Defines or changes the session, batch job, or system values or characteristics. See the Description of each command for details. Format SET option
1 – Description
The following table lists all the SET command options, including those generally reserved for use by system operators and managers. Option Function ACCOUNTING Controls the current accounting file. AUDIT Provides the management interface to the security auditing system. BOOTBLOCK Initializes the boot block on the target (Integrity servers) device. BROADCAST Determines which messages will be broadcast to SYS$OUTPUT. CACHE/RESET Resets systemwide I/O caching statistics for the extended file cache (XFC). CARD_READER Defines the default ASCII translation mode for a card reader. CLUSTER/EXPECTED_ Sets the total expected votes in the OpenVMS VOTES Cluster to a value that you specify or, if no value is specified, sets the total votes to a value determined by the system. COMMAND Adds commands that are defined in a command description file to your process command set or a command tables file. CONTROL Enables or disables interrupts caused by Ctrl/T or Ctrl/Y. CPU Changes the user capabilities associated with the specified CPUs. DAY Overrides the default day type specified in the user authorization file (UAF). DEFAULT Establishes a device and directory as the current default for file specifications. DEVICE Defines device characteristics. DEVICE/SERVED Lets you make a disk on a local node available to all the nodes on an OpenVMS Cluster. DIRECTORY Modifies the characteristics of one or more directories. DISPLAY Redirects the output of a DECwindows application. ENTRY Changes the current status or attributes of a job not currently executing in a queue. FILE Modifies the characteristics of one or more files. HOST Connects your terminal (through the current host processor) to another processor, called the remote processor. HOST/DTE Connects your system to a remote system by way of an outgoing terminal line. HOST/DUP Connects your terminal to a storage controller through the appropriate bus for that controller. HOST/HSC Connects your terminal to a remote HSC50 disk and tape controller through the computer interconnect (CI) bus. HOST/LAT Connects your terminal to a specified service available in the local area network (LAN), establishing one session for communication between your terminal and that service. HOST/RLOGIN Allows you to log in to a remote host over a TCP/IP connection and start an interactive terminal session by accessing the RLOGIN application. HOST/TELNET Connects you to a remote host over a TCP/IP connection by invoking the TELNET application. HOST/TN3270 Connects you to a remote IBM host over a TCP/IP connection, causing the local keyboard to emulate an IBM 3279-class terminal keyboard by invoking the TN3270 terminal emulator. IMAGE Modifies or restores the image attributes of an OpenVMS ELF format image file. KEY Changes the current keypad state setting. LOGINS Allows or disallows users to log in to the system. MAGTAPE Defines characteristics of a magnetic tape device. MESSAGE Overrides or supplements system messages. NETWORK Registers the attributes of a network service. ON Controls whether the command interpreter checks for an error condition following the execution of commands in a command procedure. OUTPUT_RATE Sets the rate at which output is written to a batch job log file. PASSWORD Lets users change their own passwords; lets system managers change the system password. PREFERRED_PATH Specifies a particular host or preferred path to access a specific MSCP class disk or TMSCP class tape device. PREFIX Allows you to set a prefix control string for verified command lines. PRINTER Defines printer characteristics. PROCESS Defines execution characteristics of the current process. PROMPT Defines the DCL prompt. PROTECTION/DEFAULT Establishes the default protection to be applied to all files subsequently created. QUEUE Changes the current status or attributes of the specified queue. RESTART_VALUE Establishes a test value for restarting portions of batch jobs. RIGHTS_LIST Lets users modify the process rights list; lets privileged users modify the system rights list. RMS_DEFAULT Provides default multiblock and multibuffer count values to be used by RMS for file operations. SECURITY Modifies the security profile of an object. SERVER ACME Controls starting, stopping, and restarting of (Alpha/Integrity the ACME server, which controls authentication servers only) policies for $ACM system service clients. SERVER REGISTRY Controls starting, stopping, and restarting (Alpha/Integrity of the Registry server, which provides access servers only) to the Registry database for $REGISTRY system service clients. SERVER SECURITY Controls starting, stopping, and restarting of the security server, which maintains information stored in the system intrusion and proxy databases. SHADOW Changes the characteristics of shadow sets (Alpha/Integrity created using Volume Shadowing for OpenVMS. servers only) SYMBOL Controls access to local and global symbols in command procedures. TERMINAL Defines terminal characteristics. TIME Resets the system clock to the specified value. VERIFY Controls whether the command interpreter displays lines in command procedures as it executes them. VOLUME Modifies the characteristics of one or more Files-11 volumes. WORKING_SET Changes the current working set limit or quota.
2 – ACCOUNTING
Controls the current accounting file. Requires OPER (operator) privilege. Format SET ACCOUNTING
2.1 – Qualifiers
2.1.1 /DISABLE
/DISABLE[=(keyword[,...])] Prevents the tracking of the resources specified by the keywords. The following table lists the keywords you can use to specify the type of resource. Keyword Type of Resource IMAGE Resources used by an image LOGIN_FAILURE Resources used by an unsuccessful attempt to log in MESSAGE Unformatted record written to the accounting file by a call to the $SNDJBC system service PRINT Resources used by a print job PROCESS Resources used by a process You do not need to stop the tracking of all processes and images. You can prevent resources being tracked for specific types of process and for images running in these types of process. The following table lists the keywords you can use to specify the type of process. Keyword Type of Process BATCH Batch process DETACHED Detached process INTERACTIVE Interactive process NETWORK Network process SUBPROCESS Subprocess (the parent process can be a batch, detached, network, or interactive process) If the system is no longer tracking any resources, /DISABLE closes the current accounting file. If you use the /DISABLE qualifier and omit the keywords, the current accounting file does not track any resources, and the system closes the file.
2.1.2 /ENABLE
/ENABLE[=(keyword[,...])] Enables the tracking of the specified resources, and opens the current accounting file if it is not already open. The following table lists the keywords you can use to specify the type of resource. Keyword Type of Resource IMAGE Resources used by an image LOGIN_FAILURE Resources used by an unsuccessful attempt to log in MESSAGE (Unformatted record written to the accounting file by a call to the $SNDJBC system service) PRINT Resources used by a print job PROCESS Resources used by a process You do not need to track all processes and images. You can track resources for specific types of process and for images running in those types of process. The following table lists the keywords you can use to specify the type of process. Keyword Type of Process BATCH Batch process DETACHED Detached process INTERACTIVE Interactive process NETWORK Network process SUBPROCESS Subprocess (the parent process can be a batch, detached, network, or interactive process) If you use the /ENABLE qualifier and omit the keywords, the current accounting file tracks all resources.
2.1.3 /LOG
Writes information to the current SYS$OUTPUT device as the command executes.
2.1.4 /NEW_FILE
Closes the current accounting file, and starts up a new version of it. The name of the new file depends on whether the logical name ACCOUNTNG is defined in your system logical name table. If this logical name is not defined, the SET ACCOUNTING command opens the file SYS$MANAGER:ACCOUNTNG.DAT. If this logical name is defined, the command opens the file that this logical name points to. If you omit the directory, SYS$MANAGER is the default, and if you omit the file type, .DAT is the default. The /NEW_FILE qualifier writes a record to the end of the old file that contains a forward pointer to the new file, and a record to the beginning of the new file that contains a backward pointer to the old file. These records contain the names of the new and old files respectively.
2.2 – Examples
1.$ SET ACCOUNTING /DISABLE /ENABLE=(PROCESS,BATCH,INTERACTIVE) $ SET ACCOUNTING /ENABLE=IMAGE This example tells the system to track the resources used only by batch and interactive processes, and by images running in batch and interactive processes. It illustrates the cumulative effect of /ENABLE and /DISABLE qualifiers, and of SET ACCOUNTING commands. The /DISABLE qualifier prevents the tracking of all resources. The /ENABLE qualifier then tells the system to track the resources used by batch and interactive processes. The second SET ACCOUNTING command tells the system to track the resources used by images. 2.$ SET ACCOUNTING /NEW_FILE $ RENAME SYS$MANAGER:ACCOUNTNG.DAT;-1 WEEK_24_RESOURCES.DAT This example closes the current accounting file, opens a new version of it, and changes the name of the old file to WEEK_24_RESOURCES.DAT.
3 – ACL
The SET ACL command is obsolete. Use the SET SECURITY/ACL command.
4 – AUDIT
Provides the management interface to the security auditing system. Requires the SECURITY privilege. Format SET AUDIT/qualifier There are five categories of qualifiers, grouped by task, for the SET AUDIT command: Task Qualifiers Requirements Define /AUDIT, Specify whether you are defining auditing /ALARM, alarms (/ALARM), audits (/AUDIT), events /CLASS, or both. Also specify whether you /ENABLE, are enabling (/ENABLE) or disabling /DISABLE (/DISABLE) the reporting of the event. Define /DESTINATION, Requires both the /DESTINATION and auditing /JOURNAL, /JOURNAL qualifiers. log file /VERIFY Define /INTERVAL, None. operational /LISTENER, character- /SERVER, istics of /VERIFY the audit server and a listener mailbox (if any) Define /ARCHIVE, None. secondary /DESTINATION, log file /VERIFY Define /BACKLOG, With the /RESOURCE or /THRESHOLD resource /EXCLUDE, qualifier, include the /JOURNAL monitoring /JOURNAL, qualifier. defaults /RESOURCE, /THRESHOLD, /VERIFY
4.1 – Qualifiers
4.1.1 /ALARM
Makes the command apply to alarms, which are messages displayed on an operator terminal. See the description of the DCL command REPLY/ENABLE for details on how to enable terminals to display security messages.
4.1.2 /ARCHIVE
/ARCHIVE=[keyword,...] Specifies which classes of audit event messages are written to the security archive file. Specify one or more of the following keywords: Keyword Description NONE Disables archiving on the system. [NO]ALL (default) Enables or disables archiving of all system security events. By default, no events are archived. SYSTEM_ALARM Enables archiving of all security alarm events. SYSTEM_AUDIT Enables archiving of all security audit events. Archiving should be run on only one node in an OpenVMS Cluster with its own audit server database because multiple nodes will try to open the audit file exclusively.
4.1.3 /AUDIT
Makes the command apply to audits, which are messages recorded in the system security audit log file.
4.1.4 /BACKLOG
/BACKLOG=[keyword[,...]] Specifies the thresholds for suspending a process that has exceeded the process message limit. The thresholds include the total number of messages in memory and the number belonging to the particular process. To prevent a process from being suspended, use the /EXCLUDE qualifier. Specify the following keywords: Keyword Description TOTAL=(n1,n2,n3) Thresholds at which flow control is initiated and accelerated; see description below. PROCESS=(p1,p2) Thresholds at which process submissions are controlled. Total Process Messages Default Messages Default Action Taken N1 100 P1 5 When there are 100 messages in memory, the audit server suspends any process that has submitted 5 or more messages until all messages are written to disk. N2 200 P2 2 When there are 200 messages in memory, the audit server suspends any process that has submitted 2 or more messages until all messages are written to disk. N3 300 Any process with messages in memory is suspended until all messages are written to disk.
4.1.5 /CLASS
/CLASS=class Specifies the class of the object whose auditing attributes are to be modified. If /CLASS is not specified, the command assumes the class is FILE. Specify one of the following keywords with the /CLASS qualifier: CAPABILITY COMMON_EVENT_CLUSTER DEVICE FILE GROUP_GLOBAL_SECTION LOGICAL_NAME_TABLE QUEUE RESOURCE_DOMAIN SECURITY_CLASS SYSTEM_GLOBAL_SECTION VOLUME
4.1.6 /DESTINATION
/DESTINATION=filespec When changing the destination of event messages, specifies the new location of the system security audit log file. The device, if part of the file specification, must be a disk. The /DESTINATION qualifier requires the /JOURNAL qualifier in this case. Once you have relocated the log file, execute the command SET AUDIT/SERVER=NEW_LOG to let all the nodes in the cluster know of the new location. The previous audit log file is closed and all subsequent audit event messages generated throughout the cluster are sent to the new audit log file. When used with /ARCHIVE, specifies the name of the archive log file. Events can be archived to a local or remote file on any file-structured disk device. For example, you can use an archive file to redirect event messages from a satellite to a larger node in the cluster.
4.1.7 /DISABLE
/DISABLE=(keyword[,...]) Disables alarms or audits for the specified events. To disable all system events and file access events, specify the keyword ALL. You must specify at least one of the keywords. For a list of the keywords to use with the /DISABLE qualifier, see the /ENABLE qualifier description. You must also specify either the /ALARM or /AUDIT qualifier, or both, when you use the /DISABLE qualifier. NOTE In processing the SET AUDIT command, the system processes the /DISABLE qualifier last. If you specify both the /ENABLE and /DISABLE qualifiers for items in the same class on the same command line, the /DISABLE qualifier disables any enabled items. VSI recommends that you use separate lines for commands containing the /ENABLE and /DISABLE qualifiers.
4.1.8 /ENABLE
/ENABLE=(keyword[,...]) Enables alarms or audits for the specified events. To enable all system events and file access events, specify the keyword ALL. You must specify at least one keyword. You must also specify either the /ALARM or /AUDIT qualifier, or both, when you use the /ENABLE qualifier. The keywords that you can specify with either the /ENABLE or the /DISABLE qualifier are as follows: Keyword Description ACCESS=(condition Specifies access events for all objects in a class. (To audit a single object, use an [:access[,...]] auditing ACE and enable the access control list [,...]) (ACL) category.) VSI recommends that when you enable auditing conditionally, you enable it for all possible forms of access because the system can check access rights at several points during an operation. (For example, a FAILURE might occur on a read or write access check.) See the VSI OpenVMS Guide to System Security for information about the various types of access permitted on each class. (For example, the Access keyword, CREATE, is not defined for FILE objects.) Condition Description Keyword ALL All object access BYPASS Successful object access due to the use of the BYPASS privilege FAILURE Unsuccessful object access GRPPRV Successful object access due to the use of the group privilege (GRPPRV) READALL Successful object access due to the use of the READALL privilege SUCCESS Successful object access SYSPRV Successful object access due to the use of the system privilege (SYSPRV) Access Description Keyword ALL All types of access ASSOCIATE Associate access CONTROL Control access to examine or change security characteristics CREATE Create access. To audit create events for files, use the CREATE keyword. DELETE Delete access EXECUTE Execute access LOCK Lock access LOGICAL Logical I/O access MANAGE Manage access PHYSICAL Physical I/O access READ Read access SUBMIT Submit access WRITE Write access ACL Specifies an event requested by an audit or alarm ACE in the access control list (ACL) of an object. To audit all objects of a class, use the ACCESS keyword. ALL Specifies all system events and file access events. It does not enable access events for object classes other than FILE. AUDIT=keyword Specifies events within the auditing subsystem. Only one keyword is currently defined. Keyword Description ILLFORMED Specifies illformed events from internal calls (identified by NSA$M_INTERNAL) to $AUDIT_ EVENT, $CHECK_PRIVILEGE, $CHKPRO, or $CHECK_ACCESS system services. An illformed event is caused by an incomplete or syntactically incorrect argument being supplied to one of these system services by a piece of privileged code. AUTHORIZATION Specifies the modification of any portion of the system user authorization file (SYSUAF), network proxy authorization file (NETPROXY), or the rights list (RIGHTLIST) (including password changes made through the AUTHORIZE, SET PASSWORD, or LOGINOUT commands or the $SETUAI system service). BREAKIN=(keyword Specifies the occurrence of one or more classes [,...]) of break-in attempts, as specified by one or more of the following keywords: ALL DETACHED DIALUP LOCAL NETWORK REMOTE CONNECTION Specifies a logical link connection or termination through DECnet-Plus, DECnet Phase IV, DECwindows, $IPC, or SYSMAN. CREATE Specifies the creation of an object. Requires the /CLASS qualifier if it is not a file. DEACCESS Specifies deaccess from an object. Requires the /CLASS qualifier if it is not a file. DELETE Specifies the deletion of an object. Requires the /CLASS=DEVICE qualifier. FILE_ACCESS= This keyword is obsolete and is superseded (keyword[,...]) by the ACCESS keyword, which is valid on all OpenVMS Version 6.1 or higher systems. On Alpha, this keyword specifies the occurrence of file and global section access events (regardless of the value given in the object's access control list [ACL], if any). IDENTIFIER Specifies that the use of identifiers as privileges should be audited. For further information, see the VSI OpenVMS Guide to System Security. INSTALL Specifies modifications made to the known file list through the INSTALL utility. LOGFAILURE= Specifies the occurrence of one or more (keyword[,...]) classes of login failures, as specified by the following keywords: ALL All possible types of login failures BATCH Batch process login failure DETACHED Detached process login failure DIALUP Dialup interactive login failure LOCAL Local interactive login failure NETWORK Network server task login failure REMOTE Interactive login failure from another network node, for example, with a SET HOST command SERVER Server or TCB-based login failure. SUBPROCESS Subprocess login failure LOGIN= Specifies the occurrence of one or more (keyword[,...]) classes of login attempts, as specified by the following keywords. See the LOGFAILURE keyword for further description. ALL BATCH DETACHED DIALUP LOCAL NETWORK REMOTE SERVER SUBPROCESS LOGOUT= Specifies the occurrence of one or more classes (keyword[,...]) of logouts, as specified by the following keywords. See the LOGFAILURE keyword for further description. ALL BATCH DETACHED DIALUP LOCAL NETWORK REMOTE SERVER SUBPROCESS MOUNT Specifies a mount or dismount operation. NCP Specifies access to the network configuration database, using the network control program (NCP). PRIVILEGE= Specifies successful or unsuccessful use (keyword[,...]) of privilege, as specified by the following keywords: FAILURE [:privilege(,...)] - Unsuccessful use of privilege SUCCESS [:privilege(,...)] - Successful use of privilege For a listing of privileges, see the online help for the DCL command SET PROCESS/PRIVILEGES. PROCESS= Specifies the use of one or more of the process (keyword[,...]) control system services, as specified by the following keywords: ALL Use of any of the process control system services CREPRC All use of $CREPRC DELPRC All use of $DELPRC SCHDWK Privileged use of $SCHDWK CANWAK Privileged use of $CANWAK WAKE Privileged use of $WAKE SUSPND Privileged use of $SUSPND RESUME Privileged use of $RESUME GRANTID Privileged use of $GRANTID REVOKID Privileged use of $REVOKID GETJPI Privileged use of $GETJPI FORCEX Privileged use of $FORCEX SETPRI Privileged use of $SETPRI Privileged use of a process control system service means the caller used GROUP or WORLD privilege to affect the target process. SYSGEN Specifies the modification of a system parameter with the OpenVMS System Generation utility. TIME Specifies the modification of system time.
4.1.9 /EXCLUDE
/EXCLUDE=process-id /NOEXCLUDE=process-id Adds a process identification (PID) to the audit server's process exclusion list. The process exclusion list contains those processes that will not be suspended by the audit server if a resource exhaustion reaches the action threshold. By default, realtime processes and all of the following processes are included in the process exclusion list and are never suspended: CACHE_SERVER CLUSTER_SERVER CONFIGURE DFS$COM_ACP DNS$ADVER IPCACP JOB_CONTROL NETACP NET$ACP OPCOM REMACP SHADOW_SERVER SMISERVER SWAPPER TP_SERVER VWS$DISPLAYMGR VWS$EMULATORS Use the SET AUDIT/NOEXCLUDE command to remove a process from the process exclusion list; however, processes listed above cannot be removed from the exclusion list. Also note that PIDs are not automatically removed from the process exclusion list when processes log out of the system.
4.1.10 /FAILURE_MODE
/FAILURE_MODE[=keyword] This qualifier is obsolete. On Alpha, specifies how the OpenVMS system proceeds following a failed attempt to write a security alarm to the operator communication process's (OPCOM's) mailbox. Specify one of the following keywords with the /FAILURE_MODE qualifier: Option Description CRASH Forces a system failure if security alarms cannot be written. IGNORE Indicates that failing security alarms are to be ignored. The first failed alarm causes an error message to be written to the operator console and log file. The system maintains a count of the lost alarms, which can be displayed with the SHOW AUDIT command. WAIT Indicates that processes are placed in the MWAIT state to wait until the resource is available. This is the default. The /ALARM qualifier is required when specifying an audit failure mode.
4.1.11 /INTERVAL
/INTERVAL=(keyword[,...]) Specifies the delta times to be used for regular audit server operations. For information about specifying delta times, see the OpenVMS User's Manual. The following table describes keywords for the /INTERVAL qualifier: Keyword Description ARCHIVE_ Specifies the interval at which data collected FLUSH=time by the audit server is written to the archive file. The default is 1 minute. JOURNAL_ Specifies the interval at which data collected FLUSH=time by the audit server is written to the audit log file. The default is 5 minutes. RESOURCE_ Specifies the interval at which the audit server MONITOR=time retries log file allocation or access. This interval applies whenever free space in the log file is below either the warning or action thresholds, or when the volume holding the log file is inaccessible. The default interval is 5 minutes. RESUME_ Specifies the interval at which the audit SCAN=time server reviews an existing resource exhaustion condition. The default is 15 minutes.
4.1.12 /JOURNAL
/JOURNAL[=journal-name] Specifies the name of the audit journal; the name defaults to SECURITY. (Currently, there is only one journal.) The /JOURNAL qualifier is required when redefining the audit log file or when specifying resource monitoring characteristics with the /RESOURCE or the /THRESHOLD qualifier.
4.1.13 /LISTENER
/LISTENER=device /NOLISTENER Specifies the name of a mailbox device to which the audit server sends a binary copy of all security audit event messages. Users can create such a mailbox to process system security events as they occur. For a description of the message formats written to the listener mailbox, see the Audit Analysis Utility documentation in the VSI OpenVMS System Management Utilities Reference Manual. Use the SET AUDIT/NOLISTENER command to disable a listener device.
4.1.14 /RESOURCE
/RESOURCE=keyword[,...] Enables or disables the monitoring of disk volumes to ensure adequate space for audit journal entries; it also specifies the monitoring method to use. The /JOURNAL qualifier is required. For more information about resource monitoring, see the VSI OpenVMS Guide to System Security. Keyword Description DISABLE Disables monitoring on the disk volume containing the audit journal. ENABLE Enables resource monitoring on the disk volume containing the audit journal. MONITOR_ This keyword is obsolete. MODE=mode Specifies the method the audit server uses to monitor available resources. Specify one of the following keywords: COUNT Controls whether resource monitoring is based on the amount of free disk space required to store a fixed number of event messages. PERCENTAGE Controls whether resource monitoring is based on the percentage of the disk volume or volume set available. SPACE Controls whether resource monitoring is based on the number of free blocks on the disk. The is the default method used for resource monitoring. TIME Controls whether resource monitoring is based on the amount of free disk space needed to store events which occur over a fixed period of time (in seconds).
4.1.15 /SERVER
/SERVER=keyword[,...] Modifies audit server characteristics. The following table describes keywords for the /SERVER qualifier: Keyword Description CREATE_SYSTEM_LOG This keyword is obsolete. Use SET AUDIT/SERVER=NEW_LOG On Alpha, causes the audit server to create a new local system security audit log file. Other audit servers in the cluster are not affected. This keyword may be used by sites operating a multienvironment cluster where it may be necessary to create a new log file on a specific node in the cluster. CREATE_ SYSTEM_LOG is synonymous with NEW_LOG for nonclustered systems. EXIT Initiates an audit server shutdown. This is the only method for removing the audit server process from the system; the audit server cannot be deleted or suspended. FINAL_ Specifies the action the audit server should ACTION=action take when it runs out of memory and cannot buffer messages. (For more information, see the discussion of message flow control in the VSI OpenVMS Guide to System Security.) Specify one of the following actions: CRASH - Crash the system if the audit server runs out of memory. IGNORE_NEW - Ignore new event messages until memory is available. New event messages are lost but event messages in memory are saved. PURGE_OLD (default) - Remove old event messages until memory is available for the most current messages. FLUSH Copies all buffered audit and archive records to the security audit log file and security archive file, respectively. INITIATE Enables auditing during system startup. Ordinarily, auditing is started from VMS$LPBEGIN in STARTUP.COM but, if a site redefines the logical name SYS$AUDIT_SERVER_ INHIBIT, the OpenVMS system waits for a SET AUDIT/SERVER=INITIATE command before enabling auditing. NEW_LOG Creates a new clusterwide audit log file. Typically, this is used daily to generate a new version of the audit log file. The following sequence of commands can be used to reset the space monitoring thresholds and then to recreate the auditing log, thereby creating a smaller log file: $ SET AUDIT /JOURNAL=SECURITY /THRESHOLD=WARN=200 $ SET AUDIT /SERVER=NEW_LOG By default, the size of the new auditing log file is based on the size of the previous auditing logs. REDIRECT_SYSTEM_ This keyword is obsolete. Use SET LOG AUDIT/SERVER=NEW_LOG. On Alpha, causes the audit server on the local node to redirect security event messages to a new audit log file, whose location was defined previously by the /DESTINATION qualifier. Audit server processes (and log files) on other nodes in the cluster are unaffected. RESUME Requests the audit server process to resume normal activity on the system, if adequate disk space is available. Normally, once the resource monitoring action threshold has been reached, the audit server process suspends most system activity and waits 15 minutes before attempting to resume normal system activity. START Starts the audit server process on the system. In order to fully enable the auditing subsystem, the SET AUDIT/SERVER=INITIATE command must be used after the SET AUDIT/SERVER=START command has completed. VSI recommends using the following command procedure to start the audit server: SYS$SYSTEM:STARTUP AUDIT_SERVER
4.1.16 /THRESHOLD
/THRESHOLD=type=value Specifies threshold values used in monitoring available space in the audit log file. The auditing system issues advisory messages to central and security operators whenever free space in the audit log file falls below the WARNING threshold. The auditing system suspends processes that generate audit events when free disk space is below the action threshold. (See /RESOURCE=[enable|disable]). The /JOURNAL qualifier is required. The following table lists the types of thresholds: Keyword Description WARNING=value Specifies the threshold at which the audit server notifies all security operator terminals that resources are getting low. ACTION=value Specifies the threshold at which the audit server starts suspending processes that are generating audit records. (Certain processes are immune to this: see the VSI OpenVMS Guide to System Security). RESUME=value This keyword is obsolete. Specifies the threshold at which the audit server resumes normal system activity. The following table lists the default warning and action values for each monitoring mode: Mode Warning Action Blocks 100 25 Delta time 2 0:00:00 0 0:30:00
4.1.17 /VERIFY
Do not return the dollar sign ($) prompt until the audit server completes the command. Associated qualifiers determine which of the following actions occur: o Redefinition of auditing events o Redefinition of the audit log file or the archive file o Modification of the audit server's operational characteristics o Modification of resource monitoring attributes If you do not want to wait for the command to complete, specify /NOVERIFY.
4.2 – Examples
1.$ SET AUDIT/AUDIT/ENABLE= - _$ (CREATE,ACCESS=(SYSPRV,BYPASS),DEACCESS)/CLASS=FILE $ SHOW AUDIT/AUDIT System security audits currently enabled for: . . . FILE access: Failure: read,write,execute,delete,control SYSPRV: read,write,execute,delete,control BYPASS: read,write,execute,delete,control Other: create,deaccess The SET AUDIT command in this example enables auditing of file creation and file deaccess; it also enables auditing for any file access done by using either SYSPRV or BYPASS privilege. 2.$ SET AUDIT/JOURNAL=SECURITY/DESTINATION=AUDIT$:[AUDIT]TURIN $ SET AUDIT/SERVER=NEW $ SHOW AUDIT/JOURNAL List of audit journals: Journal name: SECURITY Journal owner: (system audit journal) Destination: AUDIT$:[AUDIT]TURIN.AUDIT$JOURNAL The SET AUDIT command in this example demonstrates how to switch to a new journal. 3.$ SET AUDIT/SERVER=FINAL=CRASH $ SHOW AUDIT/SERVER Security auditing server characteristics: Database version: 4.4 Backlog (total): 100, 200, 300 Backlog (process): 5, 2 Server processing intervals: Archive flush: 0 00:01:00.00 Journal flush: 0 00:05:00.00 Resource scan: 0 00:05:00.00 Final resource action: crash system The SET AUDIT command in this example changes the audit server's final action setting so the system crashes when the audit server runs out of memory. 4.$ SET AUDIT/ARCHIVE/DESTINATION=SYS$SPECIFIC:[SYSMGR]TURIN-ARCHIVE $ SHOW AUDIT/ARCHIVE Security archiving information: Archiving events: system audits Archive destination: SYS$SPECIFIC:[SYSMGR]TURIN-ARCHIVE.AUDIT$JOURNAL The SET AUDIT command in this example enables a node-specific archive file. 5.$ SET AUDIT/JOURNAL/RESOURCE=ENABLE $ SHOW AUDIT/JOURNAL List of audit journals: Journal name: SECURITY Journal owner: (system audit journal) Destination: SYS$COMMON:[SYSMGR]SECURITY.AUDIT$JOURNAL Monitoring: enabled Warning thresholds, Block count: 100 Duration: 2 00:00:00.0 Action thresholds, Block count: 25 Duration: 0 00:30:00.0 The SET AUDIT command in this example enables disk monitoring and switches the mode so the disk space is monitored in terms of time rather than free blocks.
5 – BOOTBLOCK
Valid on Integrity server systems only. Initializes the boot block on the target device. Format SET BOOTBLOCK [boot-file]
5.1 – Parameters
boot-file Specifies the filename of the boot file for the target disk. Architecture-specific defaults are applied for the boot file. For Integrity servers, the default is SYS$SYSROOT:[SYS$LDR]SYS$EFI.SYS (SYS$EFI). The boot file must be contiguous. If the target boot file is not contiguous, use the DCL command COPY/CONTIGUOUS or another functionally similar mechanism to recreate a contiguous version of the boot file. The boot file must also be marked NOMOVE (using the DCL command SET FILE/NOMOVE) to avoid a bootstrap failure that could result from the normal and expected operations of disk defragmentation tools.
5.2 – Description
The SET BOOTBLOCK command writes a boot block onto the specified disk. As an alternative to using the SET BOOTBLOCK command, you can use RUN to invoke the SETBOOT utility, which then prompts you for all required input.
5.3 – Qualifier
5.3.1 /BLOCK_SIZE
/BLOCK_SIZE=512 (default) /BLOCK_SIZE=2048 Specifies the target block size for the bootstrap device, in bytes. The 512-byte block size applies for most disk devices. The 2048- byte block size typically is used only when writing the boot block to specific OpenVMS Integrity servers CD and DVD devices.
5.3.2 /I64
Specifies OpenVMS Integrity servers as the target architecture for the boot block. The default boot file for OpenVMS Integrity servers is SYS$SYSROOT:[SYS$LDR]SYS$EFI.SYS.
5.3.3 /PRESERVE
/PRESERVE=keyword /PRESERVE=SIGNATURE /PRESERVE=SIGNATURE maintains the existing GUID disk signature value. The default is to generate a new signature for the target volume. SIGNATURE is the only keyword currently supported.
6 – BROADCAST
Enables you to selectively screen out various kinds of messages from being broadcast to your terminal. Format SET BROADCAST=(class-name[,...])
6.1 – Parameter
class-name[,...] Specifies the class of message that you want to enable or disable for broadcast to your terminal. If you specify only one class, you can omit the parentheses. The class names are as follows: ALL Enables all message classes. [NO]DCL Specifies Ctrl/T and SPAWN/NOTIFY messages. [NO]GENERAL Specifies all normal REPLY messages or messages from $BRDCST. [NO]MAIL Specifies notification of mail. NONE Disables all message classes. [NO]OPCOM Specifies messages issued by the operator communication process (OPCOM). [NO]PHONE Specifies messages from the Phone utility. [NO]QUEUE Specifies messages referring to print or batch jobs issued by the queue manager. [NO]SHUTDOWN Specifies messages issued from the REPLY/SHUTDOWN command. [NO]URGENT Specifies messages issued from the REPLY/URGENT command. [NO]USER1 to Specifies messages from specific user [NO]USER16 groups. (For information on setting up user-written broadcast messages, see the description of the $BRKTHRU system service in the VSI OpenVMS System Services Reference Manual.)
6.2 – Examples
1.$ SET BROADCAST=(NOMAIL, NOPHONE) . . . $ SET BROADCAST=MAIL In this example, the first SET BROADCAST command screens out all mail and phone messages. Later the second SET BROADCAST command restores mail messages. Phone messages are still screened. 2.$ SET BROADCAST=NONE . . . $ SET BROADCAST=(SHUTDOWN, URGENT, DCL, OPCOM) In this example, the first SET BROADCAST command screens out all messages. Later the second SET BROADCAST command restores shutdown, urgent, DCL, and OPCOM messages. General, phone, mail, queue, and user messages are still screened.
7 – CACHE
7.1 /RESET
Resets systemwide I/O caching statistics for the extended file cache (XFC). OPER privilege is required to execute this command. Format SET CACHE/RESET
7.1.1 – Example
$ SHOW MEMORY/CACHE System Memory Resources on 22-AUG-2001 11:22:22.50 Extended File Cache (Time of last reset: 16-AUG-2001 11:16:24.96) Allocated (Mbytes) 151.39 Maximum size (Mbytes) 1024.00 Free (Mbytes) 0.21 Minimum size (Mbytes) 0.23 In use (Mbytes) 151.18 Write hit rate 0% Read hit rate 97% Write I/O count 5321 Read I/O count 208052 Write hit count 0 Read hit count 203761 Writes bypassing cache 0 Reads bypassing cache 1787 Vols in Full XFC mode 0 Files cached open 316 Vols in VIOC Compatible mode 1 Files cached closed 300 Vols in No Caching mode 0 Read/Write ratio 97% Vols in Perm. No Caching mode 0 This example shows the cache statistics prior to issuing the SET CACHE/RESET command. $ SET CACHE/RESET This command resets the cache statistics and updates the timestamp. $ SHOW MEMORY/CACHE System Memory Resources on 22-AUG-2001 11:27:41.11 Extended File Cache (Time of last reset: 22-AUG-2001 11:27:37.76) Allocated (Mbytes) 151.39 Maximum size (Mbytes) 1024.00 Free (Mbytes) 0.21 Minimum size (Mbytes) 0.23 In use (Mbytes) 151.18 Write hit rate 0% Read hit rate 100% Write I/O count 0 Read I/O count 9 Write hit count 0 Read hit count 9 Writes bypassing cache 0 Reads bypassing cache 0 Vols in Full XFC mode 0 Files cached open 316 Vols in VIOC Compatible mode 1 Files cached closed 300 Vols in No Caching mode 0 Read/Write ratio 100% Vols in Perm. No Caching mode 0 This example shows the reset cache statistics and the modified timestamp.
8 – CARD_READER
Defines the default translation mode for cards read from a card reader. All subsequent input read from the specified card reader is converted using the specified mode. Format SET CARD_READER device-name[:]
8.1 – Parameter
device-name[:] Specifies the name of the card reader for which the translation mode is to be set. The device must not be currently allocated to any other user.
8.2 – Qualifiers
8.2.1 /026
Sets the card reader for cards punched on an 026 punch.
8.2.2 /029
Sets the card reader for cards punched on an 029 punch.
8.2.3 /LOG
/LOG /NOLOG (default) Controls whether log information is displayed at the terminal to confirm that the card reader is set.
8.3 – Example
$ ALLOCATE CR: _CRA0: ALLOCATED $ SET CARD_READER CRA0:/029 $ COPY CRA0: [PEARLMAN.DATAFILES]CARDS.DAT The ALLOCATE command requests the allocation of a card reader by specifying the generic device name. When the ALLOCATE command displays the name of the device, the SET CARD_READER command sets the translation mode at 029. Then the COPY command copies all the cards read by the card reader CRA0 into the file CARDS.DAT in the directory [PEARLMAN.DATAFILES].
9 – CLUSTER
9.1 /EXPECTED_VOTES
Sets the total expected votes in the OpenVMS Cluster to a value that you specify or, if no value is specified, sets the total votes to a value determined by the system. Requires OPER (operator) privilege. Format SET CLUSTER/EXPECTED_VOTES[=value]
9.1.1 – Parameter
value Specifies the total number of expected votes in the cluster.
9.1.2 – Description
The SET CLUSTER/EXPECTED_VOTES command enables you to adjust the total number of expected votes in the cluster. Set this value equal to the number of votes contributed by each node plus the number of votes contributed by the cluster quorum disk. The system will automatically calculate the value of the cluster quorum from the total number of expected votes in the cluster. You can specify the expected total votes value as part of the SET CLUSTER/EXPECTED_VOTES command string. If you enter the command without specifying a value for expected votes, the system calculates the value for you, using the following formula: EXPECTED_VOTES=(NODE1_VOTES+NODE2_VOTES+...)+QUORUM_DISK_VOTES NODEn_VOTES is the value of the system parameter VOTES for each node in the cluster and QUORUM_DISK_VOTES is the value of the system parameter QDSKVOTES. When you enter the SET CLUSTER/EXPECTED_VOTES command without specifying a value, the system assumes that all nodes that are expected to be in the cluster are currently members. In general, you use the SET CLUSTER/EXPECTED_VOTES command only when a node is leaving the cluster for an extended period of time. Under normal circumstances, quorum is not reduced when a node leaves the cluster, because it is assumed that the node may be rebooted and rejoin the cluster. If a node is removed and is unable to rejoin the cluster within a reasonable period of time (for example, if a node crashes due to a hardware problem and cannot rejoin the cluster for several days), the quorum for the cluster can safely be reduced by lowering the total expected votes until that node rejoins. The purpose of a cluster quorum is to eliminate any possibility of the cluster partitioning into separate clusters and simultaneously accessing the same resources (such as disks). If the sum of the votes for all members of the cluster is smaller than the cluster quorum, all nodes will block activity until new nodes join to increase the vote total. Lowering the quorum value (by reducing the value of the total expected votes) when one or more nodes leave the cluster for long periods of time reduces this possibility. Note that no matter what value you specify for the SET CLUSTER/EXPECTED_VOTES command, you cannot increase quorum to a value that is greater than the number of the votes present, nor can you reduce quorum to a value that is half or fewer of the votes present. When you enter the SET CLUSTER/EXPECTED_VOTES command, either with or without an expected votes value specified, the system responds with a message indicating the new value that was actually set. Note that you need to enter this command only on one node in the cluster, because the new value for total expected votes is propagated through the cluster. This new expected votes value should then be stored in the system parameter EXPECTED_ VOTES on each node, so that it remains in effect after the nodes reboot. When a node that was previously a member of the cluster is ready to rejoin, you should increase the system parameter EXPECTED_VOTES to its original value before bringing the node back to the cluster. Note that you do not need to use the SET CLUSTER/EXPECTED_VOTES command to increase the number of expected votes, because the expected votes value will be increased automatically when the node rejoins the cluster.
9.1.3 – Examples
1.$ SET CLUSTER/EXPECTED_VOTES The SET CLUSTER command in this example instructs the system to calculate the total expected votes value for you, because no value is specified as part of the command string. The system uses the NODEn_VOTES + QUORUM_DISK_VOTES formula. 2.$ SET CLUSTER/EXPECTED_VOTES=9 The SET CLUSTER command in this example sets the total expected votes to 9, which is the value specified in the command string.
10 – COMMAND
Invokes the Command Definition Utility, which adds commands to your process command table or to a specified command table file. For a complete description of the Command Definition Utility, see the VSI OpenVMS Command Definition, Librarian, and Message Utilities Manual. Format SET COMMAND [filespec[,...]]
10.1 – Parameter
[filespec[,...]] Specifies the name of one or more command definition files. If you specify more than one name, separate them with commas. The default file type is .CLD. See the VSI OpenVMS Command Definition, Librarian, and Message Utilities Manual for more information about writing a command definition file. The asterisk (*) and the percent sign (%) wildcard characters are allowed in the file specification.
10.2 – Qualifiers
10.2.1 /DELETE
/DELETE=(verb[,...]) Specifies /DELETE mode to delete verbs from the command table you are modifying. You can use the /DELETE qualifier to delete a verb in either your process command table or in a command table file specified with the /TABLE qualifier. If you do not use the /TABLE qualifier to specify an alternate command table, the default is to delete verbs from your process command table. If you do not use the /OUTPUT qualifier to specify an output file, the default is to return the modified command table to your process. The verb specifies a verb to be deleted. If you specify two or more verbs, separate them with commas and enclose the list in parentheses. If you specify only one verb, you can omit the parentheses. You cannot use the /LISTING, /OBJECT, or /REPLACE qualifiers in /DELETE mode.
10.2.2 /LISTING
/LISTING[=filespec] /NOLISTING Controls whether an output listing is created and optionally provides an output file specification for the listing file. A listing file contains a listing of the command definitions along with any error messages. The listing file is similar to a compiler listing. If you specify the /LISTING qualifier and omit the file specification, output is written to the default device and directory; the listing file will have the same name as the first command definition file and a file type of .LIS. You can use the /LISTING qualifier only in /OBJECT or /REPLACE mode; you cannot create a listing in /DELETE mode. In /OBJECT and /REPLACE modes, the default is /NOLISTING.
