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HP OpenVMS Systems Documentation

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HP OpenVMS Version 8.3 New Features and Documentation Overview


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3.8 OpenVMS Cluster Interconnect

The following features are added to the LAN-based cluster communications driver (PEdriver) in in OpenVMS Version 8.3:

  • Data compression
  • Multi-gigabit line speed & long distance performance scaling

Data compression may be used to reduce the time to transfer data between two OpenVMS nodes when the LAN speed between them is limiting the data transfer rate, and there is idle CPU capacity available. For example, it may be used to reduce shadow copy times, or improve MSCP serving performance between Disaster Tolerant Clusters sites connected by relatively low-speed links such as E3 or DS3, FDDI, or 100Mb Ethernet. PEdriver data compression can be enabled by using SCACP, Availability Manager, or the NISCS_PORT_SERV sysgen parameter.

The number of packets in flight between nodes needs to increase proportionally to both the speed of LAN links and the inter-node distance. Historically, PEdriver had fixed transmit and receive windows (buffering capacity) of 31 outstanding packets. Beginning with OpenVMS Version 8.3, PEdriver now automatically selects transmit and receive window sizes (sometimes called pipe quota by other network protocols) based on the speed of the current set of local and remote LAN adapters being used for cluster communications between nodes. Additionally, SCACP and Availability Manager now provide management override of the automatically-selected window sizes.

For more information, see the SCACP utility chapter, and NISCS_PORT_SERV in the HP OpenVMS System Management Utilities Reference Manual and the HP OpenVMS Availability Manager User's Guide.

3.9 OpenVMS Operating System Media Patch-Related Menu Option

The OpenVMS operating system distribution media main menu now includes a new option (7) that enables you to perform patch-related operations. When you select option 7, you are brought to a submenu that provides options enabling you to search the patch kits, install patches, remove recent patches for which there is recovery data, and to show and delete recovery data. As a result, you can perform these operations even when the operating system cannot be booted (in which case you cannot use the PCSI PRODUCT command). This example shows the menu options:


Please choose one of the following:

  1) Upgrade, install or reconfigure OpenVMS I64 Version X8.3-BBV
  2) Display layered products that this procedure can install
  3) Install or upgrade layered products
  4) Show installed products
  5) Reconfigure installed products
  6) Remove installed products
  7) Find, Install, or Undo patches; Show or Delete Recovery Data
  8) Execute DCL commands and procedures
  9) Shut down this system

Enter CHOICE or ? for help: (1/2/3/4/5/6/7/8/9/?)

Although options 2 and 3 of the main menu can still be used to perform patch operations, HP recommends that you use the new option 7 submenu operations; the functionality provided by these operations is more extensive and more reliable. For example, when you install patches using the new submenu option, recovery data is saved automatically. In addition, the new options allow you to specify locations on which to perform the operations (in addition to the default target device). You can use wildcards to specify locations.

3.10 PCSI Utility Enhancements

OpenVMS Version 8.3 contains the following enhancements for the PCSI utility:

  • Manual verification of the product database using the PRODUCT ANALYZE PDB command
  • Automatic verification of the product database using the PRODUCT INSTALL command
  • Full support for ODS-5 volumes
  • Validation of signed product kits performed by several PRODUCT commands

3.10.1 PRODUCT ANALYZE PDB

The new PRODUCT ANALYZE PDB command verifies the structural integrity of the product database and, in some circumstances, performs minor repairs. This command:

  • Reads all SYS$SYSTEM:*.PCSI$DATABASE files that are referenced in the root file PCSI$ROOT.PCSI$DATABASE.
  • Checks all fields in these files for correct syntax.
  • Automatically performs minor repair when a known corruption pattern can be identified and a repair is feasible.
  • Provides instructions on how to rebuild the database if an unrecoverable corruption is found.

For information on optional qualifiers for the command, see the POLYCENTER Software Installation utility chapter in the HP OpenVMS System Management Utilities Reference Manual.

