Sun Cluster 3.2 1/09 support for the dynamic reconfiguration (DR) software feature is being developed in incremental phases. This section describes concepts and considerations for Sun Cluster 3.2 1/09 support of the DR feature.
All the requirements, procedures, and restrictions that are documented for the Solaris DR feature also apply to Sun Cluster DR support (except for the operating environment quiescence operation). Therefore, review the documentation for the Solaris DR feature before by using the DR feature with Sun Cluster software. You should review in particular the issues that affect non-network IO devices during a DR detach operation.
The Sun Enterprise 10000 Dynamic Reconfiguration User Guide and the Sun Enterprise 10000 Dynamic Reconfiguration Reference Manual (from the Solaris 10 on Sun Hardware collection) are both available for download from http://docs.sun.com.
The DR feature enables operations, such as the removal of system hardware, in running systems. The DR processes are designed to ensure continuous system operation with no need to halt the system or interrupt cluster availability.
DR operates at the board level. Therefore, a DR operation affects all the components on a board. Each board can contain multiple components, including CPUs, memory, and peripheral interfaces for disk drives, tape drives, and network connections.
Removing a board that contains active components would result in system errors. Before removing a board, the DR subsystem queries other subsystems, such as Sun Cluster, to determine whether the components on the board are being used. If the DR subsystem finds that a board is in use, the DR remove-board operation is not done. Therefore, it is always safe to issue a DR remove-board operation because the DR subsystem rejects operations on boards that contain active components.
The DR add-board operation is also always safe. CPUs and memory on a newly added board are automatically brought into service by the system. However, the system administrator must manually configure the cluster to actively use components that are on the newly added board.
The DR subsystem has several levels. If a lower level reports an error, the upper level also reports an error. However, when the lower level reports the specific error, the upper level reports Unknown error. You can safely ignore this error.
The following sections describe DR considerations for the different device types.
Sun Cluster software does not reject a DR remove-board operation because of the presence of CPU devices.
When a DR add-board operation succeeds, CPU devices on the added board are automatically incorporated in system operation.
For the purposes of DR, consider two types of memory:
Kernel memory cage
Non-kernel memory cage
These two types differ only in usage. The actual hardware is the same for both types. Kernel memory cage is the memory that is used by the Solaris Operating System. Sun Cluster software does not support remove-board operations on a board that contains the kernel memory cage and rejects any such operation. When a DR remove-board operation pertains to memory other than the kernel memory cage, Sun Cluster software does not reject the operation. When a DR add-board operation that pertains to memory succeeds, memory on the added board is automatically incorporated in system operation.
Sun Cluster rejects dynamic reconfiguration (DR) remove-board operations on active drives on the primary host. You can perform DR remove-board operations on inactive drives on the primary host and on any drives in the secondary host. After the DR operation, cluster data access continues as before.
Sun Cluster rejects DR operations that impact the availability of quorum devices. For considerations about quorum devices and the procedure for performing DR operations on them, see SPARC: DR Clustering Considerations for Quorum Devices.
See Dynamic Reconfiguration With Quorum Devices in Sun Cluster System Administration Guide for Solaris OS for detailed instructions about how to perform these actions.
If the DR remove-board operation pertains to a board that contains an interface to a device configured for quorum, Sun Cluster software rejects the operation. Sun Cluster software also identifies the quorum device that would be affected by the operation. You must disable the device as a quorum device before you can perform a DR remove-board operation.
See Chapter 6, Administering Quorum, in Sun Cluster System Administration Guide for Solaris OS for detailed instructions about how administer quorum.
If the DR remove-board operation pertains to a board containing an active cluster interconnect interface, Sun Cluster software rejects the operation. Sun Cluster software also identifies the interface that would be affected by the operation. You must use a Sun Cluster administrative tool to disable and remove the active interface before the DR operation can succeed.
Sun Cluster software requires each cluster node to have at least one functioning path to every other cluster node. Do not disable a private interconnect interface that supports the last path to any Solaris host in the cluster.
See Administering the Cluster Interconnects in Sun Cluster System Administration Guide for Solaris OS for detailed instructions about how to perform these actions.
If the DR remove-board operation pertains to a board that contains an active public network interface, Sun Cluster software rejects the operation. Sun Cluster software also identifies the interface that would be affected by the operation. Before you remove a board with an active network interface present, switch over all traffic on that interface to another functional interface in the multipathing group by using the if_mpadm command.
If the remaining network adapter fails while you are performing the DR remove operation on the disabled network adapter, availability is impacted. The remaining adapter has no place to fail over for the duration of the DR operation.
See Administering the Public Network in Sun Cluster System Administration Guide for Solaris OS for detailed instructions about how to perform a DR remove operation on a public network interface.