10.2.3 /OBJECT
/OBJECT[=filespec] Specifies /OBJECT mode to create an object module from a command definition file and optionally provides an object file specification. You cannot use the /OBJECT qualifier to create an object module from a command definition that contains the IMAGE keyword. You can specify only one command definition file when you use SET COMMAND/OBJECT. If you specify the /OBJECT qualifier and omit the file specification, output is written to the default device and directory; the object file will have the same name as the input file and a file type .OBJ. You cannot use the /DELETE, /OUTPUT, /REPLACE, or /TABLE qualifiers in /OBJECT mode. NOTE When compiling very large command definition (CLD) files, you may encounter the following error: %CDU-F-INTNODESPACE, Internal error: node space exhausted The default value of virtual memory allocated by the SET COMMAND/OBJECT command is 384KB. This value may not be sufficient to process large CLD files. To increase this size, use the CDU$TABLE_SPACE logical name to specify a larger value. For example: $ DEFINE CDU$TABLE_SPACE 2048
10.2.4 /OUTPUT
/OUTPUT[=filespec] /NOOUTPUT Controls where the modified command table should be placed. If you provide an output file specification, the modified command table is written to the specified file. If you do not provide an output file specification, the edited command table replaces your process table. The /NOOUTPUT qualifier indicates that no output is to be generated. You can specify an output file specification with the /OUTPUT qualifier only when you also use the /TABLE=filespec qualifier to provide the input tables. The default file type is .EXE. You can use the /OUTPUT qualifier only in /DELETE or /REPLACE mode; you cannot use the /OUTPUT qualifier in /OBJECT mode. In /DELETE and /REPLACE mode, the default is /OUTPUT with no file specification.
10.2.5 /REPLACE
Specifies /REPLACE mode to add or replace verbs in the command table you are modifying. You can use the /REPLACE qualifier to modify either the process command table or a command table file specified with the /TABLE qualifier. If you do not use the /TABLE qualifier to specify an alternate command table, the default is to modify your process command table. If you do not use the /OUTPUT qualifier to specify an output file, the default is to return the modified command table to your process. You cannot use the /OBJECT or /DELETE qualifiers in /REPLACE mode. If you do not explicitly specify /DELETE, /OBJECT, or /REPLACE mode, the default is /REPLACE.
10.2.6 /TABLE
/TABLE=[filespec] Specifies the command table that is to be modified. If you specify the /TABLE qualifier and omit the file specification, the current process command table is modified. If you include a file specification, the specified command table is modified. The default file type is .EXE. If you use the /TABLE qualifier to provide an input command table file, you should also use the /OUTPUT qualifier to provide an output table file; otherwise, the modified command table will be written to your process and will replace your process command table. You can only use the /TABLE qualifier in /DELETE or /REPLACE mode; you cannot use the /TABLE qualifier in /OBJECT mode. In /REPLACE and /DELETE mode, the default is /TABLE with no input file specification.
10.3 – Examples
1.$ SET COMMAND SNAG This command adds the commands in SNAG.CLD to the command table in the current process. 2.$ SET COMMAND/OBJECT SNAG This command creates an object file using the commands in SNAG.CLD. This object file can then be linked with other object files to process application defined commands. 3.$ SET COMMAND/TABLE=MYTAB/OUTPUT=MYCLI SNAG This command adds the commands in SNAG.CLD to the command table MYTAB.EXE and writes the updated table to MYCLI.EXE. When you use the /TABLE qualifier to specify an input command table, you should use the /OUTPUT qualifier to specify an output file; otherwise, your process command table will be overwritten. 4.$ SET COMMAND/DELETE=HOLD This command deletes the definition for the verb HOLD from your process command table. The modified command table is returned to your process.
11 – CONTROL
Enables or disables the Ctrl/Y or the Ctrl/T function. Pressing Ctrl/Y interrupts a command and returns you to the DCL command level. Pressing Ctrl/T momentarily interrupts a command to print a line of statistics. SET CONTROL=T requires that SET TERMINAL/BROADCAST be set for the information to be displayed at your terminal. Format SET CONTROL [=(T,Y)] SET NOCONTROL [=(T,Y)]
11.1 – Parameter
(T,Y) Specifies that T (Ctrl/T) or Y (Ctrl/Y) be enabled or disabled. If you specify only one character, you can omit the parentheses. If you do not specify either T or Y, Y is the default.
11.2 – Examples
1.$ SET NOCONTROL=Y The SET CONTROL command in this example disables the Ctrl/Y function as well as most Ctrl/C functions. 2.$ SET CONTROL=T The SET CONTROL command in this example enables the Ctrl/T function. 3.$ SET NOCONTROL=(T,Y) The SET CONTROL command in this example disables both the Ctrl/T and Ctrl/Y functions. 4.$ <Ctrl/T> NODE22::SMITH 16:21:04 (DCL) CPU=00:03:29.39 PF=14802 IO=18652 MEM=68 $ SET NOCONTROL=T $ <Ctrl/T> As shown in this example, when you press Ctrl/T, the system displays the appropriate information. The SET NOCONTROL=T command disables the Ctrl/T function. Now when you press Ctrl/T, no information is displayed. 5.$ TYPE CTRLT_LOOP.COM $ inner=0 $ outer=0 $ loop: $ loop1: $ if inner .gt. 20000 then goto end_loop1 $ inner=inner+1 $ dcl$ctrlt=F$FAO("Inner loop count is !SL O !S !SL Outer loop count is !SL",inner,outer) $ goto loop1 $ end_loop1: $ inner=0 $ outer=outer+1 $ goto loop $ @CTRLT_LOOP <<Press Ctrl/T>> NODE1::JSMITH 10:46:37 (DCL) CPU=00:03:42.68 PF=13453 IO=6743 MEM=187 Inner loop count is 12306 Outer loop count is 0 NODE1::JSMITH 10:46:43 (DCL) CPU=00:03:49.19 PF=13455 IO=6744 MEM=187 Inner loop count is 19200 Outer loop count is 2 . . . <<Press Ctrl/C>> <<--- To exit the loop. $ SET NOCONTROL=T $ @CTRLT_LOOP <<Press Ctrl/T>> <<Nothing is displayed as CTRL/T is disabled.>> <<Press Ctrl/C>> <<--- To exit the loop. This example demonstrates the use of DCL$CTRLT within a command procedure. The command procedure is running in a loop that updates the symbol DCL$CTRLT to indicate the number of loop iterations executed so far.
12 – CPU
Changes the user capabilities associated with the specified CPUs. Requires ALTPRI and WORLD privileges. Format SET CPU cpu-id[, . . . ]
12.1 – Parameter
cpu-id Specifies a decimal value representing the identity of a processor in an OpenVMS multiprocessing system. On an Alpha 7000 system, the CPU is the backplane slot number of the processor.
12.2 – Qualifiers
12.2.1 /ALL
Applies the specified operation to all CPUs in the active set.
12.2.2 /ASSIGN
/ASSIGN [=option] (Alpha/Integrity servers only) Assigns the CPU to the current instance if no option is specified. If an option is specified, the CPU is assigned to that resource. Option Description $$PARTITION The current soft partition of the OpenVMS instance. $$HARD_ The hard partition of the OpenVMS instance. PARTITION Supported only on AlphaServer systems that support partitioning.
12.2.3 /AUTO_START
/AUTO_START (Alpha/Integrity servers only) /NOAUTO_START Sets or clears the instance-specific autostart flag for the specified CPUs. When autostart is enabled, that CPU will join the OpenVMS active set when it is assigned or migrated into the partition. The CPU will also autostart if a power-up transition is completed while the CPU is owned by the issuing instance. Supported only on AlphaServer systems that support partitioning.
12.2.4 /CAPABILITY
/CAPABILITY /NOCAPABILITY Allows bits in the process user capability mask to be set or cleared individually, in groups, or all at once. NOTE The SET CPU/[NO]CAPABILITY command will fail if there is an active process that requires a capability that is not available on any remaining active CPU. Specifying the /CAPABILITY qualifier has no direct effect, but merely indicates the target of the operations specified by the following secondary qualifiers: /SET=(n[,..Sets all user capabilities defined by the position values n, where n has the range of 1 to 16. /CLEAR=(n[,Clears all user capabilities defined by the position values n, where n has the range of 1 to 16. The secondary qualifiers can all be used at once as long as the user capability bits defined in the /SET and /CLEAR parameters do not overlap. The /NOCAPABILITY qualifier clears all user capability bits.
12.2.5 /CLEAR
/CLEAR=(n[,...]) Clears all user capabilities defined by the position values n specified by the /CAPABILITY qualifier.
12.2.6 /FAILOVER
/FAILOVER=option (Alpha/Integrity servers only) /NOFAILOVER Establishes instance-specific failover relationships for each CPU in the instance's potential set. When the instance crashes, CPUs with a failover target other than the current instance will be assigned or migrated to that target. Specifying the /FAILOVER qualifier has no direct effect; however, it indicates the target of the operations specified by the following options: Option Description instance_name The name of any valid running instance in the current hard partition. partitionID The numeric ID of any partition (reflected in the configuration tree) in the current hard partition. An operating system instance is not required to be running with this identifier. $$PARTITION Assigns a resource to the current partition of the current instance. $$HARD_ Assigns a resource to the hard partition node PARTITION of the configuration tree. This makes the CPU available to multiple soft partitions below it. The /FAILOVER qualifier generates a resource assignment only when the current instance crashes. Supported only on AlphaServer systems that support partitioning. 99
12.2.7 /GLOBAL
Modifies the global cell SCH$GL_DEFAULT_CPU_CAP. This global cell is used to initialize the user capability mask of CPUs that are brought into the active set for the first time.
12.2.8 /MIGRATE
/MIGRATE=option (Alpha/Integrity servers only) Transfers ownership of the CPU from the current instance to another soft partition. Option Description instance_name The name of any valid running instance in the current hard partition. partitionID The numeric ID of any partition (reflected in the configuration tree) in the current hard partition. An operating system instance is not required to be running with this identifier. Supported only on AlphaServer systems that support partitioning.
12.2.9 /POWER
/POWER=option (Alpha/Integrity servers only) Turns the power on or off in one or more CPU slots. Valid options are ON and OFF. Supported only on AlphaServer GS series systems.
12.2.10 /OVERRIDE_CHECKS
/OVERRIDE_CHECKS (Alpha/Integrity servers only) Directs the SET/CPU command to bypass a series of checks that determine whether the specified processor is eligible for removal from the active set.
12.2.11 /REFRESH
/REFRESH (Alpha/Integrity servers only) Examines and updates the OpenVMS context for the specified CPU or CPUs, using the hardware configuration tree.
12.2.12 /SET
/SET=(n[,...]) Sets all user capabilities defined by the position values n specified by the /CAPABILITY qualifier.
12.2.13 /START
/START (Alpha/Integrity servers only) Initiates a request for the specified CPU to join the OpenVMS active set if it is not already there.
12.3 – Examples
1.$ SET CPU/CAPABILITY/GLOBAL/SET=(2,4) This command sets user capabilities 2 and 4 in the global cell SCH$GL_DEFAULT_CPU_CAP. 2.$ SET CPU/CAPABILITY/GLOBAL/SET=(2,4) 0 This command sets user capabilities 2 and 4 in the global cell SCH$GL_DEFAULT_CPU_CAP, as well in the active CPU 0. 3.$ SET CPU/CAPABILITY/SET=(1,2) 0 $ SHOW CPU/FULL SYSTEM: EUROS, VSI RX2600 (900MHZ/1.5MB) SMP EXECLET = 3 : ENABLED : STREAMLINED. CONFIG TREE = VERSION 6 PRIMARY CPU = 0 HWRPB CPUS = 2 PAGE SIZE = 8192 REVISION CODE = SERIAL NUMBER = US30464615 DEFAULT CPU CAPABILITIES: SYSTEM: QUORUM RUN DEFAULT PROCESS CAPABILITIES: SYSTEM: QUORUM RUN CPU 0 STATE: RUN CPUDB: 8901C000 HANDLE: 00005D70 OWNER: 000004C8 CURRENT: 000004C8 PARTITION 0 (EUROS) CHGCNT: 1 STATE: PRESENT, PRIMARY, REASSIGNABLE PROCESS: TEST11 PID: 20201185 CAPABILITIES: SYSTEM: PRIMARY QUORUM RUN RAD0 USER: USR1 USR2 SLOT CONTEXT: 901EB000 CPU - STATE..........: RC, PA, PP, CV, PV, PMV, PL TYPE...........: ITANIUM MAJOR = 31, MINOR = 0 SPEED..........: 900 MHZ LID............: 00000000 VARIATION......: IEEE FP, PRIMARY ELIGIBLE SERIAL NUMBER..: 0001A968930A1A25 REVISION.......: HALT REQUEST...: 0 SOFTWARE COMP..: 7.0 PALCODE - REVISION CODE..: 1.1 COMPATIBILITY..: 0 MAX SHARED CPUS: 0 BINDINGS: * NONE * FASTPATH: FGB0 PKA0 PEA0 EIA0 FEATURES: AUTOSTART - ENABLED. FASTPATH - SELECTION ENABLED AS PREFERRED CPU. CPU 1 STATE: RUN CPUDB: 89163480 HANDLE: 00005E80 OWNER: 000004C8 CURRENT: 000004C8 PARTITION 0 (EUROS) CHGCNT: 1 STATE: PRESENT, REASSIGNABLE PROCESS: * NONE * CAPABILITIES: SYSTEM: QUORUM RUN RAD0 SLOT CONTEXT: 901EC000 CPU - STATE..........: RC, PA, PP, CV, PV, PMV, PL TYPE...........: ITANIUM MAJOR = 31, MINOR = 0 SPEED..........: 900 MHZ LID............: 01000000 VARIATION......: IEEE FP SERIAL NUMBER..: 000363B4B0C5C862 REVISION.......: HALT REQUEST...: 0 SOFTWARE COMP..: 7.0 PALCODE - REVISION CODE..: 1.1 COMPATIBILITY..: 0 MAX SHARED CPUS: 0 BINDINGS: * NONE * FASTPATH: FGA0 EWA0 PKB0 BG0 FEATURES: AUTOSTART - ENABLED. FASTPATH - SELECTION ENABLED AS PREFERRED CPU. $ SET CPU/CAPABILITY/CLEAR=1 0 $ SHOW CPU/FULL SYSTEM: EUROS, VSI RX2600 (900MHZ/1.5MB) SMP EXECLET = 3 : ENABLED : STREAMLINED. CONFIG TREE = VERSION 6 PRIMARY CPU = 0 HWRPB CPUS = 2 PAGE SIZE = 8192 REVISION CODE = SERIAL NUMBER = US30464615 DEFAULT CPU CAPABILITIES: SYSTEM: QUORUM RUN DEFAULT PROCESS CAPABILITIES: SYSTEM: QUORUM RUN CPU 0 STATE: RUN CPUDB: 8901C000 HANDLE: 00005D70 OWNER: 000004C8 CURRENT: 000004C8 PARTITION 0 (EUROS) CHGCNT: 1 STATE: PRESENT, PRIMARY, REASSIGNABLE PROCESS: TEST11 PID: 20201185 CAPABILITIES: SYSTEM: PRIMARY QUORUM RUN RAD0 USER: USR2 SLOT CONTEXT: 901EB000 CPU - STATE..........: RC, PA, PP, CV, PV, PMV, PL TYPE...........: ITANIUM MAJOR = 31, MINOR = 0 SPEED..........: 900 MHZ LID............: 00000000 VARIATION......: IEEE FP, PRIMARY ELIGIBLE SERIAL NUMBER..: 0001A968930A1A25 REVISION.......: HALT REQUEST...: 0 SOFTWARE COMP..: 7.0 PALCODE - REVISION CODE..: 1.1 COMPATIBILITY..: 0 MAX SHARED CPUS: 0 BINDINGS: * NONE * FASTPATH: FGB0 PKA0 PEA0 EIA0 FEATURES: AUTOSTART - ENABLED. FASTPATH - SELECTION ENABLED AS PREFERRED CPU. CPU 1 STATE: RUN CPUDB: 89163480 HANDLE: 00005E80 OWNER: 000004C8 CURRENT: 000004C8 PARTITION 0 (EUROS) CHGCNT: 1 STATE: PRESENT, REASSIGNABLE PROCESS: * NONE * CAPABILITIES: SYSTEM: QUORUM RUN RAD0 SLOT CONTEXT: 901EC000 CPU - STATE..........: RC, PA, PP, CV, PV, PMV, PL TYPE...........: ITANIUM MAJOR = 31, MINOR = 0 SPEED..........: 900 MHZ LID............: 01000000 VARIATION......: IEEE FP SERIAL NUMBER..: 000363B4B0C5C862 REVISION.......: HALT REQUEST...: 0 SOFTWARE COMP..: 7.0 PALCODE - REVISION CODE..: 1.1 COMPATIBILITY..: 0 MAX SHARED CPUS: 0 BINDINGS: * NONE * FASTPATH: FGA0 EWA0 PKB0 BG0 FEATURES: AUTOSTART - ENABLED. FASTPATH - SELECTION ENABLED AS PREFERRED CPU. $ In this example, the first SET CPU command sets user capabilities 1 and 2 for CPU 0. The second SET CPU command clears capability 1. 4.$ SET CPU/REFRESH/ALL This command updates the OpenVMS context in this instance for all CPUs physically residing in the current hard partition. 5.$ SET CPU/FAILOVER=WFGLXA 12 This command sets CPU 12 to failover to another instance (WFGLXA), if the current instance crashes. 6.$ SET CPU/FAILOVER=$$HARD 13 This command assigns CPU 13 to hard partition ownership if the current instance crashes. Assignment to the hard partition makes the CPU visible and available to other instances for assignment. 7.$ SET CPU/ASSIGN=$$HARD 14 This command assigns CPU 14, currently owned by the instance, to hard partition ownership. Assignment to the hard partition makes the CPU visible and available to other instances for assignment. 8.$ SET CPU/ASSIGN 15 This command assigns CPU 15, currently owned by the hard partition, to this instance. If the CPU is powered, in the potential set, and autostart enabled, then it will automatically join the active set.
13 – DAY
Sets the default day type specified in the user authorization file (UAF) for the current day. Requires OPER (operator) privilege. Format SET DAY
13.1 – Qualifiers
13.1.1 /DEFAULT
/DEFAULT Overrides any previous SET DAY specification and specifies that the normal UAF defaults are to be used to determine today's day type.
13.1.2 /LOG
/LOG /NOLOG (default) Controls whether log information is displayed at the terminal to confirm that the new SET DAY information has been set.
13.1.3 /PRIMARY
/PRIMARY Sets today until midnight to a primary day.
13.1.4 /SECONDARY
/SECONDARY Sets today until midnight to a secondary day.
13.2 – Examples
1.$ SET DAY/PRIMARY The SET DAY command in this example overrides the current default day type and sets today until midnight to a primary day. 2.$ SET DAY/DEFAULT The SET DAY command in this example overrides the previous SET DAY command and sets today's day type to the UAF-defined default.
14 – DEFAULT
Sets your default device and directory specifications. The new default is applied to all subsequent file specifications that do not explicitly include a device or directory name. When you change the default device assignment, the system equates the specified device with the logical name SYS$DISK. Format SET DEFAULT [device-name[:]][directory-spec]
14.1 – Parameters
device-name[:] Specifies the name of the device you want to go to. NOTE The SET DEFAULT command will accept a node name with the device name (that is, node-name::device-name). However, the results of operations using a default with a node name are unpredictable. Some utilities and applications do not allow a node name to be specified in a file specification and will fail if the default file specification contains a node name. directory-spec Specifies the name of the directory you want to go to. A directory name must be enclosed in brackets ([ ]). Use the minus sign (-) to specify the next higher directory from the current default. On Alpha systems, if the length of the resulting default directory specification exceeds 255 characters, the SET DEFAULT attempts to replace the default directory string with a generated directory specification. If this happens, then in addition to the normal syntax check, the entire path to that specification, including the device, is verified and must exist for the call to succeed. On Alpha systems, if the process parse style is set to extended, then the directory specification may include a directory ID (DID). You must specify either the device-name parameter or the directory-spec parameter. If you specify only the device name, the current directory is the default for the directory-spec parameter. If you specify only the directory name, the current device is the default for the device-name parameter. You can use a logical name but it must constitute at least the device part of the specification. When you use a search list logical name as the parameter, the logical name is not translated by the SET DEFAULT command. Instead, the SET DEFAULT command retains the logical name so that OpenVMS Record Management Services (RMS) is able to access the entire search list. If you enter the SHOW DEFAULT command, the search list logical name is displayed as the default device, along with its equivalence strings.
14.2 – Examples
1.$ SET DEFAULT [TANNER] The SET DEFAULT command in this example changes the default directory to [TANNER]. The default disk device does not change. 2.$ SET DEFAULT $FLOPPY1:[MOREAU.MEMOS] The SET DEFAULT command in this example sets your default to the MOREAU.MEMOS subdirectory on $FLOPPY1. 3.$ SET DEFAULT $FLOPPY1: The SET DEFAULT command in this example sets the default device to $FLOPPY1. The directory name does not change. 4.$ SET DEFAULT [-] The SET DEFAULT command in this example changes the default directory to the parent directory of the one you are currently in. For example, if the current directory is $FLOPPY1:[NIELSEN.MEMOS], this command sets your default to $FLOPPY1:[NIELSEN]. If you are in $FLOPPY1:[NIELSEN], this command sets your default to the master directory on the disk- $FLOPPY1:[000000]. 5.$ SAVEDEF = F$ENVIRONMENT("DEFAULT") $ SET DEFAULT [122001.ZAMORA.APP10] . . . $ SET DEFAULT 'SAVEDEF' The command procedure in this example uses the F$ENVIRONMENT lexical function to save the current default directory in the symbol named SAVEDEF. The SET DEFAULT command changes the default directory 122001.ZAMORA.APP10. Later, the symbol SAVEDEF is used to restore the original default directory. 6.$ SHOW DEFAULT WORK:[TOP] $ DEFINE X WORK:[TOP.SUB1],WORK:[TOP.SUB2] $ SET DEFAULT X $ SHOW DEFAULT X:[TOP] $ DIRECTORY Directory WORK:[TOP.SUB1] KUDOS.TMP;1 Total of 1 file. Directory WORK:[TOP.SUB2] KUDOS.TMP;1 Total of 1 file. Grand total of 2 directories, 2 files. $ DIRECTORY [] Directory WORK:[TOP] KUDOS.TMP;1 NETSERVER.LOG;2 Total of 2 files. In this example, the default directory is WORK:[TOP]. X is then defined to be a search list consisting of two subdirectories. When the SET DEFAULT X command is entered, the search list (X) is equated with the logical name SYS$DISK and is entered into the disk field. The subsequent SHOW DEFAULT command shows both the search list and the current default directory, followed by the expanded search list. If a DIRECTORY command is entered, the directories searched are those contained in the logical name X; however, if the current default directory specification ([]) is explicitly entered, the current default directory, rather than SYS$DISK, is searched. 7.$SET PROCESS/PARSE_STYLE=EXTENDED $SET DEFAULT WORK:[11,1,0] $SHOW DEFAULT WORK:[11,1,0] $DIRECTORY Directory WORK:[11,1,0] X.X;1 Total of 1 file. On Alpha systems, the SET DEFAULT command in this example uses a directory ID (DID) in the directory specification. 8.$SET PROCESS/PARSE_STYLE=EXTENDED $SET DEFAULT - WORK:[.LONG_DIRECTORY_NAME_AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA] $SET DEFAULT - WORK:[.LONG_SUBDIRECTORY_NAME_BBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB] $SET DEFAULT - WORK:[.LONG_SUBDIRECTORY_NAME_CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC] $SET DEFAULT - WORK:[.LONG_SUBDIRECTORY_NAME_DDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDD] $SET DEFAULT - WORK:[.LONG_SUBDIRECTORY_NAME_EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE] $SHOW DEFAULT MDA0:[15,1,0] $SET DEFAULT [-] %RMS-F-DIR, error in directory name $SET DEFAULT [.TEST] $SHOW DEFAULT MDA0:[15,1,0.TEST] On Alpha systems, because the total length of the default directory string would exceed 255 characters in this example, a Directory ID is used in the directory specification. When the default directory string is replaced with a Directory ID, it is not possible to use the minus sign to specify the next higher directory.
15 – DEVICE
Establishes a print device or terminal as a spooled device or establishes the operational status for a device. To make a disk on a local node available to all the nodes on an OpenVMS Cluster, use the /SERVED qualifier. Requires OPER (operator) privilege. PHY_IO (physical I/O) privilege is required when specifying the Alpha-only qualifiers that change the characteristics of shadow sets. These qualifiers also can be specified using the SET SHADOW command, which provides additional options for controlling shadow sets. Qualifier settings for shadow sets remain in effect until they are changed using either SET DEVICE or SET SHADOW or until the shadow set or shadow set member is dismounted. If the shadow set is remounted or a shadow set member is returned to the shadow set from which it was dismounted, the settings must be specified again. For more information about volume shadowing, see the VSI Volume Shadowing for OpenVMS. Format SET DEVICE [device-name[:]]
15.1 – Parameter
device-name[:] Specifies the name of the device whose spooling or operational status is to change. The device must be a print device or a terminal if you want to change the spooling status; the device must be a disk or magnetic tape if you want to change the operational status. When you specify qualifiers that act on shadow sets, the device might be a shadow set member (ddcu:) or the whole shadow set (DSAnnnn:), as noted in the qualifier format. Depending on the qualifier, if no device name is supplied, the qualifier applies to all shadow sets mounted on the node from which the command is executed.
15.2 – Description
When you specify any of the following qualifiers, the operational status of the drive is changed: /ABORT_VIRTUAL_UNIT, /AVAILABLE, /COPY_SOURCE, /DUAL_PORT, /ENABLE, /ERROR_LOGGING, /FORCE_ REMOVAL, /MEMBER_TIMEOUT, /MVTIMEOUT, /POLL, /READ_COST, /SITE, or /SWITCH. When you specify the /SPOOLED qualifier, program output that uses OpenVMS Record Management Services (RMS) or file control system (FCS) and that specifies the print device name is written onto an intermediate disk rather than written directly to the print device or terminal.
15.3 – Qualifiers
15.3.1 /ABORT_VIRTUAL_UNIT
/ABORT_VIRTUAL_UNIT DSAnnnn: (Alpha/Integrity servers only) Aborts mount verification on a shadow set. Use this qualifier when you know that the unit cannot be recovered. When you use this qualifier, the shadow set must be in mount verification. The shadow set aborts mount verification immediately on the node from which the command is issued. If the shadow set is not in mount verification, this command returns the error %SYSTEM-E-UNSUPPORTED, unsupported operation or function. After this command completes, the shadow set still must be dismounted. Use the following command to dismount the shadow set: $ DISMOUNT/ABORT DSAnnnn:
15.3.2 /AVAILABLE
/AVAILABLE /NOAVAILABLE Controls whether the specified disk or magnetic tape is to be considered available. You must dismount the specified disk or magnetic tape before entering the SET DEVICE/[NO]AVAILABLE command. If you specify the /NOAVAILABLE qualifier, any attempt to allocate or mount the specified disk or magnetic tape is prevented. Devices are automatically set /AVAILABLE when brought online even if the device had been previously set /NOAVAILABLE.
15.3.3 /COPY_SOURCE
/COPY_SOURCE {ddcu: | DSAnnnn:} (Alpha/Integrity servers only) Specifies which source member of a shadow set will be used as the source for read data during full copy operations when a third member is added to the shadow set. This qualifier affects only copy operations that do not use disk copy data (DCD) commands. Some storage controllers, such as the HSG80, have a read-ahead cache, which significantly improves single-disk read performance. Copy operations normally alternate reads between the two source members, which effectively nullifies the benefits of the read- ahead cache. This qualifier lets you force all reads from a single, specified source member for a copy operation. If only a shadow set (DSAnnnn:) is specified, all reads for full copy operations will be performed from the disk that is the current "master" member, regardless of physical location of the disk. If a shadow set member (ddcu:) is specified, that member will be used as the source of all copy operations. This allows you to choose a local source member, rather than a remote master member.
15.3.4 /DUAL_PORT
/DUAL_PORT /NODUAL_PORT Controls whether the port seize logic in the device driver of the specified disk is to be enabled. This qualifier should be used only on disks that contain a dual port kit and have been dismounted.
15.3.5 /ENABLE
/ENABLE /NOENABLE Enables or disables a path to a multipath device; the affected path is the one named in the /PATH qualifier. All paths are initially enabled; the current path cannot be disabled.
15.3.6 /ERROR_LOGGING
/ERROR_LOGGING /NOERROR_LOGGING Controls whether device errors are logged in the error log file. When you specify the /ERROR_LOGGING qualifier, all error messages reported by the device on which error logging is enabled are recorded in the error log file. Use the SHOW DEVICE/FULL command to find out the current status.
15.3.7 /FORCE_REMOVAL
/FORCE_REMOVAL ddcu: (Alpha/Integrity servers only) Expels the specified shadow set member from the shadow set. If connectivity to a device has been lost and the shadow set is in mount verification, this qualifier causes the member to be expelled from the shadow set immediately. If the shadow set is not currently in mount verification, no immediate action is taken. If connectivity to a device has been lost but the shadow set is not in mount verification, this qualifier lets you flag the member to be expelled from the shadow set, as soon as it does enter mount verification. The specified device must be a member of a shadow set that is mounted on the node where the command is issued.
15.3.8 /LOG
/LOG /NOLOG (default) Controls whether log information is displayed at the terminal.
15.3.9 /MEMBER_TIMEOUT
/MEMBER_TIMEOUT=n ddcu: (Alpha/Integrity servers only) Specifies the timeout value to be used for a shadow set member. The value supplied by this qualifier overrides the system parameter SHADOW_MBR_TMO for this specific device. Each member of a shadow set can be assigned a different MEMBER_TIMEOUT value. The valid range for n is 1 to 16777215 seconds. The specified device must be a member of a shadow set that is mounted on the node where the command is issued.
15.3.10 /MV_INTVL
/MV_INTVL=n Overrides the system-wide setting of the MVSUPMSG_INTVL system parameter with the value specified by n (seconds) for the specified device only. If /MV_INTVL=0, the value for MVSUPMSG_ INTVL is used instead. If MVSUPMSG_INTVL=0 or MVSUPMSG_NUM=0, all mount verifications are announced. For more information about MVSUPMSG_INTVL, see Sys_Parameters online help.
15.3.11 /MV_NUM
/MV_NUM=n Overrides the system-wide setting of the MVSUPMSG_NUM system parameter with the value specified by n (seconds) for the specified device only. If /MV_NUM=0, the value for MVSUPMSG_NUM is used instead. If MVSUPMSG_NUM=0 or MVSUPMSG_INTVL=0, all mount verifications are announced. For more information about MVSUPMSG_ NUM, see Sys_Parameters online help.
15.3.12 /MVTIMEOUT
/MVTIMEOUT=n DSAnnnn: (Alpha/Integrity servers only) Specifies the mount verification timeout value to be used for the shadow set specified by its virtual unit name (DSAnnnn:). The value supplied by this qualifier overrides the value specified by the system parameter MVTIMEOUT for this specific shadow set. NOTE You cannot change the value of MVTIMEOUT for a system disk. Any attempt to do so results in an error. The valid range for n is 1 to 16777215 seconds. The specified shadow set must be mounted on the node where the command is issued.
15.3.13 /PATH
/PATH=path-description-string (For multipath devices only) Specifies a particular route to the device. The path description string identifies a path from the host to the device (for example, PGA0.2343-A855-BC99-876F or PKC0.5). Wildcard characters have no special meaning. The path description can be abbreviated to the minimum unique string. Note that this qualifier does not imply that any action be taken. To take action, you must also specify one of the following qualifiers: /(NO)ENABLE, /(NO)POLL, or /SWITCH.
15.3.14 /POLL
/POLL /NOPOLL Specifies that the path specified by the /PATH qualifier is to be polled for continued availability as a path switch destination. This does not affect any attempt to switch to this path. Its purpose is only to inform an operator that a path may or may not be viable as a path switch destination. By default, all device paths are enabled for polling when they are discovered. Note that this qualifier applies only to multipath devices.
15.3.15 /PREFERRED_CPUS
/PREFERRED_CPUS=cpu-a[,cpu-b,cpu-c,...] /NOPREFERRED_CPUS Allows you to specify a CPU or a set of candidate CPUs from which the operating system chooses the CPU to assign to the Fast Path port. The chosen CPU is called the preferred CPU for this Fast Path port. The Fast Path port's interrupt I/O completion processing and I/O initiation processing are performed on this preferred CPU. In addition to selecting the preferred CPU, the User Preferred CPU is set for this port. Setting the User Preferred CPU prevents the port from being reassigned to another CPU unless the User preferred CPU is being stopped. The qualifier can be negated. When the /NOPREFERRED_CPUS qualifier is specified, the User Preferred CPU is cleared for the port, but it remains a Fast Path port, and the current preferred CPU is not changed. If both /PREFERRED_CPUS and /NOPREFERRED_CPUS are specified on the same command line, /NOPREFERRED_CPUS is ignored. If Fast Path is enabled, you can use the DCL command, SHOW DEVICE/FULL, to display the current preferred CPU and the User Preferred CPU. For more information about using Fast Path features to improve I/O performance, see the VSI OpenVMS I/O User's Reference Manual.
15.3.16 /READ_COST
/READ_COST=n {ddcu: | DSAnnnn:} (Alpha/Integrity servers only) Enables you to modify the default cost assigned to each shadow set member (ddcu:). By modifying the assignments, you can bias the reads in favor of one member of a two-member shadow set, or, in the case of three-member shadow sets, in favor of one or two members of the set over the remaining members. The device specified must be a shadow set or member of a shadow set that is mounted on the node where the command is issued. The valid range for the specified cost is 1 to 65,535 units. The shadowing driver assigns default READ_COST values to shadow set members when each member is initially mounted. The default value depends on the device type and its configuration relative to the system mounting it. The following list of device types is ordered by the default READ_COST assignments, from the lowest cost to the highest cost: o DECram device o Directly connected device in the same physical location o Directly connected device in a remote location o DECram served device o Default value for other served devices The value supplied by the /READ_COST qualifier overrides the default assignment. The shadowing driver adds the value of the current queue depth of the shadow set member to the READ_COST value and then reads from the member with the lowest value. Different systems in the cluster can assign different costs to each shadow set member. When this qualifier specifies a shadow set (DSAnnnn:) instead of a shadow set member, the /READ_COST qualifier switches the read cost setting for all shadow set members back to the default read cost settings established automatically by the shadowing software. The specified shadow set must be mounted on the node where the command is issued. In this case, the value specified for the cost can be any number because it will be ignored. If the /SITE command qualifier has been specified, the shadowing driver takes site values into account when it assigns default READ_COST values. In order for the shadowing software to determine whether a device is in the category of "directly connected device in a remote location," the /SITE command qualifier must have been applied to both the shadow set and the shadow set member. Reads requested for a shadow set from a system at site 1 are performed from a shadow set member that is also at site 1. Reads requested for the same shadow set from site 2 can read from the member located at site 2.
15.3.17 /RESET
/RESET=(keyword[,keyword]) Requires CMKRNL and DIAGNOSE privileges. Resets either or both the error count and the operation count for a device. You must specify one or both of the following keywords: ERROR_COUNT Resets the error count. OPERATION_ Resets the operation count. COUNT When either count is reset, a message is sent to the error log. The message indicates that the count was reset and includes the value of the counter before the reset.
15.3.18 /SITE
/SITE=n {DSAnnnn: | ddcu:} (Alpha/Integrity servers only) Indicates to the shadowing driver the site location of the specified shadow set (DSAnnnn:) or shadow set member (ddcu:). If the member is removed from the shadow set and later is returned, this qualifier must be specified again. The SHADOW_SITE_ID system parameter defines the default site location of the shadow set. You can override the default location of the shadow set with the /SITE qualifier. The valid range for the site location, represented by n, is 1 through 255. After you apply this qualifier, the setting remains in effect until you change it either with this command or with the SET SHADOW/SITE command. This qualifier can improve read performance because the member that is physically local to the system will be the preferred disk from which to read, provided that you specify the /SITE qualifier for each shadow set member and for the shadow set. (In a Fibre Channel configuration, shadow set members at different sites are directly attached to the system. For the Volume Shadowing and cluster software, there is no distinction between local and remote in multiple-site Fibre Channel configurations.)
15.3.19 /SPOOLED
/SPOOLED[=(queue-name[:],intermediate-disk-name[:])] /NOSPOOLED Controls whether files are spooled to an intermediate disk. The queue name indicates the printer queue to which a file is queued. If a queue name is not supplied, the default is the name of either the printer or terminal. The intermediate disk name identifies the disk to which the spooled files are written. If the intermediate disk name is not supplied, the default is SYS$DISK (the current default disk). The intermediate disk must be mounted before files can be written to it. Once the device has been set spooled to a disk, that disk cannot be dismounted until the spooled device is set to /NOSPOOLED. All channels must be deassigned from a print device before its spooling characteristics can be changed. Also, the queue that is assigned to the device must be stopped.
15.3.20 /SWITCH
Attempts to switch from the current path of a multipath device to the path named in the /PATH qualifier. The path switch is attempted only if the path has not been disabled by SET DEVICE/NOENABLE. The path switch is initiated but not completed before returning control to the user; use SHOW DEVICE/MULTIPATH to verify that the path switching has completed successfully. This command requires the OPER privilege. Additionally, if the device is currently allocated by another process, as tape devices often are, the SHARE privilege is needed.
15.4 – Examples
1.$ SET DEVICE/SPOOLED=(LPA0) LPA0: In this example, the /SPOOLED qualifier requests that the printer queue LPA0 be spooled to an intermediate disk before files directed to the disk are printed. Because no intermediate disk was specified, the intermediate disk defaults to SYS$DISK. 2.$ SET DEVICE/ERROR_LOGGING DKB2: The SET DEVICE command in this example requests that all device errors reported on device DKB2 be logged in the error log file. 3.$ SET DEVICE/NOAVAILABLE DRA0: The SET DEVICE command in this example prevents any attempt to mount a disk on device DRA0. 4.$ SET DEVICE/DUAL_PORT DRA0: The SET DEVICE command in this example enables the dual port seize logic in device DRA0. 5.$ SET DEVICE/PREFERRED_CPU=1 PNA0 The Fast Path port PNA0 is assigned to CPU 1, and the User Preferred CPU is set to 1. 6.$ SET DEVICE/NOPREFERRED_CPU PNA0 The port PNA0 will have the User Preferred CPU cleared, but will remain a Fast Path port, with CPU 1 as its current preferred CPU. 7.$ SET DEVICE/PREFERRED_CPU=(0,1,2) PNA0 The operating system selects CPU 0,1, or 2 as the preferred CPU for Fast Path port PNA0, and sets its User Preferred CPU to the selected CPU. 8.$ SET DEVICE $1$DGA1001:/PATH=PGB0.0123-4567-89AB-CDEF/ENABLE In this example, a request is made to enable path PGB0.0123-4567-89AB-CDEF as a switch path destination. No error is indicated if the path was in the enabled state prior to the request. Had the /NOENABLE option been used, the path would have been removed from switch path consideration. 9.$ SET DEVICE $1$DGA1001:/PATH=PGB0.0123-4567-89AB-CDEF/POLL In this example, a request is made to enable path PGB0.0123-4567-89AB-CDEF for polling of its continued availability as a path switch destination. Had the /NOPOLL option been used, the path would have been removed from path availability polling consideration. 10$ SET DEVICE $1$DGA1001:/PATH=PGB0.0123-4567-89AB-CDEF/SWITCH In this example, a request is made to switch from the current path to path PGB0.0123-4567-89AB-CDEF. Should the path fail, the switch algorithm of the unspecified path is used. 11$ ! Command sequence used on system 1 at site 1: $ MOUNT/SYSTEM DSA0:/SHADOW=($1$DGA0:,$1$DGA1:) TEST $ SET DEVICE/SITE=1 DSA0: $ ! $ ! Command sequence used on system 2 at site 2: $ MOUNT/SYSTEM DSA0:/SHADOW=($1$DGA0:,$1$DGA1:) TEST $ SET DEVICE/SITE=2 DSA0: $ ! $ ! Commands used on both system 1 and system 2: $ SET DEVICE/SITE=1 $1$DGA0: $ SET DEVICE/SITE=2 $1$DGA1: In this example, the system at site 1 will perform all reads from $1$DGA0, which is the physically local disk, while the system at site 2 will perform all reads from its physically local disk, $1$DGA1.
15.5 /SERVED
Makes a disk on a local node available to all the nodes in an OpenVMS Cluster. Applies only to OpenVMS Cluster environments. You cannot use the SET DEVICE/SERVED command under the following conditions: o In service of a Phase II shadow set virtual unit o On devices that are already mounted o On system disks o On quorum disks Format SET DEVICE/SERVED node-name$DDcu:
15.5.1 – Parameter
node-name$DDcu: Specifies the device name of the device that you want to make available to the cluster.