3.10.2 Automatic Verification of the Product Database

The PRODUCT INSTALL command has been enhanced to automatically verify the product database at the start of the operation and again when the product database is updated. The verification and repair actions are similar to those provided by the PRODUCT ANALYZE PDB command. Other PRODUCT commands that modify the database (such as PRODUCT RECONFIGURE and PRODUCT REMOVE) also perform a verification pass.

3.10.3 Support for ODS-5 Volumes

The PCSI utility now provides full support for enhanced ODS-5 directory and file specification syntax. Prior to OpenVMS Version 8.3, product kits could be installed on ODS-5 disks, but all files were placed on the destination volume using ODS-2 syntax rules (for example, file names were in upper case only). With ODS-5 support, the kit developer can create a kit that installs files utilizing enhanced syntax such as:

  • Upper, lower, and mixed case names
  • Multiple dots in file specifications
  • Extended character set
  • Long names

The technique used to specify enhanced syntax is to quote the name specification parameter of the DIRECTORY or FILE statement in the product description file (PDF). For example, consider a PDF file that contains the following two lines:


file [test]file_one.txt ;
file "[test]File_Two.txt" ;

If the destination disk is an ODS-5 volume, the PCSI utility for OpenVMS Version 8.3 will install the first file as FILE_ONE.TXT and the second file as File_Two.txt. For compatibility with older versions of the PCSI utility, an unquoted specification is changed to all uppercase characters.

In addition, the product developer can test whether a volume is ODS-2 or ODS-5 by use of a new PDF statement of the form:


IF ( < FILESYSTEM { ODS-2 | ODS-5 } [ VOLUME { DESTINATION | SYSTEM } ] > ) ;

For example, to conditionally process statements if the destination volume is ODS-5, the following lines can be used:



IF ( < FILESYSTEM ods-5 VOLUME destination > ) ;

...

END IF ;

3.10.4 Support for Secure Delivery of Product Kits

Several PRODUCT commands have been enhanced to support Secure Delivery of product kits. See Section 5.2 for an overview of Secure Delivery. The following capabilities have been added to the PCSI utility:

  • All PRODUCT commands that read product kits will validate signed kits before use if their associated digital signature file (also referred to as a manifest) is present in the source directory. These commands are PRODUCT CONFIGURE, COPY, EXTRACT, INSTALL, LIST, RECONFIGURE, and REGISTER PRODUCT. A digital signature file has the same file name and file type as the product kit with an "_ESW" appended to the file type. For example, HP-I64VMS-TEST-V0100--1.PCSI$COMPRESSED_ESW.
  • The new PCSI utility can install unsigned kits and older versions of the PCSI utility can install signed kits except that they will not be validated.
  • Kit validation can be disabled by use of the /OPTIONS=NOVALIDATE_KIT qualifier.
  • The PRODUCT COPY command will copy both the specified kits and their manifest files (if present).
  • The PRODUCT SHOW HISTORY command has a new field called VAL which indicates the validation status of a product. Possible status codes are:
    • VAL --- kit was successfully validated
    • SYS --- kit was installed from OS media during an OpenVMS installation or upgrade, but not validated
    • (U) --- kit was not validated because it was unsigned
    • (M) --- kit was not validated because no manifest file was found in the kit's source directory
    • (D) --- kit was not validated because validation was disabled by user request
    • (C) --- kit was not validated because CDSA was not operational
    • <hyphen> --- not applicable for the operation (such as removal of a product)
    • <blank> --- operation was performed by a version of the PCSI utility that does not support secure delivery
  • The output from the PRODUCT LIST command contains additional information such as whether the kit is signed and a manifest file has been found.

For more information about PRODUCT commands and qualifiers that support secure delivery, see the POLYCENTER Software Installation utility chapter in the HP OpenVMS System Management Utilities Reference Manual.

3.10.5 Defaults Changed on Two Qualifiers

In OpenVMS Version 8.3, default values for certain qualifiers are changed for the following commands:

  • PRODUCT INSTALL
    The following defaults are changed:
    • The /RECOVERY_MODE qualifier is now the default when you install a product. (This is a change from /NORECOVERY_MODE as the default.)
    • The /SAVE_RECOVERY_DATA qualifier is now the default when you install patch and mandatory update kits. (This is a change from /NOSAVE_RECOVERY_DATA as the default.)
  • PRODUCT RECONFIGURE
    The /RECOVERY_MODE qualifier is now the default when you reconfigure a product. (This is a change from /NORECOVERY_MODE as the default.)

