Expand specific resources of a container

Guidelines for expansion processes that only involve the addition of a specific resource.

Expanding resources within a container involves dynamically adjusting the allocation of CPU, memory, storage, and other system resources to meet applications' changing demands. By effectively managing these resources, organizations can optimize performance, enhance scalability, and ensure the smooth operation of their containerized applications.

Expansion guidelines

The following commands are available to expand the containers' resources:

  • weka cluster container: Run actions on a remote container (or containers for specific sub-commands).

  • weka local resources: Run actions locally.

Adhere to the following guidelines when expanding specific resources:

  • Specify the container: Run the relevant weka cluster container command with the specific container-id you want to expand. Once you run the command, the container is staged to update in the cluster.

  • View existing resources: To view the non-applied configuration, run the weka cluster container resources <container-id>command.

  • Apply changes on a specific container: To apply changes on a specific container in the cluster, run the weka cluster container apply <container-id> command. It is possible to accumulate several changes on a container and apply only once on completion.

  • Apply changes on a local server: To apply changes in the local container, run the weka local resources apply command.

  • The apply command saves the last configuration: Once the apply command is complete, the last local configuration of the container that successfully joined the cluster is saved. If a failure occurs with the new configuration, the container automatically remains with the existing stable configuration. Run the weka cluster container resources <container-id> --stable command to view the existing configuration.

  • Expansion on active or deactivated containers: You can dynamically expand some of the resources on active containers and others only after deactivating the container. For example, you can add CPU cores only on a deactivated container.

weka cluster container command description

Command: weka cluster container <sub-command> <container-id> [options]

Some sub-commands accept <container-ids>. See details in the following table.

Subcommands

Options

Expansion procedures on a remote container

Modify the memory

Run the following command lines on the active container:

weka cluster container memory <container-id> <capacity-memory>
weka cluster container apply <container-id>
Example

To change the memory of container-id 0 to 1.5 GiB, run the following commands:

weka cluster container memory 0 1.5GiB
weka cluster container apply 0

After reducing the memory allocation for a container, follow these steps to release hugepages on each container:

  1. Stop the container locally. Run weka local stop

  2. Release hugepages. Run weka local run release_hugepages

  3. Restart the container locally. Run weka local start

Modify the network configuration

Run the following command lines on the active container:

weka cluster container net add <container-id> <device>
weka cluster container apply <container-id>
Example

To add another network device to container-id 0, run the following commands:

weka cluster container net add 0 eth2
weka cluster container apply 0

Modify the container IP addresses

Run the following command lines on the active container:

weka cluster container management-ips <container-id> <management-ips>
weka cluster container apply <container-id>
Example

To change the management IPs on container-id 0, run the following commands:

weka cluster container management-ips 0 192.168.1.10 192.168.1.20
weka cluster container apply 0

The number of management IP addresses determines whether the container uses high-availability (HA) networking, causing each IO process to use both containers' NICs.

A container with two IP addresses uses HA networking. A container with only one IP does not use HA networking.

If the cluster uses InfiniBand and Ethernet network technologies, you can define up to four IP addresses.

Add CPU cores to a container

You can add dedicated CPU cores to a container locally and on a deactivated container. The added cores must be dedicated to a specific process type: compute, drives, or frontend.

For clarity, the following procedure exemplifies expansion on the container running the compute processes.

Procedure

  1. Deactivate the container. Run the following command: weka cluster container deactivate <container-ids>

  2. Run the following command line to set the number of dedicate cores to the compute container: weka cluster container cores <container-id> <number of total cores> --compute-dedicated-cores <number of total cores> --no-frontends

  3. Apply the changes. Run the following command: weka cluster container apply <containr-id>

  4. Check the number of cores dedicated to the compute processes. Run the following command: weka cluster container <container-ids>

Example

The following example sets 10 cores to the compute0 container. The container id is 1. It is important to add --no-frontends to allocate the cores dedicated to the compute processes.