15.5.2 – Example
$ SET DEVICE/SERVED DRA4: The SET DEVICE/SERVED command in this example instructs the MSCP server to make the disk device DRA4 on your local node available to all other processors on your cluster.
16 – DIRECTORY
Modifies the characteristics of one or more directories. See the qualifier descriptions for restrictions. Format SET DIRECTORY [device-name[:]]directory-spec[,...]
16.1 – Parameters
device-name[:] Specifies the device on which the directory that you want to modify is located. The device name parameter is optional. directory-spec[,...] Specifies one or more directories to be modified. If you specify more than one directory, separate the directory specifications with commas. The asterisk (*) and the percent sign (%) wildcard characters are allowed.
16.2 – Qualifiers
16.2.1 /BACKUP
Modifies the time value specified with the /BEFORE or the /SINCE qualifier. The /BACKUP qualifier selects directories according to the dates of their most recent backups. This qualifier is incompatible with the /CREATED, /EXPIRED, and /MODIFIED qualifiers, which also allow you to select directories according to time attributes. If you specify none of these four time qualifiers, the default is the /CREATED qualifier.
16.2.2 /BEFORE
/BEFORE[=time] Selects only those directories dated prior to the specified time. You can specify time as absolute time, as a combination of absolute and delta times, or as one of the following keywords: BOOT, LOGIN, TODAY (default), TOMORROW, or YESTERDAY. Specify one of the following qualifiers with the /BEFORE qualifier to indicate the time attribute to be used as the basis for selection: /BACKUP, /CREATED (default), /EXPIRED, or /MODIFIED. For complete information on specifying time values, see the OpenVMS User's Manual or the online help topic Date.
16.2.3 /BY_OWNER
/BY_OWNER[=uic] Selects only those directories whose owner user identification code (UIC) matches the specified owner UIC. The default UIC is that of the current process. Specify the UIC by using standard UIC format as described in the VSI OpenVMS Guide to System Security. The /OWNER_UIC qualifier requires control access, a system UIC, or privilege.
16.2.4 /CONFIRM
/CONFIRM /NOCONFIRM (default) Controls whether a request is issued before each SET DIRECTORY operation to confirm that the operation should be performed on that file. The following responses are valid: YES NO QUIT TRUE FALSE Ctrl/Z 1 0 ALL <Return> You can use any combination of uppercase and lowercase letters for word responses. Word responses can be abbreviated to one or more letters (for example, T, TR, or TRU for TRUE), but these abbreviations must be unique. Affirmative answers are YES, TRUE, and 1. Negative answers include: NO, FALSE, 0, and pressing Return. Entering QUIT or pressing Ctrl/Z indicates that you want to stop processing the command at that point. When you respond by entering ALL, the command continues to process, but no further prompts are given. If you type a response other than one of those in the list, DCL issues an error message and redisplays the prompt.
16.2.5 /CREATED
/CREATED (default) Modifies the time value specified with the /BEFORE or the /SINCE qualifier. The /CREATED qualifier selects directories based on their dates of creation. This qualifier is incompatible with the /BACKUP, /EXPIRED, and /MODIFIED qualifiers, which also allow you to select directories according to time attributes. If you specify none of these four time qualifiers, the default is the /CREATED qualifier.
16.2.6 /EXCLUDE
/EXCLUDE=(filespec[,...]) Excludes the specified directories from the SET DIRECTORY operation. You can include a directory but not a device in the file specification. The asterisk (*) and the percent sign (%) wildcard characters are allowed in the file specification; however, you cannot use relative version numbers to exclude a specific version. If you specify only one directory, you can omit the parentheses.
16.2.7 /EXPIRED
Modifies the time value specified with the /BEFORE or the /SINCE qualifier. The /EXPIRED qualifier selects directories according to their expiration dates. (The expiration date is set with the SET FILE/EXPIRATION_DATE command.) The /EXPIRED qualifier is incompatible with the /BACKUP, /CREATED, and /MODIFIED qualifiers, which also allow you to select directories according to time attributes. If you specify none of these four time qualifiers, the default is the /CREATED qualifier.
16.2.8 /LOG
/LOG /NOLOG (default) Controls whether the system displays the directory specification of each directory that is modified as the command executes.
16.2.9 /MODIFIED
Modifies the time value specified with the /BEFORE or the /SINCE qualifier. The /MODIFIED qualifier selects directories according to the dates on which they were last modified. This qualifier is incompatible with the /BACKUP, /CREATED, and /EXPIRED qualifiers, which also allow you to select directories according to time attributes. If you specify none of these four time modifiers, the default is the /CREATED qualifier.
16.2.10 /OWNER_UIC
/OWNER_UIC[=uic] Requires control access, a system UIC, or privilege. Specifies an owner UIC for the directory. The default UIC is that of the current process.
16.2.11 /SINCE
/SINCE[=time] Selects only those directories dated on or after the specified time. You can specify time as absolute time, as a combination of absolute and delta times, or as one of the following keywords: BOOT, JOB_LOGIN, LOGIN, TODAY (default), TOMORROW, or YESTERDAY. Specify one of the following qualifiers with the /SINCE qualifier to indicate the time attribute to be used as the basis for selection: /BACKUP, /CREATED (default), /EXPIRED, or /MODIFIED. For complete information on specifying time values, see the OpenVMS User's Manual or the online help topic Date.
16.2.12 /STYLE
/STYLE=keyword Specifies the file name format for display purposes. The valid keywords for this qualifier are CONDENSED and EXPANDED. Descriptions are as follows: Keyword Explanation CONDENSED Displays the file name representation of what is (default) generated to fit into a 255-length character string. This file name may contain a DID or FID abbreviation in the file specification. EXPANDED Displays the file name representation of what is stored on disk. This file name does not contain any DID or FID abbreviations. The keywords CONDENSED and EXPANDED are mutually exclusive. This qualifier specifies which file name format is displayed in the output message, along with the confirmation if requested. File errors are displayed with the CONDENSED file specification unless the EXPANDED keyword is specified. See the OpenVMS User's Manual for more information.
16.2.13 /SYMLINK
/SYMLINK=keyword The valid keywords for this qualifier are [NO]WILDCARD and [NO]ELLIPSIS. Descriptions are as follows: Keyword Explanation WILDCARD Indicates that symlinks are enabled during wildcard searches. NOWILDCARD Indicates that symlinks are disabled during directory wildcard searches. ELLIPSIS Equivalent to WILDCARD (included for command symmetry). NOELLIPSIS Indicates that symlinks are matched for all wildcard fields except for ellipsis. If the file named in the SET DIRECTORY command is a symlink, the command operates on the symlink target.
16.2.14 /VERSION_LIMIT
/VERSION_LIMIT[=n] Specifies the total number of versions that a file in the specified directory can have. If you do not specify a version limit, a value of 0 is used, indicating that the number of versions of a file is limited only to the Files-11 architectural limit-32,767. If you change the version limit for the directory, the new value applies only to files created after the change has been made. The SET DIRECTORY version limit value refers to the number of files with the same file name and type that can exist in the directory at one time. It has no effect on the version number field of a particular file specification. Use the SET FILE command to set limits on file version numbers. To find out the current version limit for a directory, use the DIRECTORY/FULL command on a directory file and look at the File Attributes component of the output.
16.3 – Examples
1.$ SET DIRECTORY/VERSION_LIMIT=5/CONFIRM [VERCAMMEN...] The SET DIRECTORY command in this example sets a version limit of 5 for all files in the VERCAMMEN directory (the root directory) and all subdirectories of [VERCAMMEN]. The /CONFIRM qualifier requests that you confirm whether the specified directory should actually be modified. Note that this version limit applies only to files created after the command is entered. 2.$ SET DIRECTORY/VERSION_LIMIT=8 [.JAIMON...] In this example, the SET DIRECTORY command sets a version limit of 8 for all files in the JAIMON subdirectory and any of its subdirectories (for example, [.JAIMON.ADRIAN]). The setting for these specific directories overrides any version limit that might be set for the root directory and its other subdirectories. 3.$ SET DIRECTORY/OWNER_UIC=[360,020] [WOERTMAN],[MOSER] The SET DIRECTORY command in this example modifies both the [WOERTMAN] and [MOSER] directories, changing their owner UICs. Using the OWNER_UIC qualifier requires SYSPRV (system privilege).
17 – DISPLAY
Directs the output of an OpenVMS DECwindows application. Output can be directed from any processor running a DECwindows application, including workstations, to any DECwindows workstation. Both source and destination nodes must be part of the same network. Format SET DISPLAY [display-device]
17.1 – Parameter
display-device Specifies a logical name for the workstation display you are creating or modifying. If you are directing application output to multiple workstation displays, you can use different logical names to point to each display. If you do not specify a display- device parameter, the logical name DECW$DISPLAY is used. This means that, by default, application output will be displayed on the workstation display device referred to by DECW$DISPLAY. By entering the command SHOW DISPLAY, you can see the default workstation node where applications will be displayed, as well as related device, screen, and transport information. If you specified your own logical name in the SET DISPLAY/CREATE command, include that logical name in the SHOW DISPLAY command.
17.2 – Qualifiers
17.2.1 /CREATE
Creates the workstation display device (WSAn:) on which a DECwindows application is displayed. You must specify the /CREATE qualifier the first time you use the SET DISPLAY command, but you need not respecify it if you continue to redirect output from applications to other workstations with subsequent SET DISPLAY commands. When you specify the /CREATE qualifier without the /NODE qualifier, the workstation device defaults to the current node. Additionally, if you omit the /TRANSPORT qualifier, the transport defaults to either the value specified by the DECW$SETDISPLAY_ DEFAULT_TRANSPORT logical, if defined, or to DECNET.
17.2.2 /DELETE
Cancels the redirected display by deassigning the logical name DECW$DISPLAY and deleting the created display device. If you specified a logical name as the display-device parameter with the SET DISPLAY/CREATE command, entering the SET DISPLAY/DELETE display-device command cancels the redirected display by deassigning the logical name you specified and deleting the created display device. The DECwindows Session Manager defines DECW$DISPLAY in your job logical name table when you open a terminal (DECterm) window. When you redirect application output to another workstation with the SET DISPLAY/CREATE command, an additional DECW$DISPLAY logical name is defined in your process logical name table. This definition supersedes the definition in the job logical name table. Output from applications run from the process in which you executed the SET DISPLAY/CREATE command will be displayed on the workstation referred to by the definition of DECW$DISPLAY in the process logical name table. Enter the SHOW DISPLAY command to see where this application will be displayed. To see whether multiple definitions for DECW$DISPLAY exist, enter the command SHOW LOGICAL DECW$DISPLAY. If DECW$DISPLAY is still defined (for example, in the job logical name table) after you specify the /DELETE qualifier, any DECwindows applications run from this process will be displayed on the workstation device to which output is now directed. Enter the SHOW DISPLAY command if you are unsure of the node to which DECW$DISPLAY refers. CAUTION If you modify or delete the definition of DECW$DISPLAY from the job logical name table, you will be unable to start another session. Be careful not to specify the /DELETE qualifier without having first redirected the display with the SET DISPLAY/CREATE command. You cannot specify the /DELETE and /CREATE qualifiers on the same command line.
17.2.3 /EXECUTIVE_MODE
Creates an executive-mode device and assigns the logical name DECW$DISPLAY to point to it. This qualifier must be used with the /CREATE qualifier. Devices created with the /EXECUTIVE_MODE qualifier are deleted only in the following situations: o They are explicitly deleted with the /DELETE qualifier. o The system is rebooted. To modify or delete executive-mode devices, you must have SYSNAM (system logical name) privilege.
17.2.4 /GENERATE
/GENERATE[=(keyword[=value][,...]) (Alpha/Integrity servers only) Requires a trusted network connection to an X display server and the SECURITY extension must be enabled on that server. Instructs the display device to connect to the X display server and generate a new authorization key (consisting of the authorization protocol name and a magic cookie). This authorization key is then stored in the X authority file currently in use. If you do not want to overwrite any previously existing keys for this display device, use the /XAUTHORITY qualifier to write the generated key to an alternate X authority file. NOTE The MIT-KERBEROS-5 protocol does not currently support key generation, as defined by the SECURITY extension. Do not use the /GENERATE qualifier when connected to an X display server protected by Kerberos access control. Each generated key follows the default settings unless otherwise specified. This means that, by default, each generated authorization key: o Follows the MIT-MAGIC-COOKIE-1 protocol o Grants an untrusted connection to the X server o Is not associated with a particular application group o Maintains a timeout period of 60 seconds before which it must be used (otherwise, it is automatically revoked) Possible keyword values are as follows: Value Description TRUSTED Specifies that the key grant unrestricted access to the X server. This keyword permits a client application to perform all actions. UNTRUSTED Specifies that the key grant restricted access to the X server. This keyword restricts client applications to a subset of X server extensions and prevents access to windows other than those created by the requesting application. TIMEOUT=seconds Specifies the number of seconds after which the key is revoked automatically if not in use. The timeout period begins immediately, and refreshes once all connections using this key have closed. NOTIMEOUT Specifies that the key has no expiration and must be explicitly revoked. GROUP=groupid Specifies that the key is associated with a particular application group and is to be revoked if that group is deleted. Although the use of application groups is supported by DECwindows Motif via the XC-APPGROUP extension, DECwindows Motif does not currently supply any utilities or desktop applications to create these groups. To create an application group, you must use an X Window System application or utility external to DECwindows Motif. PROTOCOL=name Specifies the protocol to be used to authenticate the key. Valid values are server dependent. For the DECwindows X display server, the only valid value for the name parameter is MIT-MAGIC-COOKIE- 1. If you are connecting to a third-party X server, the names of any additional authorization protocols on that X server that support the SECURITY extension and key generation are also valid. The keyword sets TRUSTED/UNTRUSTED and TIMEOUT/NOTIMEOUT are mutually exclusive. Do not enter both values on the same command line.
17.2.5 /LBXAUTHENTICATE
/LBXAUTHENTICATE=protocol-name (Alpha/Integrity servers only) /NOLBXAUTHENTICATE (Alpha/Integrity servers only) Specifies the authorization protocol used to grant the LBX proxy server access to the X display server. This qualifier is used with the /PROXY and /CREATE qualifiers when creating an initial LBX proxy server connection. If a proxy server connection already exists, these qualifiers are ignored. If you do not specify /LBXAUTHENTICATE, the authorization protocol is obtained from the current X authority file. If you specify /NOLBXAUTHENTICATE, the proxy server defaults to the X authority file of the user who started the proxy manager application. Valid values for the protocol-name parameter are MIT-MAGIC- COOKIE-1 and MIT-KERBEROS-5. If you supply a protocol-name value of MIT-MAGIC-COOKIE-1, you must also specify the value of the magic cookie using the /LBXDATA qualifier.
17.2.6 /LBXDATA
/LBXDATA=value (Alpha/Integrity servers only) Specifies a data value for the authorization protocol used between the LBX proxy server and the X display server. This qualifier must be used with the /LBXAUTHENTICATE, /PROXY, and /CREATE qualifiers. When you issue a SET DISPLAY/CREATE/PROXY/LBXAUTHENTICATE=MIT- MAGIC-COOKIE-1 command, use this qualifier to provide a hexadecimal magic cookie value to the MIT-MAGIC-COOKIE-1 protocol.
17.2.7 /NODE
/NODE=workstation_display Defines the workstation on which you want to display DECwindows applications. The node name you provide cannot be a cluster alias (a name that represents multiple nodes configured in an OpenVMS Cluster), but must instead identify an actual node. You must create a workstation display device with the /CREATE qualifier before you can redirect the output from applications to other workstations. Do not enter the SET DISPLAY/NODE=workstation_display command without having previously specified the /CREATE qualifier. When you specify the /CREATE qualifier without the /NODE qualifier, the workstation defaults to the current node. Make sure that you are authorized to display applications on the workstation you specify. For more information about using the DECwindows Session Manager to authorize yourself to display applications from other nodes, see the DECwindows documentation. Each node, both source and destination, must be defined in the other's network node database. For example, to display applications on node HUBBUB from ZEPHYR, HUBBUB must be entered in ZEPHYR's network node database, and ZEPHYR must be entered in HUBBUB's network node database. In addition, users on ZEPHYR must be authorized in the DECwindows Session Manager to display applications on HUBBUB. For information about entering nodes in a network node database, see the DECnet-Plus for OpenVMS documentation.
17.2.8 /PMPORT
/PMPORT=[port-number] (Alpha/Integrity servers only) Specifies the port number on which the proxy manager is listening. This qualifier is used with the /PROXY and /CREATE qualifiers. The default port is 6500.
17.2.9 /PMTRANSPORT
/PMTRANSPORT=transport-name (Alpha/Integrity servers only) Specifies the network transport used to connect to the proxy manager. This qualifier is used with the /PROXY and /CREATE qualifiers. Valid values for the transport-name parameter are the same as those listed for the /TRANSPORT qualifier. If you do not specify a transport, then the network transport specified by the /TRANSPORT qualifier is used.
17.2.10 /PROXY
/PROXY[=node] (Alpha/Integrity servers only) Specifies that a proxy manager application should be used to locate an LBX proxy server, which serves as an intermediary for processing client and server connections for a display device. Use an LBX proxy server when connecting to a remote node located over a low-bandwidth network connection, such as the Internet. The proxy manager should run on the local network. This qualifier is used with the /CREATE qualifier. When you create a display device using the SET DISPLAY/CREATE/PROXY command, you can use that device to connect to an X display server exactly the same as you would with any other display device. The client connects to the LBX proxy server returned by the proxy manager, which in turn connects to the X display server. The value of the /PROXY qualifier specifies the node on which the proxy manager is running. The proxy manager is responsible for starting or locating a proxy server to provide access to the X display server specified by the transport, node, and server values. The proxy manager returns the transport, node, and server values for the selected proxy server to the display device. If you do not specify a value for the node parameter, the default location is the current node. The /PMPORT and /PMTRANSPORT qualifiers can be used to further specify the proxy manager's location.
17.2.11 /QUOTA
/QUOTA=(quota-name=value[,...]) (Alpha/Integrity servers only) Requires SYSPRV (system privilege) privilege or the DECW$WS_QUOTA rights identifier. If using an executive mode device, SYSNAM (system name) privilege is also required. Modifies the value of the name count or data space quota associated with the display device. These quotas influence the amount of non-paged pool available for storing named properties. Possible values for the quota-name parameter are as follows: o NAME_COUNT - The name count quota restricts the total number of named properties associated with the device. The default name count quota is the value of the DECW$WS_DEFAULT_NAME_ COUNT logical, or 12 if the logical is not defined. o DATA_SPACE - The data space quota restricts the total amount of space available (in bytes) for storing property values. Note that this space includes some data overhead and may not total the exact length of the values. The default data space quota is the value of the DECW$WS_DEFAULT_DATA_SPACE logical, or 10752 if the logical is not defined.
17.2.12 /REVOKE
/REVOKE (Alpha/Integrity servers only) Requires a trusted network connection to an X display server and that the SECURITY extension be enabled on that server. Revokes an authorization key created with the /GENERATE qualifier. If you specify the /REVOKE qualifier, the revoke operation is performed before the other actions on the SET DISPLAY command. For example, you can use both the /REVOKE and /GENERATE qualifiers on the same command line, in any order, to revoke one key and generate another. Do not use with the /CREATE qualifier.
17.2.13 /SCREEN
/SCREEN=screen-number Defines the screen to be associated with this display device. In some hardware configurations, the system supports more than one screen. In such a configuration, you can specify the screen to which the application is directed.
17.2.14 /SERVER
/SERVER=server-number Defines the server to be associated with the display device indicated by the display-device parameter to the SET DEVICE command. Using the transport mechanism, the server passes data between the user and the application. In some hardware configurations, the system supports more than one server. In such a configuration, you can specify the server to which the application is directed. On Alpha and Integrity server systems in LBX proxy server configurations, this qualifier specifies either an X display server or a standalone LBX proxy server. Standalone LBX proxy servers are not managed by the proxy manager and are manually assigned a server number on startup. If you do not specify the display-device parameter, the SET DISPLAY/SERVER command associates the server with the display device indicated by the logical name DECW$DISPLAY.
17.2.15 /SUPERVISOR_MODE
/SUPERVISOR_MODE (default) Creates a supervisor-mode device and assigns the logical name DECW$DISPLAY to point to it. This qualifier must be used with the /CREATE qualifier. When the user logs out, the device is deleted.
17.2.16 /TRANSPORT
/TRANSPORT=transport-name Defines the transport mechanism, for example, DECnet or local, that passes information between the application and the workstation. The transport mechanism is used to send input from the user to the application and output from the application to the display device. In proxy manager configurations, the value specified for this qualifier also acts as a default value for the /PMTRANSPORT qualifier. The transport-name parameter can be one of the following values: o TCPIP or DECNET Specifies the appropriate network transport for applications running and displaying on different nodes. You can specify the default transport value used with the SET DISPLAY/CREATE command by defining the DECW$SETDISPLAY_DEFAULT_TRANSPORT logical in the job, process, or system table. The value of this logical is then used each time you enter the SET DISPLAY/CREATE command without the /TRANSPORT qualifier. If you specify neither the qualifier nor the logical, the value of DECNET is used as default. o LOCAL Optimizes the performance of applications running and displaying on the same node. On Alpha and Integrity server systems, the valid set of values for the transport-name parameter is further determined by the DECwindows logical DECW$IPV6_SUPPORT. This logical specifies which Internet Protocol version is supported: IPv4 or IPv6. See the DECwindows Motif documentation for more information about the DECW$IPV6_SUPPORT logical and support for the IPv6 protocol. When using a proxy manager on Alpha and Integrity server systems, this qualifier specifies the transport that the selected LBX proxy server should use to connect to the X server. When using a standalone proxy server (specified by the /SERVER qualifier), this qualifier specifies the transport that the client should use to connect to the proxy server.
17.2.17 /USER_MODE
Creates a user-mode display device and assigns the logical name DECW$DISPLAY to point to it. This qualifier must be used with the /CREATE qualifier. The lifetime of a user-mode device is one DECwindows image: when the next DECwindows image exits, the device is deleted.
17.2.18 /VALUE
/VALUE=(NAME=property-name,action[=data]) (Alpha/Integrity servers only) Sets, deletes, or modifies a named property value associated with the display device. Named property values are intended to store configuration information associated with the display device, such as the network address of a session manager. Use the following options to specify the type of action to perform: o DELETE - Deletes the specified property value. o SET=data - Sets the specified property to the supplied value. o APPEND=data - If the property exists, adds the supplied value to the end of list of values associated with the property. If the property does not exist, it is created and set to the supplied value. Use the SHOW DISPLAY/VALUES command to display all existing named properties and their current values. Property names are restricted to 31 characters. Names that include a dollar sign ($) are reserved by VSI for use with OpenVMS products and facilities. For example, names starting with the string DECW$ are reserved for DECwindows Motif.
17.2.19 /XAUTHORITY
/XAUTHORITY=[filespec] (Alpha/Integrity servers only) /NOXAUTHORITY (Alpha/Integrity servers only) Directs the display device to use a specific X authority file when connecting the X display server. The X authority file contains data that grants or restricts access to the X display server depending on the authorization protocol in use. If a file specification is not entered with this qualifier, the default of SYS$LOGIN:DECW$XAUTHORITY.DECW$XAUTH is used. If the file specification is entered and the file does not currently exist, it is created automatically when an entry is made into the file. Note that with this qualifier, all X authority file specifications resolve to a physical device (rather than a logical device) in order to remain available to other detached processes. If you specify a search list, and the file is not found, the X authority file specification resolves to the first directory in the search list. Use /NOXAUTHORITY to clear the setting and return to the file referenced by the DECW$XAUTHORITY logical or the default file if the logical is not defined.
17.3 – Examples
1.$ SHOW DISPLAY Device: WSA1: [super] Node: 0 Transport: LOCAL Server: 0 Screen: 0 $ SET DISPLAY/CREATE/NODE=ZEPHYR/EXECUTIVE_MODE $ SHOW DISPLAY Device: WSA2: [exec] Node: ZEPHYR Transport: DECNET Server: 0 Screen: 0 $ SPAWN/NOWAIT/INPUT=NL: RUN SYS$SYSTEM:DECW$CLOCK $ SET DISPLAY/DELETE $ SHOW DISPLAY Device: WSA1: [super] Node: 0 Transport: LOCAL Server: 0 Screen: 0 In this example, you are logged in to your workstation (device WSA1:), here referred to as node 0. (0 is the standard shorthand notation for representing your node.) You want to run the DECwindows Clock on your workstation and display it on another workstation, ZEPHYR. Assuming you are authorized to display applications on ZEPHYR, you redirect the application's output to ZEPHYR with the SET DISPLAY command. The device created on ZEPHYR is an executive- mode device. You enter the SHOW DISPLAY command to verify the location of the redirected display. You then run Clock. When you finish running Clock, you disable the redirected display by entering the SET DISPLAY/DELETE command. Finally, you enter the SHOW DISPLAY command to verify that any applications subsequently run on your node will also be displayed there. Note that a new workstation display device, WSA2, is created when you enter the SET DISPLAY/CREATE command. When you cancel the redirected display with the SET DISPLAY/DELETE command, application output is once again displayed on the workstation display device referred to by WSA1. 2.$ SET DISPLAY/CREATE/NODE=FLOPSY RABBIT $ SHOW DISPLAY RABBIT Device: WSA2: [super] Node: FLOPSY Transport: DECNET Server: 0 Screen: 0 $ RUN/DETACHED/OUTPUT=WSA2: SYS$SYSTEM:DECW$CLOCK $ SET DISPLAY/CREATE/NODE=ZEPHYR ZNODE $ SHOW DISPLAY ZNODE Device: WSA3: [super] Node: ZEPHYR Transport: DECNET Server: 0 Screen: 0 $ RUN/DETACHED/OUTPUT=WSA3: SYS$SYSTEM:DECW$CALENDAR $ RUN SYS$SYSTEM:DECW$BOOKREADER $ SHOW DISPLAY Device: WSA1: [super] Node: 0 Transport: LOCAL Server: 0 Screen: 0 In this example, you are logged in to your node (device WSA1:), and want to direct the output from applications to several workstation displays in the same session. By specifying different logical names in the SET DISPLAY command, you can redirect the output without changing the logical name definition for DECW$DISPLAY. This allows you to display the output from most applications on your default display but occasionally display output on another workstation. You can also continue to run and display applications on your node. In this example, Clock is displayed on node FLOPSY, Calendar is displayed on node ZEPHYR, and Bookreader is displayed on your workstation. Note that to run your applications with the DCL command RUN/DETACHED, you must use the device name that equates to the logical display device name you specified in the SET DISPLAY command. Use the SHOW DISPLAY command to obtain this device name. 3.$ SET DISPLAY/CREATE/GENERATE=TRUSTED- _$ /XAUTHORITY=XAUTHORITY_TEMP/NODE=ZEPHYR $ PIPE SHOW DISPLAY/EXTR | RSH FLOPSY "XAUTH NMERGE SYS$INPUT" $ SET HOST FLOPSY $ SET DISPLAY/NODE=ZEPHYR $ RUN SYS$SYSTEM:DECW$CLOCK In this example, you are logged into your workstation (WSA1:) and want to run the DECwindows Clock application on a remote node (FLOPSY) and display it on another workstation (ZEPHYR). Both systems are using Magic Cookie authorization to control access to the X display server. Assuming you are already authorized to connect to the server on node ZEPHYR, you create a display device that connects to ZEPHYR and generates a new authorization key. This key grants trusted connections to the server on ZEPHYR within 60 seconds of key generation. To restrict trusted access to the server, the key is stored in a new X authority file, XAUTHORITY_ TEMP.DECW$XAUTH. The authorization key is then extracted and copied to FLOPSY, and merged with other entries in your X authority file on that system. You then set host to node FLOPSY and set display to node ZEPHYR. When you run the clock application from FLOPSY, it connects to the server on ZEPHYR and is allowed access as specified by the generated authorization key. 4.$ SET DISPLAY/CREATE/VALUE=- _$ (NAME=DECW$SESSION_MANAGER,SET="tcpip/zephyr:9510") $ SHOW DISPLAY/SYMBOLS/ALL Device: WSA23: [super] Node: 0 Transport: DECNET Server: 0 Screen: 0 User-defined values: "DECW$SESSION_MANAGER" = "tcpip/zephyr:9510" $ SHOW SYMBOL DECW$DISPLAY__DECW$SESSION_MANAGER DECW$DISPLAY__DECW$SESSION_MANAGER == "tcpip/zephyr:9510" $ SET DISPLAY UNTRUSTED/CREATE/XAUTHORITY=TEMP/GENERATE- _$ /VALUE=(NAME=DECW$SESSION_MANAGER,-) _$ SET="'DECW$DISPLAY__DECW$SESSION_MANAGER'" In this example, you create a display device, and set the DECW$SESSION_MANAGER property to the network address of a session manager on remote node ZEPHYR using port number 9510. The SHOW DISPLAY/SYMBOLS command then defines a DCL symbol for the port value. The symbol is then used to set the port value for a new display device. 5.$ SET DISPLAY/CREATE/PROXY=GATEWY/NODE=hubbub.company.com- _$ /PMTRANSPORT=DECNET/NOLBXAUTHENTICATE/TRANSPORT=TCPIP $ SHOW DISPLAY Device: WSA23: [super] Node: HUBBUB.COMPANY.COM Transport: TCPIP Server: 0 Screen: 0 Connection will use: LBX proxy on node: gatewy.company.com Transport to proxy: TCPIP Server number: 63 $ RUN SYS$SYSTEM:DECW$CLOCK In this example, you are logged into a local workstation (FLOPSY) and want to connect to an external host (hubbub.company.com), which is outside of your company's firewall. You use the proxy manager on a gateway host (GATEWY) to start the LBX proxy server, connect to the external host, and display the DECwindows Clock application. Note that DECnet is used within the local area network (LAN) to communicate to the proxy manager, and TCP/IP is used by the proxy server to communicate to the X display server on the external host. When using a managed proxy server, the proxy server chooses the transport for the client-to-proxy server connection.
18 – ENTRY
Changes the current status or attributes of a job not currently executing in a queue. Requires delete (D) access to the job or manage (M) access to the queue. Format SET ENTRY entry-number[,...]
18.1 – Parameter
entry-number[,...] Specifies the entry number of the job you want to change. If you specify more than one entry, separate the entry numbers with commas (,). The system assigns a unique entry number to each queued print or batch job in the system. By default, the PRINT and SUBMIT commands display the entry number when they successfully queue a job for processing. These commands also create or update the local symbol $ENTRY to reflect the entry number of the most recently queued job. To find a job's entry number, enter the SHOW ENTRY or the SHOW QUEUE command.
18.2 – Qualifiers
18.2.1 /AFTER
/AFTER=time /NOAFTER Requests that the specified job be held until after a specific time. If the specified time has already passed, the job is scheduled for processing. You can specify either absolute time or a combination of absolute and delta times. For complete information on specifying time values, see the OpenVMS User's Manual or the online help topic Date. NOTE Releasing or rescheduling a job before its submission time is not supported for security reasons. Therefore, if you set the system time to a future time and submit a job on a node where the queue manager is running, you cannot release or reschedule that job back to the present time if you reset the system time. For example, you can set the system time to a future time of January 1, 2020 and submit a job to run on January 9, 2020; however, if you set the system time back to the present time and try to release the job to the present time, the job will be released to January 1, 2020. This situation impacts the following qualifiers: /AFTER, /NOHOLD, and /RELEASE. To specify /AFTER for a job on hold, you must also specify /NOHOLD in order to cause the job to be held only until the specified time. Jobs can be released before the specified time by using the /NOAFTER or /RELEASE qualifier with the SET ENTRY command.
18.2.2 /BURST
/BURST /NOBURST Controls whether two file flag pages with a burst bar between them are printed preceding each file in a job. Use the /[NO]BURST qualifier to override the /DEFAULT qualifier options that have been set for the output queue you are using. The /[NO]BURST qualifier does not override the /SEPARATE qualifier options set for the queue. When you specify the /BURST qualifier for a file, the /[NO]FLAG qualifier does not add or subtract a flag page from the two flag pages that are printed preceding a file.
18.2.3 /CHARACTERISTICS
/CHARACTERISTICS=(characteristic[,...]) /NOCHARACTERISTICS Specifies the name or number of one or more characteristics to be associated with the job. Characteristics can refer to such things as color of ink. If you specify only one characteristic, you can omit the parentheses. A characteristic's number must range from 0 to 127. To see which characteristics have been defined for your system, use the SHOW QUEUE/CHARACTERISTICS command. To see which characteristics are associated with a particular queue, use the SHOW QUEUE/FULL command. A print job can be processed on an execution queue if none, some, or all of the characteristics associated with the queue also are associated with the job. That is, the job's characteristics must be a subset of the queue's characteristics. However, if any of the characteristics associated with the job are not associated with the queue, the job remains pending until one or more of the following occurs: o The characteristics specified with the queue are changed to make the job's characteristics a subset of the queue's characteristics (using, for example, the SET QUEUE/CHARACTERISTICS command). o The characteristics specified with the job are changed to make the job's characteristics a subset of the queue's characteristics (using, for example, the SET ENTRY/CHARACTERISTICS command). o The job is moved to a queue on which all the job's characteristics have been specified (using, for example, the SET ENTRY/REQUEUE command). o The job is deleted (using, for example, the DELETE/ENTRY command).
18.2.4 /CLI
/CLI=filename Specifies the name of a command language interpreter (CLI) to use in processing the batch job. The file name specifies that the CLI be SYS$SYSTEM:filename.EXE. If you do not specify the /CLI qualifier, the job is run by the CLI specified in the user authorization file (UAF), or whatever CLI was specified when the job was originally submitted to the queue.
18.2.5 /COPIES
/COPIES=n Specifies the number of copies to print. The value of n can be any number from 1 to 255. When you use the /COPIES qualifier with the SET ENTRY command, the number of copies can apply only to the entire print job. You cannot use this qualifier to specify different numbers of copies for individual files within a multifile job.
18.2.6 /CPUTIME
/CPUTIME=time Specifies a CPU time limit for the batch job. You can specify the time parameter as delta time, the value 0, INFINITE, or NONE. If the queue on which the job executes has a defined CPUMAXIMUM value, the smaller of the specified job and queue values is used. If the queue on which the job executes does not have a specified maximum CPU time limit, the smaller of the SUBMIT command and user authorization file (UAF) values is used. If the queue on which the job executes does not have a specified maximum CPU time limit and the UAF has a specified CPU time limit of NONE, either the value 0 or the keyword INFINITE allows unlimited CPU time. If you specify NONE, the specified queue or UAF value is used. CPU time values must be greater than or equal to the number specified by the system parameter PQL_MCPULM. For information on specifying time values, see the OpenVMS User's Manual or the online help topic Date.
18.2.7 /FEED
/FEED /NOFEED Controls whether form feeds are inserted into the print job when the printer reaches the bottom margin of the form in use. You can suppress this automatic form feed (without affecting any of the other carriage control functions that are in place) by using the /NOFEED qualifier. When you use the /FEED qualifier with the SET ENTRY command, the qualifier applies to all files in the print job. You cannot use this qualifier to specify form feeds for individual files within a multifile job.
18.2.8 /FLAG
/FLAG /NOFLAG Controls whether a flag page is printed preceding each file in a print job. The flag page contains the name of the user submitting the job, the job entry number, and other information about the file being printed. Use the /[NO]FLAG qualifier to override the installation-defined defaults that have been set for the output queue you are using or to override the qualifier specified in the PRINT command that queued the job.
18.2.9 /FORM
/FORM=form Specifies the name or number of the form to be associated with the print job. If you omit the /FORM qualifier, the default form for the execution queue is associated with the job. Forms have attributes such as print image width and length or paper stock, which the print symbiont associates with a job when the job is processed. To see which forms have been defined for your system, use the SHOW QUEUE/FORM command. To find out which form is mounted currently on a particular queue and which form is specified as that queue's default form, use the SHOW QUEUE/FULL command. The stock of the form associated with the job must match the stock of the form mounted on the execution queue on which you want the job to be processed. If the stocks do not match, the job remains pending until one or more of the following occurs: o A form with the same stock as the job's form is mounted on the queue (using, for example, the SET QUEUE/FORM_MOUNTED command). o A form with the same stock as the queue's mounted form is specified with the job (using, for example, the SET ENTRY/FORM command). o The job is moved to a queue on which the stock of the mounted form matches the stock of the job's form (using, for example, the SET ENTRY/REQUEUE command). o The job is deleted (using, for example, the DELETE/ENTRY command).
18.2.10 /HEADER
/HEADER /NOHEADER Controls whether a heading line is printed at the top of each output page in a print job.
18.2.11 /HOLD
/HOLD /NOHOLD Controls whether the job is to be made available for processing or held for processing later. If you specify the /HOLD qualifier, the job is not released for processing until you enter SET ENTRY/NOHOLD or SET ENTRY/RELEASE. You can use the /NOHOLD qualifier to release jobs that have been held for the following reasons: o A job was submitted with the /HOLD qualifier. o A completed job is being retained in a queue. o A user-written symbiont has refused a job. NOTE Releasing or rescheduling a job before its submission time is not supported for security reasons. Therefore, if you set the system time to a future time and submit a job on a node where the queue manager is running, you cannot release or reschedule that job back to the present time if you reset the system time. For example, you can set the system time to a future time of January 1, 2020 and submit a job to run on January 9, 2020; however, if you set the system time back to the present time and try to release the job to the present time, the job will be released to January 1, 2020. This situation impacts the following qualifiers: /AFTER, /NOHOLD, and /RELEASE.
18.2.12 /JOB_COUNT
/JOB_COUNT=n Requests that an entire print job be printed n times, where n is a decimal integer from 1 to 255. This qualifier overrides the /JOB_COUNT qualifier with the PRINT command.
18.2.13 /KEEP
/KEEP /NOKEEP Controls whether the batch job log file is deleted after it is printed.
18.2.14 /LOG_FILE
/LOG_FILE[=filespec] /NOLOG_FILE Creates a log file with the specified file specification. You can specify a different device name, as long as the process executing the batch job has access to the device on which the log file will reside. Logical names in the file specification are translated in the context of the process that executes the SET ENTRY command. If you omit the /LOG_FILE qualifier and specify the /NAME qualifier, the log file is written to a file having the same file name as that specified by the /NAME qualifier; the file type is .LOG. When you omit the /LOG_FILE qualifier, the job-name value used with the /NAME qualifier must be a valid file name.
18.2.15 /LOWERCASE
/LOWERCASE /NOLOWERCASE Indicates whether the print job must be printed on a printer that can print both uppercase and lowercase letters. The /NOLOWERCASE qualifier means that files can be printed on printers that print only uppercase letters. If all available printers can print both uppercase and lowercase letters, you do not need to specify the /LOWERCASE qualifier.
18.2.16 /NAME
/NAME=job-name Names the job. The job name must be 1 to 39 alphanumeric characters. The SHOW ENTRY and SHOW QUEUE commands display the job name. For batch jobs, the job name is also used for the batch job log file. For print jobs, the job name is also used on the flag page of the printed output. The default job name is the name of the first file in the job.
18.2.17 /NOCHECKPOINT
For a batch job, erases the value established by the most recently executed SET RESTART_VALUE command. For a print job, clears the stored checkpoint so that the job will restart from the beginning.
18.2.18 /NODELETE
Cancels file deletion for a job that was submitted with the /DELETE qualifier. If you did not specify the /DELETE qualifier when the job was originally submitted to the queue, you cannot use the SET ENTRY command to establish file deletion at a later time. You cannot use the /NODELETE qualifier to cancel deletion of individual files in a multifile job.
18.2.19 /NOTE
/NOTE=string Specifies a message of up to 255 characters to appear on the flag page of the print job. Enclose messages containing lowercase letters, blanks, or other nonalphanumeric characters (including spaces) in quotation marks (" ").
18.2.20 /NOTIFY
/NOTIFY /NONOTIFY Controls whether a message notifies you when your job has been completed or aborted. Notification is sent to any terminal session on the same OpenVMS Cluster system to which you are logged in.
18.2.21 /OPERATOR
/OPERATOR=string Specifies a message string of up to 255 characters to be sent to the operator just before the print job begins to print. Enclose the message in quotation marks (" ") if it contains spaces, special characters, or lowercase characters.
18.2.22 /PAGES
/PAGES=([lowlim,]uplim) Specifies the number of pages to print for the specified job. You can use the /PAGES qualifier to print portions of long files. By default, all pages of the file are printed. When you use the /PAGES qualifier with the SET ENTRY command, the qualifier can apply only to an entire job. You cannot use this qualifier to specify different numbers of pages to be printed for individual files within a multifile job. The lowlim specifier refers to the first page of the file that you want to print. If you omit the lowlim specifier, the printing starts on the first page of the file. The uplim specifier refers to the last page of the file that you want to print. When you want to print to the end of the file but do not know how many pages are in the file, use quotation marks (" ") as the uplim specifier. You can omit the parentheses when you specify only a value for the uplim specifier. For example, /PAGES=10 prints the first 10 pages of the file; /PAGES=(5,10) prints pages 5 to 10; /PAGES=(5,"") starts printing at page 5 and continues until the end of the file is reached.
