Document revision date: 19 July 1999
OpenVMS Cluster Systems
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Chapter 5
5
Preparing a Shared Environment
5.1
Shareable Resources
5.1.1
Local Resources
5.1.2
Sample Configuration
5.2
Common-Environment and Multiple-Environment Clusters
5.3
Directory Structure on Common System Disks
5.3.1
Directory Roots
5.3.2
Directory Structure Example
5.3.3
Search Order
5.4
Clusterwide Logical Names
5.4.1
Default Clusterwide Logical Name Tables
5.4.2
Translation Order
5.4.3
Creating Clusterwide Logical Name Tables
5.4.4
Alias Collisions Involving Clusterwide Logical Name Tables
5.4.5
Creating Clusterwide Logical Names
5.4.6
Defining Clusterwide Logical Names in SYSTARTUP_VMS.COM
5.4.7
Management Guidelines
5.4.8
Using Clusterwide Logical Names in Applications
5.4.8.1
Clusterwide Attributes for $TRNLNM System Service
5.4.8.2
Clusterwide Attribute for $GETSYI System Service
5.4.8.3
Creating Clusterwide Tables with the $CRELNT System Service
5.5
Coordinating Startup Command Procedures
5.5.1
OpenVMS Startup Procedures
5.5.2
Building Startup Procedures
5.5.3
Combining Existing Procedures
5.5.4
Using Multiple Startup Procedures
5.6
Providing OpenVMS Cluster System Security
5.6.1
Security Checks
5.7
Files Relevant to OpenVMS Cluster Security
5.8
Network Security
5.8.1
Mechanisms
5.9
Coordinating System Files
5.9.1
Procedure
5.9.2
Network Database Files
5.10
System Time on the Cluster
5.10.1
Setting System Time
Chapter 6
6
Cluster Storage Devices
6.1
Data File Sharing
6.1.1
Access Methods
6.1.2
Examples
6.1.3
Specifying a Preferred Path
6.2
Naming OpenVMS Cluster Storage Devices
6.2.1
Allocation Classes
6.2.2
Specifying Node Allocation Classes
6.2.2.1
Assigning Node Allocation Class Values on Computers
6.2.2.2
Assigning Node Allocation Class Values on HSC Subsystems
6.2.2.3
Assigning Node Allocation Class Values on HSJ Subsystems
6.2.2.4
Assigning Node Allocation Class Values on HSD Subsystems
6.2.2.5
Assigning Node Allocation Class Values on DSSI ISEs
6.2.2.6
Node Allocation Class Example With a DSA Disk and Tape
6.2.2.7
Node Allocation Class Example With Mixed Interconnects
6.2.2.8
Node Allocation Classes and VAX 6000 Tapes
6.2.2.9
Node Allocation Classes and RAID Array 210 and 230 Devices
6.2.3
SCSI Device Naming
6.2.3.1
Constraint of the SCSI Controller Letter in Device Names
6.2.3.2
Constraints Removed by Port Allocation Classes
6.2.4
Specifying Port Allocation Classes
6.2.4.1
Port Allocation Classes for Devices Attached to a Multi-Host Interconnect
6.2.4.2
Port Allocation Class 0 for Devices Attached to a Single-Host Interconnect
6.2.4.3
Port Allocation Class -1
6.2.4.4
How to Implement Port Allocation Classes
6.2.4.5
Clusterwide Reboot Requirements for SCSI Interconnects
6.3
MSCP and TMSCP Served Disks and Tapes
6.3.1
Enabling Servers
6.3.1.1
Serving the System Disk
6.3.1.2
Setting the MSCP and TMSCP System Parameters
6.4
MSCP I/O Load Balancing
6.4.1
Load Capacity
6.4.2
Increasing the Load Capacity When FDDI is Used
6.4.3
Available Serving Capacity
6.4.4
Static Load Balancing
6.4.5
Dynamic Load Balancing (VAX Only)
6.4.6
Overriding MSCP I/O Load Balancing for Special Purposes
6.5
Managing Cluster Disks With the Mount Utility
6.5.1
Mounting Cluster Disks
6.5.2
Examples of Mounting Shared Disks
6.5.3
Mounting Cluster Disks With Command Procedures
6.5.4
Disk Rebuild Operation
6.5.5
Rebuilding Cluster Disks
6.5.6
Rebuilding System Disks
6.6
Shadowing Disks Across an OpenVMS Cluster
6.6.1
Purpose
6.6.2
Shadow Sets
6.6.3
I/O Capabilities
6.6.4
Supported Devices
6.6.5
Unsupported Devices
6.6.6
Mounting
6.6.7
Distributing Shadowed Disks
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