| Chapter 4 |
|
4
|
The OpenVMS Cluster Operating Environment
|
|
4.1
|
Preparing the Operating Environment
|
|
4.2
|
Installing the OpenVMS Operating System
|
|
4.2.1
|
System Disks
|
|
4.2.2
|
Where to Install
|
|
4.2.3
|
Information Required
|
|
4.3
|
Installing Software Licenses
|
|
4.3.1
|
Guidelines
|
|
4.4
|
Installing Layered Products
|
|
4.4.1
|
Procedure
|
|
4.5
|
Configuring and Starting a Satellite Booting Service
|
|
4.5.1
|
Configuring and Starting the LANCP Utility
|
|
4.5.2
|
Booting Satellite Nodes with LANCP
|
|
4.5.3
|
Data Files Used by LANCP
|
|
4.5.4
|
Using LAN MOP Services in New Installations
|
|
4.5.5
|
Using LAN MOP Services in Existing Installations
|
|
4.5.6
|
Configuring DECnet
|
|
4.5.7
|
Starting DECnet
|
|
4.5.8
|
What is the Cluster Alias?
|
|
4.5.9
|
Enabling Alias Operations
|
| 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
|
Management Guidelines
|
|
5.4.7
|
Using Clusterwide Logical Names in Applications
|
|
5.4.7.1
|
Clusterwide Attributes for $TRNLNM System Service
|
|
5.4.7.2
|
Clusterwide Attribute for $GETSYI System Service
|
|
5.4.7.3
|
Creating Clusterwide Tables with the $CRELNT System Service
|
|
5.5
|
Defining and Accessing Clusterwide Logical Names
|
|
5.5.1
|
Defining Clusterwide Logical Names in SYSTARTUP_VMS.COM
|
|
5.5.2
|
Defining Certain Logical Names in SYLOGICALS.COM
|
|
5.5.3
|
Using Conditional Definitions for Startup Command Procedures
|
|
5.6
|
Coordinating Startup Command Procedures
|
|
5.6.1
|
OpenVMS Startup Procedures
|
|
5.6.2
|
Building Startup Procedures
|
|
5.6.3
|
Combining Existing Procedures
|
|
5.6.4
|
Using Multiple Startup Procedures
|
|
5.7
|
Providing OpenVMS Cluster System Security
|
|
5.7.1
|
Security Checks
|
|
5.8
|
Files Relevant to OpenVMS Cluster Security
|
|
5.9
|
Network Security
|
|
5.9.1
|
Mechanisms
|
|
5.10
|
Coordinating System Files
|
|
5.10.1
|
Procedure
|
|
5.10.2
|
Network Database Files
|
|
5.11
|
System Time on the Cluster
|
|
5.11.1
|
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
|
Reasons for Using Port Allocation Classes
|
|
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
|
Shadow Set Limits
|
|
6.6.6
|
Distributing Shadowed Disks
|
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