18.2.23 /PARAMETERS
/PARAMETERS=(parameter[,...]) Specifies from one to eight optional parameters to be passed to the job. Each parameter can have as many as 255 characters. If you specify only one parameter, you can omit the parentheses. To specify a parameter that contains any special characters or delimiters, enclose the parameter in quotation marks. For batch jobs, the parameters define values to be equated to the symbols named P1 to P8 in each command procedure in the job. The symbols are local to the specified command procedures.
18.2.24 /PASSALL
/PASSALL /NOPASSALL Specifies whether the symbiont bypasses all formatting of the print job and sends the output QIO to the driver with format suppressed. All qualifiers affecting formatting, as well as the /HEADER, /PAGES, and /PAGE_SETUP qualifiers, are ignored. When you use the /PASSALL qualifier with the SET ENTRY command, the qualifier applies to the entire job. You cannot use this qualifier to specify PASSALL mode for individual files within a multifile job.
18.2.25 /PRINTER
/PRINTER[=queue-name] /NOPRINTER Queues the batch job log file for printing when the job is completed. The default output queue for the log file is SYS$PRINT. The /PRINTER qualifier allows you to specify an output queue. The /NOPRINTER qualifier assumes the /KEEP qualifier.
18.2.26 /PRIORITY
/PRIORITY=n Requires OPER (operator) or ALTPRI (alter priority) privilege to raise the priority above the value of the queue's maximum scheduling priority. Specifies the job-scheduling priority of the job. The value of n is an integer in the range of 0 to 255, where 0 is the lowest priority and 255 is the highest. The default value for the /PRIORITY qualifier is the value of the system parameter DEFQUEPRI. No privilege is needed to set the priority lower than the queue's maximum scheduling priority.
18.2.27 /RAD
/RAD=n (Alpha/Integrity servers) Specifies the RAD number on which the submitted batch job is to execute. When a job is submitted to a batch queue that does not have a RAD setting, the job will execute using the RAD specified. If the batch queue has a RAD setting, the job will execute using the RAD specified on the queue. RAD is supported on AlphaServer GS series systems and starting from OpenVMS Version 8.4, support is extended to NUMA capable Integrity servers.
18.2.28 /RELEASE
You can use the /RELEASE qualifier to release jobs that have been held for the following reasons: o A job was submitted with the /AFTER qualifier. o A job was submitted with the /HOLD qualifier. o A completed job is being retained in a queue. o A user-written symbiont has refused a job. NOTE Releasing or rescheduling a job before its submission time is not supported for security reasons. Therefore, if you set the system time to a future time and submit a job on a node where the queue manager is running, you cannot release or reschedule that job back to the present time if you reset the system time. For example, you can set the system time to a future time of January 1, 2020 and submit a job to run on January 9, 2020; however, if you set the system time back to the present time and try to release the job to the present time, the job will be released to January 1, 2020. This situation impacts the following qualifiers: /AFTER, /NOHOLD, and /RELEASE.
18.2.29 /REQUEUE
/REQUEUE=queue-name[:] Requests that the job be moved from the original queue to the specified queue.
18.2.30 /RESTART
/RESTART /NORESTART Specifies whether a batch or print job is restarted after a system failure or a STOP/QUEUE/REQUEUE command.
18.2.31 /RETAIN
/RETAIN=option Specifies the circumstances under which you want your jobs to be retained in a queue. When a job is retained in the queue, you can issue the SHOW QUEUE command after the job completes to see the status of the job. Without job retention, no record of a job is left in a queue after a job completes. Use the following options to specify job retention: o ALWAYS-Holds the job in the queue regardless of the job's completion status. o DEFAULT-Holds the job in the queue as specified by the queue's retention policy. o ERROR-Holds the job in the queue only if the job completes unsuccessfully. o UNTIL=time-value--Holds the job in the queue for the specified length of time, regardless of the job's completion status. NOTE You cannot specify a /NORETAIN qualifier with the SET ENTRY command (as system managers can with the commands INITIALIZE/QUEUE, START/QUEUE, and SET QUEUE); however, you can specify /RETAIN=DEFAULT with the SET ENTRY command. The default option holds the job in the queue as specified by the queue's retention policy. If the system manager has not specified retention for the queue, the job is not retained. How Job Retention Is Determined Although you can specify job retention options for your own jobs, the job retention option you specify may be overridden by the job retention option of the queue on which your job executed. If you submit or print a job to a generic queue, the generic queue's job retention setting may also override the job retention option you specify. This section describes how job retention is determined. An execution queue's job retention setting takes precedence over a generic queue's job retention setting; however, if the job's completion status does not match the job retention setting (if any) on the execution queue, then the generic queue's job retention setting attempts to control job retention. If the job's completion status does not match the job retention setting (if any) on the generic queue, then the user-specified job retention setting is used. Jobs submitted directly to execution queues are not affected by job retention settings on generic queues. If the execution queue's retention setting applies, the job is retained on the execution queue. Likewise, if the generic queue's retention setting applies, the job is retained on the generic queue. If the user-specified setting applies, the job is retained in the queue to which it was submitted. The following example illustrates how the queue manager determines job retention: Suppose you submit a job to a generic queue and specify /RETAIN=ALWAYS, and the job completes successfully. First, the queue manager compares the job's completion status to the execution queue's retention setting. Suppose the queue is set with /RETAIN=ERROR (retains only jobs that complete unsuccessfully). The job is not retained in the execution queue because the error condition was not met. Second, the queue manager compares the job's completion status to the generic queue's retention setting. Suppose the generic queue has no retention setting. The queue manager's comparison again fails to retain the job. Finally, the queue manager compares the job's completion status to the retention setting you specified for the job. This comparison reveals that the job should be retained. Because the user-specified setting leads the queue manager to retain the job, the job is held in the queue to which the job was submitted-in this case, the generic queue. For more information on types of queues, see the INITIALIZE/QUEUE command. For more information on setting retention options for queues, see the INITIALIZE/QUEUE, START/QUEUE, or SET QUEUE command. Timed Retention Timed retention, which you specify using the UNTIL=time-value option, allows you to retain a job in the queue only as long as you need it. This eliminates the need to delete the job from the queue later. For example, the following command retains job 172 in the queue until 7:31 on April 19, when the job will automatically be deleted from the queue. $ SET ENTRY/RETAIN=UNTIL=19-APR-2001:07:31:0.0 172 However, depending on the queue's job retention policy, the job might be retained indefinitely. The job retention policy set on the queue takes precedence over the user-specified job retention setting. Because system managers cannot specify timed job retention for a queue, any jobs retained as a result of a queue's setting are retained indefinitely. If you specify the /RETAIN=UNTIL=time-value option, you must supply a time value. The time value is first interpreted as a delta time, then as a combination time, and finally as absolute time. If you specify a delta time, the delta begins when the job completes. For example, if you specify SET ENTRY/RETAIN=UNTIL="+3:00", the job will be retained for three hours after the job completes. For information on specifying time values, see the OpenVMS User's Manual.
18.2.32 /SETUP
/SETUP=module[,...] Extracts the specified modules from the device control library (containing escape sequence modules for programmable printers) and copies the modules to the printer before each file in a print job is printed. When you use the /SETUP qualifier with the SET ENTRY command, the qualifier applies to the entire print job. You cannot use this qualifier to specify different setup modules for individual files within a multifile job.
18.2.33 /SPACE
/SPACE /NOSPACE Controls whether the output of a print job is double-spaced. Specifying the /NOSPACE qualifier causes the output to be single- spaced. When you use the /SPACE qualifier with the SET ENTRY command, the qualifier applies to the entire job. You cannot use this qualifier to specify different spacing for individual files within a multifile job.
18.2.34 /TRAILER
/TRAILER /NOTRAILER Controls whether a trailer page is printed at the end of each file in a print job. The trailer page displays the entry number, as well as information about the user submitting the job and the files being printed. When you use the /TRAILER qualifier with the SET ENTRY command, trailer pages are placed at the end of each file in a multifile job. Use the /[NO]TRAILER qualifier to override the installation- defined defaults that have been set for the output queue you are using or the qualifier specified in the PRINT command that queued the job.
18.2.35 /WSDEFAULT
/WSDEFAULT=n Defines, for a batch job, a working set default, which is the default number of physical pages that the job can use. If the queue on which the job executes has a nonzero default working set, the smaller of the specified job and queue values is used. If the queue on which the job executes has a working set default of zero, the smaller of the specified job value and the value established in the user authorization file (UAF) is used. Specify the value of n as a number of 512-byte pagelets on Alpha. Note that the operating system rounds up this value to the nearest CPU-specific page so that the actual amount of physical memory allowed may be larger than the specified amount on Alpha. If you specify zero or NONE, the specified queue or UAF value is used. Working set default values must range between the numbers specified by the system parameters PQL_MWSDEFAULT and WSMAX.
18.2.36 /WSEXTENT
/WSEXTENT=n Defines, for the batch job, a working set extent, which is the maximum amount of physical memory that the job can use. The job uses the maximum amount of physical memory only when the system has excess free pages. If the queue on which the job executes has a nonzero working set extent, the smaller of the specified job and queue values is used. If the queue on which the job executes has a working set extent of zero, the smaller of the specified job value and the value established in the user authorization file (UAF) is used. Specify the value of n as a number of 512-byte pagelets on Alpha. Note that the operating system rounds up this value to the nearest CPU-specific page so that the actual amount of physical memory allowed may be larger than the specified amount on Alpha. If you specify zero or NONE, the specified queue or UAF value is used. Working set extent values must range between the numbers specified by the system parameters PQL_MWSEXTENT and WSMAX.
18.2.37 /WSQUOTA
/WSQUOTA=n Defines, for the batch job, a working set quota, which is the amount of physical memory that the job is guaranteed. If the queue on which the job executes has a nonzero working set quota, the smaller of the specified job and queue values is used. If the queue on which the job executes has a working set quota of zero, the smaller of the specified job value or the value established in the user authorization file (UAF) is used. Specify the value of n as a number of 512-byte pagelets on Alpha. Note that the operating system rounds up this value to the nearest CPU-specific page so that the actual amount of physical memory allowed may be larger than the specified amount on Alpha. If you specify zero or NONE, the specified queue or UAF value is used. Working set quota values must range between the numbers specified by the system parameters PQL_MWSQUOTA and WSMAX.
18.3 – Examples
1.$ PRINT/HOLD MYFILE.DAT Job MYFILE (queue SYS$PRINT, entry 112) holding $ SET ENTRY 112/RELEASE/JOB_COUNT=3 The PRINT command in this example requests that the file MYFILE.DAT be queued to the system printer, but placed in a hold status. The SET ENTRY command releases the job for printing and requests that three copies of the job be printed. 2.$ SUBMIT CLIMATE Job CLIMATE (queue SYS$BATCH, entry 211) pending $ SET ENTRY 211/HOLD/NAME=TEMP The SUBMIT command in this example queues the command procedure CLIMATE.COM for processing as a batch job. The SET ENTRY command places the job in a hold state and changes the job name to TEMP, assuming that the job has not yet begun execution. 3.$ PRINT/FLAG=ALL/AFTER=20:00 MEMO.MEM, LETTER.MEM, REPORT.MEM/SPACE Job MEMO (queue SYS$PRINT, entry 172) holding until 20:00 $ SET ENTRY 172 /BURST/NOSPACE/HEADER The PRINT command in this example requests that three files be printed after 8:00 P.M. on the default printer with flag pages preceding each file. It also requests that the file REPORT.MEM be double-spaced. Later a SET ENTRY command calls for a burst page at the beginning of each file and requests that all files in the job be single-spaced. This command also requests that headers be printed on each page of each file in the job. 4.$ SUBMIT/HOLD/QUEUE=ANYRADQ TEST.COM Job TEST (queue ANYRADQ, entry 23) holding $ SET ENTRY 23 /RAD=1 $ SHOW ENTRY/FULL 23 Entry Jobname Username Blocks Status ----- ------- -------- ------ ------ 23 TEST SYSTEM Holding On idle batch queue ANYRADQ Submitted 24-JUL-2001 14:19:37.44 /KEEP /NOPRINT /PRIORITY=100 /RAD=0 File: _$1$DKB200:[SWEENEY.CLIUTL]TEST.COM;1 In this example, TEST.COM is submitted to the queue ANYRADQ, and the SET ENTRY command is used to set the RAD to 1.
19 – FILE
Modifies the characteristics of one or more files. See the qualifier descriptions for restrictions. For help about the RMS Journaling SET FILE commands, read the following subtopics: o /AI_JOURNAL - Marks one or more RMS files for after-image journaling. o /BI_JOURNAL - Marks one or more RMS files for before-image journaling. o /RU_ACTIVE - Designates the recoverable facility that controls active recovery units for the file. o /RU_FACILITY - Allows you to identify the recoverable facility that controls active recovery units on the file. o /RU_JOURNAL - Marks an RMS file for recovery unit journaling. Format SET FILE filespec[,...]
19.1 – Parameter
filespec[,...] Specifies one or more files to be modified. If you specify more than one file, separate the file specifications with commas (,). The asterisk (*) and the percent sign (%) wildcard characters are allowed.
19.2 – Qualifiers
19.2.1 /ATTRIBUTE
/ATTRIBUTE=(file-attribute[,...]) Sets the attributes associated with a file. The following table lists possible keywords and the relationship to both ACP-QIO and OpenVMS RMS File attributes: OpenVMS RMS File Keyword ACP-QIO File Attribute Attribute ATTDATE=dateFAT$C_ATTDATE XAB$Q_ATT ACCDATE=dateFAT$C_ACCDATE XAB$Q_ACC BAKDATE=dateFAT$C_BAKDATE XAB$Q_BDT BKS:value FAT$B_BKTSIZE=byte FAB$B_BKS=byte CREDATE=dateFAT$C_CREDATE XAB$Q_CDT DEQ:value FAT$W_DEFEXT=word FAB$W_DEQ=word EBK:value FAT$L_EFBLK=longword XAB$L_EBK=longword EXPDATE=dateFAT$C_EXPDATE XAB$Q_EDT FFB:value FAT$W_FFBYTE=word XAB$W_FFB=word FSZ:value FAT$B_VFCSIZE=byte FAB$B_FSZ=byte GBC:value FAT$W_GBC=word FAB$W_GBC=word HBK:value FAT$L_HIBLK=longword XAB$L_HBK=longword LRL:value FAT$W_RSIZE=word XAB$W_LRL=word MODDATE=dateFAT$C_MODDATE XAB$Q_MOD MRS:value FAT$W_MAXREC=word FAB$W_MRS=word ORG:IDX FAT$V_FILEORG=FAT$C_INDEXED FAB$B_ORG=FAB$C_IDX ORG:REL FAT$V_FILEORG=FAT$C_RELATIVE FAB$B_ORG=FAB$C_REL ORG:SEQ FAT$V_FILEORG=FAT$C_SEQUENTIAL FAB$B_ORG=FAB$C_SEQ RAT:BLK FAT$B_RATTRIB=FAT$M_NOSPAN FAB$B_RAT=FAB$M_BLK RAT:CR FAT$B_RATTRIB=FAT$M_IMPLIEDCC FAB$B_RAT=FAB$M_CR RAT:FTN FAT$B_RATTRIB=FAT$M_FORTRANCC FAB$B_RAT=FAB$M_FTN RAT:MSB FAT$B_RATTRIB=FAT$M_MSBVAR FAB$B_RAT=FAB$M_MSB RAT:NONE FAT$B_RATTRIB=0 FAB$B_RAT=0 RAT:PRN FAT$B_RATTRIB=FAT$M_PRINTCC FAB$B_RAT=FAB$M_PRN REVDATE=dateFAT$C_REVDATE XAB$Q_RDT RFM:FIX FAT$V_RTYPE=FAT$C_FIXED FAB$B_RFM=FAB$C_FIX RFM:STM FAT$V_RTYPE=FAT$C_STREAM FAB$B_RFM=FAB$C_STM RFM:STMCR FAT$V_RTYPE=FAT$C_STREAMCR FAB$B_RFM=FAB$C_STMCR RFM:STMLF FAT$V_RTYPE=FAT$C_STREAMLF FAB$B_RFM=FAB$C_STMLF RFM:UDF FAT$V_RTYPE=FAT$C_UNDEFINED FAB$B_RFM=FAB$C_UDF RFM:VAR FAT$V_RTYPE=FAT$C_VARIABLE FAB$B_RFM=FAB$C_VAR RFM:VFC FAT$V_RTYPE=FAT$C_VFC FAB$B_RFM=FAB$C_VFC VRS:value FAT$W_VERSIONS=word XAB$W_VERLIMIT=word
19.2.2 /BACKUP
/BACKUP /NOBACKUP Specifies that the Backup utility (BACKUP) records the contents of the file. The /NOBACKUP qualifier causes BACKUP to record the attributes of the file but not its contents. This qualifier is valid only for Files-11 Structure On-Disk Level 2 and 5 files. The /NOBACKUP qualifier is useful for saving files that contain unimportant data, such as SWAPFILES.
19.2.3 /BEFORE
/BEFORE[=time] Selects only those files dated prior to the specified time. You can specify time as absolute time, as a combination of absolute and delta times, or as one of the following keywords: BOOT, LOGIN, TODAY (default), TOMORROW, or YESTERDAY. Specify the /CREATED or the /MODIFIED qualifier to indicate the time attribute to be used as the basis for selection. The /CREATED qualifier is the default. For complete information on specifying time values, see the OpenVMS User's Manual or the online help topic Date.
19.2.4 /BY_OWNER
/BY_OWNER[=uic] Selects only those files whose owner user identification code (UIC) matches the specified owner UIC. The default UIC is that of the current process. Specify the UIC by using standard UIC format as described in the VSI OpenVMS Guide to System Security.
19.2.5 /CACHING_ATTRIBUTE
/CACHING_ATTRIBUTE=keyword Use this qualifier to control which files are cached by the Extended File Cache. It sets the caching attribute for a file or directory in a Files-11 ODS-2 or ODS-5 volume. The caching attribute of a file is the default caching option that is used by the Extended File Cache when an application accesses the file without specifying which caching option it wants to use. The keyword can be either WRITETHROUGH or NO_CACHING. Use WRITETHROUGH for files that you want to be cached. Use NO_CACHING for files that you don't want to be cached. The Extended File Cache does not cache directories. The caching attribute of a directory controls only how the caching attribute is inherited by new files and subdirectories created in the directory: o When you create a new directory or file, it inherits its caching attribute from its parent directory. o When you create a new version of an existing file, the new file inherits its caching attribute from the highest version of the existing file. When you use the INITIALIZE command to create a new Files- 11 volume, the caching attribute of its root directory (000000.DIR;1) is set to write-through. This means that by default, all the files and directories you create in the volume will inherit a caching attribute of write-through unless you use SET FILE /CACHING_ATTRIBUTE. When you change the caching attribute of a directory, it does not affect the caching attribute of any existing files and subdirectories in the directory. When you change the caching attribute of a file, it does not affect the type of caching being used by any applications that are currently accessing the file.
19.2.6 /CONFIRM
/CONFIRM /NOCONFIRM (default) Controls whether a request is issued before each SET FILE operation to confirm that the operation should be performed on that file. The following responses are valid: YES NO QUIT TRUE FALSE Ctrl/Z 1 0 ALL <Return> You can use any combination of uppercase and lowercase letters for word responses. Word responses can be abbreviated to one or more letters (for example, T, TR, or TRU for TRUE), but these abbreviations must be unique. Affirmative answers are YES, TRUE, and 1. Negative answers include: NO, FALSE, 0, and pressing Return. Entering QUIT or pressing Ctrl/Z indicates that you want to stop processing the command at that point. When you respond by entering ALL, the command continues to process, but no further prompts are given. If you type a response other than one of those in the list, DCL issues an error message and redisplays the prompt.
19.2.7 /CREATED
/CREATED (default) Modifies the time value specified with the /BEFORE or the /SINCE qualifier. The /CREATED qualifier selects files based on their dates of creation. This qualifier is incompatible with the /MODIFIED qualifier, which also allows you to select files according to time attributes. The /CREATED qualifier is the default qualifier.
19.2.8 /DATA_CHECK
/DATA_CHECK[=([NO]READ,[NO]WRITE)] Specifies whether a read data check (rereading each record), a write data check (reading each record after it is written), or a combination of the two is performed on the file during transfers. By default, a write data check is performed.
19.2.9 /END_OF_FILE
Resets the end-of-file (EOF) mark to the highest block allocated.
19.2.10 /ENTER
/ENTER=new-filespec The new-filespec parameter is used to create either an alias or a hard link for the file specified in the SET FILE command. For detailed information about using hard links and aliases, see the VSI OpenVMS System Manager's Manual. Normally you would use /ENTER to create an alias or a hard link in a directory different from the one where the original filename resides. If the names are not in different directories, you or another user could subsequently lose data during a delete or purge operation. The DELETE and PURGE commands and the file version limit feature can behave unpredictably if the original name and the new name are in the same directory. To remove an alias or hard link, use the SET FILE /REMOVE command. Exercise caution when using the DELETE and SET FILE /REMOVE commands, or you could end up with either an inaccessible file that has no name or a name that does not refer to a file. Follow these guidelines to avoid such problems: o Use SET FILE /REMOVE to remove an alias; do not use the DELETE command to remove an alias. o Do not use SET FILE /REMOVE to remove the original file name. If you do not follow these guidelines and encounter problems, use ANALYZE /DISK /REPAIR to move inaccessible files to the SYSLOST directory and remove names that no longer refer to files.
19.2.11 /ERASE_ON_DELETE
Specifies that the specified files are erased from the disk (not just written over) when the DELETE or PURGE command is issued for the files. See the DELETE/ERASE command for more information.
19.2.12 /EXCLUDE
/EXCLUDE=(filespec[,...]) Excludes the specified file from the SET FILE operation. You can include a directory name but not a device name in the file specifications. The asterisk (*) and the percent sign (%) wildcard characters are allowed in the file specification; however, you cannot use relative version numbers to exclude a specific version. If you specify only one file, you can omit the parentheses.
19.2.13 /EXPIRATION_DATE
/EXPIRATION_DATE=date /NOEXPIRATION_DATE Requires read (R), write (W), and control access. Being the owner of the file is one way to get control access. Controls whether an expiration date is assigned to the specified files. Specify the date according to the rules described in the OpenVMS User's Manual or the online help topic Date. Absolute date keywords are allowed. If you specify zero as the date, today's date is used.
19.2.14 /EXTENSION
/EXTENSION[=n] Sets the extend quantity default for the file. The value of the parameter n can range from 0 to 65,535. If you omit the value specification or specify a value of 0, OpenVMS Record Management Services (OpenVMS RMS) calculates its own value for the /EXTENSION qualifier. See the SET RMS_DEFAULT command for a description of the /EXTEND_ QUANTITY qualifier.
19.2.15 /GLOBAL_BUFFER
/GLOBAL_BUFFER[=keyword[=n]] /NOGLOBAL_BUFFER For OpenVMS versions prior to Version 8.3, sets the OpenVMS Record Management Services (OpenVMS RMS) global buffer count (the number of buffers that can be shared by processes accessing the file) for the specified files. The value n must be an integer in the range from 0 to 32,767. A value of 0 disables buffer sharing. The /SHARE qualifier can be used to enable or disable global buffers on a file currently being accessed; however, any new global buffer settings will only be applied to new accessors of the file. If a file is already open with global buffers, any new number of global buffers will not take effect until the file is closed by all accessors of the file. For OpenVMS V8.3 and later, sets the OpenVMS RMS global buffer count for the specified files. Note, you can specify only one type of global buffer qualifier in the same command string. The keyword can be: o COUNT=n-The value n sets the longword count of the number of global buffers. o PERCENT=p-The value p expresses the size of the global cache as a percent of the total number of used blocks currently used in the file. o DEFAULT-Requests RMS at runtime to recalculate the global cache size based on an algorithm that makes use of two global buffer SYSGEN parameters, GB_CACHEALLMAX and GB_DEFPERCENT. The following qualifiers can also be used with the /SHARE qualifier: o /GLOBAL_BUFFER=n o /GLOBAL_BUFFER=COUNT=n o /GLOBAL_BUFFER=PERCENT=n o /GLOBAL_BUFFER=DEFAULT o /NOGLOBAL_BUFFER o /[NO]STATISTICS
19.2.16 /LOG
/LOG /NOLOG (default) Displays the file specification of each file modified as the command executes.
19.2.17 /MODIFIED
/MODIFIED Modifies the time value specified with the /BEFORE or the /SINCE qualifier. The /MODIFIED qualifier selects files according to the dates on which they were last modified. This qualifier is incompatible with the /CREATED qualifier, which also allows you to select files according to time attributes. If you do not specify the /MODIFIED qualifier, the default is the /CREATED qualifier.
19.2.18 /MOVE
/MOVE /NOMOVE Controls whether movefile operations are enabled on the specified file. When you create a file, movefile operations are enabled on that file. You should disable movefile operations on specialized files that are accessed other than through the XQP (such as files accessed through logical I/O to a disk). Note that movefile operations are automatically disabled on critical system files. Do not enable movefile operations on these files.
19.2.19 /NODIRECTORY
Use with extreme caution. Requires SYSPRV (system privilege). Removes the directory attributes of a file and allows you to delete the corrupted directory file even if other files are contained in the directory. When you delete a corrupted directory file, the files contained within it are lost. Use ANALYZE/DISK_STRUCTURE/REPAIR to place the lost files in [SYSLOST]. You can then copy the lost files to a new directory. This qualifier is valid only for Files-11 On-Disk Structure Level 2 files. For more information about the Verify utility, see the VSI OpenVMS System Management Utilities Reference Manual.
19.2.20 /OWNER_UIC
/OWNER_UIC[=uic] This qualifier has been superseded by the SET SECURITY/OWNER command.
19.2.21 /PROTECTION
/PROTECTION[=(ownership[:access][,...])] This command has been superseded by the SET SECURITY/PROTECTION command.
19.2.22 /REMOVE
Use with caution. Enables you to remove one of the names of a file that has more than one name, without deleting the file. If you have created an additional name for a file with the /ENTER qualifier of SET FILE, you can use the /REMOVE qualifier to remove either the original name or the alias. The file still exists and can be accessed by whatever name or names remain in effect. However, if you accidentally remove the name of a file that has only one name, you cannot access that file with most DCL commands; use the ANALYZE/DISK_STRUCTURE utility to retrieve the file.
19.2.23 /SEMANTICS
/SEMANTICS=semantics-tag /NOSEMANTICS Use the /SEMANTICS qualifier to create or change a semantics tag. Use the /NOSEMANTICS qualifier to remove a semantics tag from a file. For more information, see the Guide to OpenVMS File Applications.
19.2.24 /SHARE
Allows you to enable or disable global buffers or statistics on a file currently being accessed by other users. Requires SYSPRV privilege. Only new accessors of the file acquire the new settings. For example, if a file is opened with no global buffers specified and the SET FILE/GLOBAL=n/SHARE command is issued, only new accessors of the file will use global buffers. If /STATISTICS is enabled on an active file, only operations performed by new accessors of the file are measured. If a file is already open with global buffers, any new number of global buffers will not take effect until the file is closed by all accessors of the file. The /SHARE qualifier is valid only with the following qualifiers: o /[NO]GLOBAL_BUFFER=n o /[NO]STATISTICS
19.2.25 /SHELVABLE
/SHELVABLE /NOSHELVABLE Controls whether the file is shelvable.
19.2.26 /SINCE
/SINCE[=time] Selects only those files dated on or after the specified time. You can specify time as absolute time, as a combination of absolute and delta times, or as one of the following keywords: BOOT, JOB_LOGIN, LOGIN, TODAY (default), TOMORROW, or YESTERDAY. Specify the /CREATED or the /MODIFIED qualifier to indicate the time attribute to be used as the basis for selection. The /CREATED qualifier is the default. For complete information on specifying time values, see the OpenVMS User's Manual or the online help topic Date.
19.2.27 /STATISTICS
/STATISTICS /NOSTATISTICS (default) Enables the gathering of RMS statistics on the specified file. These statistics can then be viewed by using the Monitor utility, which is invoked with the DCL command MONITOR. The SET FILE/STATISTICS command applies an application ACE to the specified file. The ACE does not affect access control and is only meaningful to the application assigning it. The /SHARE qualifier can be used to enable or disable statistics on a file currently being accessed. However, only statistics of new accessors of the file will be measured.
19.2.28 /STYLE
/STYLE=keyword Specifies the file name format for display purposes. The valid keywords for this qualifier are CONDENSED and EXPANDED. Descriptions are as follows: Keyword Explanation CONDENSED Displays the file name representation of what is (default) generated to fit into a 255-length character string. This file name may contain a DID or FID abbreviation in the file specification. EXPANDED Displays the file name representation of what is stored on disk. This file name does not contain any DID or FID abbreviations. The keywords CONDENSED and EXPANDED are mutually exclusive. This qualifier specifies which file name format is displayed in the output message, along with the confirmation if requested. File errors are displayed with the CONDENSED file specification unless the EXPANDED keyword is specified. See the OpenVMS User's Manual for more information.
19.2.29 /SYMLINK
/SYMLINK=keyword /NOSYMLINK (default) If an input file is a symbolic link, the file referred to by the symbolic link is the file that is set. The /SYMLINK qualifier indicates that the symbolic link itself is set. The valid keywords for this qualifier are [NO]WILDCARD, [NO]ELLIPSIS, and [NO]TARGET. Descriptions are as follows: Keyword Explanation NOWILDCARD Indicates that symlinks are disabled during directory wildcard searches. WILDCARD Indicates that symlinks are enabled during wildcard searches. NOELLIPSIS Indicates that symlinks are matched for all wildcard fields except for ellipsis. ELLIPSIS Equivalent to WILDCARD (included for command symmetry). TARGET Indicates that if the target file of the file specification is a symlink, then the target file is followed. NOTARGET Indicates that the command operates on the target file even if it is a symlink. If the file named in the SET FILE command is a symlink, the command by default operates on the symlink target.
19.2.30 /TRUNCATE
Truncates the file at the end of the block containing the end-of- file (EOF) marker, that is, the qualifier releases allocated but unused blocks of the file.
19.2.31 /UNLOCK
Clears a file marked as deaccess locked. Deaccess locking is required by and used by those few applications that maintain their own locking and consistency, typically without the use of the OpenVMS distributed lock manager, and potentially also without the use of RMS. When an application using deaccess locking does not correctly deaccess the file (often due to an application or system failure), the file is marked as locked, and is thus inaccessible until the integrity of the contents of the file are verified and the SET FILE/UNLOCK command is used. This command does not affect the state of files that are locked using RMS or the distributed lock manager. For details on file deaccess locking, see the VSI OpenVMS I/O User's Reference Manual, the ACP-QIO interface documentation, and specifically the FIB$V_DLOCK option available on the IO$_CREATE and IO$_ACCESS functions. The SET FILE/UNLOCK command can clear the cause of the following error message: %SYSTEM-W-FILELOCKED, file is deaccess locked However, this command cannot resolve the cause of the error message: %RMS-W-FLK, file currently locked by another user
19.2.32 /VERSION_LIMIT
/VERSION_LIMIT[=n] Specifies the maximum number of versions for the specified file. If you do not specify a version limit, a value of 0 is used, indicating that the number of versions of a file is limited only to the Files-11 architectural limit of 32,767. When you exceed that limit, the earliest version of the file is deleted from the directory without notification to the user. For example, if you set the version limit to three when there are already five versions of that file in your directory, there will continue to be five versions of the file unless you specifically delete some or purge the directory. Once the number of versions is equal to or less than the current version limit, the version limit is maintained.
19.3 – Examples
1.$ SET FILE/EXPIRATION_DATE=19-DEC-2001:11:00 BATCH.COM;3 The SET FILE command requests that the expiration date of the file BATCH.COM;3 be set to 11:00 A.M., December 19, 2001. 2.$ SET FILE/BEFORE=31-DEC/ERASE_ON_DELETE PERSONNEL*.SAL This SET FILE command calls for all files that match the file specification PERSONNEL*.SAL and are dated before December 31 of the current year to have their disk locations erased whenever one of them is deleted with commands such as DELETE or PURGE. 3.$ SET FILE/OWNER_UIC=[360,020]/VERSION_LIMIT=100 MYFILE.DAT The SET FILE command modifies the characteristics of the file MYFILE.DAT, changing the owner user identification code (*). You must have system privilege (SYSPRV) to change the owner UIC. 4.$ SET FILE/NOMOVE TEST.FDL $DIRECTORY/FULL TEST.FDL Directory SYS$SYSDEVICE:[BERGMANN] TEST.FDL;1 File ID: (10,8,0) . . . File attributes: Allocation: s, Extend: 0, Global buffer count: 0 No version limit, MoveFile disabled . . . Movefile operations are disabled on the file TEST.FDL. A DIRECTORY/FULL command on the file TEST.FDL affirms that the file attribute Movefile is disabled. 5.$ SET FILE/ATTRIBUTES=ORG:SEQ - _$ TEST$:[DATA]SET_ATTRIBUTES.DATA_FILE/LOG %SET-I-MODIFIED, TEST$:[DATA]SET_ATTRIBUTES.DATA_FILE;1 MODIFIED The command, SET FILE/ATTRIBUTES, changes the file organization of the specified file. 6.$ SET FILE/PROTECTION=(S:RWE,O=RWE,G:RE,W:RE) TEMP.DIR $ DIRECTORY/PROTECTION TEMP.DIR Directory DKB0:[FULGHUM] TEMP.DIR;1 (RWE,RWE,RE,RE) This example sets the protection on the TEMP.DIR file with the SET FILE command and then displays the protection of the file with the DIRECTORY command. 7.$ SET FILE/SHARE/GLOBAL_BUFFER=5000/STATISTICS INVENTORY.IDX This example sets 5000 global buffers on the INVENTORY.IDX file and enables statistics. If the file is open and the SET FILE command is issued without the /SHARE qualifier, the following error is returned: SYSTEM-W-ACCONFLICT (file access conflict). The /SHARE qualifier allows the global buffers and statistics to be enabled on an open file; however, these settings only apply to new accessors of the file. 8.$ SET FILE/GLOBAL_BUFFER=100 NEWFILE.DAT $ SET FILE/GLOBAL_BUFFER=COUNT=100000 NEWFILE.DAT In a clustered environment with mixed OpenVMS versions, the same file can be opened on different nodes with different global buffer counts. For nodes prior to Version 8.3, use the old compatibility setting, and for Version 8.3 nodes and later use the new values.
19.4 /AI_JOURNAL
Requires read (R), write (W), and control access. Being the owner of the file is one way to get control access. Marks one or more RMS files for after-image journaling. You can also specify certain characteristics of the journal with this command, including its file specification, whether it is to be created, its initial size, and its default extension quantity. The SET FILE/NOAI_JOURNAL command unmarks a file for after-image journaling. The SET FILE command is not supported for remote files. You must use the SET FILE command from the system where the file is located. For more information, see the RMS Journaling documentation. Format SET FILE/[NO]AI_JOURNAL=(FILE=journal-filespec[,...]) data-filespec[,...]
19.4.1 – Parameter
data-filespec[,...] Identifies the file to be marked for after-image journaling. If you specify more than one file, separate the file specifications with commas. The asterisk (*) and the percent sign (%) wildcard characters are allowed. The file specification cannot include a node name, since the SET FILE command is not valid for network access.
19.4.2 – Description
The SET FILE/AI_JOURNAL command marks one or more RMS files for after-image journaling. You can also specify certain characteristics of the journal with this command, including its file specification, whether it is to be created, its initial size, and its default extension quantity. The SET FILE/NOAI_ JOURNAL command unmarks a file for after-image journaling. After a data file is marked for after-image journaling with the SET FILE/AI_JOURNAL command, the following events occur whenever the file is opened by RMS for write operations: o The journal is opened. o All subsequent modifications to the data file are recorded in the journal. NOTE To be able to recover the data file at a later time, you must make a backup copy of the data file, even if it contains no data. You must use the FILE keyword to specify a journal. By default, any portions of the file specification that you omit will be the same as the data file that is to be journaled, but with the file type RMS$JOURNAL. That is, if you issue the following command, then, by default, the file specification for the after-image journal is JOURNAL_DISK:PAYROLL.RMS$JOURNAL: $ SET FILE/AI_JOURNAL=(FILE=JOURNAL_DISK:) FINANCE_DISK:PAYROLL.DAT You should always keep the journal for after-image applications on a different volume from that of your data file. If recovery becomes necessary, you will be able to perform after-image recovery only if a backup copy of the data file is available. Use the FILE keyword to specify the journal location. Use the SET FILE/NOAI_JOURNAL command to unmark a file for after- image journaling. After you use the SET FILE/NOAI_JOURNAL command for a file, modifications to that data file will no longer be written to the journal. You must use the SET FILE/NOAI_JOURNAL command before you can delete a file that has been marked for after-image journaling.
19.4.3 – Keywords
Four keywords are used as parameters to the SET FILE/AI_JOURNAL command: ALLOCATION, [NO]CREATE, EXTENSION, and FILE. You must always use the FILE keyword; you can also use any, all, or none of the other three keywords. Use an equal sign (=) immediately after the SET FILE/AI_JOURNAL command to use a keyword. If you use more than one of the keywords, enclose the list in parentheses and separate the items in the list with commas. ALLOCATION=n Specifies the initial size, in blocks, of the journal. The ALLOCATION keyword is meaningful only when the CREATE keyword is also used. The default allocation is 0 blocks. CREATE Specifies that a new journal is to be created. If no journal exists, using this keyword creates a new one. If a journal (with the file specification given in this command) already exists, using this keyword creates a new version of the journal. In the latter instance, the data file named in this SET FILE command is journaled to the new journal. Any other files that are being journaled to the previous version of the journal will continue to be journaled to that previous version. If a journal does not already exist, be sure to use the CREATE keyword with the SET FILE/AI_JOURNAL command. If you do not specify the CREATE keyword and the file that you specify with the FILE keyword does not exist, a journal will not automatically be created and an error message is displayed. When you create a journal for after-image journaling, the file protection for the journal is determined as follows: o If a version of the journal that you specify with the CREATE keyword already exists, then the new version of the journal has the same file protection and access control list (ACL) as the most recent version. o If there is no existing journal (that is, if you are creating version 1 of the journal), then the file protection and ACL of the journal are the default file protection for the process that creates the journal, except that none of the four ownership categories (system, owner, group, world) is given delete access. Also, every time that you use the CREATE keyword, be sure to make a backup copy of the data file. (If it is the first time that the data file is marked for after-image journaling, then you must make a backup copy of the data file, regardless of whether the CREATE keyword is used.) NOTE To be able to recover the data file at a later time, you must mark the file for journaling, and then make a backup copy of the data file, even if it contains no data. In most cases (in particular, when you are using after-image journaling to protect against loss of data from a device failure), you should keep the backup copy on a different volume from the data file. If recovery becomes necessary, you will be able to perform after-image recovery only if a backup copy of the data file is available. If you want to use a single journal for both after-image and before-image journaling, do not use the CREATE keyword with both the /AI_JOURNAL and /BI_JOURNAL qualifiers, because that will create two separate journals. When you create a journal that will be used for more than one data file or more than one type of journaling (after-image or before-image), you should first use a SET FILE command to create the journal for a single type of journaling and for a single data file. After the journal is created, then you can use a single SET FILE command for multiple data files and both after-image and before-image journaling. For example, you might use the following sequence of commands: $ SET FILE/AI_JOURNAL=(FILE=JNL_DISK:,CREATE) [WEEKLY]SALES.DAT $ SET FILE/BI_JOURNAL=(FILE=JNL_DISK:[WEEKLY]SALES) - _$INVOICES.DAT,COMMISSIONS.DAT EXTENSION=n Specifies the default extension quantity, in blocks, for the journal. You can specify a value from 0 to 65,535. The EXTENSION keyword is meaningful only when you use the CREATE keyword. If the file is extended, the value that you specify is used. If you do not use the EXTENSION keyword when you create a journal, RMS calculates its own EXTENSION value for the journal. FILE=journal-filespec Specifies the journal where all modifications to the named data file will be recorded. The default file specification for the journal is the file specification of the data file that you name, but with a file type of RMS$JOURNAL. If you provide a partial file specification for the journal, any unspecified portions are taken from the default file specification. The FILE keyword is required when you use the SET FILE/AI_JOURNAL command. If you are using after-image journaling to protect against the loss of data due to a device failure (such as a head crash), you should keep the journal on a different volume from the one on which the data file is kept. Only by keeping the data file and journals on separate volumes can you use after-image recovery to restore the data file if its recording medium becomes corrupted (for example, by a disk head crash). If you issue the SET FILE/AI_JOURNAL command and the journal is on the same volume as the data file being marked for after-image journaling, the INVAIJDEV warning message is issued. The file specification cannot include a node name, since the SET FILE command is not valid for network access. You can use a single journal for multiple data files for after- image journaling, and you can also use a single journal for both after-image and before-image journaling.
