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Chapter 10. Optimizing storage
Optimizing storage helps to minimize storage use across all resources. By optimizing storage, administrators help ensure that existing storage resources are working in an efficient manner.
10.1. Available persistent storage options
Understand your persistent storage options so that you can optimize your OpenShift Container Platform environment.
| Storage type | Description | Examples |
|---|---|---|
| Block |
| AWS EBS and VMware vSphere support dynamic persistent volume (PV) provisioning natively in OpenShift Container Platform. |
| File |
| RHEL NFS, NetApp NFS [1], and Vendor NFS |
| Object |
| AWS S3 |
- NetApp NFS supports dynamic PV provisioning when using the Trident plug-in.
Currently, CNS is not supported in OpenShift Container Platform 4.6.
10.2. Recommended configurable storage technology
The following table summarizes the recommended and configurable storage technologies for the given OpenShift Container Platform cluster application.
| Storage type | ROX1 | RWX2 | Registry | Scaled registry | Metrics3 | Logging | Apps |
|---|---|---|---|---|---|---|---|
|
1
2 3 Prometheus is the underlying technology used for metrics. 4 This does not apply to physical disk, VM physical disk, VMDK, loopback over NFS, AWS EBS, and Azure Disk.
5 For metrics, using file storage with the 6 For logging, using any shared storage would be an anti-pattern. One volume per elasticsearch is required. 7 Object storage is not consumed through OpenShift Container Platform’s PVs or PVCs. Apps must integrate with the object storage REST API. | |||||||
| Block | Yes4 | No | Configurable | Not configurable | Recommended | Recommended | Recommended |
| File | Yes4 | Yes | Configurable | Configurable | Configurable5 | Configurable6 | Recommended |
| Object | Yes | Yes | Recommended | Recommended | Not configurable | Not configurable | Not configurable7 |
A scaled registry is an OpenShift Container Platform registry where two or more pod replicas are running.
10.2.1. Specific application storage recommendations
Testing shows issues with using the NFS server on Red Hat Enterprise Linux (RHEL) as storage backend for core services. This includes the OpenShift Container Registry and Quay, Prometheus for monitoring storage, and Elasticsearch for logging storage. Therefore, using RHEL NFS to back PVs used by core services is not recommended.
Other NFS implementations on the marketplace might not have these issues. Contact the individual NFS implementation vendor for more information on any testing that was possibly completed against these OpenShift Container Platform core components.
10.2.1.1. Registry
In a non-scaled/high-availability (HA) OpenShift Container Platform registry cluster deployment:
- The storage technology does not have to support RWX access mode.
- The storage technology must ensure read-after-write consistency.
- The preferred storage technology is object storage followed by block storage.
- File storage is not recommended for OpenShift Container Platform registry cluster deployment with production workloads.
10.2.1.2. Scaled registry
In a scaled/HA OpenShift Container Platform registry cluster deployment:
- The storage technology must support RWX access mode.
- The storage technology must ensure read-after-write consistency.
- The preferred storage technology is object storage.
- Amazon Simple Storage Service (Amazon S3), Google Cloud Storage (GCS), Microsoft Azure Blob Storage, and OpenStack Swift are supported.
- Object storage should be S3 or Swift compliant.
- For non-cloud platforms, such as vSphere and bare metal installations, the only configurable technology is file storage.
- Block storage is not configurable.
10.2.1.3. Metrics
In an OpenShift Container Platform hosted metrics cluster deployment:
- The preferred storage technology is block storage.
- Object storage is not configurable.
It is not recommended to use file storage for a hosted metrics cluster deployment with production workloads.
10.2.1.4. Logging
In an OpenShift Container Platform hosted logging cluster deployment:
- The preferred storage technology is block storage.
- Object storage is not configurable.
10.2.1.5. Applications
Application use cases vary from application to application, as described in the following examples:
- Storage technologies that support dynamic PV provisioning have low mount time latencies, and are not tied to nodes to support a healthy cluster.
- Application developers are responsible for knowing and understanding the storage requirements for their application, and how it works with the provided storage to ensure that issues do not occur when an application scales or interacts with the storage layer.
10.2.2. Other specific application storage recommendations
It is not recommended to use RAID configurations on Write intensive workloads, such as etcd. If you are running etcd with a RAID configuration, you might be at risk of encountering performance issues with your workloads.
- Red Hat OpenStack Platform (RHOSP) Cinder: RHOSP Cinder tends to be adept in ROX access mode use cases.
- Databases: Databases (RDBMSs, NoSQL DBs, etc.) tend to perform best with dedicated block storage.
- The etcd database must have enough storage and adequate performance capacity to enable a large cluster. Information about monitoring and benchmarking tools to establish ample storage and a high-performance environment is described in Recommended etcd practices.
10.3. Data storage management
The following table summarizes the main directories that OpenShift Container Platform components write data to.
| Directory | Notes | Sizing | Expected growth |
|---|---|---|---|
| /var/log | Log files for all components. | 10 to 30 GB. | Log files can grow quickly; size can be managed by growing disks or by using log rotate. |
| /var/lib/etcd | Used for etcd storage when storing the database. | Less than 20 GB. Database can grow up to 8 GB. | Will grow slowly with the environment. Only storing metadata. Additional 20-25 GB for every additional 8 GB of memory. |
| /var/lib/containers | This is the mount point for the CRI-O runtime. Storage used for active container runtimes, including pods, and storage of local images. Not used for registry storage. | 50 GB for a node with 16 GB memory. Note that this sizing should not be used to determine minimum cluster requirements. Additional 20-25 GB for every additional 8 GB of memory. | Growth is limited by capacity for running containers. |
| /var/lib/kubelet | Ephemeral volume storage for pods. This includes anything external that is mounted into a container at runtime. Includes environment variables, kube secrets, and data volumes not backed by persistent volumes. | Varies | Minimal if pods requiring storage are using persistent volumes. If using ephemeral storage, this can grow quickly. |
