- Tag Management for Autopilot Clusters
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Chart Management for Autopilot Clusters
- Uploading a Chart
- Obtaining a Chart List
- Obtaining a Release List
- Creating a Release
- Updating a Chart
- Deleting a Chart
- Updating a Release
- Obtaining a Chart
- Deleting a Release
- Obtaining a Release
- Downloading a Chart
- Obtaining Chart Values
- Obtaining Historical Records of a Release
- Obtaining the Quota of a User Chart
- Kubernetes APIs
- Permissions and Supported Actions
- Appendix
-
FAQs
- Billing
- Workloads
- Network Management
-
Storage
- Can PVs of the EVS Type in a CCE Autopilot Cluster Be Restored After They Are Deleted or Expire?
- What Can I Do If a Storage Volume Fails to Be Created?
- Can CCE Autopilot PVCs Detect Underlying Storage Faults?
- How Can I Delete the Underlying Storage If It Remains After a Dynamically Created PVC is Deleted?
- Permissions
- General Reference
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CCE Autopilot and Other Services
Table 1 describes how CCE Autopilot collaborates with other services.
Service |
Relationship |
---|---|
VPC |
CCE Autopilot clusters run in VPCs. Pods created in a cluster will be assigned private IP addresses from the CIDR block of the VPC where the cluster is running. For more information about VPC, see Virtual Private Cloud. |
ELB |
CCE Autopilot can work with ELB to improve service capabilities and fault tolerance by associating load balancers with workloads. You can access a container workload from an external network through a load balancer. For more information, see Elastic Load Balance. |
SWR |
An image repository is used to store and manage Docker images. You can create workloads using images in SWR. For more information about SWR, see SoftWare Repository for Container. |
EVS |
EVS disks can be attached to workloads and scaled to a higher capacity whenever needed. Up to 10 EVS disks can be attached to each workload in a cluster. If more than 10 EVS disks are attached, the workload may run abnormally. For more information about EVS disks, see Elastic Volume Service. |
OBS |
OBS is a scalable service that provides secure, reliable, and cost-effective cloud storage for massive amounts of data. With OBS, you can create, modify, and delete buckets, as well as uploading, downloading, and deleting objects. CCE Autopilot allows you to create an OBS volume and mount it to a path inside a container. For more information about OBS, see Object Storage Service. |
SFS |
SFS is a fully managed, shared file storage service that supports the Network File System protocol. SFS file systems can scale up to petabytes, ensuring optimal performance for data-intensive and bandwidth-intensive applications. You can use SFS file systems as persistent storage for containers and mount the file systems to containers when creating a workload. For more information about SFS, see Scalable File Service. |
SFS Turbo |
SFS Turbo provides fully managed shared file storage that can be automatically scaled to 320 TB. It provides as little as sub-millisecond latency and up to tens of millions of IOPS and hundreds GB/s of bandwidth. Its high availability and durability can provide strong support for applications dealing with massive small files and requiring low latency and high IOPS, such as AI training, autonomous driving, and rendering. In addition, SFS Turbo supports NFS and SMB protocols and is compatible with mainstream operating systems. The GUI is easy to use, reducing operation costs. CCE Autopilot allows you to mount storage volumes created from SFS Turbo file systems and their subdirectories to a path of a container for persistent data storage. For more information about SFS Turbo, see What Is SFS Turbo? |
CTS |
CTS records operations on your cloud resources, allowing you to obtain, audit, and backtrack resource operation requests initiated from the public cloud management console or open APIs as well as responses to these requests. For more information about CTS, see Cloud Trace Service (CTS). |
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