19.4.4 – Qualifier
19.4.4.1 /LOG
/LOG /NOLOG (default) Controls whether the SET FILE command displays the file specification and the type of journaling that has been set. By default, this information is not displayed.
19.4.5 – EXAMPLES
1.$ SET FILE /AI_JOURNAL=(FILE=JOURNAL_DISK:,CREATE) - _$FINANCE_DISK:[PAYROLL]WEEKLY.DAT In this example, the file FINANCE_DISK:[PAYROLL]WEEKLY.DAT is marked for after-image journaling. The required FILE keyword is used to place the journal on the disk JOURNAL_DISK, and the CREATE keyword generates a new version of the journal. The file specification for the journal will be JOURNAL_ DISK:[PAYROLL]WEEKLY.RMS$JOURNAL. The next step in the after-image journaling process after issuing this command is to back up the data file. 2.$ SET FILE/AI_JOURNAL=(FILE=JOURNAL_DISK:,CREATE)/LOG SALES.DAT %SET-I-JCREATED, journal JOURNAL_DISK:[REGION_1]SALES.RMS$JOURNAL;1 created %SET-I-FILMARKAI, FINANCE_DISK:[REGION_1]SALES.DAT;1 marked for RMS after-image journaling -SET-I-JFILE, using journal JOURNAL_DISK:[REGION_1]SALES.RMS$JOURNAL;1 %SET-I-MODIFIED, FINANCE_DISK:[REGION_1]SALES.DAT;1 modified In this example, the file SALES.DAT in default directory FINANCE_DISK:[REGION_1] is marked for after-image journaling and the /LOG qualifier causes the result of the SET FILE command to be displayed on the terminal. 3.$ SET FILE/AI_JOURNAL=(FILE=JNL_DISK:,CREATE)/LOG OVERDUE.DAT %SET-I-JCREATED, journal JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL;1 created %SET-I-FILMARKAI, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 marked for RMS after-image journaling -SET-I-JFILE, using journal JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL;1 %SET-I-MODIFIED, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 modified $ SET FILE/BI_JOURNAL=(FILE=JNL_DISK:)/RU_JOURNAL/LOG OVERDUE.DAT %SET-I-FILMARKBI, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 marked for RMS before-image journaling -SET-I-JFILE, using journal JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL;1 %SET-I-FILMARKRU, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 marked for RMS recovery-unit journaling %SET-I-MODIFIED, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 modified In this example, the file OVERDUE.DAT is marked for all three types of journaling using two SET FILE commands. A single journal (JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL) will be used for after-image and before-image journaling. The first SET FILE command uses the /CREATE qualifier to create a new after-image journal, JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL. The file specification uses the current default directory [PAYABLE] and the default file extension RMS$JOURNAL. The second SET FILE command checks the disk JNL_DISK to see whether a journal already exists, and uses the existing journal for before-image journaling, as well as after-image journaling. 4.$ SET FILE/NOAI_JOURNAL/NOBI_JOURNAL - _$ WORK_DISK:[PAYABLE]OVERDUE.DAT,VENDORS.DAT In this example, the files OVERDUE.DAT and VENDORS.DAT are unmarked for both after-image and before-image journaling. It is not necessary to specify the journals that were used. If more than one journaling type was applied to the data files (as in the previous example), then you must cancel each of the journaling types before you can delete the data files. 5.$ SET FILE/AI_JOURNAL=(FILE=JOURNAL_DISK,CREATE)- _$ /RU_JOURNAL [FIELD]SALARY.DAT $ SET FILE/AI_JOURNAL=(FILE=JOURNAL_DISK:[FIELD]SALARY)- _$ /RU_JOURNAL CHECKS.DAT In this example, the files SALARY.DAT and CHECKS.DAT are both marked for after-image and for recovery unit journaling. The after-image journaling for both files is written to the same journal, JOURNAL_DISK:[FIELD]SALARY.RMS$JOURNAL.
19.5 /BI_JOURNAL
Requires read (R), write (W), and control access. Being the owner of the file is one way to get control access. Marks one or more RMS files for before-image journaling. You can also specify certain characteristics of the journal with this command, including its file specification, whether it is to be created, its initial size, and its default extension quantity. The SET FILE/NOBI_JOURNAL command unmarks a file for before-image journaling. The SET FILE command is not supported for remote files. You must use the SET FILE command from the system where the file is located. For more information, see the RMS Journaling documentation. Format SET FILE/[NO]BI_JOURNAL[=(keyword[,...])] data-filespec[,...]
19.5.1 – Parameter
data-filespec[,...] Identifies the file to be marked for before-image journaling. If you specify more than one file, separate the file specifications with commas. The asterisk (*) and the percent sign (%) wildcard characters are allowed. The file specification cannot include a node name, since the SET FILE command is not valid for network access.
19.5.2 – Description
The SET FILE/BI_JOURNAL command marks one or more RMS files for before-image journaling. You can also specify certain characteristics of the journal with this command, including its file specification, whether it is to be created, its initial size, and its default extension quantity. The SET FILE/NOBI_ JOURNAL command unmarks a file for before-image journaling. After a data file is marked for before-image journaling with the SET FILE/BI_JOURNAL command, the following events occur whenever the data file is opened by RMS for write operations: o The journal is opened. o All subsequent modifications to the data file are recorded in the journal. By default, the journal has the same file specification as the data file that is to be journaled, but with the file type RMS$JOURNAL. That is, if you issue the following command, then, by default, the file specification for the before-image journal is FINANCE_DISK:PAYROLL.RMS$JOURNAL: $ SET FILE/BI_JOURNAL FINANCE_DISK:PAYROLL.DAT If erroneous or corrupt data is introduced into the data file, you can use the RMS Recovery Utility to "roll back" the data file that has been marked for before-image journaling. This will allow you to restore the data file to a previous state by removing data until a specified time (prior to the introduction of bad data). Use the SET FILE/NOBI_JOURNAL command to unmark a file for before-image journaling. After you use the SET FILE/NOBI_JOURNAL command for a file, modifications to that data file will no longer be written to the journal. You must use the SET FILE/NOBI_JOURNAL command before you can delete a file that has been marked for before-image journaling.
19.5.3 – Keywords
Four keywords are used as optional parameters to the SET FILE/BI_ JOURNAL command: ALLOCATION, [NO]CREATE, EXTENSION, and FILE. You can use any, all, or none of these keywords. Use an equal sign (=) immediately after the SET FILE/BI_JOURNAL command to use a keyword. If you use more than one of the keywords, enclose the list in parentheses and separate the items in the list with commas. ALLOCATION=n Specifies the initial size, in blocks, of the journal. The ALLOCATION keyword is meaningful only when the CREATE keyword is also used. The default allocation is 0 blocks. CREATE Specifies that a new journal is to be created. If no journal exists, using this keyword creates a new one. If a journal (with the file specification given in this command) already exists, using this keyword creates a new version of the journal. In the latter instance, the data file named in this SET FILE command is journaled to the new journal. Any other files that are being journaled to the previous version of the journal will continue to be journaled to that previous version. If a journal does not already exist, be sure to use the CREATE keyword with the SET FILE/BI_JOURNAL command. If you do not specify the CREATE keyword and a journal does not exist, a journal is not automatically created and an error message is displayed. When you create a journal for before-image journaling, the file protection for the journal is determined as follows: o If a version of the journal that you specify with the CREATE keyword already exists, then the new version of the journal has the same file protection and access control list (ACL) as the most recent version. o If there is no existing journal (that is, if you are creating version 1 of the journal), then the file protection and ACL of the journal are the default file protection for the process that creates the journal, except that none of the four ownership categories (system, owner, group, world) is given delete access. If you want to use a single journal for both after-image and before-image journaling, do not use the CREATE keyword with both the /AI_JOURNAL and /BI_JOURNAL qualifiers, because that will create two separate journals. When you create a journal that will be used for more than one data file or more than one type of journaling (after-image or before-image), you should first use a SET FILE command to create the journal for a single type of journaling and for a single data file. After the journal is created, then you can use a single SET FILE command for multiple data files and both after-image and before-image journaling. For example, you might use the following sequence of commands: $ SET FILE/AI_JOURNAL=(FILE=JNL_DISK:,CREATE) [WEEKLY]SALES.DAT $ SET FILE/BI_JOURNAL=(FILE=JNL_DISK:[WEEKLY]SALES) - _$INVOICES.DAT,COMMISSIONS.DAT EXTENSION=n Specifies the default extension quantity, in blocks, for the journal. You can specify a value from 0 to 65,535. The EXTENSION keyword is meaningful only when you use the CREATE keyword. If the file is extended, the value that you specify is used. If you do not use the EXTENSION keyword when you create a journal, RMS calculates its own EXTENSION value for the journal. FILE=journal-filespec Specifies the journal where all before-image journal entries for the data file will be recorded. The default file specification for the journal is the file specification of the data file that you name, but with a file type of RMS$JOURNAL. Use the FILE keyword if you wish to modify this default file specification for the journal. If you provide a partial file specification for the before-image journal, any unspecified portions are taken from the default file specification. The file specification cannot include a node name, since the SET FILE command is not valid for network access. The FILE keyword is optional with the SET FILE/BI_JOURNAL command. You can use a single journal for multiple data files for before- image journaling, and you can also use the same journal for both before-image and after-image journaling.
19.5.4 – Qualifier
19.5.4.1 /LOG
/LOG /NOLOG (default) Controls whether the SET FILE command displays the file specification and the type of journaling that has been set. By default, this information is not displayed.
19.5.5 – EXAMPLES
1.$ SET FILE/BI_JOURNAL=(FILE=JOURNAL_DISK:,CREATE) - _$FINANCE_DISK:[PAYROLL]WEEKLY.DAT In this example, the file FINANCE_DISK:[PAYROLL]WEEKLY.DAT is marked for before-image journaling. The FILE keyword, together with the defaults obtained from the file specification of the data file, provides the journal with a file specification of JOURNAL_DISK:[PAYROLL]WEEKLY.RMS$JOURNAL. Because the CREATE keyword was used, this journal is created when this SET FILE command is given. 2.$ SET FILE/BI_JOURNAL=CREATE/LOG SALES.DAT %SET-I-JCREATED,journal FINANCE_DISK:[REGION_1]SALES.RMS$JOURNAL;1 created %SET-I-FILMARKBI, FINANCE_DISK:[REGION_1]SALES.DAT marked for RMS before-image journaling -SET-I-JFILE,using journal FINANCE_DISK:[REGION_1]SALES.RMS$JOURNAL;1 %SET-I-MODIFIED, FINANCE_DISK:[REGION_1]SALES.DAT modified In this example, the file SALES.DAT in default directory FINANCE_DISK:[REGION_1] is marked for before-image journaling and the /LOG qualifier causes the result of the SET FILE command to be displayed on the terminal. 3.$ SET FILE/BI_JOURNAL=(FILE=JNL_DISK:, CREATE)/LOG OVERDUE.DAT %SET-I-JCREATED, journal JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL;1 created %SET-I-FILMARKBI, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 marked for RMS before-image journaling -SET-I-JFILE, using journal JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL;1 %SET-I-MODIFIED, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 modified $ SET FILE/AI_JOURNAL=(FILE=JNL_DISK:)/RU_JOURNAL/LOG OVERDUE.DAT %SET-I-FILMARKAI, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 marked for RMS after-image journaling -SET-I-JFILE, using journal JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL;1 %SET-I-FILMARKRU, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 marked for RMS recovery-unit journaling %SET-I-MODIFIED, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 modified In this example, the file OVERDUE.DAT is marked for all three types of journaling using two SET FILE commands. A single journal (JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL) will be used for after-image and before-image journaling. The first SET FILE command uses the /CREATE qualifier to create a new before-image journal, JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL. The file specification uses the current default directory [PAYABLE] and the default file extension RMS$JOURNAL. The second SET FILE command checks the disk JNL_DISK to see whether a journal already exists, and uses the existing journal for after-image journaling, as well as before-image journaling. 4.$ SET FILE/NOBI_JOURNAL/NOAI_JOURNAL- _$ WORK_DISK:[PAYABLE]OVERDUE.DAT,VENDORS.DAT In this example, the files OVERDUE.DAT and VENDORS.DAT are unmarked for both before-image and after-image journaling. It is not necessary to specify the journals that were used. If more than one journaling type was applied to the data files (as in the previous example), then you must cancel each of the journaling types before you can delete the data files. 5.$ SET FILE/BI_JOURNAL=(FILE=JOURNAL_DISK,CREATE)/RU_JOURNAL [FIELD]SALARY.DAT $ SET FILE/BI_JOURNAL=(FILE=JOURNAL_DISK:[FIELD]SALARY) /RU_JOURNAL CHECKS.DAT In this example, the files SALARY.DAT and CHECKS.DAT are both marked for before-image and for recovery unit journaling. The before-image journaling for both files is written to the same journal, JOURNAL_DISK:[FIELD]SALARY.RMS$JOURNAL.
19.6 /RU_ACTIVE
Requires read (R), write (W), and control access. Being the owner of the file is one way to get control access. Designates the recoverable facility that controls active recovery units for the file. Alternatively, when used with the /RU_ FACILITY qualifier, the SET FILE/RU_ACTIVE command lets you clear the designated recoverable facility that controls active recovery units for the specified file. The SET FILE command is not supported for remote files. You must use the SET FILE command from the system where the file is located. For more information, see the RMS Journaling documentation. Format SET FILE/[NO]RU_ACTIVE=ru-facility data-filespec[,...]
19.6.1 – Parameters
ru-facility Specifies the number or name of a recoverable facility. It can be an integer from 0 through 255, or it can be the name of an VSI-registered recoverable facility. Facility numbers 1 through 127 are reserved by VSI; facility numbers 128 through 255 are available for user-written recoverable facilities. RMS is recoverable facility 1; specifying the number 1 is equivalent to using the text * corresponds to no recoverable facility and is equivalent to using the qualifier /NORU_ACTIVE. Currently, the only VSI-defined recoverable facility is 1 (RMS). data-filespec[,...] Specifies the file that is to be modified. If you specify more than one file, separate the file specifications with commas. The asterisk (*) and the percent sign (%) wildcard characters are allowed. The file specification cannot include a node name, since the SET FILE command is not valid for network access.
19.6.2 – Description
The SET FILE/RU_ACTIVE command designates the recoverable facility that controls active recovery units for the file. Alternatively, when used with the /RU_FACILITY qualifier, the SET FILE/RU_ACTIVE command lets you clear the designated recoverable facility that controls active recovery units for the specified file. This is useful if a data file is unavailable due to active recovery units and an unavailable recovery unit journal. CAUTION When you clear the RU_ACTIVE attribute (using the command SET FILE/RU_ACTIVE=0/RU_FACILITY=1), the data in the file is likely to be in an inconsistent state. Do not use the data file unless you can ensure that the data is consistent. After clearing the RU_ACTIVE attribute, you can unmark the file for journaling, delete the file, and re-create a consistent file using a backup copy. You can determine the recoverable facility that controls active recovery units (if any) for the file by entering the DCL command DIRECTORY/FULL or DUMP/HEADER. You can use the ANALYZE/RMS_ FILE/RU_JOURNAL command to determine the state of any active recovery units.
19.6.3 – Qualifier
19.6.3.1 /LOG
/LOG /NOLOG(default) Controls whether the SET FILE command displays the file specification and the type of facility that has been specified. By default, this information is not displayed.
19.6.4 – EXAMPLES
1.$ SET FILE/RU_FACILITY=1/RU_ACTIVE=0- _$ FINANCE_DISK:[PAYROLL]WEEKLY.DAT If the file WEEKLY.DAT is unavailable due to active recovery units and an unavailable recovery unit journal, you can use this command to gain access to the file. In this example, the recoverable facility is defined as RMS by the /RU_FACILITY=1 qualifier. The RU_ACTIVE attribute that indicates active RMS recovery units for the file WEEKLY.DAT is cleared by the /RU_ ACTIVE=0 qualifier. CAUTION The data in the file may be inconsistent if there are active recovery units. VSI recommends that you not use the contents of the data file unless you can verify that the data is consistent. VSI also recommends that you make a new copy of the file using the Convert Utility and that you use the converted copy in place of the original.
19.7 /RU_FACILITY
Allows you to identify the recoverable facility that controls active recovery units on the file. The SET FILE command is not supported for remote files. You must use the SET FILE command from the system where the file is located. For more information, see the RMS Journaling documentation. Format SET FILE/RU_FACILITY=ru-facility data-filespec[,...]
19.7.1 – Parameters
ru-facility Specifies the number or name of a recoverable facility. It can be an integer from 0 through 255, or it can be the name of an VSI-registered recoverable facility. Facility numbers 1 through 127 are reserved by VSI; facility numbers 128 through 255 are available for user-written recoverable facilities. RMS is recoverable facility 1; specifying the number 1 is equivalent to using the text RMS. The number 0 corresponds to no recoverable facility. Currently, the only VSI-defined recoverable facility is 1 (RMS). The recoverable facility that you specify is an input parameter that is used only to open the file; it does not actually modify any file attributes. data-filespec[,...] Specifies the file that is to be modified. If you specify more than one file, separate the file specifications with commas. The asterisk (*) and the percent sign (%) wildcard characters are allowed. The file specification cannot include a node name, since the SET FILE command is not valid for network access.
19.7.2 – Description
The SET FILE/RU_FACILITY command allows you to identify the recoverable facility that controls active recovery units on the file. You can use any other SET FILE qualifier with the /RU_ FACILITY qualifier. When a data file has active recovery units and RMS journaling cannot resolve the recovery units (for example, if the recovery unit journal is unavailable), the data file cannot be opened or deleted. The presence of active recovery units prevents you from unmarking (or marking) a file for any journaling type. With the SET FILE/RU_FACILITY/RU_ACTIVE command, you can clear the designated recoverable facility that controls active recovery units for the data file. CAUTION When you clear the RU_FACILITY attribute (with the command SET FILE/RU_ACTIVE=0/RU_FACILITY=1), the data in the file is likely to be in an inconsistent state. Do not use the data file unless you can ensure that the data is consistent. After clearing the RU_ACTIVE attribute, you can unmark the file for journaling, delete the file, and re-create a consistent file using a backup copy. You can determine the recoverable facility that controls active recovery units (if any) for the file by entering the DCL command DIRECTORY/FULL or DUMP/HEADER. You can use the ANALYZE/RMS_ FILE/RU_JOURNAL command to determine the state of any active recovery units.
19.7.3 – Examples
1.$ SET FILE/RU_FACILITY=1/NORU_JOURNAL/NOAI_JOURNAL/LOG SAVINGS.DAT %SET-I-FILUNMARKAI, $DISK1:[PERSONAL]SAVINGS.DAT;1 unmarked for RMS after-image journaling %SET-I-FILUNMARKRU, $DISK1:[PERSONAL]SAVINGS.DAT;1 unmarked for RMS recovery-unit journaling %SET-I-MODIFIED, $DISK1:[PERSONAL]SAVINGS.DAT;1 modified $ DELETE SAVINGS.DAT;* This example shows the use of the /RU_FACILITY qualifier to allow SET FILE access to a data file. The SET FILE command identifies the recoverable facility holding the file and it also unmarks the file for recovery unit and after-image journaling. After these steps, it is then possible to delete the data file. CAUTION If it becomes necessary to use the /RU_FACILITY qualifier because of active recovery units, the data in the file may be inconsistent. VSI recommends that you not use the data file unless you can verify that the data is consistent. VSI also recommends that you make a new copy of the file using the Convert Utility and that you use the converted copy in place of the original. 2.$ SET FILE/RU_FACILITY=RMS/RU_ACTIVE=0 SALES.DAT In this example, the recoverable facility for the file SALES.DAT is identified as RMS by the /RU_FACILITY=RMS qualifier, and the RU active file attribute (which indicates active RMS recovery units) is cleared by the /RU_ACTIVE=0 qualifier. If the file SALES.DAT is unavailable due to active recovery units and an unavailable recovery unit journal, you can use this command to gain access to the file. As in the previous example, this operation leaves the data file in an inconsistent state. In general, use this command to delete the data file, then restore the file from a backup copy.
19.8 /RU_JOURNAL
Requires read (R), write (W), and control access. Being the owner of the file is one way to get control access. Marks an RMS file for recovery unit journaling. The SET FILE command is not supported for remote files. You must use the SET FILE command from the system where the file is located. For more information, see the RMS Journaling documentation. Format SET FILE/[NO]RU_JOURNAL[=volume-name] data-filespec[,...]
19.8.1 – Parameters
volume-name Specifies the volume on which the recovery unit journals will be located, using one of the following keywords: o DEVICE=device_name specifies a device name or logical name. o LABEL=volume-label specifies a volume label. By default, recovery unit journals are created temporarily in the [SYSJNL] directory on the same volume as the file that is being journaled. (If such a directory does not exist, RMS journaling creates it automatically.) You can change the device on which the recovery unit journals are created by using either the DEVICE or LABEL keyword. Use the DEVICE keyword to specify the location of recovery unit journals using a device name or a logical name. Use the LABEL keyword to specify the location of recovery unit journals using a volume label. You can only use one of these two keywords (LABEL or DEVICE) to specify the recovery unit journal location. In either case, only the volume label is actually stored with the file. At run time, RMS attempts to translate the logical name DISK$volume_label when creating a recovery unit journal. This is the default logical name created by the Mount Utility when you mount the disk using the /SYSTEM or /CLUSTER qualifier. If you do not mount the disk using the /SYSTEM or /CLUSTER qualifier, you must define the logical name DISK$volume_label using the DEFINE command with the /SYSTEM and /EXECUTIVE_MODE qualifiers. You must have the SYSNAM (system logical name) or the SYSPRV (system privilege) privilege to use the /SYSTEM qualifier. NOTE The logical name DISK$volume_label can point to any disk device on the system that is mounted and has for its volume label an executive-mode logical name in the form DISK$volume_label with the concealed and terminal attributes. data-filespec[,...] Specifies the file that is to be marked for recovery unit journaling. If a data file has been marked for recovery unit journaling with this command, DECdtm transaction services ($START_TRANS, $END_TRANS, and $ABORT_TRANS) must be used by an application program to define transactions whenever data in this file is modified. If you specify more than one file, separate the file specifications with commas. The asterisk (*) and the percent sign (%) wildcard characters are allowed. The file specification cannot include a node name, since the SET FILE command is not valid for network access.
19.8.2 – Description
The SET FILE/RU_JOURNAL command marks an RMS file for recovery unit journaling. To use recovery unit journaling for a data file, a data file must be marked for recovery unit journaling with the SET FILE/RU_JOURNAL command, and transactions must be defined in an application program using DECdtm transaction services. You can also use this command to specify the default volume on which recovery unit journals will be created for this file. Use the SET FILE/NORU_JOURNAL command to unmark a file for recovery unit journaling. After you use the SET FILE/NORU_JOURNAL command for a file, modifications to that data file will no longer be written to a recovery unit journal. If you wish to delete a file that has been marked for recovery unit journaling, you must use the SET FILE/NORU_JOURNAL command before you can delete the file. There is no reason other than performance to keep recovery unit journals on a different volume from the file being journaled. Unlike after-image journaling, which protects against a system failure such as a head crash that causes a loss of data, recovery unit journaling ensures that a predefined set of operations are either done in their entirety, or not done at all. In the event of an abnormal termination of the application, such as a system crash or a Ctrl/Y, any incomplete transactions are automatically rolled back (undone). Because all recovery unit journals must be available before the data files can be rolled back, locating recovery unit journals on a volume where availability might be low could reduce the availability of the data files that use those recovery unit journals. Specifying a location for recovery unit journals for a file does not guarantee that the recovery unit journals will always be located on the named device or volume. For any active transaction, there is always only one recovery unit journal for local files. Thus, if many files are involved in a transaction, a single recovery unit journal is used, even if different locations for the journals had been specified (for individual files) with different SET FILE/RU_JOURNAL commands. Remote files are an exception to this rule. Each remote file associated with a transaction has its own recovery unit and recovery unit journal. The recovery unit journal resides on the remote system. The volume is chosen in the same way as for local files. Remote files have no effect in determining where the local recovery unit journal resides. A journal is not deleted when the transaction has been completed. Recovery unit journals are automatically deleted only when all of the files involved in the transaction are closed and the application exits. RMS journaling automatically creates a recovery unit journal at run time, whenever the first record stream associates with a transaction. All record streams in the process associated with the same transaction share a single recovery unit journal. Once a recovery unit journal is created, it can be reused for another transaction by the process that created it. A recovery unit journal is created only when there is no available recovery unit journal opened by the process for the current transaction.
19.8.3 – Examples
1.$ SET FILE/RU_JOURNAL FINANCE_DISK:[PAYROLL]WEEKLY.DAT This command marks the file WEEKLY.DAT for recovery unit journaling. Any operation within an application that modifies this file must be in a defined transaction (defined by DECdtm transaction services). 2.$ SET FILE/AI_JOURNAL=(FILE=JNL_DISK:, CREATE)- _$ /RU_JOURNAL/LOG OVERDUE.DAT %SET-I-JCREATED, journal JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL;1 created %SET-I-FILMARKAI, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 marked for RMS after-image journaling -SET-I-JFILE, using journal JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL;1 %SET-I-FILMARKRU, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 marked for RMS recovery-unit journaling %SET-I-MODIFIED, WORK_DISK:[PAYABLE]OVERDUE.DAT;1 modified $ SET FILE/AI_JOURNAL=(FILE=JNL_DISK:OVERDUE)- _$ /RU_JOURNAL/LOG CURRENT.DAT %SET-I-FILMARKAI, WORK_DISK:[PAYABLE]CURRENT.DAT;1 marked for RMS after-image journaling -SET-I-JFILE, using journal JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL;1 %SET-I-FILMARKRU, WORK_DISK:[PAYABLE]CURRENT.DAT;1 marked for RMS recovery-unit journaling %SET-I-MODIFIED, WORK_DISK:[PAYABLE]CURRENT.DAT;1 modified In this example, the files OVERDUE.DAT and CURRENT.DAT are marked for after-image and recovery unit journaling using two SET FILE commands. In this example, a single journal (JNL_ DISK:[PAYABLE]OVERDUE.RMS$JOURNAL) is used for after-image journaling. The first SET FILE command uses the /CREATE qualifier to create a new after-image journal, JNL_ DISK:[PAYABLE]OVERDUE.RMS$JOURNAL, for the file OVERDUE.DAT. The file specification uses the current default directory [PAYABLE] and the default file extension RMS$JOURNAL. The second SET FILE command marks the file CURRENT.DAT for after-image and recovery unit journaling, checks the disk JNL_ DISK to see whether an after-image journal already exists, and uses the existing journal JNL_DISK:[PAYABLE]OVERDUE.RMS$JOURNAL for the file CURRENT.DAT.
20 – HOST
Connects your terminal (through the current host processor) to another processor, called the remote processor. The command requires that: o You must have an account on the remote system to log in. o The NETMBX (network mailbox) privilege is set. For more information about using the following qualifiers, see help for the appropriate subtopic. Qualifier Type of Connection /DTE Connects your system to a remote system through an outgoing terminal line. /DUP Connects your terminal to a storage controller through the appropriate bus for that controller. /HSC Connects your terminal to an HSC disk and tape controller through the computer interconnect (CI) bus. /LAT Connects your terminal to a specified service available on the local area network (LAN). /RLOGIN Allows you to log in to a remote host over a TCP/IP connection and start an interactive terminal session by accessing the RLOGIN application. /TELNET Connects you to a remote host over a TCP/IP connection by invoking the TELNET application. /TN3270 Connects you to a remote IBM host over a TCP/IP connection, causing the local keyboard to emulate an IBM 3279-class terminal keyboard by invoking the TN3270 terminal emulator. Format SET HOST node-name
20.1 – Parameter
node-name Specifies the node name of the remote processor to which you will connect.
20.2 – Qualifiers
20.2.1 /APPLICATION_PROTOCOL
/APPLICATION_PROTOCOL[=protocol] Specifies the protocol connection, CTERM (CTDRIVER) or RTERM (RTTDRIVER) on the specified node. CTERM protocol is the default if no connection is specified.
20.2.2 /BUFFER_SIZE
/BUFFER_SIZE=n Changes the packet size of the protocol message sent between the terminal and the remote processor if a connection to the remote processor is already established. The default buffer size is 1010 bytes; however, the buffer size n can range from 140 bytes to 1024 bytes. The value of the parameter n is reset to 140 bytes if a value below 140 is specified; a value for n above 1024 bytes is reset to 1024. You can force the host node to write to the terminal in smaller packets, thereby ensuring that write operations to the terminal are displayed at more frequent intervals, by setting n to a value just above the minimum of 140 bytes. On slow DECnet links, setting the buffer size to a smaller value may decrease pauses between write operations when large amounts of data are being scrolled to the screen.
20.2.3 /LOG
/LOG[=filespec] /NOLOG (default) Controls whether a log file of the entire session is kept. If you use the /LOG qualifier without the file specification, the log information is stored in the file SETHOST.LOG.
20.2.4 /MOP
/MOP client-name Connects your system to a remote system using the MOP protocol. Note that this qualifier is displayed only if DECnet-Plus is installed on your system. For more information, type the following command: $ HELP DECnet-Plus DCL_Commands SET HOST/MOP
20.2.5 /RESTORE
/RESTORE /NORESTORE (default) Saves current terminal characteristics before a remote terminal session is begun and restores them when the remote session is terminated.
20.3 – Examples
1.$ SET HOST/APPLICATION_PROTOCOL=CTERM DAKOTA The /APPLICATION_PROTOCOL qualifier specifies the CTERM protocol (the default) on node DAKOTA in this command line. 2.$ SET HOST ITALIC Username: GRESO Password: <PASSWORD> Welcome to OpenVMS VAX Version 7.3 on node ITALIC . . . $ LOGOUT GRESO logged out at 19-DEC-2001 15:04:25.27 %REM-S-END, Control returned to node _CASLON:: In this example, the name of the local node is CASLON. This SET HOST command connects the user terminal to the processor at the network node named ITALIC. The remote processor then prompts for user name and password. Use the normal login procedure to log in to the remote processor. Once you are logged in at a remote node, you can use the SET HOST command to establish communication with another node. After logging in to node ITALIC, you could type SET HOST BODONI. You would again be prompted for a user name and password. If you then supply a valid user name and password, you will be logged in to node BODONI. Note that when you log out of node BODONI, control is returned to node ITALIC. You must log out of node ITALIC to return to your local node, CASLON. 3.$ SET TERMINAL/WIDTH=80 $ SET HOST/RESTORE GENEVA Username: Jones Password: <PASSWORD> $ SET TERMINAL/WIDTH=132 . . . $ logout JONES logged out at 19-DEC-2001 11:04:51.45 %REM-S-END, control returned to node _ORACLE This example shows user JONES on node ORACLE logging in to remote node GENEVA and specifies that the original terminal screen width be restored to 80 characters when the remote session is terminated.
20.4 /DTE
Connects your system to a remote system through an outgoing terminal line. You must have an account on the remote system in order to log in to that system after the connection is made. You must also have the ability to assign a channel to the terminal port specified. Your system manager can set the device protection on the terminal port to allow you access. Format SET HOST/DTE terminal-name
20.4.1 – Parameter
terminal-name Specifies the name of an outgoing terminal line, which connects your system directly to another system or modem.
20.4.2 – Qualifiers
20.4.2.1 /BREAK
/BREAK=break-character Selects the break character. The break character is used to generate a break on lines that expect a break rather than a carriage return. To generate a break, press Ctrl/break-character. The break character can be any ASCII character between @ and z, except C, M, Q, S, Y, or the left bracket ([). You cannot select a character currently defined as either the command character (see the description of the /COMMAND=command-character qualifier) or the escape character (see the description of the /ESCAPE=escape-character qualifier). The ASCII characters between @ and z include the alphabetic characters in both upper and lower cases, the at sign (@), the backslash (\), the right bracket (]), the circumflex (^), the underscore (_), and the grave accent (`). By default, the break character is the right bracket (]).
20.4.2.2 /COMMAND
/COMMAND=command-character Selects the command character. Use the command character to access DTE command mode by pressing Ctrl/command-character. The command character can be any ASCII character between @ and z, except C, M, Q, S, Y, or the left bracket ([). You cannot select a character currently defined as either the break character (see the description of the /BREAK=break-character qualifier) or the escape character (see the description of the /ESCAPE=escape- character qualifier). The ASCII characters between @ and z include the alphabetic characters in both upper and lower cases, the at sign (@), the backslash (\), the right bracket (]), the circumflex (^), the underscore (_), and the grave accent (`). By default, the command character is the at sign (@).
20.4.2.3 /DIAL
/DIAL=(NUMBER:number[,MODEM_TYPE:modem-type]) Allows a modem attached to the outgoing terminal line to be autodialed using the autodial protocol of that modem. The NUMBER keyword is the telephone number to be autodialed and is a required parameter. Before you dial a new number, you must log out of the current remote system. On Alpha, the MODEM_TYPE keyword defaults to DMCL (any modem that uses the DIGITAL Modem Command Language). Each modem type requires a specific modem dialer code. Check with your system manager to see which modem dialer codes are installed on your system. In addition, the MODEM_TYPE keyword can be used to specify a modem type other than DF03, DF112, or DMCL. A template is provided for users interested in supporting other modems with autodial capabilities (see SYS$EXAMPLES:DTE_DF03.MAR).
20.4.2.4 /ECHO
/ECHO /NOECHO (default) Determines whether the terminal input is echoed by your local system. By default, all echoing is performed by the remote system.
20.4.2.5 /EIGHT_BIT
/EIGHT_BIT (default) /NOEIGHT_BIT Determines whether the outgoing terminal line supports 8-bit or 7-bit characters. By default, 8-bit characters are supported. If you specify /NOEIGHT_BIT, then 7-bit characters are supported.
20.4.2.6 /ERROR_ACTION
/ERROR_ACTION=CONTINUE (default) /ERROR_ACTION=EXIT Specifies the error action by using the EXIT or the CONTINUE keyword. When an error is detected on the outgoing terminal line, the error is reported to the local system and an error message is displayed on your terminal. If the error action is CONTINUE, then communication with the remote system continues uninterrupted. If the error action is EXIT, then the local system immediately exits from the remote system.
20.4.2.7 /ESCAPE
/ESCAPE=escape-character Selects the escape character. You can use the escape character to exit from DTEPAD by pressing Ctrl/ escape-character. The escape character can be any ASCII character between @ and z, except C, M, Q, S, Y, or the left bracket ([). You cannot select a character currently defined as either the break character (see the description of the /BREAK=break-character qualifier) or the command character (see the description of the /COMMAND=command- character qualifier). By default, the escape character is a backslash (\). The ASCII characters between @ and z include the alphabetic characters in both upper and lower cases, the at sign (@), the backslash (\), the right bracket (]), the circumflex (^), the underscore (_), and the grave accent (`).
20.4.2.8 /FLOW_CONTROL
/FLOW_CONTROL (default) /NOFLOW_CONTROL Determines whether XON/XOFF flow control is enabled. By default, flow control is enabled. XON/XOFF flow control is a means of preventing data-overrun errors. Incoming data is stored in receive buffers; when these buffers are full, a signal is sent to the remote system to stop transmission. Once there is sufficient space in the receive buffers, another message is sent to restart transmission. You should disable XON/XOFF flow control when the remote system has no XON/XOFF flow control.
20.4.2.9 /INIT
/INIT[=filespec] (default) /NOINIT Sets the configurable characteristics of DTEPAD according to values contained in the specified initialization file. If you use qualifiers in the command line to define the values of any of the configurable characteristics, these will supersede the values contained in the initialization file. By default, DTEPAD tries to translate the logical name DTEPAD$INI in order to find the appropriate initialization file. If you use the /INIT qualifier and omit the file specification, DTEPAD translates the logical name DTEPAD$INI and finds the appropriate file. If DTEPAD$INI is not defined, then DTEPAD uses /NOINIT as the default. An initialization file can contain any combination of any of the following DTE commands: o SAVE o SEND BREAK o SET DTE o SPAWN The following is an example of an initialization file: SET DTE/MAX_BUFFERS=150 SET DTE/READ_DELAY=100 SEND BREAK
20.4.2.10 /LOG
/LOG[=filespec] /NOLOG (default) Controls whether a log file of the session is kept. If you use the /LOG qualifier and omit the file specification, then the log information is written to the file DTEPAD.LOG. When used to log a modem session, the log file contains any noise that occurred on the phone line. For example, typing a file in order to get it recorded in the log file could result in noise being recorded along with the file data. Therefore, the use of a log file is not recommended for the purpose of file transfers. VSI recommends that you use asynchronous DECnet to transfer files.
20.4.2.11 /MAX_BUFFERS
/MAX_BUFFERS=number-buffers Specifies the maximum number of receive buffers. Receive buffers are buffers used to receive incoming data from the modem port. They are allocated as they are required. By default, the maximum number of receive buffers is 100. The minimum number you can specify is 20.
20.4.2.12 /PARITY
/PARITY=NONE (default) /PARITY=ODD /PARITY=EVEN Selects parity on the outgoing terminal line.
20.4.2.13 /READ_DELAY
/READ_DELAY=delay Specifies the modem port read delay in milliseconds. The modem port read delay is the time interval during which data in the modem port is transferred into receive buffers at the terminal. By default, the modem port read delay is 50 milliseconds. This is also the minimum value. A long modem port read delay slows the rate at which data is displayed at your terminal, and also increases the risk of data- overrun errors; however, a longer read delay requires less CPU overhead.
20.4.2.14 /SPEED
/SPEED=(output-rate,input-rate) Sets the baud rate at which the terminal receives and transmits data. If the input and output rates are the same, specify the qualifier as /SPEED=rate. Not all terminals support different input and output baud rates. For specific information on baud rates for your terminal, consult the manual for that terminal. The default transmission rates are installation dependent. The valid baud rates are as follows: 50 150 1800 4800 38400 75 300 2000 7200 57600 110 600 2400 9600 76800 134 1200 3600 19200 115200 If you select an invalid or unsupported speed, then the terminal line speed will remain set at its previous value.
20.4.3 – Examples
1.$ SET HOST/DTE TTA2:/DIAL=NUMBER:5551234 Username: SMITH Password: This command connects the user terminal to the outgoing terminal line TTA2:, which is attached to a modem (type DF03 by default) set to autodial the phone number 555-1234. The remote processor then prompts for user name and password. Use the normal login procedure to log in to the remote system. 2.$ SET HOST/DTE/DIAL=(NUMBER:5551234#,MODEM_TYPE:DF112) TTA2: Username: SMITH Password: This command accomplishes the same thing as in the first example, except that it uses the DF112 modem. The number sign (#) is required to activate the autodialer in the DF112. 3.$ SET HOST/DTE/NOEIGHTBIT TTA2 This command sets the outgoing terminal port, TTA2, to support 7-bit characters. 4.$ SET HOST/DTE/NOFLOW_CONTROL TTA2 This command disables the XON/XOFF flow control. 5.$ SET HOST/DTE/ERROR_ACTION=EXIT TTA2 This command sets the error action to EXIT. 6.$ SET HOST/DTE/MAX_BUFFERS=150 TTA2 This command sets the maximum number of receive buffers to 150. 7.$ SET HOST/DTE/ESCAPE=E TTA2 This command defines the letter E as the escape character. Note that DTEPAD is not case sensitive. 8.$ SET HOST/DTE/LOG TTA2 This command enables logging of the session. Since no log file is specified, the log is written to the default log file, DTEPAD.LOG. 9.$ SET HOST/DTE/INIT=MYFILE.INI TTA2 This command uses the initialization file MYFILE.INI. 10$ <Ctrl/@> DTEPAD> This example shows you how to access DTE command mode by pressing Ctrl/@, where @ is the command character. 11DTEPAD> SAVE MYFILE.INI This command saves the information on the current configuration in the file MYFILE.INI. 12DTEPAD> SET DTE/BREAK=G This command defines the letter G as the break character. 13DTEPAD> SET DTE/ECHO This command sets the terminal port so that echoing is performed by the local system. 14DTEPAD> SET DTE/SPEED=4800 This command sets the input and output baud rates to 4800. 15DTEPAD> SET DTE/LOG=myfile.log This command directs logging to the file MYFILE.LOG. 16DTEPAD> SHOW DTE Port TXA0 EIGHT_BIT ECHO Flow control XON/XOFF Parity NONE Transmit Speed 4800 Receive Speed 4800 Error action CONTINUE Break character B Escape character \ Command character @ Maximum buffers 100 Read delay 50 milliseconds Log file MYFILE.INI Number dialed 12345678 Modem type DF03 Bytes transmitted 75 Bytes received 132 Errors 0 This command displays all the current settings of the configurable characteristics, the number of bytes transmitted and received, and the number of errors detected.
20.5 /DUP
Connects your terminal to a storage controller through the appropriate bus for that controller. The /SERVER and /TASK qualifiers are required. For use only with storage controllers. Requires the DIAGNOSE privilege. Format SET HOST/DUP/SERVER=server-name /TASK=task-name node-name
20.5.1 – Parameter
node-name Specifies the node name of the storage controller.
