Computer Drive User Manual
Table Of Contents
- Chapter 1. HPSS 7.1 Configuration Overview
- Chapter 2. Security and System Access
- Chapter 3. Using SSM
- 3.1. The SSM System Manager
- 3.2. Quick Startup of hpssgui
- 3.3. Configuration and Startup of hpssgui and hpssadm
- 3.4. Multiple SSM Sessions
- 3.5. SSM Window Conventions
- 3.6. Common Window Elements
- 3.7. Help Menu Overview
- 3.8. Monitor, Operations and Configure Menus Overview
- 3.9. SSM Specific Windows
- 3.10. SSM List Preferences
- Chapter 4. Global & Subsystem Configuration
- 4.1. Global Configuration Window
- 4.2. Storage Subsystems
- 4.2.1. Subsystems List Window
- 4.2.2. Creating a New Storage Subsystem
- 4.2.3. Storage Subsystem Configuration Window
- 4.2.3.1. Create Storage Subsystem Metadata
- 4.2.3.2. Create Storage Subsystem Configuration
- 4.2.3.3. Create Storage Subsystem Servers
- 4.2.3.4. Assign a Gatekeeper if Required
- 4.2.3.5. Assign Storage Resources to the Storage Subsystem
- 4.2.3.6. Create Storage Subsystem Fileset and Junction
- 4.2.3.7. Migration and Purge Policy Overrides
- 4.2.3.8. Storage Class Threshold Overrides
- 4.2.4. Modifying a Storage Subsystem
- 4.2.5. Deleting a Storage Subsystem
- Chapter 5. HPSS Servers
- 5.1. Server List
- 5.1. Server Configuration
- 5.1.1. Common Server Configuration
- 5.1.1. Core Server Specific Configuration
- 5.1.2. Gatekeeper Specific Configuration
- 5.1.3. Location Server Additional Configuration
- 5.1.4. Log Client Specific Configuration
- 5.1.1. Log Daemon Specific Configuration
- 5.1.2. Migration/Purge Server (MPS) Specific Configuration
- 5.1.3. Mover Specific Configuration
- 5.1.3.1. Mover Specific Configuration Window
- 5.1.3.1. Additional Mover Configuration
- 5.1.3.1.1. /etc/services, /etc/inetd.conf, and /etc/xinetd.d
- 5.1.3.1.2. The Mover Encryption Key Files
- 5.1.3.1.3. /var/hpss/etc Files Required for Remote Mover
- 5.1.3.1.1. System Configuration Parameters on IRIX, Solaris, and Linux
- 5.1.3.1.1. Setting Up Remote Movers with mkhpss
- 5.1.3.1.2. Mover Configuration to Support Local File Transfer
- 5.1.1. Physical Volume Repository (PVR) Specific Configuration
- 5.1.1. Deleting a Server Configuration
- 5.1. Monitoring Server Information
- 5.1.1. Basic Server Information
- 5.1.1. Specific Server Information
- 5.1.1.1. Core Server Information Window
- 5.1.1.1. Gatekeeper Information Window
- 5.1.1.1. Location Server Information Window
- 5.1.1.2. Migration/Purge Server Information Window
- 5.1.1.3. Mover Information Window
- 5.1.1.1. Physical Volume Library (PVL) Information Window
- 5.1.1.2. Physical Volume Repository (PVR) Information Windows
- 5.1. Real-Time Monitoring (RTM)
- 5.2. Starting HPSS
- 5.1. Stopping HPSS
- 5.2. Server Repair and Reinitialization
- 5.1. Forcing an SSM Connection
- Chapter 6. Storage Configuration
- 6.1. Storage Classes
- 6.2. Storage Hierarchies
- 6.3. Classes of Service
- 6.4. Migration Policies
- 6.5. Purge Policies
- 6.6. File Families
- Chapter 7. Device and Drive Management
- Chapter 8. Volume and Storage Management
- 8.1. Adding Storage Space
- 8.2. Removing Storage Space
- 8.3. Monitoring Storage Space
- 8.4. Dealing with a Space Shortage
- 8.5. Volume Management
- 8.6. Monitoring and Managing Volume Mounts
- 8.7. New Storage Technology Insertion
- Chapter 9. Logging and Status
- Chapter 10. Filesets and Junctions
- Chapter 11. Files, Directories and Objects by SOID
- Chapter 12. Tape Aggregation
- Chapter 13. User Accounts and Accounting
- Chapter 14. User Interfaces
- Chapter 15. Backup and Recovery
- Chapter 16. Management Tools
CPU Time. The amount of CPU time that the System Manager has consumed.
Memory Usage. The amount of memory that the System Manager is currently occupying.
Process ID. The process id of the System Manager.
Hostname. The name of the host where the System Manager is running.
RPC Calls to Servers. The number of RPCs the System Manager has made to other HPSS servers.
RPC Interface Information. Information about the server and client RPC interfaces. The server
interface is used by other HPSS servers to contact the System Manager. The client interface is used by
the hpssgui and hpssadm programs to contact the System Manager. There are 2 columns of data, one for
the server interface and one for the client interface. Not all fields are available for both interfaces. The
fields include:
• Status. Current status of the thread pool and request queue of the RPC interface. The Status can
be:
• OK – The number of Active RPCs is less than the Thread Pool Size. There are enough
threads in the thread pool to handle all current RPCs with spare ones left over.
• Warning – The number of Active RPCs is greater than the Thread Pool Size. The number
of Queued RPCs is less than 90% of the Request Queue Size. There aren't enough threads to
handle all the current RPCs and some are having to wait in the queue, but the queue is big
enough to hold all the waiters.
• Critical – The number of Queued RPCs is greater than or equal to 90% of the Request
Queue Size. There aren't enough threads to handle all the current RPCs, some are having to
wait in the queue, and the queue is getting dangerously close to overflowing, at which point
any new RPCs will be rejected.
• Thread Pool Size. The maximum number of RPCs that can be active at any one time. For the
server RPC interface this value is determined by the HPSS_SM_SRV_TPOOL_SIZE
environment variable. For the client RPC interface this value is determined by the Thread Pool
Size field defined on the Core Server Configuration window. Refer to Section 5.1.1.2: Error:
Reference source not found on page 92.
• Request Queue Size. The maximum number of RPC requests that can be queued and waiting to
become active. For the server RPC interface this value is determined by the
HPSS_SM_SRV_QUEUE_SIZE environment variable. For the client RPC interface this value
is determined by the Request Queue Size field on the Core Server Configuration window. Refer
to Section 5.1.1.2: Error: Reference source not found on page 92.
• Active RPCs. The number of RPCs that are currently active. To be active an RPC must have been
assigned to a thread in the thread pool.
• Queued RPCs. The number of RPCs that are waiting in the request queue to be assigned to a
thread in the thread pool.
• Maximum Active/Queued RPCs. The maximum number of RPC requests that were active (in
the thread pool) or queued (in the request queue) at the same time. This value can be used to help
tune the Thread Pool Size and Request Queue Size for the RPC interface. If the Maximum
Active/Queued RPCs is greater than the Thread Pool Size you might consider increasing the
HPSS Management Guide November 2009
Release 7.3 (Revision 1.0) 65