3.11 SANCP Utility

The SANCP utility allows you to limit the number of active I/Os a host may have across all paths to Logical Unit Numbers (LUN) on a given Fibre Channel storage port. A storage port can be selected by a discrete or wildcarded port World Wide ID (WWID) or by a product ID substring.

The SANCP utility processes a command and qualifiers passed to it on the command line, allowing it to be executed from a DCL script, or it prompts you if started with no command. For more information about the SANCP utility, see the SANCP Help facility.

3.12 SAS Utility (I64 Only)

The SAS utility (SAS$UTIL)is an OpenVMS system management and diagnostic tool that is capable of configuring Integrated RAID (IR) functionality for the HP 8 Internal Port Serial Attached SCSI Host Bus Adapter (SAS Controller).

Integrated RAID (IR) is used where extra performance, storage capacity, or redundancy of a RAID configuration, or all three, are required. OpenVMS Version 8.3 supports only Integrated RAID 1 or Integrated Mirroring (IM) and its associated Global Hot Spare capability.

For more detailed information, see the HP OpenVMS System Management Utilities Reference Manual.

3.13 SCACP utility

The following new features are added to the SCACP utility in OpenVMS Version 8.3:

  • Data compression
  • Multi-gigabit & distance performance scaling

These new features are described in the following sections.

3.13.1 Data Compression Management

The SCACP SET VC command now includes a /COMPRESSION (or /NOCOMPRESSION) qualifier, which enables or disables sending compressed data by the specified PEdriver VCs. The default is /NOCOMPRESSION.

You can also enable the VC use of compression by setting bit 3 of the NISCS_PORT_SERV system parameter. The /NOCOMPRESSION qualifier does not override compression enabled by setting bit 2 of NISCS_PORT_SERV.

3.13.2 Multi-Gigabit Scaling

You can use the SET VC COMMAND /WINDOW=RECEIVE_SIZE=value and /WINDOW=TRANSMIT_SIZE=value qualifiers to override the automatically calculated receive and transmit window sizes for a PEdriver VC. The /WINDOW=NORECEIVE_SIZE and /WINDOW=NOTRANSMIT_SIZE qualifiers can be used to remove management override of the window sizes. You can use /WINDOW=(NORECEIVE_SIZE,NOTRANSMIT_SIZE) to remove the override from both transmit and receive window sizes with a single command.

These new command qualifiers can be used to ensure that the VC has enough buffering to receive, and can transmit sufficient packets before waiting for return acknowledgments, to attain maximum bandwidth between nodes. To avoid unnecessary VC closures, these commands have restrictions on the order that they are issued. For information about these restrictions, see the HP OpenVMS System Management Utilities Reference Manual and the SCACP Help facility.

The new SCACP command, CALCULATE WINDOW_SIZE, can be used to determine the maximum window size that the VC should be using. This command has two required qualifiers, /DISTANCE=KILOMETERS (or MILES)=n and /SPEED=s, where n is the cable route distance between the two nodes, and s is the total bandwidth of all links being used for cluster communications between the nodes.

The SCACP SHOW VC command now displays if compression is enabled on a VC, and there are new columns for the management settings for transmit and receive window size.

For more information, see the SCACP utility chapter, and NISCS_PORT_SERV in the HP OpenVMS System Management Utilities Reference Manual and HP OpenVMS Availability Manager User's Guide.

3.14 HP OpenVMS I64 Serial Multiplexer (MUX) Support (I64 Only)

RS232 serial lines and multiplexers are used for a variety of tasks, from traditional terminal connections to low-speed system-to-system communications and even communications with remote instruments. OpenVMS has traditionally supported adding serial lines at the same time as option-card-based multiplexers. This solution requires dedicating I/O slots; it also limits the choices of option cards available.