20.5.2 – Qualifiers
20.5.2.1 /LOG
/LOG[=filespec] /NOLOG (default) Controls whether a log file of the entire session is kept. If you use the /LOG qualifier without the file specification, the log information is stored in the file HSCPAD.LOG.
20.5.2.2 /SERVER
/SERVER=server-name Specifies the server name for the target storage controller. This qualifier is required.
20.5.2.3 /TASK
/TASK=task-name Specifies the utility or diagnostic name to be executed on the target storage controller under direction of the server. This qualifier is required.
20.5.3 – Example
$ SET HOST/DUP/SERVER=MSCP$DUP/TASK=DIRECT R2DH5Y %HSCPAD-I-LOCPROGEXE, Local program executing - type ^\ to exit utility The SET HOST/DUP command in this example connects the user terminal to the utility program called DIRECT executing on a storage controller named R2DH5Y under direction of the MSCP$DUP server.
20.6 /HSC
Connects your terminal to an HSC disk and tape controller through the computer interconnect (CI) bus. Used only with HSC controllers. Requires the DIAGNOSE privilege. Format SET HOST/HSC node-name
20.6.1 – Parameter
node-name Specifies the node name of the HSC.
20.6.2 – Qualifier
20.6.2.1 /LOG
/LOG[=filespec] /NOLOG (default) Controls whether a log file of the entire session is kept. If you use the /LOG qualifier without the file specification, the log information is stored in the file HSCPAD.LOG.
20.6.3 – Example
$ SET HOST/HSC HSC001 %HSCPAD-I-LOCPROGEXE, Local program executing - type ^\ to exit, ^Y for prompt HSC> This SET HOST/HSC command connects the user terminal to the HSC named HSC001.
20.7 /LAT
Connects your terminal to a specified service available on the local area network (LAN), establishing one session for communication between your terminal and that service. The service node that provides the service must be on the same extended LAN and must be running at least Version 5.0 of the LAT protocol. Format SET HOST/LAT service-name
20.7.1 – Parameter
service-name Specifies the name of the service to which you want your terminal connected. A service is a resource on the LAN. A service often consists of all of the resources of a computer system. Other examples of services are a file storage system and an application program running on a computer system. A computer system that offers one or more services is called a service node. If several service nodes offer the same service, and you do not specify the /NODE=node-name qualifier, your terminal connects to the service node that is the least busy. To display a list of services on your LAN, use the LAT Control Program (LATCP) SHOW SERVICES command. See the VSI OpenVMS System Management Utilities Reference Manual.
20.7.2 – Qualifiers
20.7.2.1 /AUTOCONNECT
/AUTOCONNECT /NOAUTOCONNECT Specifies whether connection attempts should be retried automatically when a connection fails because a service is unknown or unavailable, or because a node is unknown or unreachable. Also specifies that reconnects should be attempted automatically if a service has disconnected abnormally. The default is /NOAUTOCONNECT.
20.7.2.2 /AUTOPROMPT
/AUTOPROMPT (default) /NOAUTOPROMPT Causes an OpenVMS Username: prompt to appear with no user action when a SET HOST/LAT command is issued. On a terminal server port, you can configure the port to have AUTOPROMPT disabled (/NOAUTOPROMPT) so that you are required to press Return when connecting to a node to get the Username: prompt; however, when connecting to a reverse LAT service, the AUTOPROMPT characteristic should be disabled.
20.7.2.3 /BREAK
/BREAK=break-character Defines a character that generates a break on lines that expect a break rather than a carriage return. To generate a break, press the Ctrl and break-character keys together. The default break- character value is the tilde (~). You can select any ASCII character between @ and Z, except C, M, Q, S, Y, and the left bracket ([). You cannot select a character that is already defined as the disconnect character.
20.7.2.4 /DESTINATION_PORT
/DESTINATION_PORT=port-name Specifies the port on a node to which you want to connect. The /NODE qualifier is required when you specify the /DESTINATION_ PORT qualifier. The port must be available and must offer the service you specify. OpenVMS and certain other LAT service node systems ignore the /DESTINATION_PORT qualifier.
20.7.2.5 /DIAL
/DIAL=(NUMBER:number[,MODEM_TYPE:modem-type]) Allows a modem attached to the outgoing terminal line to be autodialed using the autodial protocol of that modem. The NUMBER keyword is the telephone number to be autodialed and is a required parameter. The MODEM_TYPE keyword is optional. It can be used to specify any of the following modem types: o DMCL (any modem that uses the DIGITAL Modem Command Language) o DF03 (default) o DF112 Each modem type requires a specific modem dialer code. Check with your system manager to see which modem dialer codes are installed on your system. In addition, the MODEM_TYPE keyword can be used to specify a modem type other than DF03, DF112, or DMCL. A template is provided for users interested in supporting other modems with autodial capabilities (see SYS$EXAMPLES:DTE_DF03.MAR).
20.7.2.6 /DISCONNECT
/DISCONNECT=disconnect-character Defines the character that you can use to disconnect from a remote session. To generate a disconnect, press the Ctrl and disconnect-character keys together. The default disconnect- character is the backslash (\). You can select any ASCII character from @ through Z, except C, M, Q, S, Y, and the left bracket ([). For example, if you specify /DISCONNECT=A, Ctrl/A will be the disconnect character. You cannot select a character that is already defined as the break character.
20.7.2.7 /EIGHT_BIT
/EIGHT_BIT (default) /NOEIGHT_BIT Determines whether the outgoing terminal line supports 8-bit or 7-bit characters. By default, 8-bit characters are supported. If you specify /NOEIGHT_BIT, then 7-bit characters are supported. NOTE To change the number of bits per character on the remote terminal server port, that port must have the REMOTE MODIFICATION characteristic enabled.
20.7.2.8 /FRAME
/FRAME=n The /FRAME=n qualifier allows a user making a LAT connection to a remote system to specify the number of data bits that the terminal driver expects for every character that is input or output. The value of n can be from 5 to 8. The default value depends on the settings for the terminal established by the /PARITY and /EIGHT_BIT qualifiers. The following example specifies a character frame size of 7 bits per character: $ SET HOST/LAT /FRAME=7 DIAL_OUT_SVC
20.7.2.9 /LOG
/LOG[=log-file] Logs all data that is delivered during the LAT session. If you do not specify a log file, the data is stored in the file SETHOST_ LAT.LOG.
20.7.2.10 /NODE
/NODE=node-name Specifies the node that offers the service to which you want to connect. Failover is not performed if the connection fails.
20.7.2.11 /PASSWORD
/PASSWORD=password Specifies the password required by a service that is password protected. If you do not specify the /PASSWORD qualifier when requesting a connection to a password-protected service, you are prompted for a password.
20.7.2.12 /QUEUE
/QUEUE /NOQUEUE (default) When connecting to a reverse LAT service that is already in use (such as a dial out modem), you are notified that the service is in use and the SET HOST/LAT command terminates. However, LAT can allow incoming connections to be queued to any reverse LAT service that supports service queueing, which enables users to be placed on a queue when using reverse LAT services. LAT reports your position in the queue. When the resource becomes available, you are immediately notified. You can cancel the queued connection by pressing Ctrl/Y and terminating the SET HOST /LAT command.
20.7.2.13 /SPEED
/SPEED=(output-rate,input-rate) Sets the baud rate at which the terminal receives and transmits data. If the input and output rates are the same, specify the qualifier as /SPEED=rate. Not all terminals support different input and output baud rates. For specific information on baud rates for your terminal, consult the manual for that terminal. The default transmission rates are installation dependent. The valid values for input and output baud rates are as follows: 300, 600, 1200, 2400, 4800, 9600, 19200, 38400, 57600 If you select an invalid or unsupported speed, the terminal line speed will remain set at its previous value. NOTE To change the speed on the terminal server port, the REMOTE MODIFICATION characteristic must be enabled on that terminal server port. When initiating a connection, SET HOST/LAT may attempt to set terminal server port characteristics, such as the speed and the default speed for a LAT device. If the device connected to the terminal server port has a fixed speed (such as a dial-out modem) and you do not want the host to try to change this, disable the REMOTE MODIFICATION characteristic on that port using the following command: Local> DEFINE PORT x REMOTE MODIFICATION DISABLE Local> LOGOUT PORT x Use the following command for terminal servers that support the CHANGE command: Local> CHANGE PORT x REMOTE MODIFICATION DISABLE
20.7.3 – Examples
1.$ SET HOST/LAT SORTER %LAT-S-CONNECTED, session to SORTER established %LAT-I-TODISCON, type ^\ to disconnect the session Username: BARKER Password: . . . $ LOGOUT BARKER logged out at 30-DEC-2001 11:04:51.45 %LAT-I-DISCONNECTED, session disconnected from SORTER -LAT-I-END, control returned to node HOME $ This SET HOST/LAT command connects the user to the service SORTER, which is a computer system. The first message confirms that the user has been connected to that service. The second message informs the user how to disconnect the session. (The user can also disconnect the session by logging out from SORTER.) SORTER then prompts for the username and password. Use the normal login procedure to log in to the system. When the user logs out of the service SORTER, the terminal displays the DCL command prompt of the user's local processor system (HOME). 2.$ SET HOST/LAT/DESTINATION_PORT=BOSTON- _$ /NODE=STATE/DISCONNECT=F BUDGET This command connects the user's terminal to the service BUDGET that is offered on port BOSTON, on service node STATE. The user can disconnect the session by pressing Ctrl/F. 3.$ SET HOST/LAT PURSE Password: This command attempts to connect the user's terminal to the service PURSE. The service PURSE is password protected, so the user is prompted for a password. The user could have specified the password within the SET HOST/LAT command, as shown in the next example. 4.$ SET HOST/LAT/PASSWORD=BEOR PURSE This command connects the user's terminal to the password- protected service PURSE. The password is BEOR.
20.8 /RLOGIN
Allows you to log in to a remote host over a TCP/IP connection and start an interactive terminal session by accessing the RLOGIN application. Format { IPhostname } SET HOST/RLOGIN { IPaddress } { } NOTE You can specify the IPhostname or the IPaddress, but not both.
20.8.1 – Parameter
IPhostname Specifies the IP host name of the remote host. IPaddress Specifies an IP address of the remote host.
20.8.2 – Qualifiers
20.8.2.1 /AUTHENTICATE
Specifies that Kerberos authentication should be used for acquiring access to the remote node.
20.8.2.2 /TERMINAL_TYPE
/TERMINAL_TYPE=type Sets the terminal emulator to one of the following terminal types: VT100, VT200, VT300, VT400, VT500.
20.8.2.3 /TRUNCATE_USERNAME
Specifies that the current user name should be truncated to 8 characters before attempting to connect to the remote node. The qualifier is required for communication with systems that limit the size of their login names to 8 characters. The /TRUNCATE_ USERNAME qualifier is ignored if /USERNAME is specified.
20.8.2.4 /USERNAME
/USERNAME=username Specifies the user name for logging in to the remote node. The user name can be enclosed in quotes to preserve the case of the user name for case sensitive systems such as UNIX systems. If the /USERNAME qualifier is not specified, the default is the current user's user name.
20.8.3 – Example
$ SET HOST/RLOGIN remotehst1 This example creates an RLOGIN connection to remote host remotehst1 over a TCP/IP connection.
20.9 /TELNET
Connects you to a remote host over a TCP/IP connection by invoking the TELNET application. Format { IPhostname } SET HOST/TELNET { IPaddress } { } NOTE You can specify the IPhostname or the IPaddress, but not both.
20.9.1 – Parameters
IPhostname Specifies the IP host name of the remote host. IPaddress Specifies an IP address of the remote host.
20.9.2 – Qualifiers
20.9.2.1 /AUTHENTICATE
Specifies that Kerberos authentication should be used for acquiring access to the remote node.
20.9.2.2 /PORT
/PORT=port Specifies the remote TCP port to use. The default is 23.
20.9.2.3 /TERMINAL_TYPE
/TERMINAL_TYPE=type Sets the terminal emulator to one of the following terminal types: VT100, VT200, VT300, VT400, VT500.
20.9.3 – Example
$ SET HOST/TELNET remotehst2 This example creates a TELNET connection to remote host remotehst2 over a TCP/IP connection.
20.10 /TN3270
Connects you to a remote IBM host over a TCP/IP connection, causing the local keyboard to emulate an IBM 3279-class terminal keyboard by invoking the TN3270 terminal emulator. Format { IPhostname } SET HOST/TN3270 { IPaddress } { } NOTE You can specify the IPhostname or the IPaddress, but not both.
20.10.1 – Parameters
IPhostname Specifies the IP host name of the remote host. IPaddress Specifies an IP address of the remote host.
20.10.2 – Qualifiers
20.10.2.1 /AUTHENTICATE
Specifies that Kerberos authentication should be used for acquiring access to the remote node.
20.10.2.2 /PORT
/PORT=port Specifies the remote TCP port to use. The default is 23.
20.10.2.3 /TERMINAL_TYPE
Sets the terminal emulator to one of the following terminal types: VT100, VT200, VT300, VT400, VT500.
20.10.3 – Example
$ SET HOST/TN3270 remotehst3 This example creates a connection to a TELNET server on the remote IBM system remotehst3 over a TCP/IP connection.
21 – IMAGE
Valid on Alpha and Integrity server systems only. Modifies the current attributes for the specified image file. This command can be used to modify the initial values set by the OpenVMS Integrity servers Linker for certain image attributes. NOTE This command can be executed on an Alpha or Integrity servers system, but it operates only on Integrity servers images. Format SET IMAGE image-filespec
21.1 – Parameters
image-filespec Specifies the name of an OpenVMS Integrity servers image file to modify. The command overlays the current image file; it does not create a new version of the image file. The asterisk (*) and percent sign (%) wildcard characters are allowed in the file specification if the /RESTORE qualifier is used. If you omit the file type extension, the default file type .EXE is applied.
21.2 – Qualifier
21.2.1 /FLAGS
/FLAGS=(keyword[,...]) Specifies which image attribute flags to turn on or off. The original flags are set by the OpenVMS Integrity servers Linker at image link time. The possible keywords are listed below with a brief description. For more information about the image link flags, see the VSI OpenVMS Version 8.2 Release Notes. WARNING Beware of modifying the flag values unless you are very knowledgeable about the internals of the image. Keyword Description [NO]CALL_DEBUG Call Debugger at startup. [NO]DBG_IN_DSF Debug records in debug symbol file. [NO]DBG_IN_IMG Debug records in image file. [NO]EXE_INIT Image has a pointer to EXE$INITIALIZE. [NO]IMGSTA Call SYS$IMGSTA. [NO]INITIALIZE Image has a pointer to LIB$INITIALIZE. [NO]MAIN Image has a main transfer address. [NO]MKTHREADS Enable multiple kernel thread use. [NO]NOP0BUFS No P0 buffers for RMS image I/O. [NO]P0IMAGE Image is loaded only to P0 space. [NO]SIGNATURES TIE Signatures are present. [NO]TBK_IN_DSF Traceback records in debug symbol file. [NO]TBK_IN_IMG Traceback records in image file. [NO]UPCALLS User thread upcalls are enabled.
21.2.2 /LOG
Displays a message to the output device indicating whether the command successfully modified the image.
21.2.3 /RESTORE
Restores the original image attributes of the file-that is, the initial attributes that were set by the OpenVMS Integrity servers Linker. You cannot specify the /FLAGS or /SUCCESS qualifier when /RESTORE is used.
21.2.4 /SUCCESS
Modifies the image link completion code value to SUCCESS. The run-time behavior of the image remains the same as the original link.
21.3 – Examples
1.$ SHOW IMAGE WARNING Show Image Version 1.2 29-SEP-2004 10:15:52.61 WORK1:[SWEENEY.CLIUTL]WARNING.EXE;1 This is an OpenVMS IA64 (Elf format) executable image file Image Identification Information Image name: WARNING Global Symbol Table name: WARNING Image file identification: X-6 Image build identification: <unavailable> Link identification: Linker T02-14 Link Date/Time: 12-JUN-2004 10:15:16.46 Patch Date/Time: Never Manipulation Date/Time: Never Image Dynamic Data Version: 1.2 Image Completion Code Value: WARNING State: Original Image Link Flags state: Original Image Link Flags -------------------------------------------- CALL_DEBUG : Call debugger IMGSTA : Call SYS$IMGSTA MAIN : Image has main transfer TBK_IN_IMG : Traceback records in image file DBG_IN_IMG : Debug records in image file $! $ SET IMAGE/SUCCESS WARNING.EXE $ SHOW IMAGE WARNING.EXE Show Image Version 1.2 29-SEP-2004 11:41:54.93 WORK1:[SWEENEY.CLIUTL]WARNING.EXE;1 This is an OpenVMS IA64 (Elf format) executable image file Image Identification Information Image name: WARNING Global Symbol Table name: WARNING Image file identification: X-6 Image build identification: <unavailable> Link identification: Linker T02-14 Link Date/Time: 12-JUN-2004 10:02:53.51 Patch Date/Time: Never Manipulation Date/Time: 29-SEP-2004 11:26:31.57 Image Dynamic Data Version: 1.2 Image Completion Code Value: SUCCESS State: Manipulated Image Link Flags state: Original Image Link Flags -------------------------------------------- CALL_DEBUG : Call debugger IMGSTA : Call SYS$IMGSTA MAIN : Image has main transfer TBK_IN_IMG : Traceback records in image file DBG_IN_IMG : Debug records in image file In this example the SET IMAGE/SUCCESS command is used to change the link completion code value in the image to SUCCESS. The output of the second SHOW IMAGE command displays that the image completion code value has been changed. 2.$ SHOW IMAGE SYS$SYSTEM:DCE$DCED.EXE Show Image Version 1.2 29-SEP-2004 12:40:04.32 SYS$COMMON:[SYSEXE]DCE$DCED.EXE;199 This is an OpenVMS IA64 (Elf format) executable image file Image Identification Information Image name: DCE$DCED Global Symbol Table name: DCE$DCED Image file identification: DCE T3.2-040610 Image build identification: <unavailable> Link identification: Linker I01-68 Link Date/Time: 11-JUN-2004 01:50:11.71 Patch Date/Time: Never Manipulation Date/Time: Never Image Dynamic Data Version: 1.1 Image Completion Code Value: SUCCESS State: Original Image Link Flags state: Original Image Link Flags -------------------------------------------- MAIN : Image has main transfer $ SET IMAGE/FLAGS=(MKTH,UPCALL) SYS$SYSTEM:DCE$DCED.EXE $! $ SHOW IMAGE SYS$SYSTEM:DCE$DCED.EXE Show Image Version 1.2 29-SEP-2004 12:43:34.90 SYS$COMMON:[SYSEXE]DCE$DCED.EXE;1 This is an OpenVMS IA64 (Elf format) executable image file Image Identification Information Image name: DCE$DCED Global Symbol Table name: DCE$DCED Image file identification: DCE T3.2-040610 Image build identification: <unavailable> Link identification: Linker I01-68 Link Date/Time: 11-JUN-2004 01:50:11.71 Patch Date/Time: Never Manipulation Date/Time: 29-SEP-2004 12:43:02.14 Image Dynamic Data Version: 1.1 Image Link Flags state: Manipulated Current Image Flags Original Link Flags ------------------- ------------------- MKTHREADS MAIN UPCALLS MAIN Image Link Flag Description --------------- ------------------------------------- MKTHREADS : Multiple kernel threads enabled UPCALLS : Upcalls enabled MAIN : Image has main transfer The SET IMAGE command in this example shows how to enable multiple kernel threads and thread upcalls in the image SYS$SYSTEM:DCE$DCED.EXE. 3.$ SHOW IMAGE PATCH.EXE;61 Show Image 30-SEP-2004 09:06:39.57 WORK1:[SWEENEY.PATCH]PATCH.EXE;61 This is an OpenVMS IA64 (Elf format) executable image file Image name: PATCH Global Symbol Table name: PATCH Link Date/Time: 23-SEP-2004 10:22:07.04 Manipulation Date/Time: Never Link flags state: Original Link Flags ------------------ CALL_DEBUG IMGSTA MAIN TBK_IN_IMG DBG_IN_IMG $ DEFINE PATCH WORK1:[SWEENEY.PATCH]PATCH.EXE;61 $ PATCH X.LIS OpenVMS Integrity servers Debug64 Version 8.2 %DEBUG-I-INITIAL, Language: BLISS, Module: PATMAIN DBG>Exit $ SET IMAGE/FLAGS=NOCALL_DEBUG PATCH.EXE $ PATCH X.LIS OpenVMS PATCH Version 8.2 %PATCH-I-NOGBL, some or all global symbols not accessible %PATCH-I-NOLCL, image does not contain local symbols PATCH> This example demonstrates how to modify an image to stop the debugger from being called when the image is initiated. The image PATCH.EXE was linked with debugging enabled. The SET IMAGE /FLAGS=NOCALL_DEBUG command allows the debugger to be bypassed when the image is run.
22 – KEY
Sets and locks the key definition state for keys defined with the DEFINE/KEY command. Format SET KEY
22.1 – Qualifiers
22.1.1 /LOG
/LOG (default) /NOLOG Controls whether the system displays a message indicating that the key state has been set.
22.1.2 /STATE
/STATE=state-name /NOSTATE Specifies the name of the state. The state name can be any alphanumeric string. If you omit the /STATE qualifier or use the /NOSTATE qualifier, the current state is left unchanged. The default state is DEFAULT.
22.2 – Example
$ SET KEY /STATE=EDITING The SET KEY command in this example sets the key state to the state EDITING. You can now use the key definitions that were defined for the state EDITING.
23 – LOGINS
Sets the interactive limit (number of interactive users allowed on the system), or displays the interactive limit and the current number of interactive users. Requires OPER (operator) privilege to set the login limit. Format SET LOGINS
23.1 – Qualifier
23.1.1 /INTERACTIVE
/INTERACTIVE[=n] Establishes the number of interactive users allowed to gain access to the system. If the parameter n is specified, the interactive limit is set to the value n. If the parameter n is not specified, the SET LOGINS command displays the current interactive limit and the number of interactive users.
23.2 – Examples
1.$ SET LOGINS/INTERACTIVE=5 %SET-I-INTSET, login interactive limit=5, current interactive value=3 In this example, the SET LOGINS command specifies that only five interactive users can be logged in to the system. 2.$ SET LOGINS/INTERACTIVE %SET-I-INTSET, login interactive limit=9, current interactive value=6 When the SET LOGINS command is entered without a parameter, as shown in this example, the /INTERACTIVE qualifier requests that the current status of the login quotas be displayed. The message returned indicates that the maximum number of interactive users allowed on the system is 9 and that the number of interactive users currently logged in is 6. No change is made.
24 – MAGTAPE
Defines the default characteristics associated with a specific magnetic tape device for subsequent file operations. The SET MAGTAPE command is valid for magnetic tape devices mounted with foreign volumes. Format SET MAGTAPE device-name[:]
24.1 – Parameter
device-name[:] Specifies the name of the magnetic tape device for which the characteristics are to be set. The device must not be currently allocated to any other user.
24.2 – Qualifiers
24.2.1 /DENSITY
/DENSITY=density-value Specifies the default density for all write operations on the magnetic tape device when the volume is mounted as a foreign tape or as an unlabeled tape. Valid density values are: Keyword Meaning DEFAULT Default density 800 NRZI 800 bits per inch (BPI) 1600 PE 1600 BPI 6250 GRC 6250 BPI 3480 IBM 3480 HPC 39872 BPI 3490E IBM 3480 compressed 833 DLT TK50: 833 BPI TK50 DLT TK50: 833 BPI TK70 DLT TK70: 1250 BPI 6250 RV80 6250 BPI EQUIVALENT NOTE: Only the keywords above are understood by TMSCP/TUDRIVER code prior to OpenVMS Version 7.2. The remaining keywords in this table are supported only on Alpha and Integrity server systems. TK85 DLT Tx85: 10625 BPI - Cmpt III - Alpha/Integrity servers only TK86 DLT Tx86: 10626 BPI - Cmpt III - Alpha/Integrity servers only TK87 DLT Tx87: 62500 BPI - Cmpt III - Alpha/Integrity servers only TK88 DLT Tx88: (Quantum 4000) - Cmpt IV - Alpha/Integrity servers only TK89 DLT Tx89: (Quantum 7000) - Cmpt IV - Alpha/Integrity servers only QIC All QIC drives are drive-settable only - Alpha/Integrity servers only 8200 Exa-Byte 8200 - Alpha/Integrity servers only 8500 Exa-Byte 8500 - Alpha/Integrity servers only DDS1 Digital Data Storage 1 - 2G - Alpha/Integrity servers only DDS2 Digital Data Storage 2 - 4G - Alpha/Integrity servers only DDS3 Digital Data Storage 3 - 8-10G - Alpha/Integrity servers only DDS4 Digital Data Storage 4 - Alpha/Integrity servers only AIT1 Sony Advanced Intelligent Tape 1 - Alpha/Integrity servers only AIT2 Sony Advanced Intelligent Tape 2 - Alpha/Integrity servers only AIT3 Sony Advanced Intelligent Tape 3 - Alpha/Integrity servers only AIT4 Sony Advanced Intelligent Tape 4 - Alpha/Integrity servers only DLT8000 DLT 8000 - Alpha/Integrity servers only 8900 Exabyte 8900 - Alpha/Integrity servers only SDLT SuperDLT1 - Alpha/Integrity servers only SDLT320 SuperDLT320 - Alpha/Integrity servers only Note that tape density keywords cannot be abbreviated.
24.2.2 /END_OF_FILE
Writes a tape mark at the current position on the magnetic tape volume.
24.2.3 /FAST_SKIP
/FAST_SKIP=option Requires PHY_IO privilege. Allows you to skip by file mark or by record. NOTE This tape positioning qualifier is for use on local SCSI tape drives only. PER_IO Allows a local MK device to use the skip-by- (default) filemarks function. The tape drive must be able to do a SCSI READ POSITION command and report blank check at end-of-data. The IO$M_ALLOWFAST function modifier must be supplied with IO$_ SKIPFILE. Otherwise, the tape will skip files using the skip-by-records function. ALWAYS Allows a local MK device to use the skip-by- filemarks function. The tape drive must be able to support the skip-by-filemarks function, and no modifications should be needed to the IO$_ SKIPFILE function. NEVER Specifies that a local MK device skip only by records. If you use a utility that depends on the semantics of skipping with skip-records, you may also need to use this option because it causes BACKUP or COPY to use the previous positioning.
24.2.4 /LOG
/LOG /NOLOG Displays information about the operations performed on the magnetic tape volume.
24.2.5 /LOGSOFT
/LOGSOFT (default) /NOLOGSOFT Controls whether soft errors on the specified device are to be logged in the error log file. Soft errors are errors corrected by the hardware without software intervention. This qualifier affects only devices that support hardware error correction, such as the TU78 magnetic tape drive. When used with other devices, this qualifier has no effect.
24.2.6 /MEDIA_FORMAT
/MEDIA_FORMAT=[NO]COMPACTION Controls whether data records are automatically compacted and blocked together on a TA90E tape drive. Data compaction and record blocking increase the amount of data that can be stored on a single tape cartridge. Note that once data compaction or noncompaction has been selected for a given cartridge, that same status applies to the entire cartridge.
24.2.7 /RETENSION
Moves a TZK10 tape cartridge to the end of the tape, and then back to the beginning of the tape. Use the /RETENSION qualifier on a regular basis to help maintain the integrity of TZK10 tape cartridges. The /RETENSION qualifier must be used in conjunction with the /REWIND or /UNLOAD qualifier. The /RETENSION qualifier completes its action before /REWIND or /UNLOAD. Use /RETENSION/REWIND when you want the tape cartridge to remain loaded in the drive. Use /RETENSION/UNLOAD when you want to unload the tape cartridge after the retension operation. This qualifier only affects TZK10 tape cartridge drives and has no effect on non-SCSI drives.
24.2.8 /REWIND
Requests that the volume on the specified device be rewound to the beginning of the magnetic tape.
24.2.9 /SKIP
/SKIP=option Requests that the magnetic tape volume be positioned according to any of the following options: BLOCK:n Skips the specified number of blocks. END_OF_TAPE Positions the volume at the end-of-tape (EOT) mark. FILES:n Skips the specified number of tape marks (not files). The tape is positioned just past the nth tape mark. If n is negative, the tape is still positioned after the nth tape mark, not before it. If the tape is already positioned immediately after a tape mark, a skip of -1 results in no net movement. (The tape moves to the preceding mark, but is then repositioned to the end of the mark, where it began.) For more information on tape marks and files, see the VSI OpenVMS System Manager's Manual. RECORD:n Skips the specified number of records up to 32767.
24.2.10 /UNLOAD
Requests that the volume on the specified device be rewound and unloaded.
24.3 – Examples
1.$ MOUNT MTB1:/FOREIGN $ SET MAGTAPE MTB1: /DENSITY=800 The MOUNT command in this example mounts a foreign tape on the device MTB1. The SET MAGTAPE command defines the density for writing the magnetic tape at 800 bpi. 2.$ MOUNT MTA0:/FOREIGN $ SET MAGTAPE MTA0:/SKIP=FILES:4 The MOUNT command in this example mounts a foreign tape on the device MTA0; the SET MAGTAPE command directs the magnetic tape position to skip four files.
25 – MESSAGE
Sets the format for system messages or specifies a process level message file. Lets you override or supplement the system messages. Format SET MESSAGE [filespec]
25.1 – Parameter
filespec Specifies the name of the process level message file. Messages in this file supersede messages for the same conditions in the system message file or in an existing process message file. The file type defaults to .EXE. The asterisk (*) and the percent sign (%) wildcard characters are not allowed. If you do not specify this parameter, the qualifiers apply to the system message file.
25.2 – Qualifiers
25.2.1 /DELETE
Removes any process-permanent message files currently in effect. Do not specify the filespec parameter with the /DELETE qualifier.
25.2.2 /FACILITY
/FACILITY (default) /NOFACILITY Formats messages so that the facility name prefix appears.
25.2.3 /IDENTIFICATION
/IDENTIFICATION (default) /NOIDENTIFICATION Formats messages so that the message identification prefix appears.
25.2.4 /SEVERITY
/SEVERITY (default) /NOSEVERITY Formats messages so that the severity level appears.
25.2.5 /TEXT
/TEXT (default) /NOTEXT Formats messages so that the message text appears.
25.3 – Examples
1.$ TYPE XXX %TYPE-W-OPENIN, error opening DB1:[MARSHALL]XXX.LIS; as input -RMS-E-FNF, file not found . . . $ SET MESSAGE/NOIDENTIFICATION . . . $ TYPE XXX %TYPE-W, error opening DB1:[MARSHALL]XXX.LIS; as input -RMS-E, file not found When the first TYPE command is entered in this example, the error messages include all fields. Later, the SET MESSAGE command establishes that the IDENT portion (the abbreviation for the message text) is omitted in future messages. 2.$ SET MESSAGE NEWMSG The SET MESSAGE command in this example specifies that the message text in NEWMSG.EXE supplements the existing system messages.
26 – NETWORK
Registers the attributes of a network service. Requires SYSNAM (system name) privilege. Format SET NETWORK network-service
26.1 – Parameter
network-service Specifies the name of a network service.
26.2 – Qualifiers
26.2.1 /ADDRESS
/ADDRESS=address[es] Specifies the network address of the local node.
26.2.2 /CONNECTIONS
/CONNECTIONS= Specifies a command to be executed to display the number of network connections.
26.2.3 /COUNTERS
/COUNTERS= Specifies a command to be executed to display the number of network counters.
26.2.4 /DATA
/DATA= Specifies a character string provided by the network service vendor.
26.2.5 /INTERFACE
/INTERFACE= Specifies the OpenVMS driver for the network service.
26.2.6 /MANUFACTURER
/MANUFACTURER= Specifies the manufacturer of the network service.
26.2.7 /NETWORK_TYPE
/NETWORK_TYPE= Specifies the protocol for the network service.
26.2.8 /NODE
/NODE= Specifies the name of the local node.
26.2.9 /PPPD_CALLOUT
/PPPD_CALLOUT=image-name Specifies the name of the protected shareable image activated by PPPD. This image contains the routine PPPD$OPEN_CONNECT, which notifies the network service that a new physical transport exists that supports PPP. If the image resides in the SYS$SHARE directory, enter the file name of the image without the suffix (such as, PPPD_CALLOUT instead of PPPD_CALLOUT.EXE); otherwise, enter the system logical that identifies the location of the image.
26.2.10 /REGISTER
Defines a new network service.
26.2.11 /REMOVE
Deletes a network service from the database.
26.2.12 /START
/START= Specifies an image to be executed when you issue the START/NETWORK command for the network service.
26.2.13 /STATUS
/STATUS= Specifies a command to be executed to display additional status information.
26.2.14 /STOP
/STOP= Specifies an image to be executed when you issue the STOP/NETWORK command for the network service.
26.2.15 /UPDATE
Allows you to modify the specified data for the network service.
26.3 – Examples
1.$ SET NETWORK DECnet - _$ /MANUFACTURER= "VMS Software, Inc." - _$ /NODE="GALENA" - _$ /ADDRESS="19.129" - _$ /NETWORK_TYPE="DNA V" - _$ /INTERFACE="net 0" - _$ /DATA="Router: No" - _$ /STATUS="mcr ncl show node 0 all" - _$ /CONNECTIONS="mcr ncl show node 0 session control port * all"- _$ /COUNTERS="mcr ncl show node 0 session control all counters"- _$ /START="@sys$startup:net$startup" - _$ /STOP="@sys$manager:net$shutdown" This command adds the network service DECnet-Plus (Phase V) to the database, with the specified characteristics. 2.$ SET NETWORK "TCP/IP" /REGISTER - _$ /MANUFACTURER="Hewlett-Packard Company" - _$ /NODE="ipv6.ucx.mars.univers.com" - _$ /ADDRESS="16.20.207.92" - _$ /NETWORK_TYPE="TCP/IP" - _$ /STATUS="TCPIP SHOW SERVICE" - _$ /CONNECTIONS="TCPIP SHOW DEVICE" - _$ /PPPD_CALLOUT="TCPIP$PPPD_CALLOUT" This command creates a new TCP/IP network service, adds it to the database, and enables the PPPD utility by supplying a logical name that identifies the location of the shareable image. 3.$ SET NETWORK DECnet - _$ /MANUFACTURER= "VMS Software, Inc." - _$ /NODE="EMARET" - _$ /ADDRESS="12.378" - _$ /NETWORK_TYPE="DNA IV" - _$ /INTERFACE="net 0" - _$ /STATUS="mcr ncp show exec characteristics" - _$ /CONNECTIONS="mcr ncp show known link" - _$ /COUNTERS="mcr ncp show exec count" - _$ /START="@sys$manager:startnet" - _$ /STOP="mcr ncp set executor state shut" This command adds the network service DECnet (Phase IV) to the database, with the specified characteristics.
27 – ON
Enables error checking by the command interpreter after the execution of each command in a command procedure. Specify SET NOON to disable error checking. Format SET [NO]ON
27.1 – Example
$ SET NOON $ DELETE *.SAV;* $ SET ON $ COPY *.OBJ *.SAV This command procedure routinely copies all object modules into new files with the file type .SAV. The DELETE command first deletes all existing files with the .SAV file type, if any. The SET NOON command ensures that the procedure continues executing even if there are no files with the .SAV file type in the current directory. Following the DELETE command, the SET ON command restores error checking. Then the COPY command makes copies of all existing files with .OBJ file type.
28 – OUTPUT_RATE
Sets the rate at which output is written to a batch job log file. For use only within command procedures that are submitted as batch or detached jobs. Format SET OUTPUT_RATE[=delta-time]
28.1 – Parameter
delta-time The time interval at which output is written from the output buffer to the batch job log file. If no delta time is specified, the information is written in the output buffer to the log file, but the output rate is not changed from the default of once per minute. Specify delta-time as [dddd-][hh:mm:ss.cc]. For more information on delta time, see the OpenVMS User's Manual or the online help topic Date.
28.2 – Example
$ SET OUTPUT_RATE=:0:30 . . . This command, when executed within a batch job, changes the default output rate from once a minute to once every 30 seconds.
29 – PASSWORD
Changes a password or system password. Also, can establish a secondary password or system password, or remove a secondary password. A user password can contain up to 32 alphanumeric and special characters. Unless your system manager has set the PWDMIX flag in your authorization account record, the only special characters permitted are the dollar sign ($) and underscore (_). Without the PWDMIX authorization, all lowercase characters are converted to uppercase before the password is encrypted. For example, "eagle" is the same as "EAGLE." If you have PWDMIX authorization, you can specify uppercase and lowercase alphabetic characters, and you can use any special characters in the printable character set. However, avoid using characters that have special significance for layered products that accept passwords. For example, a double quotation mark (") would be unacceptable in a password in a DECnet access control string. See the qualifier descriptions for restrictions. Format SET PASSWORD
29.1 – Qualifiers
29.1.1 /GENERATE
/GENERATE[=value] Generates a list of five random passwords. Press Return to repeat the procedure until a suitable password appears. Value is a number from 1 to 10 that restricts the length of the password. For any value n, the SET PASSWORD command generates passwords of from n to (n+2) characters long. If no value is specified, SET PASSWORD uses a default value of 6, and generates passwords from 6 to 8 characters long. Values greater than 10 are not accepted and produce errors. If your system manager has established a minimum password length for your account, SET PASSWORD/GENERATE=n compares that length with the optional value specified with the /GENERATE qualifier, and uses the larger of the two values. If you do not specify a value with the /GENERATE qualifier, the account minimum length is used. NOTE If the SET PASSWORD/GENERATE command fails to work properly, consult your system manager to be sure that either the file SYS$LIBRARY:VMS$PASSWORD_DICTIONARY.DATA exists, or the logical name VMS$PASSWORD_DICTIONARY is correctly defined.
29.1.2 /SECONDARY
Creates or allows you to replace a secondary password. The procedure is the same as setting your primary password. Once a secondary password has been established, you will receive two PASSWORD: prompts when logging in. The primary password should be typed in first, followed by the secondary password. Secondary passwords make it possible to set up an account that requires two different people to access it. Each person knows one of the two passwords, and both passwords are required to log in successfully. To remove your secondary password, press Return when SET PASSWORD/SECONDARY prompts you for a new password and verification. After you do this, you will receive a single PASSWORD: prompt when logging in. If you remove the secondary password, your system manager must restore it. The /SECONDARY and /SYSTEM qualifiers are incompatible.
29.1.3 /SYSTEM
Requires the SECURITY privilege. Changes the system password rather than a user password. A system password can be from 0 to 32 alphanumeric characters. The dollar sign ($) and underscore (_) are also permitted. Uppercase and lowercase characters are equivalent. All lowercase characters are converted to uppercase before the password is encrypted. A system password is valid only for the node it is set on. In an OpenVMS Cluster, each node can have a different system password. If a terminal line has the system password (SYSPWD) characteristic set, no terminal prompts are sent to that terminal until the system password is entered. The /SYSTEM and /SECONDARY qualifiers are incompatible. For more information about the use of system passwords, see the VSI OpenVMS Guide to System Security.
29.2 – Example
$ SET PASSWORD Old password: HONCHO New password: BIG_ENCHILADA Verification: BIG_ENCHILADA In response to the SET PASSWORD command, the system first prompts for the old password and then for the new password. The system then prompts again for the new password to verify it. The password changes if the user is authorized to change this account's password, if the old password is given correctly, and if the new password is given identically twice; otherwise, an error message appears and the password remains unchanged. In a real session, neither the old password nor the new password and its verification appear on the screen or paper.
30 – PREFERRED_PATH
Access to a MSCP/TMSCP class device may be available to an OpenVMS node from more than one host or storage controller. Use the SET PREFERRED_PATH command to specify a particular host or preferred path to access a specific MSCP class disk or TMSCP class tape device. If a preferred path is specified, the normal OpenVMS path selection process is modified to select the user-specified path over other available paths, assuming the user-specified path is available. This command is only meaningful for MSCP/TMSCP class devices that have more than one path available. Format SET PREFERRED_PATH device-name:
30.1 – Parameter
device-name: Specifies the name of a MSCP class disk or TMSCP class tape device.
30.2 – Qualifiers
30.2.1 /HOST
/HOST=host_name Tells the MSCP/TMSCP class driver that you want this host to be the preferred access path to the specified device. The class driver remembers this host name until it is changed by taking one of the following actions: o Issuing another SET PREFERRED_PATH command specifying a different host o Using the /NOHOST qualifier o Rebooting the system Note that simply specifying a preferred path does not mean that it is immediately selected if the disk or tape device is currently using another path. Use the /FORCE qualifier along with the /HOST qualifier to force the preferred path to be used immediately. The host_name is the name of the host that will be the preferred path to the disk or tape device.
30.2.2 /FORCE
Tells the class driver to initiate the path selection process immediately. If this qualifier is omitted when a new host name is specified, a switch from the current path to the new preferred path will not occur until some other event initiates the path selection process.
30.2.3 /NOHOST
Clears any previously defined preferred path assignment. Restores usual OpenVMS path selection behavior.