weka cluster container deactivate 1
weka cluster container cores 1 10 --compute-dedicated-cores 10 --no-frontends
weka cluster container apply 1
weka cluster container 1
//response
ROLES       NODE ID  CORE ID
MANAGEMENT  0        <auto>
COMPUTE     1        <auto>
COMPUTE     2        <auto>
COMPUTE     3        <auto>
COMPUTE     4        <auto>
COMPUTE     5        <auto>
COMPUTE     6        <auto>
COMPUTE     7        <auto>
COMPUTE     8        <auto>
COMPUTE     9        <auto>
COMPUTE     10       <auto>
  1. Activate the container. Run the following command: weka cluster container activate <container-ids>

Expand SSDs only

You can add new SSD drives to a container. However, adding SSD drives may alter the ratio between SSDs and drive cores, potentially impacting performance. For optimal system efficiency, take note of this adjustment when considering expansion.

Procedure

  1. Ensure the cluster has a drive core to allocate for the new SSD. If a drive core is required, deactivate the container and then add the drive core to the container. See Add CPU cores to a container.

  2. Identify the relevant container ID to which you want to add the SSD drive. Run the command: weka cluster container

  3. Scan for new drives. Run the command: weka cluster drive scan

  4. To add the SSDs, run the following command: weka cluster drive add <container-id> <device-paths> Where: container-id is the Identifier of the drive container to add the local SSD drives. device-paths is a list of block devices that identify local SSDs. It must be a valid Unix network device name. Format: Space-separated strings. Example: /dev/nvme0n1 /dev/nvme1n1

weka local resources command description

You can also modify the resources on a local container by connecting to it and running the weka local resources command equivalent to its weka cluster remote counterpart command.

These local commands have the same semantics as their remote counterpart. You do not specify the container-id as the first parameter. All actions are done on the local container.

Command: weka local resources

Subcommands

Options

Example: Set dedicated cores for the compute processes locally

The following example sets 10 cores to the compute0 container. The container id is 1. It is important to add --no-frontends to allocate the cores dedicated to the compute processes.

weka cluster container deactivate 1

//Connect to the relevant server to run the following commands locally.

weka local resources cores 10 --compute-dedicated-cores 10 -C compute0 --no-frontends
weka local resources -C compute0

//response
ROLES       NODE ID  CORE ID
MANAGEMENT  0        <auto>
COMPUTE     1        <auto>
COMPUTE     2        <auto>
COMPUTE     3        <auto>
COMPUTE     4        <auto>
COMPUTE     5        <auto>
COMPUTE     6        <auto>
COMPUTE     7        <auto>
COMPUTE     8        <auto>
COMPUTE     9        <auto>
COMPUTE     10       <auto>

Graceful container management: ensuring safe actions

The weka local stop, restart, and apply resources commands perform graceful stop operations by default, ensuring actions are executed safely to minimize the risk of unexpected issues or disruptions. The system automatically prioritizes safety during cluster maintenance without requiring the --graceful option. If non-graceful action is required, add the --force option.

Additionally, stopping and starting dependent containers is the default behavior for the weka local stop/start commands, providing seamless management of dependent services. To override this behavior, use the --skip-start-and-enable-dependent or --skip-stop-and-enable-dependent options.

How the default graceful process works:

  • Action Initiation: Sends a request to the container for the specified action (STOP, RESTART, or APPLY_RESOURCES).

  • Safety check: Evaluates feasibility based on current state and safety constraints (for example, ensuring sufficient resources post-action).

  • Draining and execution: If safe, the container transitions to the DRAINING state to complete ongoing operations. Once DRAINED, the action is executed.

Example: Prioritizing stability

If stopping a container would violate minimum failure domain requirements, the graceful stop prevents the action to maintain system health.

The graceful process applies exclusively to cluster containers, not to protocol containers.

Example: prioritizing stability
CONTAINER ID  HOSTNAME  CONTAINER  IPS             STATUS          REQUESTED ACTION  REQUESTED ACTION FAILURE
0             Host-0    drives0    10.108.206.201  UP              STOP              Upon completion of this operation, there are 4 reliable containers available for cluster leadership, while the requirement is for 5.                 
6             Host-0    compute0   10.108.206.201  DRAINED (DOWN)  STOP                                 
12            Host-0    frontend0  10.108.206.201  DRAINING        RESTART     

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