With the widespread adoption of the Universal Serial Bus (USB) on industry-standard platforms, OpenVMS has moved away from option-card-based multiplexers and has adopted USB to add serial lines to HP Integrity servers. Rather than using one or two option-card solutions with 8 or 16 lines for all configurations, you can now configure USB to meet your exact requirements.

Testing shows that the USB-based serial multiplexers perform as well as (or better than) their option-card counterparts and cause very low overhead to the system. In fact, the overhead is lower than option-card-based multiplexers.

For more information about HP MUX support, see the HP OpenVMS System Management Utilities Reference Manual.

3.15 Spinlock Trace Utility (SPL)

The Spinlock Trace utility available through SDA has been changed to report the various spinlock hold and wait times in nanoseconds instead of cycles. This allows for easy comparison of information collected among systems with different cycle counter frequencies.

The display has also been enhanced to show the full 64-bit address of PCs as we are moving code to run in P2 and S2 space. Also the decoding of the PC address has been enhanced to show the module, routine and offset for I64. The SPL ANALYZE and SPL SHOW COLLECT commands displays the additional PC decoding by default, but SPL SHOW TRACE [/SUMMARY] shows the information only if the /FULL qualifier is specified because the display is already congested.

3.16 HP OpenVMS System Analysis Tools

The following sections describe the new features provided in the System Analysis Tools utilities. The HP OpenVMS System Analysis Tools Manual is not updated for this release, but the additions and changes noted in this manual and in the HP OpenVMS Version 8.3 Release Notes have been included in online help for the SDA utility and in related commands for ANALYZE and System Service Logging.

3.16.1 System Dump Debugger

The System Dump Debugger (SDD) is now supported on OpenVMS for Integrity servers as well as on OpenVMS Alpha.

3.16.2 System Dump Analyzer

The following sections describe the following new SDA or SDA extension commands and new callable routine extensions, as well as several new qualifiers for SDA commands:

  • COLLECT command
  • SHOW CLASS command
  • SHOW EFI command
  • SHOW VHPT command
  • VALIDATE POOL command
  • VALIDATE PROCESS command
  • CLUE REGISTER
  • CLUE SCSI
  • SDA$CBB_BOOLEAN_OPER routine
  • SDA$CBB_CLEAR_BIT routine
  • SDA$CBB_COPY routine
  • SDA$CBB_FFC routine
  • SDA$CBB_FFS routine
  • SDA$CBB_INIT routine
  • SDA$CBB_SET_BIT routine
  • SDA$CBB_TEST_BIT routine
  • SDA$DELETE_PREFIX routine
  • SDA$FID_TO_NAME routine
  • SDA$GET_FLAGS routine

The Common Bitmask Block (CBB) routines, SDA$CBB_xxx, are designed for use with local copies of the CBB structures that describe the CPUs in use in a system. The CBB structures are assumed to be at least CBB$K_STATIC_BLOCK bytes in length. The definitions of the various CBB constants and field names used by these routines can be found in CBBDEF.H in SYS$LIBRARY:SYS$LIB_C.TLB.

The set of routines is not intended to be an exhaustive set of all possible CBB-related operations, but provides those operations known to be needed. They may not work as expected with CBB structures set up for any purpose other than to describe CPUs.


COLLECT

Collects file identification to file name translation data on both OpenVMS Alpha and OpenVMS for Integrity servers, and processes unwind data only on OpenVMS for Integrity servers.

Format

COLLECT [qualifiers]


Parameters

None


Qualifiers

/LOG

Displays information on the progress of the COLLECT command, for example, the name of the process being scanned, or (on Integrity servers) the name of an image whose unwind data is being collected.

/SAVE [= file-name]

Writes collection data to a separate file. By default, a file of type .COLLECT with the same name as the dump file is created in the same directory as the dump file.

/UNDO

Removes all the file or unwind data from an earlier COLLECT command from SDA's memory. COLLECT/UNDO does not affect the file or unwind data already appended to the dump file being analyzed, or already written to a separate collection file.

Description

When a dump is being analyzed, it is useful to have data available that cannot be written to the dump file at the time of the system crash. This data includes the full file specification associated with a file identification. On OpenVMS for Integrity servers, it also contains the unwind data for images activated in processes.