30.3 – Examples
1.$ SET PREFERRED_PATH $10$DUA10: /HOST=HSC014 Prior to issuing this command, the $10$DUA10: disk device has host HSC015 as its primary path and host HSC014 as its secondary path. Issuing this command selects host HSC014 as the preferred path. Note that the preferred path has been recorded by the class driver; however, the disk will remain on the current path (HSC015) until the next time the path selection process is initiated. 2.$ SET PREFERRED_PATH $10$DUA10: /HOST=HSC014 /FORCE To make the path change occur immediately, include the /FORCE qualifier on the command line with the preferred path specification. 3.$ SET PREFERRED_PATH $10$DUA10: /FORCE Issue this command to initiate path selection processing if the specified device has a primary path that differs from the preferred path. If the preferred path is available, the device moves to that path. 4.$ SET PREFERRED_PATH $10$DUA10: /NOHOST Remove the specified preferred path by using the /NOHOST qualifier if the device should no longer have a preferred path.
31 – PREFIX
Allows you to set a prefix control string for verified command lines. Format SET [NO]PREFIX string
31.1 – Parameter
string Specifies the FAO control string to be used in generating a prefix to a verified command line. The following rules apply: o No more than 64 characters are allowed in the control string. o The resulting string can be no longer than 64 characters. o Basic formatting FAO directives can be used ("!/", "!_", "!^", "!!", "!%F", and "!n*c"). o Time and date FAO directives can be used ("!%T" and "!%D"). o Repeat counts can be used ("!n(DD)"). o Output field length specifications can be used ("!lengthDD"). o Combination of repeat count and output field length can be used ("!n(lengthDD)"). o FAO directives that require arguments will always receive a value of zero.
31.2 – Example
$ SET VERIFY $ @TEST $ SET DEFAULT SYS$LOGIN $ SHOW DEFAULT USER$:[JENSEN] $ SET PREFIX "(!5%T) " $ @TEST (17:52) $ SET DEFAULT SYS$LOGIN (17:52) $ SHOW DEFAULT USER$:[JENSEN] This example demonstrates the difference between having and not having a prefix for verification. The first command turns on verification. (Verification must be turned on to see the prefix.) The second command invokes a test procedure to show what the output looks like without a prefix. The third and fourth lines reflect the contents of the test procedure invoked in the preceding command. The third command sets the prefix to an FAO control string so that the first five characters of the standard time will be shown for each command. The last command invokes the test procedure again to demonstrate what the output looks like with a prefix.
32 – PRINTER
Establishes the characteristics of a specific line printer. The default values listed for qualifiers to the SET PRINTER command are the defaults for an initially bootstrapped system. Requires OPER (operator) privilege. If the printer is a spooled device, LOG_IO (logical I/O) privilege is required to modify its characteristics. Format SET PRINTER printer-name[:]
32.1 – Parameter
printer-name[:] Specifies the name of a line printer to set or modify its characteristics.
32.2 – Qualifiers
32.2.1 /CR
/CR /NOCR (default) Controls whether the printer driver outputs a carriage return character. Use this qualifier for printers on which line feeds do not imply carriage returns. Specify the /NOCR qualifier for printers where the line feed, form feed, vertical feed, and carriage return characters empty the printer buffer. The /NOCR qualifier causes carriage return characters to be held back and output only if the next character is not a form feed or vertical tab. Carriage return characters are always output on devices that have the carriage return function characteristic set.
32.2.2 /FALLBACK
/FALLBACK /NOFALLBACK (default) Determines whether the printer attempts to translate characters belonging to the DEC Multinational character set into 7-bit equivalent representations. If a character cannot be translated, an underscore (_) character is substituted. If the /PASSALL qualifier is in effect, it has precedence over the /FALLBACK qualifier.
32.2.3 /FF
/FF (default) /NOFF Indicates whether the printer performs a mechanical form feed. Use the /NOFF qualifier when the printer does not automatically perform mechanical form feeds. This qualifier allows the driver to convert form feeds into multiple line feeds and to output them.
32.2.4 /LA11
Specifies the printer as an LA11. This qualifier provides information for the SHOW PRINTER command, which, in turn, provides the user with information about specific printers. If no printer type is specified, LP11 is assumed.
32.2.5 /LA180
Specifies the printer as an LA180. This qualifier provides information for the SHOW PRINTER command, which, in turn, provides the user with information about specific printers. If no printer type is specified, LP11 is assumed.
32.2.6 /LOG
/LOG /NOLOG (default) Determines whether information confirming the printer setting is displayed at the terminal from which the SET PRINTER command was entered.
32.2.7 /LOWERCASE
/LOWERCASE /NOLOWERCASE Indicates whether the printer prints both uppercase and lowercase letters or only uppercase. When the operator specifies the /NOLOWERCASE qualifier, all letters are translated to uppercase. The /[NO]LOWERCASE and /[NO]UPPERCASE qualifiers are complementary; that is, the /LOWERCASE qualifier is equivalent to the /NOUPPERCASE qualifier, and the /NOLOWERCASE qualifier is equivalent to the /UPPERCASE qualifier.
32.2.8 /LP11
/LP11 (default) Specifies the printer as an LP11. This qualifier provides information for the SHOW PRINTER command, which, in turn, provides the user with information about specific printers. LP11 is the default printer type.
32.2.9 /PAGE
/PAGE=lines-per-page Establishes the number of lines per page on the currently installed form; the number of lines can range from 1 to 255 and defaults to 64. The printer driver uses this value to determine the number of line feeds that must be entered to simulate a form feed.
32.2.10 /PASSALL
/PASSALL /NOPASSALL (default) Controls whether the system interprets special characters or passes them as 8-bit binary data. If you specify the /PASSALL qualifier, the printer driver does not expand tab characters to spaces, fill carriage return or line feed characters, or recognize control characters.
32.2.11 /POLLED
/POLLED /NOPOLLED (default) Instructs the LRDRIVER to run in polled mode instead of interrupt mode. In polled mode, the printer is checked on a regular basis to determine if it is ready to receive additional data. The polling timer runs only while there is more data to be sent to the printer.
32.2.12 /PRINTALL
/PRINTALL /NOPRINTALL (default) Controls whether the line printer driver outputs printable 8-bit multinational characters.
32.2.13 /RESET
Resets the USB pipe associated with the USB printer, thereby canceling all print jobs.
32.2.14 /TAB
/TAB /NOTAB (default) Controls how the printer handles TAB characters. The /NOTAB qualifier expands all tab characters to spaces and assumes tab stops at 8-character intervals. Use the /TAB qualifier when you do not want the system to convert tabs to spaces, but want the printer to process the tab characters. The OpenVMS system requires that printers expand tabs at 8-character intervals.
32.2.15 /TRUNCATE
/TRUNCATE (default) /NOTRUNCATE Controls whether the printer truncates data exceeding the value specified by the /WIDTH qualifier. Note that the /TRUNCATE and /WRAP qualifiers are incompatible.
32.2.16 /UNKNOWN
Specifies the printer as nonstandard. This qualifier provides information for the SHOW PRINTER command, which, in turn, provides the user with information about specific printers. If no printer type qualifier is specified, LP11 is assumed.
32.2.17 /UPPERCASE
/UPPERCASE /NOUPPERCASE Indicates whether the printer prints both uppercase and lowercase letters or only uppercase ones. When you specify the /UPPERCASE qualifier, all letters are translated to uppercase. The /[NO]UPPERCASE and /[NO]LOWERCASE qualifiers are complementary; that is, the /UPPERCASE qualifier is equivalent to the /NOLOWERCASE qualifier, and the /NOUPPERCASE qualifier is equivalent to the /LOWERCASE qualifier.
32.2.18 /WIDTH
/WIDTH=n Establishes the number of characters per output line on currently installed forms. The width, n, can range from 0 to 65535 for LP11 controllers, and from 0 to 255 for DMF32 controllers. The default value is 132 characters per line.
32.2.19 /WRAP
/WRAP /NOWRAP (default) Controls whether the printer generates a carriage return and a line feed when it reaches the end of a line. If the /NOWRAP qualifier is specified, the printer writes characters out in the last position on the line. If the /WRAP qualifier is specified, the terminal generates a carriage return and a line feed whenever the end of a line is reached. Note that the /TRUNCATE and /WRAP qualifiers are incompatible.
32.3 – Examples
1.$ SET PRINTER/PAGE=60/WIDTH=80 LPA0: The SET PRINTER command in this example establishes the size of an output page as 60 lines and the width of a line as 80 characters for printer LPA0. 2.$ SET PRINTER/LA11 LPB0: The SET PRINTER command in this example establishes the line printer LPB0 as an LA11 printer. 3.$ SET PRINTER/LOWERCASE LPA0: The SET PRINTER command in this example requests that lowercase printing be enabled on line printer LPA0.
33 – PROCESS
Changes the execution characteristics associated with the specified process or kernel thread for the current terminal session or job. If no process is specified, changes are made to the current process. Requires GROUP privilege to change other processes in the same group. Requires WORLD privilege to change processes outside your group. Format SET PROCESS [process-name]
33.1 – Parameter
process-name Requires that you own the process or that you have GROUP privilege and that the process is in your group. Specifies the name of the process for which the characteristics are to be changed. Process names can be up to 23 alphanumeric characters long in the following format: [node-name::]process-name o The node name can have as many as 6 alphanumeric characters. o The colons (:) count for 2 characters. o The process name can have as many as 15 characters. A local process name can look like a remote process name; therefore, if you specify ATHENS::SMITH, the system checks for a process named ATHENS::SMITH on the local node before checking node ATHENS for a process named SMITH. The default process is the current process. Process names are unique only within a particular UIC group. You cannot specify the process name for a process outside of your group. To change the characteristics of a process outside of your group, you must use the qualifier /IDENTIFICATION=pid. The process name parameter is ignored. If you include neither the process name nor the /IDENTIFICATION qualifier, the current process is assumed.
33.2 – Qualifiers
33.2.1 /AFFINITY
/AFFINITY (Alpha/Integrity servers only) /NOAFFINITY Allows bits in the kernel thread affinity mask to be set or cleared individually, in groups, or all at once. This qualifier is mutually exclusive with the /CAPABILITY qualifier. NOTE The SET PROCESS/[NO]AFFINITY command fails if none of the specified CPUs has the capabilities required by the process. The /NOAFFINITY qualifier clears all affinity bits currently set in the current or permanent affinity masks, based on the setting of the /PERMANENT qualifier. Specifying the /AFFINITY qualifier has no direct effect, but merely indicates the target of the operations specified by the following secondary parameters: /SET=(n[,..Sets affinity for currently active CPUs defined by the CPU IDs n, where n has the range of 0 to 63. /CLEAR=(n[,Clears affinity for currently active CPUs defined by the position values n, where n has the range of 0 to 63. /PERMANENT Performs the operation on the permanent affinity mask as well as the current affinity mask, making the changes valid for the life of the kernel thread. (The default behavior is to affect only the affinity mask for the running image.) The secondary qualifiers can all be used at once as long as the affinity bits defined in the /SET and /CLEAR parameters do not overlap. The privileges required to execute the SET PROCESS/AFFINITY command match those required by the $PROCESS_AFFINITY system service. ALTPRI is the base privilege required to make any modifications, and the only privilege required to modify the current owner's kernel thread. Modifications within the same UIC group require GROUP privilege. Modifications to any unrelated kernel thread require WORLD privilege. As with the other SET PROCESS qualifiers, the bit operations occur on the current process if no /IDENTIFICATION qualifier or explicit process name parameter is specified. Specifying a process name does not imply that all kernel threads associated with the process are affected; the SET PROCESS command affects only the initial kernel thread of a multithreaded process.
33.2.2 /AUTO_UNSHELVE
/AUTO_UNSHELVE /NOAUTO_UNSHELVE Controls whether the process automatically unshelves files. Note that the /NOAUTO_UNSHELVE qualifier does not work across a cluster. It can be issued only for a process on the same node, including as the default case, the process from which the command is issued.
33.2.3 /CAPABILITY
/CAPABILITY /NOCAPABILITY Allows bits in the process user capability mask to be set or cleared individually, in groups, or all at once. This qualifier is mutually exclusive with the /AFFINITY qualifier. NOTE The SET PROCESS/[NO]CAPABILITY command fails if there is no CPU with the required set of capabilities. The /NOCAPABILITY qualifier clears all user capability bits currently set in the current or permanent capability masks, based on the setting of the /PERMANENT qualifier. Specifying the /CAPABILITY qualifier has no direct effect, but merely indicates the target of the operations specified by the following secondary qualifiers: /SET=(n[,..Sets all user capabilities defined by the position values n, where n has the range of 1 to 16. /CLEAR=(n[,Clears all user capabilities defined by the position values n, where n has the range of 1 to 16. /PERMANENT Performs the operation on the permanent user capability mask as well as the current user capability mask, making the changes valid for the life of the kernel thread. (The default behavior is to affect only the capabilities mask for the running image.) The secondary qualifiers can all be used at once as long as the user capability bits defined in the /SET and /CLEAR parameters do not overlap. The privileges required to execute the SET PROCESS/CAPABILITY command match those required by the $PROCESS_CAPABILITIES system service. ALTPRI is the base privilege required to make any modifications, and the only privilege required to modify the current owner's kernel thread. Modifications within the same UIC group require GROUP privilege. Modifications to any unrelated kernel thread require WORLD privilege. As with the other SET PROCESS qualifiers, the bit operations occur on the current process if no /IDENTIFICATION qualifier or explicit process name parameter is specified. Specifying a process name does not imply that all kernel threads associated with the process are affected; the SET PROCESS command affects only the initial kernel thread of a multithreaded process.
33.2.4 /CASE_LOOKUP
/CASE_LOOKUP=keyword The valid keywords for this qualifier are BLIND and SENSITIVE. VSI strongly recommends that you use caution when enabling case sensitivity in your processes. See the Guide to OpenVMS File Applications for additional information.
33.2.5 /CLEAR
/CLEAR=(n[,...]) Clears all user capabilities or CPU affinities defined by the position values n specified by the /CAPABILITY or the /AFFINITY qualifier.
33.2.6 /DUMP
/DUMP[=NOW] [/ID=pid] [process-name] /NODUMP (default) Causes the contents of the address space to be written to the file named (image-name).DMP in the current default directory (where the image name is the same as the file name) when an image terminates because of an unhandled error. To specify a target process, indicate either the process ID or the process name. Using the NOW option (available on Alpha and Integrity server systems only) causes the targeted process to dump as soon as possible. This is especially useful for hung processes. You can then analyze the dump with the ANALYZE/PROCESS_DUMP utility, the Debugger, or the System Dump Analyzer (SDA).
33.2.7 /GLOBAL
Modifies the global cell SCH$GL_DEFAULT_PROCESS_CAP. This global cell is used to initialize the user capability mask of processes when they are started.
33.2.8 /IDENTIFICATION
/IDENTIFICATION=pid Requires GROUP or WORLD privilege for processes other than your own. Specifies the process identification (PID) value of the kernel thread for which characteristics are to be changed. The target process must be on the same node as the process from which the command is issued. The /IDENTIFICATION qualifier overrides the process-name parameter. The PID is assigned by the system when the process is created. When you specify a PID, you can omit the leading zeros. If you use the /IDENTIFICATION qualifier, the process-name parameter is ignored. NOTE The /IDENTIFICATION qualifier allows the SET PROCESS command to affect individual kernel thread PIDs; because each thread is a separate runnable entity, this command treats them as discrete entities in terms of affinities and capabilities.
33.2.9 /KERNEL_THREAD_LIMIT
/KERNEL_THREAD_LIMIT=n Changes the limit of the number of kernel threads that can be created in the process. If the value specified is higher than the SYSGEN parameter MULTITHREAD, an error message is returned. Specifying the value 0 makes the process use the system-wide limit set by the MULTITHREAD parameter.
33.2.10 /NAME
/NAME=string Changes the name of the current process to a string of 1 to 15 characters.
33.2.11 /PARSE_STYLE
/PARSE_STYLE=(keyword) Allows a user to indicate how commands are to be parsed. Setting a particular parse style tells DCL how it should handle command syntax. User programs can also examine the state of this setting if they need to use different parse rules. The valid keywords for this qualifier are TRADITIONAL and EXTENDED. These keywords are mutually exclusive and cannot be negated. If the /PARSE_STYLE qualifier is not specified, the default is the TRADITIONAL format. Keyword Explanation TRADITIONAL Indicates that commands should be examined using the (default) former (prior to Version 7.2) rules for DCL syntax. EXTENDED Indicates that commands should be examined using a (Alpha/Integrity syntax that allows ODS-5 file specifications. servers only) The main differences for DCL when EXTENDED parse rules are in effect are: o Arguments to foreign commands are case preserved. You can get the command string by calling LIB$GET_FOREIGN. C/C++ programs that use the argc/argv mechanism will have unquoted arguments in lowercase unless the C Run-Time Library logical DECC$ARGV_PARSE_STYLE is set to ENABLE. When DECC$ARGV_PARSE_STYLE is enabled, case is preserved in command line arguments when the process is set up for extended DCL parsing using /PARSE_STYLE=EXTENDED. o Some characters that were previously treated as token delimiters are no longer delimiters. The pound sign (#), circumflex (^), and question mark (?) fall into this category. o A circumflex (^) is an escape character, which can be used to indicate that the next character in the command string is to be treated as if it were quoted, thereby losing its syntactic significance. EXTENDED parsing also modifies DCL's rules for parsing a parameter or qualifier that is defined as a file specification in a command's definition: o File specifications will not be in uppercase. o Any number of commas (,) may be placed between directory delimiters ([] and <>). o Directory file ID's (DIDs) can be included in the file specification. o Any number of periods (.) or semi-colons (;) may be included in the file specification. See the VSI OpenVMS System Manager's Manual, Volume 1: Essentials for more information.
33.2.12 /PERMANENT
Performs the operation on the permanent affinity or capability mask as well as the current mask, making the changes valid for the life of the kernel thread. (The default behavior is to affect the current mask only for the running image.) The /PERMANENT qualifier is only valid in conjunction with the /CAPABILITY or the /AFFINITY qualifier.
33.2.13 /PRIORITY
/PRIORITY=n Requires ALTPRI (alter priority) privilege to set the priority higher than the base priority of the specified process. Changes the priority for the specified kernel thread. If you do not have the ALTPRI privilege, the value you specify is compared to your current base priority, and the lower value is always used.
33.2.14 /PRIVILEGES
/PRIVILEGES=(privilege[,...]) Requires SETPRV (set privilege) privilege as an authorized privilege to enable any privilege you do not have in your authorized privilege mask. Enables the following process privileges: ACNT ALLSPOOL ALTPRI AUDIT BUGCHK BYPASS CMEXEC CMKRNL DETACH DIAGNOSE DOWNGRADE EXQUOTA GROUP GRPNAM GRPPRV IMPORT LOG_IO MOUNT NETMBX OPER PFNMAP PHY_IO PRMCEB PRMGBL PRMMBX PSWAPM READALL SECURITY SETPRV SHARE SHMEM SYSGBL SYSLCK SYSNAM SYSPRV TMPMBX UPGRADE VOLPRO WORLD Use the SHOW PROCESS/PRIVILEGES command to determine what authorized privileges are enabled currently.
33.2.15 /RAD
/RAD=HOME=n Changes the home resource affinity domain (RAD) of a process. This command only works on the current process. RAD is supported on AlphaServer GS series systems and starting from OpenVMS Version 8.4, support is extended to NUMA capable Integrity servers.
33.2.16 /RESOURCE_WAIT
/RESOURCE_WAIT /NORESOURCE_WAIT Enables resource wait mode so that the process waits for resources to become available. If you specify the /NORESOURCE_ WAIT qualifier, the process receives an error status code when system dynamic memory is not available or when the process exceeds one of the following resource quotas: direct I/O (DIOLM) limit, buffered I/O (BIOLM) limit, buffered I/O byte (BYTLM) count limit (buffer space), timer queue quota, mailbox buffer quota, or pipe quota. CAUTION Disabling resource waiting should be performed with caution, as doing so can have unexpected effects on constituent sharable images and runtime libraries. See the $SETRWM service in the VSI OpenVMS System Services Reference Manual for additional information.
33.2.17 /RESUME
Allows a process suspended by a previous SET PROCESS/SUSPEND command to resume operation. The /RESUME qualifier is equivalent to the /NOSUSPEND qualifier.
33.2.18 /SCHEDULING_CLASS
/SCHEDULING_CLASS="class_name" /NOSCHEDULING_CLASS Adds a process to, or removes a process from, a scheduling class. This command does not modify the permanent class scheduling database file. Therefore, the effect of this command can be viewed as temporary placement into, or removal from, a scheduling class.
33.2.19 /SET
/SET=(n[,...]) Sets all user capabilities or CPU affinities defined by the position values n specified by the /CAPABILITY or the /AFFINITY qualifier.
33.2.20 /SSLOG
/SSLOG=(STATE={ON | OFF | UNLOAD} [,COUNT=n] [,FLAGS=[NO]ARG]) Valid on Alpha and Integrity server systems only. Requires CMEXEC, CMKRNL, or SETPRV privilege to log argument values. The SYSGEN parameter SYSSER_LOGGING must be enabled or the command will fail. Enables or disables system service logging, using a log file (named SSLOG.DAT by default) to log data. Keywords are as follows: Keyword Explanation COUNT=n Specifies how many P2-space buffers to log. (Default: 2) FLAGS=[NO]ARG Specifies whether service argument values are to be logged. (Default: ARG) ARG requires CMEXEC, CMKRNL, or SETPRV privilege. STATE=state Turns system service logging on or off. Possible states are: ON Enables system service logging. OFF Disables (turns off) system service logging; logging can still be reenabled. UNLOAD Stops logging and closes the log file, which is named SSLOG.DAT by default. When enabling SSLOG for a process, you can specify the number of buffers to be used for logging. Buffers are allocated in P2 space and are charged against the process's paging file quota. Each buffer is 65,024(10) bytes or FE00(16) bytes. The buffer space remains allocated and the quota is charged until the process is deleted. Between the time when SSLOG is first enabled and when the log file is closed, logging can be stopped and resumed. Before you delete the process, you should stop all logging and close the log file. The log file does not close automatically. To analyze the log file, use the DCL command ANALYZE/SSLOG, which is described in online help and in the System Service Logging chapter of the VSI OpenVMS System Analysis Tools Manual.
33.2.21 /SUSPEND
/SUSPEND[=SUPERVISOR] /SUSPEND=KERNEL /NOSUSPEND Requires privileges as described in text. Temporarily stops the process's activities. The process remains suspended until another process resumes or deletes it. Use the qualifiers /NOSUSPEND and /RESUME to resume a suspended process. Specify either of the following keywords with the /SUSPEND qualifier to produce different results: Keyword Explanation SUPERVISOR Specifies that the named process is to be suspended (default) to allow the delivery of asynchronous system traps (ASTs) at EXEC or KERNEL mode. Specifying this keyword is optional. KERNEL Specifies that the named process is to be suspended such that no ASTs can be delivered. To specify the KERNEL keyword, you must be in either KERNEL mode or EXEC mode, or have CMKRNL (change mode to kernel) and CMEXEC (change mode to executive) privilege enabled. Note that this was the default behavior of the SET PROCESS/SUSPEND command for versions of OpenVMS prior to VMS Version 5.0. Depending on the operation, the process from which you specify the /SUSPEND qualifier requires privileges. You must have GROUP privilege to suspend another process in the same group, unless that process has the same user identification code (UIC). You must have WORLD privilege to suspend any other process in the system. When you enter the SET PROCESS/SUSPEND=KERNEL/ID= command in a cluster environment, the KERNEL keyword is ignored if the target process and the current process reside on different cluster nodes. As a result, process suspension is handled as if you had specified the SUPERVISOR keyword (the default). Note that you can specify SET PROCESS/SUSPEND=KERNEL to override a previous SET PROCESS/SUSPEND=SUPERVISOR. SET PROCESS/SUSPEND=SUPERVISOR does not, however, override SET PROCESS/SUSPEND=KERNEL.
33.2.22 /SWAPPING
/SWAPPING (default) /NOSWAPPING Requires the PSWAPM (process swap) privilege to disable swapping for your process. Permits the process to be swapped. By default, a process that is not currently executing can be removed from physical memory so that other processes can execute. If you specify the /NOSWAPPING qualifier, the process is not swapped out of the balance set when it is in a wait state.
33.2.23 /SYMLINK
/SYMLINK=keyword Controls the behavior of all directory wildcard searches performed by the RMS $SEARCH service. DCL commands (such as COPY, SUBMIT, SET FILE, and so on) internally resolve directory wildcard arguments using the RMS $SEARCH service. Keyword options are: Keyword Explanation NOWILDCARD Indicates that symlinks are not followed during directory wildcard searches. WILDCARD Indicates that symlinks are followed, that is, target files are included during wildcard searches. NOELLIPSIS Indicates that symlinks are followed, that is, target files are included for all wildcard fields except for ellipsis. ELLIPSIS Equivalent to WILDCARD (included for command symmetry).
33.2.24 /TOKEN
/TOKEN=keyword Changes the maximum size of tokens (elements) in a DCL command. (A token is any element in a command line that is bounded by spaces. For example, the command COPY X.TXT Y.TXT contains three tokens.) The token size is determined by the setting of bit 1 in the DCL_CTLFLAGS system parameter. By default, the bit is clear, indicating that traditional tokens (255 bytes) are being used. If the bit is set, extended tokens (4000 bytes) are used. The corresponding keywords for /TOKEN are TRADITIONAL and EXTENDED. You can use SHOW PROCESS/TOKEN to determine the current token size setting.
33.2.25 /UNITS
/UNITS[=keyword] Specifies whether the amount of disk space reported by certain utilities is to be displayed in blocks or bytes. Keyword options are: Keyword Explanation BLOCKS Displays disk space in blocks. BYTES Displays disk space in bytes. Blocks is the default until /UNITS is set to BYTES. If you specify /UNITS with no keyword, disk space is reported in blocks. Displays that are affected by changing the value of /UNITS include output from certain forms of the following commands: COPY, DELETE, DIRECTORY, PURGE, SHOW DEVICE, SHOW MEMORY, and SHOW QUOTA. Note that input to these commands can be specified only in blocks. The DIRECTORY, SHOW DEVICES, and SHOW MEMORY commands have a qualifier that lets you override the default SET PROCESS/UNITS setting for a single command.
33.3 – Examples
1.$ SET PROCESS/PRIVILEGE=EXQUOTA The SET PROCESS command in this example assigns the current process the privilege of exceeding quotas. 2.$ SET PROCESS/NORESOURCE_WAIT The SET PROCESS command in this example disables resource wait mode for the current process. 3.$ RUN/PROCESS_NAME=TESTER CALC %RUN-S-PROC_ID, identification of created process is 0005002F $ SET PROCESS/PRIORITY=10 TESTER The RUN command in this example creates a subprocess and gives it the name TESTER. Subsequently, the SET PROCESS/PRIORITY command assigns the subprocess a priority of 10. 4.$ SHOW PROCESS/SUBPROCESS 19-APR-2001 15:17:28.41 User: DAVIS Process ID: 31900218 Node: OCALA Process name: "DAVIS" Processes in this tree: DAVIS * DAVIS_1 DAVIS_2 $ SET PROCESS/SUSPEND DAVIS_1 $ The SET PROCESS/SUSPEND command in this example suspends the process DAVIS_1 such that ASTs can be delivered to it. Because no keyword was specified, the /SUSPEND=SUPERVISOR version is assumed. 5.$ SHOW PROCESS/SUBPROCESS OCALA::TESTA 19-APR-2001 12:17:24.45 User: TESTA Process ID: 31400208 Node: OCALA Process name: "TESTA" Processes in this tree: TESTA * TESTA_1 TESTA_2 $ SET PROCESS OCALA::TESTA_2 /SUSPEND=KERNEL $ The SET PROCESS/SUSPEND=KERNEL command in this example suspends the process TESTA_2 on node OCALA such that no ASTs can be delivered to it. 6.$ SET PROCESS CPUSCHED/AFFINITY/SET=1/PERMANENT $ SET PROCESS CPUSCHED/CAPABILITY/SET=8/PERMANENT $ SHOW CPU/FULL COBRA7, a DEC 4000 Model 620 Multiprocessing is ENABLED. Streamlined synchronization image loaded. Minimum multiprocessing revision levels: CPU = 1 System Page Size = 8192 System Revision Code = System Serial Number = Default CPU Capabilities: System: QUORUM RUN Default Process Capabilities: System: QUORUM RUN PRIMARY CPU = 00 CPU 00 is in RUN state Current Process: *** None *** Serial Number: AY24870417 Revision: A200 VAX floating point operations supported. IEEE floating point operations and data types supported. Processor is Primary Eligible. PALCODE: Revision Code = 5.48 PALcode Compatibility = 0 Maximum Shared Processors = 2 Memory Space: Physical address = 00000000 00000000 Length = 0 Scratch Space: Physical address = 00000000 00000000 Length = 0 Capabilities of this CPU: System: PRIMARY QUORUM RUN User bitmask: 00000040 Processes which can only execute on this CPU: NETACP PID = 0000008E Reason: PRIMARY Capability CPU 01 is in RUN state Current Process: CPUSCHED PID = 00000095 Serial Number: AY24870406 Revision: A200 VAX floating point operations supported. IEEE floating point operations and data types supported. PALCODE: Revision Code = 5.48 PALcode Compatibility = 0 Maximum Shared Processors = 2 Memory Space: Physical address = 00000000 00000000 Length = 0 Scratch Space: Physical address = 00000000 00000000 Length = 0 Capabilities of this CPU: System: QUORUM RUN User bitmask: 00000080 Processes which can only execute on this CPU: CPUSCHED PID = 00000095 Reason: Affinitized to this CPU Reason: User capabilities - 00000080) $ SET PROCESS/NOAFFINITY/PERMANENT $ SET PROCESS/NOCAPABILITY/PERMANENT $ SHOW CPU/FULL COBRA7, a DEC 4000 Model 620 Multiprocessing is ENABLED. Streamlined synchronization image loaded. Minimum multiprocessing revision levels: CPU = 1 System Page Size = 8192 System Revision Code = System Serial Number = Default CPU Capabilities: System: QUORUM RUN Default Process Capabilities: System: QUORUM RUN CPU 00 is in RUN state Current Process: *** None *** Serial Number: AY24870417 Revision: A200 VAX floating point operations supported. IEEE floating point operations and data types supported. Processor is Primary Eligible. PALCODE: Revision Code = 5.48 PALcode Compatibility = 0 Maximum Shared Processors = 2 Memory Space: Physical address = 00000000 00000000 Length = 0 Scratch Space: Physical address = 00000000 00000000 Length = 0 Capabilities of this CPU: System: PRIMARY QUORUM RUN User bitmask: 00000040 Processes which can only execute on this CPU: NETACP PID = 0000008E Reason: PRIMARY Capability CPU 01 is in RUN state Current Process: CPUSCHED PID = 00000095 Serial Number: AY24870406 Revision: A200 VAX floating point operations supported. IEEE floating point operations and data types supported. PALCODE: Revision Code = 5.48 PALcode Compatibility = 0 Maximum Shared Processors = 2 Memory Space: Physical address = 00000000 00000000 Length = 0 Scratch Space: Physical address = 00000000 00000000 Length = 0 Capabilities of this CPU: System: QUORUM RUN User bitmask: 00000080 Processes which can only execute on this CPU: *** None *** $ SET PROCESS/NOAFFINITY/PERMANENT $ SET PROCESS/NOCAPABILITY/PERMANENT $ SHOW CPU/FULL System: EUROS, VSI rx2600 (900MHz/1.5MB) SMP execlet = 3 : Enabled : Streamlined. Config tree = Version 6 Primary CPU = 0 HWRPB CPUs = 2 Page Size = 8192 Revision Code = Serial Number = US30464615 Default CPU Capabilities: System: QUORUM RUN Default Process Capabilities: System: QUORUM RUN CPU 0 State: RUN CPUDB: 8901C000 Handle: 00005D70 Owner: 000004C8 Current: 000004C8 Partition 0 (EUROS) ChgCnt: 1 State: Present, Primary, Reassignable Process: * None * Capabilities: System: PRIMARY QUORUM RUN RAD0 User: Usr2 Slot Context: 901EB000 CPU - State..........: RC, PA, PP, CV, PV, PMV, PL Type...........: Itanium Major = 31, Minor = 0 Speed..........: 900 Mhz LID............: 00000000 Variation......: IEEE FP, Primary Eligible Serial Number..: 0001a968930a1a25 Revision.......: Halt Request...: 0 Software Comp..: 7.0 PALCODE - Revision Code..: 1.1 Compatibility..: 0 Max Shared CPUs: 0 Bindings: * None * Fastpath: FGB0 PKA0 PEA0 EIA0 Features: Autostart - Enabled. Fastpath - Selection enabled as Preferred CPU. CPU 1 State: RUN CPUDB: 89163480 Handle: 00005E80 Owner: 000004C8 Current: 000004C8 Partition 0 (EUROS) ChgCnt: 1 State: Present, Reassignable Process: TEST11 PID: 20201192 Capabilities: System: QUORUM RUN RAD0 Slot Context: 901EC000 CPU - State..........: RC, PA, PP, CV, PV, PMV, PL Type...........: Itanium Major = 31, Minor = 0 Speed..........: 900 Mhz LID............: 01000000 Variation......: IEEE FP Serial Number..: 000363b4b0c5c862 Revision.......: Halt Request...: 0 Software Comp..: 7.0 PALCODE - Revision Code..: 1.1 Compatibility..: 0 Max Shared CPUs: 0 Bindings: TEST11 PID = 20201192 Reason: Affinitized to this CPU Fastpath: FGA0 EWA0 PKB0 BG0 Features: Autostart - Enabled. Fastpath - Selection enabled as Preferred CPU. $ In this example, CPU 1 has user capability 8 enabled (user mask of process CPUSCHED, and CPU affinity is set to 1. Either of these settings forces the initial kernel thread to run only on CPU 1, as shown by the SHOW PROCESS command. Then, the SET PROCESS/NOAFFINITY/NOCAPABILITY command clears all CPU affinities and user capability requirements for the initial kernel thread of process (CPUSCHED), and the binding to CPU 1 disappears. 7.$ SET PROCESS/SSLOG=(STATE=ON,COUNT=4) This command turns on system service logging with four P2 space buffers, each having a size of FE00(16) bytes. If the process has SETPRV, CMKRNL, or CMEXEC privilege, argument values are logged. 8.$ SET PROCESS/SSLOG=(STATE=UNLOAD) This command stops logging and closes the log file.
34 – PROMPT
Replaces the default DCL prompt ($ ) with the specified string. Format SET PROMPT[=string]
34.1 – Parameter
string Specifies the new prompt string. The following rules apply: o All valid ASCII characters can be used. o No more than 64 characters are allowed. o To include spaces or lowercase letters, enclose the string in quotation marks (" "). Otherwise, letters are converted automatically to uppercase; leading and trailing spaces are removed. If you do not specify the string parameter with the SET PROMPT command, the default DCL prompt ($ ) is restored.
34.2 – Qualifier
34.2.1 /CARRIAGE_CONTROL
/CARRIAGE_CONTROL (default) /NOCARRIAGE_CONTROL Inserts carriage return and line feed characters before the prompt string. Type the qualifier after the string parameter.
34.3 – Example
$ SET PROMPT ="What's next?" What's next? SHOW TIME 19-APR-2001 14:08:58 The SET PROMPT command in this example replaces the DCL prompt ($ ) with the phrase "What's next?". When you see the prompt on your screen, you can enter any DCL command. This example uses the SHOW TIME command.
35 – PROTECTION
Select the /DEFAULT subtopic for details about SET PROTECTION/DEFAULT. NOTE The SET PROTECTION and SET PROTECTION/DEVICE commands have been replaced with the SET SECURITY /PROTECTION and SET SECURITY /PROTECTION /CLASS=DEVICE commands.
35.1 /DEFAULT
Establishes the default protection for files created by the current process. Format SET PROTECTION[=(code)]/DEFAULT
35.1.1 – Parameter
code Specifies the category of protection to be assigned by default to all files subsequently created by the current process. To override this protection, you must specify an explicit protection using either the SET SECURITY /PROTECTION command or the /PROTECTION qualifier on the CREATE command. If you do not specify a protection code, the current default remains unchanged. The protection code is made up of the following components: o Ownership category-system (S), owner (O), group (G), or world (W). Each category can be abbreviated to its first character. o Access category-Read (R), write (W), execute (E), or delete (D). The access category is assigned to each ownership category. A null access specification means no access. NOTE Use the SET SECURITY/PROTECTION command to reset security characteristics of the directory or file.
35.1.2 – Example
$ SET PROTECTION=(GROUP:RWED,WORLD:R)/DEFAULT The SET PROTECTION/DEFAULT command in this example sets the default protection to grant unlimited access to other users in the same group and read (R) access to all users. The default protections for system and owner are not changed.
36 – QUEUE
Changes the attributes of the specified queue. Requires manage (M) access to the queue. Format SET QUEUE queue-name[:]
36.1 – Parameter
queue-name[:] Specifies the name of an execution queue or a generic queue.
36.2 – Qualifiers
36.2.1 /BASE_PRIORITY
/BASE_PRIORITY=n Specifies the base process priority at which jobs are initiated from a batch execution queue. The base priority specifier can be any decimal value from 0 to 15. You also can specify this qualifier for an output execution queue. In this context the /BASE_PRIORITY qualifier establishes the base priority of the symbiont process when the symbiont process is created.
36.2.2 /BLOCK_LIMIT
/BLOCK_LIMIT=([lowlim,]uplim) /NOBLOCK_LIMIT Limits the size of print jobs that can be processed on an output execution queue. This qualifier allows you to reserve certain printers for certain size jobs. You must specify at least one of the parameters. The lowlim parameter is a decimal number referring to the minimum number of blocks that are accepted by the queue for a print job. If a print job is submitted that contains fewer blocks than the lowlim value, the job remains pending until the block limit for the queue is changed. After the block limit for the queue is decreased sufficiently, the job is processed. The uplim parameter is a decimal number referring to the maximum number of blocks that are accepted by the queue for a print job. If a print job is submitted that exceeds this value, the job remains pending until the block limit for the queue is changed. After the block limit for the queue is increased sufficiently, the job is processed. If you specify only an upper limit for jobs, you can omit the parentheses. For example, /BLOCK_LIMIT=1000 means that only jobs with 1000 blocks or less are processed in the queue. To specify only a lower job limit, you must use a null string ("") to indicate the upper limit. For example, /BLOCK_LIMIT=(500,"") means any job with 500 or more blocks is processed in the queue. You can specify both a lower and upper limit. For example, /BLOCK_LIMIT=(200,2000) means that jobs with less than 200 blocks or more than 2000 blocks are not processed in the queue. The /NOBLOCK_LIMIT qualifier cancels the previous block limit setting for that queue.
36.2.3 /CHARACTERISTICS
/CHARACTERISTICS=(characteristic[,...]) /NOCHARACTERISTICS Specifies one or more characteristics for processing jobs on an execution queue. If a queue does not have all the characteristics that have been specified for a job, the job remains pending. If you specify only one characteristic, you can omit the parentheses. Each time you specify the /CHARACTERISTICS qualifier, all previously set characteristics are canceled. Only the characteristics specified with the qualifier are established for the queue. Queue characteristics are installation specific. The characteristic parameter can be either a value from 0 to 127 or a characteristic name that has been defined by the DEFINE/CHARACTERISTIC command. The /NOCHARACTERISTICS qualifier cancels any characteristics settings previously established for that queue.
36.2.4 /CLOSE
Prevents jobs from being entered in the queue through PRINT or SUBMIT commands or as a result of requeue operations. To allow jobs to be entered, use the /OPEN qualifier. Whether a queue accepts or rejects new job entries is independent of the queue's state (such as paused, stopped, or stalled). When a queue is marked closed, jobs executing continue to execute and jobs pending in the queue continue to be candidates for execution.
36.2.5 /CPUDEFAULT
/CPUDEFAULT=time Defines the default CPU time limit for jobs in a batch execution queue. You can specify time as delta time, 0, INFINITE, or NONE. You can specify up to 497 days of delta time. If the queue does not have a defined CPUMAXIMUM time limit and the value established in the user authorization file (UAF) has a specified CPU time limit of NONE, either the value 0 or the keyword INFINITE allows unlimited CPU time. If you specify NONE, the CPU time value defaults to the value specified either in the UAF or by the SUBMIT command (if included). CPU time values must be greater than or equal to the number specified by the system parameter PQL_MCPULM. The time cannot exceed the CPU time limit set by the /CPUMAXIMUM qualifier. For information on specifying delta time, see the OpenVMS User's Manual or the online help topic Date.
36.2.6 /CPUMAXIMUM
/CPUMAXIMUM=time Defines the maximum CPU time limit for all jobs in a batch execution queue. You can specify time as delta time, 0, INFINITE, or NONE. You can specify up to 497 days of delta time. The /CPUMAXIMUM qualifier overrides the time limit specified in the user authorization file (UAF) for any user submitting a job to the queue. Either the value 0 or the keyword INFINITE allows unlimited CPU time. If you specify NONE, the CPU time value defaults to the value specified either in the UAF or by the SUBMIT command (if included). CPU time values must be greater than or equal to the number specified by the system parameter PQL_MCPULM. For information on specifying delta time, see the OpenVMS User's Manual or the online help topic Date.