If the dump is being analyzed on the system where it is originally written, this data can be collected for use in the current SDA session using the COLLECT command. If the dump is being copied for analysis elsewhere, the COPY/COLLECT command can be used to collect the data and append it to the copy being written. If the COPY/COLLECT command is used after a COLLECT command, the data already collected is appended to the dump copy.

For all file or unwind data to be collected successfully, all disks that were mounted at the time of the system crash should be remounted and accessible to the process running SDA.

If the COPY and the COLLECT cannot be done as a single step, a COLLECT/SAVE command writes the collection to a separate file that can be used later with the dump file. A subsequent COPY command combines the two files.


SHOW CLASS

Displays information about scheduling classes that are active in the system or dump being analyzed.

Format

SHOW CLASS [class-name | /ALL]


Parameters

class-name

Name of the class to be displayed.

Qualifiers

/ALL

Indicates that details of all active classes are to be displayed.

Description

SDA displays information about active scheduling classes in the system. By default, a summary of the classes is displayed.

SHOW EFI (I64 Only)

Displays information from the Extensible Firmware Interface (EFI) data structures. Currently, the only display provided by SDA is the EFI memory map.

Format

SHOW EFI /MEMMAP [=ALL] [range]


Parameters

range

The entry or range of entries to be displayed, expressed using the following syntax:
m---Displays the entry m.
m:n---Displays the entries from m to n.
m;n---Displays n entries starting at m.

You cannot specify a range with /MEMMAP=ALL.


Qualifiers

/MEMMAP [=ALL]

Displays the EFI memory map. This qualifier is required. By default, only entries in the EFI memory map with the runtime attribute are displayed. If the /MEMMAP=ALL qualifier is specified, all entries are displayed.

You cannot specify the /MEMMAP=ALL qualifier and supply a range of entries to be displayed.


Description

SDA locates the EFI memory map in the system or dump and displays the contents. If no range is given, SDA also displays information about the location and size of the memory map.

SHOW VHPT (I64 Only)

Displays data from the Virtual Hash Page Table.

Format

SHOW VHPT [ /CPU = { n | * } [ /ALL ] [ range ] ]


Parameters

range

The entry or range of entries to be displayed, expressed using the following syntax:
m---Displays the VHPT entry m.
m:n---Displays the VHPT entries from m to n.
m;n---Displays n VHPT entries starting at m.

A range can only be provided if a single CPU is specified with the /CPU qualifier.


Qualifiers

/CPU = { n | * }

Indicates that the detailed contents of the VHPT for one or all CPUs is to be displayed. The default action is for a summary of VHPT information to be displayed.

/ALL

Displays all VHPTs for the specified CPU(s). Without /ALL, only entries that have a valid tag are displayed.

Description

Displays contents of the Virtual Hash Page Table on an OpenVMS I64 system. By default, a summary of the VHPT entries is displayed. If CPUs are specified, details of individual VHPT entries are displayed for the CPUs. If a single CPU is specified, specific VHPT entries for that CPU are displayed.

In the detailed display, the columns are as follows:

Table 3-3
Entry VHPT Entry Number
Bits One or more of the following flags:
P---Present
A---Accessed
D---Dirty
E---Exception deferral
I---Tag invalid (only seen if /ALL is specified)
MA One of the following memory attributes:
WB---Write Back
UC---Uncacheable
UCE---Uncacheable Exported
WC---Write Coalescing
NaT---NaTPage
AR/PL The access rights and privilege level of the page. Consists of a number (0-7) and a letter (K, E, S, or U) that determines access to the page in each mode.
KESU The access allowed to the page in each mode. This is an interpretation of the AR/PL values in the previous column. For an explanation of the access codes, see HP OpenVMS System Analysis Tools Manual.
Physical address The starting physical address for this VHPT entry.
Page size The size of the page represented by this VHPT entry. Page sizes for VHPT entries range from 4KB to 4GB. Not all possible pages sizes are used by OpenVMS for Integrity servers.
Tag The translation tag for the VHPT entry.
Quad4 Information recorded by OpenVMS for Integrity servers for debugging purposes. The contents of this quadword are subject to change.


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