36.2.7 /DEFAULT
/DEFAULT=(option[,...]) /NODEFAULT Establishes defaults for certain options of the PRINT command. Defaults are specified by the list of options. If you specify only one option, you can omit the parentheses. After you set an option for the queue with the /DEFAULT qualifier, you do not have to specify that option in your PRINT commands. If you do specify these options in your PRINT command, the values specified with the PRINT command override the values established for the queue with the /DEFAULT qualifier. Possible options are as follows: [NO]BURST[=keyword] Controls whether two file flag pages with a burst bar between them are printed preceding output. If you specify the value ALL (default), these flag pages are printed before each file in the job. If you specify the value ONE, these flag pages are printed once before the first file in the job. [NO]FEED Specifies whether a form feed is inserted automatically at the end of a page. [NO]FLAG[=keyword] Controls whether a file flag page is printed preceding output. If you specify the value ALL (default), a file flag page is printed before each file in the job. If you specify the value ONE, a file flag page is printed once before the first file in the job. FORM=type Specifies the default form for an output execution queue. If a job is submitted without an explicit form definition, this form is used to process the job. If no form type is explicitly specified with the FORM keyword, the system assigns the form "DEFAULT" to the queue. See also the description of the /FORM_MOUNTED qualifier. [NO]TRAILER[=keyword] Controls whether a file trailer page is printed following output. If you specify the value ALL (default), a trailer page is printed with each file in the job. If you specify the value ONE, a trailer page is printed once with the last file in the job. When you specify the BURST option for a file, the [NO]FLAG option does not add or subtract a flag page from the two flag pages that are printed preceding the file. For information on establishing mandatory queue attributes, see the description of the /SEPARATE qualifier. For information on specifying default queue attributes, see the VSI OpenVMS System Manager's Manual.
36.2.8 /DESCRIPTION
/DESCRIPTION=string /NODESCRIPTION Specifies a string of up to 255 characters used to provide operator-supplied information about the queue. Enclose strings containing lowercase letters, blanks, or other nonalphanumeric characters (including spaces) in quotation marks (" "). The /NODESCRIPTION qualifier removes any descriptive text that may have been associated with the queue.
36.2.9 /DISABLE_SWAPPING
/DISABLE_SWAPPING /NODISABLE_SWAPPING Controls whether batch jobs executed from a queue can be swapped in and out of memory.
36.2.10 /ENABLE_GENERIC
/ENABLE_GENERIC /NOENABLE_GENERIC Specifies whether files queued to a generic queue that does not specify explicit queue names can be placed in this execution queue for processing.
36.2.11 /FORM_MOUNTED
/FORM_MOUNTED=type Specifies the mounted form for an output execution queue. If no form type is explicitly specified, the system assigns the form "DEFAULT" to the queue. If the stock of the mounted form does not match the stock of the default form, as indicated by the /DEFAULT=FORM qualifier, all jobs submitted to this queue without an explicit form definition enter a pending state and remain pending until the stock of the queue's mounted form is identical to the stock of the form associated with the job. If a job is submitted with an explicit form and the stock of the explicit form is not identical to the stock of the mounted form, the job enters a pending state and remains pending until the stock of the mounted form of the queue is identical to the stock of the form associated with the job. To specify the form type, use either a numeric value or a form name that has been defined by the DEFINE/FORM command. Form types are installation-specific. You cannot use the /FORM_MOUNTED qualifier with the /GENERIC qualifier.
36.2.12 /JOB_LIMIT
/JOB_LIMIT=n Indicates the number of batch jobs that can be executed concurrently from the queue. Specify a number in the range 1 to 65535.
36.2.13 /NO_INITIAL_FF
/NO_INITIAL_FF /NONO_INITIAL_FF (default) Allows user to set or modify whether a form feed should be sent to a printer device when a queue starts. To suppress the initial form feed, set the queue with /NO_INITIAL_FF qualifier. Setting the queue with /NONO_INITIAL_FF qualifier sends a form feed to the output device before printing begins when the queue restarts.
36.2.14 /OPEN
Allows jobs to be entered in the queue through PRINT or SUBMIT commands or as the result of requeue operations. To prevent jobs from being entered in the queue, use the /CLOSE qualifier. Whether a queue accepts or rejects new job entries is independent of the queue's state (such as paused, stopped, or stalled).
36.2.15 /OWNER_UIC
/OWNER_UIC=uic Requires OPER (operator) privilege or control (C) access to the queue. Enables you to change the user identification code (UIC) of the queue. Specify the UIC by using the standard format as described in the VSI OpenVMS Guide to System Security.
36.2.16 /PROTECTION
/PROTECTION=(ownership[:access],...) Requires OPER (operator) privilege to control access to the queue. Specifies the protection of the queue. The following rules apply: o Specify the ownership parameter as system (S), owner (O), group (G), or world (W). o Specify the access parameter as read (R), submit (S), manage (M), or delete (D). A null access specification means no access. If you include only one protection code, you can omit the parentheses. For more information on specifying protection codes, see the VSI OpenVMS Guide to System Security. For more information on controlling queue operations through UIC-based protection, see the VSI OpenVMS System Manager's Manual.
36.2.17 /RAD
/RAD=n /NORAD Specifies the RAD number on which to run batch jobs assigned to the queue. The RAD value is validated as a positive integer between 0 and the value returned by the $GETSYI item code, SYI$_ RAD_MAX_RADS. To eliminate the RAD value for a batch queue, use the /NORAD qualifier. Note that when you change the RAD value on a batch queue, the jobs currently in the batch queue are not dynamically updated with the new RAD value. Any executing jobs will complete processing using the original RAD value. Jobs in the pending, holding, or timed execution states will retain the old RAD value on the job; however, when such a job becomes executable, the job is updated with the new RAD value. RAD is supported on AlphaServer GS series systems and starting from OpenVMS Version 8.4, support is extended to NUMA capable Integrity servers.
36.2.18 /RECORD_BLOCKING
/RECORD_BLOCKING /NORECORD_BLOCKING Determines whether the symbiont can concatenate (or block together) output records for transmission to the output device. If you specify the /NORECORD_BLOCKING qualifier, the symbiont sends each formatted record in a separate I/O request to the output device. For the standard OpenVMS system print symbiont, record blocking can have a significant performance advantage over single-record mode.
36.2.19 /RETAIN
/RETAIN[=option] /NORETAIN Holds jobs in the queue in a retained status after they have executed. The /NORETAIN qualifier enables you to reset the queue to the default. Possible options are as follows: ALL Holds all jobs in the queue after execution (default). ERROR Holds in the queue only jobs that complete unsuccessfully.
36.2.20 /SCHEDULE
/SCHEDULE=[NO]SIZE Specifies whether pending jobs in an output queue are scheduled for printing based on the size of the job. When the /SCHEDULE=SIZE qualifier is in effect, shorter jobs print before longer ones. When the /SCHEDULE=NOSIZE qualifier is in effect, jobs are printed in the order they were submitted, regardless of size. If you enter this command while there are pending jobs in any queue, its effect on future jobs is unpredictable.
36.2.21 /SEPARATE
/SEPARATE=(option[,...]) /NOSEPARATE Specifies the mandatory queue attributes or job separation options for an output execution queue. Job separation options cannot be overridden by the PRINT command. The job separation options are as follows: [NO]BURST Specifies whether two job flag pages with a burst bar between them are printed at the beginning of each job. [NO]FLAG Specifies whether a job flag page is printed at the beginning of each job. [NO]RESET=(module[,...]Specifies one or more device control library modules that contain the job reset sequence for the queue. The specified modules from the queue's device control library (by default SYS$LIBRARY:SYSDEVCTL) are used to reset the device each time a job reset occurs. The RESET sequence occurs after any file trailer and before any job trailer; therefore, all job separation pages are printed when the device is in its RESET state. [NO]TRAILER Specifies whether a job trailer page is printed at the end of each job. When you specify the /SEPARATE=BURST qualifier, the [NO]FLAG separation option does not add or subtract a flag page from the two flag pages that are printed preceding the job. For information on establishing queue attributes that can be overridden, see the description of the /DEFAULT qualifier. For more information on specifying mandatory queue attributes, see the VSI OpenVMS System Manager's Manual.
36.2.22 /WSDEFAULT
/WSDEFAULT=n Defines for a batch job a working set default, the default number of physical pages that the job can use. The value set by this qualifier overrides the value defined in the user authorization file (UAF) of any user submitting a job to the queue. Specify the value of n as a number of 512-byte pagelets on Alpha. Note that the OpenVMS system rounds up this value to the nearest CPU-specific page so that actual amount of physical memory allowed may be larger than the specified amount on Alpha. If you specify the value 0 or NONE, the working set default value defaults to the value specified in the UAF or by the SUBMIT command (if included).
36.2.23 /WSEXTENT
/WSEXTENT=n Defines for the batch job a working set extent, the maximum amount of physical memory that the job can use. The job uses the maximum amount of physical memory only when the system has excess free pages. The value set by this qualifier overrides the value defined in the user authorization file (UAF) of any user submitting a job to the queue. Specify the value of n as a number of 512-byte pagelets on Alpha. Note that the OpenVMS system rounds up this value to the nearest CPU-specific page so that actual amount of physical memory allowed may be larger than the specified amount on Alpha. If you specify the value 0 or NONE, the working set extent value defaults to the value specified in the UAF or by the SUBMIT command (if included).
36.2.24 /WSQUOTA
/WSQUOTA=n Defines for a batch job the working set quota, the amount of physical memory that is available to the job. The value set by this qualifier overrides the value defined in the user authorization file (UAF) of any user submitting a job to the queue. Specify the value of n as a number of 512-byte pagelets on Alpha systems. Note that the OpenVMS system rounds up this value to the nearest CPU-specific page so that actual amount of physical memory allowed may be larger than the specified amount on Alpha. If you specify the value 0 or NONE, the working set quota value defaults to the value specified in the UAF or by the SUBMIT command (if included). A working set default size and a working set quota (maximum size) are included in each user record in the system user authorization file (UAF). You can specify a working set default and a working set quota for both individual jobs and for all jobs in a given queue. The following table shows the action taken for different combinations of specifications that involve working set size and working set quota values. Value Specified Value by Specified the SUBMIT for the Command? Queue? Action Taken No No Use the UAF value. No Yes Use the value for the queue. Yes Yes Use the smaller of the two values. Yes No Compare the specified value with the UAF value; use the smaller.
36.3 – Examples
1.$ INITIALIZE/QUEUE/DEFAULT=BURST/FORM_MOUNTED=LETTER/START SYS$PRINT . . . $ STOP/QUEUE/NEXT SYS$PRINT $ SET QUEUE/DEFAULT=BURST/FORM_MOUNTED=MEMO SYS$PRINT In this example, the queue is initialized with the INITIALIZE/QUEUE command. The queue has the following attributes: two file flag pages preceding each file in the job and the mounted form LETTER. Later the queue is stopped with the STOP/QUEUE/NEXT command so that the current job finishes processing before the queue stops. The SET QUEUE command changes the mounted form to MEMO. 2.$ SET QUEUE/DEFAULT=FORM=LN01_PORTRAIT LN01_PRINT In this example, the SET QUEUE command changes the default form to LN01_PORTRAIT for the LN01_PRINT queue. 3.$ SET QUEUE/CLOSE SYS$BATCH In this example, the batch queue SYS$BATCH is modified to prevent jobs from being entered in this queue. 4.$ SET/QUEUE/RAD=0 BATCHQ1 $ SHOW QUEUE/FULL BATCHQ1 Batch queue BATCHQ1, idle, on QUEBID:: /BASE_PRIORITY=4 /JOB_LIMIT=3 /OWNER=[SYSTEM] /PROTECTION=(S:M,O:D,G:R,W:S) /RAD=0 This example modifies the batch queue to run all assigned jobs on RAD 0 of QUEBID. Any new jobs assigned to the queue will run on RAD 0. Jobs already executing on the queue will continue to completion executing on the previous RAD value. 5.$ SET/QUEUE/NORAD BATCHQ1 $ SHOW QUEUE/FULL BATCHQ1 Batch queue BATCHQ1, idle, on QUEBID:: /BASE_PRIORITY=4 /JOB_LIMIT=3 /OWNER=[SYSTEM] /PROTECTION=(S:M,O:D,G:R,W:S) This example eliminates the RAD value for a batch queue.
37 – RESTART_VALUE
Assigns a value to the global symbol BATCH$RESTART. This global symbol defines the location at which a batch job is restarted after its execution has been interrupted. The SET RESTART_VALUE command is meaningful only in command procedures. Format SET RESTART_VALUE=string
37.1 – Parameter
string Specifies a string of up to 255 characters, which specifies the label at which the batch job should begin executing when it is restarted.
37.2 – Example
$ IF $RESTART THEN GOTO 'BATCH$RESTART' . . . $ FIRSTPART: $ SET RESTART_VALUE = FIRSTPART $ RUN PART1 . . . $ SECONDPART: $ SET RESTART_VALUE = SECONDPART $ RUN PART2 . . . In this example, the first command states that, if $RESTART is true, the procedure is to jump to the value contained in BATCH$RESTART. ($RESTART is true only if the job has been executed before, that is, the job is being rerun after a crash or after having been requeued.) The first SET RESTART_VALUE command assigns the label FIRSTPART to be equal to the symbol BATCH$RESTART. The next line contains the command to run PART1.EXE. The second SET RESTART_VALUE command assigns the label SECONDPART to be equal to the symbol BATCH$RESTART. The last line shown contains the command to run PART2.EXE. When the job is first submitted using the SUBMIT/RESTART command, the value of $RESTART is FALSE, so the IF expression is ignored. If the job is stopped during the run of PART1.EXE, the value of BATCH$RESTART is FIRSTPART. When the job is restarted, the value of $RESTART is TRUE; therefore, the IF expression is processed and transfers control to the FIRSTPART label in the procedure. PART1.EXE is rerun. If the job is stopped during the run of PART2.EXE, the value of BATCH$RESTART is SECONDPART. When the job is restarted, the value of $RESTART is TRUE. In this instance, the IF-GOTO command transfers control to the SECONDPART label in the procedure so that PART2.EXE can be run. PART1.EXE is not rerun.
38 – RIGHTS_LIST
Allows users to modify the process or system rights list. You must specify either the /DISABLE or the /ENABLE qualifier with the SET RIGHTS_LIST command. Format SET RIGHTS_LIST id-name[,...]
38.1 – Parameter
id-name[,...] Specifies identifiers to be added to or removed from the process or system rights list. The id-name parameter is a string of 1 to 31 alphanumeric characters, underscores (_), and dollar signs ($); each name must contain at least one nonnumeric character.
38.2 – Qualifiers
38.2.1 /ATTRIBUTES
/ATTRIBUTES=(keyword[,...]) Specifies attributes to be associated with the identifiers. Attributes may be added to new or existing identifiers. The following are valid keywords: DYNAMIC Allows unprivileged holders of the identifier to remove and to restore the identifier from the process rights list by using the DCL command SET RIGHTS_LIST. NOACCESS Makes any access rights of the identifier null and void. If a user is granted an identifier with the No Access attribute, that identifier has no effect on the user's access rights to objects. This attribute is a modifier for an identifier with the Resource or Subsystem attribute. RESOURCE Allows holders of an identifier to charge disk space to the identifier. Used only for file objects. SUBSYSTEM Allows holders of the identifier to create and maintain protected subsystems by assigning the Subsystem ACE to the application images in the subsystem. Used only for file objects. To remove an attribute from the identifier, add a NO prefix to the attribute keyword. For example, to remove the Resource attribute, specify /ATTRIBUTE=NORESOURCE. The default uses the current processes in the rights database. Use the command SHOW PROCESS/RIGHTS to see the attributes of the current process.
38.2.2 /DISABLE
Removes the identifiers from the process or system rights list. You cannot use the /DISABLE qualifier with the /ENABLE qualifier. Note that removing more than ten identifiers in a single command invocation requires CMKRNL privilege.
38.2.3 /ENABLE
Adds the identifiers to the process or system rights list. You cannot use the /ENABLE qualifier with the /DISABLE qualifier. Note that adding more than ten identifiers in a single command invocation requires CMKRNL privilege.
38.2.4 /IDENTIFICATION
/IDENTIFICATION=pid Specifies the process identification (PID) value of the process whose rights list is to be modified. The PID is assigned by the system when the process is created. When you specify a PID, you can omit the leading zeros. If you specify the /IDENTIFICATION qualifier, you cannot use the /PROCESS qualifier. By default, if neither the /IDENTIFICATION nor the /PROCESS qualifier is specified, the current process is assumed. You cannot use the /IDENTIFICATION qualifier with the /SYSTEM qualifier.
38.2.5 /PROCESS
/PROCESS[=process-name] Specifies the name of the process whose rights list is to be modified. The process name can contain from 1 to 15 alphanumeric characters. If you specify the /PROCESS qualifier, you cannot use the /IDENTIFICATION qualifier. By default, if neither the /PROCESS nor the /IDENTIFICATION qualifier is specified, the current process is assumed. You cannot use the /PROCESS qualifier with the /SYSTEM qualifier.
38.2.6 /SYSTEM
Specifies that the desired operation (addition or removal of an identifier) be performed on the system rights list. You cannot use the /SYSTEM qualifier with the /PROCESS or the /IDENTIFICATION qualifier.
38.3 – Examples
1.$ SET RIGHTS_LIST/ENABLE/ATTRIBUTES=RESOURCE MARKETING The SET RIGHTS_LIST command in this example adds the MARKETING identifier to the process rights list of the current process. Specifying the RESOURCE attribute allows holders of the MARKETING identifier to charge resources to it. 2.$ SET RIGHTS_LIST/ENABLE/SYSTEM PHYSICS101 %SYSTEM-F-NOPRIV, insufficient privilege or object protection violation $ SET PROCESS/PRIVILEGES=(CMKRNL,SYSNAM) $ SET RIGHTS_LIST/ENABLE/SYSTEM PHYSICS101 The SET RIGHTS_LIST command in this example adds the PHYSICS101 identifier to the system rights list. You must have both the CMKRNL (change mode to kernel) and SYSNAM (system logical name) privileges to modify the system rights list.
39 – RMS_DEFAULT
Defines default values for multiblock and multibuffer counts, network transfer sizes, prolog level, extend quantity, and the query lock option used by OpenVMS Record Management Services (RMS) for file operations. If you set the default value for either the multiblock count or the multibuffer count at 0, RMS tries to use the process default value or the system default value, in that order. If these are set at 0, RMS uses a default value of 1. Defaults are set for sequential, relative, or indexed file organizations on a process- only basis, unless a systemwide basis is requested. Format SET RMS_DEFAULT
39.1 – Qualifiers
39.1.1 /BLOCK_COUNT
/BLOCK_COUNT=count Specifies a default multiblock count (0 to 255) for record I/O operations only, where count is the number of blocks to be allocated for each I/O buffer. For more information on multiblock count, see the description of the RAB$B_MBC in the OpenVMS Record Management Services Reference Manual.
39.1.2 /BUFFER_COUNT
/BUFFER_COUNT=count Specifies a default multibuffer count (0 to 255) for local file operations, where count is the number of buffers to be allocated. If you use the /SYSTEM qualifier to extend the default value systemwide, the maximum default value is 127. When you use the /BUFFER_COUNT qualifier, you can use the /DISK, /INDEXED, /MAGTAPE, /RELATIVE, /SEQUENTIAL, and /UNIT_RECORD qualifiers to specify the types of file for which the default is to be applied. If the /BUFFER_COUNT qualifier is specified without any of these qualifiers, the /SEQUENTIAL qualifier is assumed. If file type is not specified, the default is applied to sequential files. For more information on multibuffer count, see the description of the RAB$B_MBF field in the OpenVMS Record Management Services Reference Manual.
39.1.3 /CONTENTION_POLICY
/CONTENTION_POLICY=keyword [/SYSTEM] Allows you to specify fairness under high contention conditions for write-shared files at the process or system level. Note that selecting this option may noticeably increase locking overhead. This option is disabled by default. In a mixed cluster environment with high contention for specific buckets, it is possible for accesses to write-shared files on nodes using read-mode global bucket locking to dominate access to a bucket. Nodes without this support might be denied timely access to the bucket. Additionally, it is possible to observe comparable behavior on all OpenVMS versions when dealing with accesses to write-shared files without global buffers enabled. A similar fairness issue between lock conversions and new lock requests may be observed in which the new lock requests may remain ungranted for an extended period of time. Use the /CONTENTION_POLICY qualifier to specify fairness under high contention conditions. The following table lists valid PROCESS keywords (/SYSTEM not specified): Keyword Description NEVER Never use the higher overhead option to improve fairness for any write-shared files accessed by this process; minimal overhead. SOMETIMES Use this option for fairer bucket access (but higher overhead) to any write-shared files with global buffers enabled accessed by this process. ALWAYS Use this option for fairer bucket access (but higher overhead) to all write-shared files accessed by this process. SYSTEM_ Use system setting. Note that this keyword is DEFAULT disallowed with /SYSTEM. (default) The following table lists valid SYSTEM keywords (/SYSTEM also specified): Keyword Description NEVER Never use the higher overhead option to improve (default) fairness for any write-shared files accessed on the system; minimal overhead. SOMETIMES Use this option for fairer bucket access (but higher overhead) to any write-shared files with global buffers enabled accessed on the system. ALWAYS Use this option for fairer bucket access (but higher overhead) to all write-shared files accessed on the system.
39.1.4 /DISK
Applies the specified defaults to disk file operations. Values applied using the /SEQUENTIAL qualifier take precedence over values applied using the /DISK qualifier.
39.1.5 /EXTEND_QUANTITY
/EXTEND_QUANTITY=n Specifies the number of blocks n to extend a sequential file where n can range from 0 to 65535. If you do not specify the /EXTEND_QUANTITY qualifier, RMS calculates its own extend value. The /EXTEND_QUANTITY qualifier value is used when the program does not specify an extent quantity explicitly.
39.1.6 /INDEXED
Applies the multibuffer default to indexed file operations.
39.1.7 /MAGTAPE
Applies the multibuffer default to magnetic tape operations. Values applied using the /SEQUENTIAL qualifier take precedence over values applied using the /MAGTAPE qualifier.
39.1.8 /NETWORK_BLOCK_COUNT
/NETWORK_BLOCK_COUNT=count Specifies a default block count (0 to 127) for network access to remote files, where count is the number of blocks to be allocated for each I/O buffer. For remote file access, the buffer size is negotiated between RMS and the remote system's file access listener (FAL) with the smaller of the two sizes being selected. Thus, the /NETWORK_BLOCK_COUNT value places an upper limit on the network buffer size that is used. It also places an upper limit on the largest record that may be transferred to or from a remote file. The largest record must be less than or equal to 512*network_block_count. (The network_block_count is in block units and the record is in byte units.) If you omit the value or specify a value of 0, RMS uses the systemwide block count value. If this value is also 0, RMS uses a size of one block.
39.1.9 /PROLOG
/PROLOG=n Specifies a default prolog level for indexed files where acceptable values for n are 0, 2, or 3. If 0 (default) is specified, RMS sets an appropriate prolog level.
39.1.10 /QUERY_LOCK
/QUERY_LOCK=keyword [/SYSTEM] Enables or disables query locking at the process and system levels. The following table lists valid PROCESS keywords (/SYSTEM not specified): Keyword Description DISABLE Disable query locking for the duration of any file opens done by images within the process for any read ($GET or $FIND) record operations that have both RAB$V_NLK (no lock) and RAB$V_RRL (read- regardless) set in the RAB$L_ROP field of the RAB (Record Access Block). Disabling query locking directs RMS not to make any calls to the lock manager for a read record operation just to find out whether a record is locked by another stream. ENABLE Use RMS's default record locking for images run within this process. SYSTEM_ Use system setting. Note that this keyword is DEFAULT disallowed with /SYSTEM. (default) The following table lists valid SYSTEM keywords (/SYSTEM also specified): Keyword Description DISABLE Disable query locking for the duration of any file opens done by images on the system for any read ($GET or $FIND) record operations that have both RAB$V_NLK (no lock) and RAB$V_RRL (read- regardless) set in the RAB$L_ROP field of the RAB (Record Access Block). Disabling query locking directs RMS not to make any calls to the lock manager for a read record operation just to find out whether a record is locked by another stream. ENABLE Use RMS's default record locking for images run (default) within this process. There is no system parameter associated with the QUERY_LOCK setting.
39.1.11 /RELATIVE
Applies the multibuffer default to relative file operations.
39.1.12 /SEQUENTIAL
/SEQUENTIAL (default) Applies the multibuffer default to sequential file operations. The /SEQUENTIAL qualifier overrides values applied using either the /DISK, the /MAGNETIC TAPE, or the /UNIT RECORD qualifier. The /SEQUENTIAL qualifier is the default if you do not specify either the /RELATIVE or the /INDEXED qualifier.
39.1.13 /SYSTEM
Requires CMKRNL (change mode to kernel) privilege. Applies specified defaults on a systemwide basis to all file operations. Systemwide settings are implemented as system parameters, with the exception of /QUERY_LOCK. For a systemwide setting to survive a system reboot, it must be written to the system parameter file by using SYSGEN.
39.1.14 /UNIT_RECORD
Applies the multibuffer default to file operations on unit record devices. Values applied using the /SEQUENTIAL qualifier take precedence over values applied using the /UNIT_RECORD qualifier.
39.2 – Examples
1.$ SET RMS_DEFAULT/BLOCK_COUNT=24 $ SHOW RMS_DEFAULT MULTI- | MULTIBUFFER COUNTS | NETWORK BLOCK | Indexed Relative Sequential | BLOCK COUNT | Disk Magtape Unit Record | COUNT Process 24 | 0 0 0 0 0 | 0 System 16 | 0 0 0 0 0 | 8 Prolog Extend Quantity QUERY_LOCK Process 0 0 System System 0 0 Enabled CONTENTION_POLICY Process System System Never The SET RMS_DEFAULT command in this example sets the multiblock count for disk file I/O at 24 for user programs that do not set the multiblock count explicitly. The command applies only to the current process. 2.$ SET RMS_DEFAULT/BUFFER_COUNT=8/MAGTAPE $ SHOW RMS_DEFAULT MULTI- | MULTIBUFFER COUNTS | NETWORK BLOCK | Indexed Relative Sequential | BLOCK COUNT | Disk Magtape Unit Record | COUNT Process 0 | 0 0 0 8 0 | 0 System 16 | 0 0 0 0 0 | 8 Prolog Extend Quantity QUERY_LOCK Process 0 0 System System 0 0 Enabled CONTENTION_POLICY Process System System Never The SET RMS_DEFAULT command in this example defines the default multibuffer count for I/O magnetic tape operations at 8. 3.$ SET RMS_DEFAULT/BUFFER_COUNT=7/NETWORK_BLOCK_COUNT=16/SYSTEM $ SHOW RMS_DEFAULT MULTI- | MULTIBUFFER COUNTS | NETWORK BLOCK | Indexed Relative Sequential | BLOCK COUNT | Disk Magtape Unit Record | COUNT Process 0 | 0 0 0 0 0 | 0 System 16 | 0 0 7 7 0 | 16 Prolog Extend Quantity QUERY_LOCK Process 0 0 System System 0 0 Enabled CONTENTION_POLICY Process System System Never The SET RMS_DEFAULT command in this example defines the systemwide default multibuffer count at 7 for all sequential file operations on disk, magnetic tape, and unit record devices. The command also sets the network block count at 16. 4.$ SET RMS_DEFAULT/EXTEND=50/INDEXED/BUFFER_COUNT=5 $ SHOW RMS_DEFAULT MULTI- | MULTIBUFFER COUNTS | NETWORK BLOCK | Indexed Relative Sequential | BLOCK COUNT | Disk Magtape Unit Record | COUNT Process 0 | 5 0 0 0 0 | 0 System 16 | 0 0 0 0 0 | 8 Prolog Extend Quantity QUERY_LOCK Process 0 50 System System 0 0 Enabled CONTENTION_POLICY Process System System Never The SET RMS_DEFAULT command in this example sets the default multibuffer count for I/O operations on indexed files at 5. It also defines the default extend quantity for sequential I/O operations at 50 blocks. These defaults apply only to disk operations for user programs that do not set the multiblock count explicitly. These defaults are limited to the current process. 5.$ SET RMS_DEFAULT/QUERY_LOCK=DISABLE $ SHOW RMS_DEFAULT MULTI- | MULTIBUFFER COUNTS | NETWORK BLOCK | Indexed Relative Sequential | BLOCK COUNT | Disk Magtape Unit Record | COUNT Process 0 | 0 0 0 0 0 | 0 System 16 | 0 0 0 0 0 | 8 Prolog Extend Quantity QUERY_LOCK Process 0 0 Disabled System 0 0 Enabled CONTENTION_POLICY Process System System Never The SET RMS_DEFAULT command in this example requests that query locking be disabled for the duration of any file opens done by images within this process for any read ($GET or $FIND) record operations that have both RAB$V_NLK (no lock) and RAB$V_RRL (read-regardless) set in the RAB$L_ROP field of the RAB (Record Access Block).
40 – ROOT
Defines the POSIX root for the system. Format SET ROOT device-name:directory-spec
40.1 – Parameters
device-name:directory-spec Defines the root pathname.
40.2 – Description
In POSIX pathname processing mode, RMS and the C Run-Time Library treat the leading slash (/) of a pathname as referring to the defined root. By default, the root is SYS$SYSDEVICE:[PSX$ROOT]. The root definition does not persist across a reboot. The SET ROOT commands requires SYSNAM privilege and has the following qualifier:
40.3 – Qualifier
40.3.1 /LOG
/LOG (default) /NOLOG Controls whether the SET ROOT command displays a success indication after the root definition is set.
40.4 – Example
$ SHOW ROOT DISK$ALPHASYS:[000000] $ SET ROOT DISK$ALPHASYS:[PSX$ROOT] %SET-I_SXROOSET, system POSIX root set to DISK$ALPHASYS:[PSX$ROOT] $ SHOW ROOT DISK$ALPHASYS:[PSX$ROOT] $ The SHOW ROOT command in this example displays the current root path. The SET ROOT command changes these defaults, and the next SHOW ROOT command displays the new default root.
41 – SECURITY
Modifies the security profile of an object. Format SET SECURITY object-name
41.1 – Parameter
object-name Specifies the name of an object, such as a file or device, whose security profile is to be modified. An object is identified by an object name and a class name. The default class name is FILE. An object name of the FILE class (explicitly or implicitly specified) can include an asterisk (*) or a percent sign (%) wildcard character, but wildcard characters are not allowed in any class other than FILE. SET SECURITY does not operate on remote files and devices, alias directory entries, or directory names in UIC format (for example, [14,5]). The following table shows the qualifier categories for the SET SECURITY command. ACL- Security File- General Modifying Class Specific Transfer Qualifiers Qualifiers Qualifier Qualifiers Qualifiers /ACL /AFTER /PROFILE /BACKUP /COPY_ATTRIBUTE /CLASS /DELETE /BEFORE /LIKE /LOG /EDIT /BY_OWNER /OWNER /REPLACE /CONFIRM /PROTECTION /CREATED /DEFAULT /EXCLUDE /EXPIRED /MODIFIED /SINCE /STYLE
41.2 – Qualifiers
41.2.1 /ACL
/ACL[=(ace[,...])] Identifies one or more access control list entries (ACEs) to add, replace, or delete. Enclose each ACE in parentheses and separate multiple ACEs by commas (,). The most common type of entry, the Identifier ACE, has the format (IDENTIFIER=identifier, ACCESS=access-type(+...)). By default, SET SECURITY adds an ACE to the top of the ACL. This behavior changes when you include one of the positional qualifiers: /AFTER, /DELETE, or /REPLACE. See the discussion of ACL ordering in the VSI OpenVMS Guide to System Security.
41.2.2 /AFTER
/AFTER=ace Positions all ACEs specified with the /ACL qualifier after the ACE named with the /AFTER qualifier.
41.2.3 /BACKUP
Modifies the time value provided with the /BEFORE or the /SINCE qualifier. The /BACKUP qualifier selects files according to the date of their most recent backup (rather than by the creation, expiration, or modification date). By default, SET SECURITY selects files according to their creation date.
41.2.4 /BEFORE
/BEFORE[=time] Selects only those files dated prior to the specified time. You can specify time as absolute time, as a combination of absolute and delta times, or as one of the following keywords: BOOT, LOGIN, TODAY (default), TOMORROW, or YESTERDAY. Specify the /CREATED or the /MODIFIED qualifier to indicate the time attribute to be used as the basis for selection. The /CREATED qualifier is the default. For complete information on specifying time values, see the OpenVMS User's Manual or the online help topic Date.
41.2.5 /BY_OWNER
/BY_OWNER[=uic] Selects files whose owner's UIC matches the UIC specified. The default UIC is that of the current process.
41.2.6 /CLASS
/CLASS=class-name Specifies the class of the object whose profile is to be modified. By default, the command assumes the object class is FILE.
41.2.7 /CONFIRM
Controls whether SET SECURITY prompts for verification before performing the operation. Valid responses are YES, NO, TRUE, and FALSE. Answers are not case sensitive and can be abbreviated to one letter. To stop processing the command at any point, type QUIT or press Ctrl/Z. To cancel the verification procedure but to proceed with the command, type ALL.
41.2.8 /COPY_ATTRIBUTE
/COPY_ATTRIBUTE=(keyword[,...]) Specifies a subset of security elements to transfer from a source object to a target object. Valid keywords include the following: Keyword Description ALL Copy all security elements (default) ACL Copy the access control list OWNER Copy the owner PROTECTION Copy the protection code Use the /COPY_ATTRIBUTE qualifier with the /LIKE qualifier. For example, you can create an ACL for an object and then copy its ACL to new objects.
41.2.9 /CREATED
Modifies the time value specified with the /BEFORE or the /SINCE qualifier. The /CREATED qualifier selects files according to the date they were created (rather than by the backup, expiration, or modification date). By default, SET SECURITY selects files according to their creation date.
41.2.10 /DELETE
/DELETE[=ALL] Deletes ACEs according to the following rules: o The expression /ACL=aces/DELETE deletes the named ACEs. o The expression /ACL/DELETE deletes all unprotected ACEs. o The expression /ACL/DELETE=ALL deletes all ACEs including protected ACEs. o The expression /ACL=aces/DELETE=ALL deletes the existing ACL (if any) and create a new ACL with the ACEs specifies on the /ACL qualifier.
41.2.11 /DEFAULT
Regenerates the security profile of a file. The default qualifier changes the protection code, the ACL, and the owner elements of a file to what it would be if the file had just been created. The profile is recreated according to the following rules: o The protection code is propagated from the default protection ACE on the directory (if one exists), or else it is propagated from the process default. o The ACL is propagated from the parent directory for those ACEs that have the default option. o The owner is set to the owner of the parent directory. With subdirectory files, SET SECURITY assigns the owner, protection, and ACL elements of the parent directory. SET SECURITY does not copy any ACE on the source object if the ACE holds the nopropagate attribute nor does it change any ACE on the target object if the ACE holds the protected attribute. To apply new elements to all versions of the file, specify ;* in the object name. See the VSI OpenVMS Guide to System Security for more information on propagation rules.
41.2.12 /EDIT
Invokes the access control list editor (ACL editor) and allows you to modify an ACL interactively. The ACL editor does not allow the asterisk (*) and the percent sign (%) wildcard characters in an object name. You must specify the object whose ACL you are editing. The /EDIT qualifier must be the first qualifier on the command line; other qualifiers can include /CLASS and, if the class is SECURITY_CLASS, you can include the /PROFILE qualifier. Whenever an object does not belong to the FILE class, you also need to specify /CLASS. See the ACL editor in the VSI OpenVMS System Management Utilities Reference Manual for more information.
41.2.13 /EXCLUDE
/EXCLUDE=(filespec[,...]) Excludes the specified files from the SET SECURITY operation. You can include a directory, but not a device, in the file specification. You cannot use relative version numbers to exclude a specific version.
41.2.14 /EXPIRED
Modifies the time specified with the /BEFORE or the /SINCE qualifier. The /EXPIRED qualifier selects files according to their expiration dates rather than by the backup, creation, or modification date. (The expiration date is set with the SET FILE/EXPIRATION_DATE command.) By default, files are selected according to their creation date.
41.2.15 /LIKE
/LIKE=(NAME=source-object-name [,CLASS=source-object-class] [,PROFILE=TEMPLATE=template-name]) Identifies the object from which SET SECURITY should copy security elements. The /LIKE qualifier replaces an object's existing elements with those of the source object. Nopropagate ACEs are not transferred and protected ACEs on the target object are not deleted. Use the /COPY_ATTRIBUTE qualifier with the /LIKE qualifier to copy an object's elements. See the VSI OpenVMS Guide to System Security for information about the special handling of protected and nopropagate ACEs. The object class of the source object defaults to the class of the target object. When the /CLASS qualifier is omitted, the CLASS keyword defaults to FILE. The PROFILE keyword applies to security class objects. It identifies which template of the security class you want to copy and modify. See /PROFILE for more information.
41.2.16 /LOG
Controls whether the SET SECURITY command displays the name of the object that has been modified by the command. The qualifier is invalid with the /EDIT qualifier.
41.2.17 /MODIFIED
Modifies the time value specified with the /BEFORE or the /SINCE qualifier. The /MODIFIED qualifier selects files according to the dates on which they were last modified, rather than by the backup, creation, or expiration date. By default, files are selected according to their creation date.
41.2.18 /OWNER
/OWNER=identifier Requires GRPPRV (group privilege) to set the owner to another member of the same group. Requires SYSPRV (system privilege) to set the owner to any user identification code (UIC) outside your group. Modifies the owner element of an object. Specify the user identification code (UIC) or general identifier in the standard format. Modifying the owner element of a file usually requires privileges. See the VSI OpenVMS Guide to System Security for more information.
41.2.19 /PROFILE
/PROFILE=TEMPLATE[=template-name] Identifies which template profile of a security class object you want to modify. All object classes except FILE have at least one template profile. These template profiles define the basis of the profile of new objects. Use the DCL command SHOW SECURITY/CLASS=SECURITY_CLASS to display template names. When no value is given for template-name, SET SECURITY uses the template named DEFAULT. Include the /CLASS=SECURITY_CLASS qualifier to identify which profile you want to modify.
41.2.20 /PROTECTION
/PROTECTION=(ownership[:access][,...]) Cannot be used to change the protection on a file by using DECnet software. Modifies the protection code of an object. The protection code defines the type of access allowed to users, based on their relationship to the object's owner. Specify the ownership parameter as system (S), owner (O), group (G), or world (W). Access types are class specific and are shown in the following table. For access, use the first letter of the access name. Object Class Access Types CAPABILITY (VAX Use, Control only) COMMON_EVENT_FLAG_ Associate, Delete, Control CLUSTER DEVICE Read, Write, Physical, Logical, Control FILE (including Read, Write, Execute, Delete, Control directory file) GROUP_GLOBAL_ Read, Write, Execute, Control SECTION LOGICAL_NAME_TABLE Read, Write, Create, Delete, Control QUEUE Read, Submit, Manage, Delete, Control RESOURCE_DOMAIN Read, Write, Lock, Control SECURITY_CLASS Read, Write, Control, Logical I/O, Physical I/O SYSTEM_GLOBAL_ Read, Write, Execute, Control SECTION VOLUME Read, Write, Create, Delete, Control
41.2.21 /REPLACE
/REPLACE=(ace[,...]) Eliminates entries listed with the /ACL qualifier and adds entries listed with the /REPLACE qualifier. SET SECURITY inserts the entries listed with /REPLACE in the position of the last deleted ACE.
41.2.22 /SECRECY
Reserved for use by VSI.
41.2.23 /SINCE
/SINCE[=time] Selects only those files dated on or after the specified time. You can specify time as absolute time, as a combination of absolute and delta times, or as one of the following keywords: BOOT, JOB_LOGIN, LOGIN, TODAY (default), TOMORROW, or YESTERDAY. Specify the /CREATED or the /MODIFIED qualifier to indicate the time attribute to be used as the basis for selection. The /CREATED qualifier is the default. For complete information on specifying time values, see the OpenVMS User's Manual or the online help topic Date.
41.2.24 /STYLE
/STYLE=keyword Specifies the file name format for display purposes. The valid keywords for this qualifier are CONDENSED and EXPANDED. Descriptions are as follows: Keyword Explanation CONDENSED Displays the file name representation of what is (default) generated to fit into a 255-length character string. This file name may contain a DID or FID abbreviation in the file specification. EXPANDED Displays the file name representation of what is stored on disk. This file name does not contain any DID or FID abbreviations. The keywords CONDENSED and EXPANDED are mutually exclusive. This qualifier specifies which file name format is displayed in the output message, along with the confirmation if requested. File errors are displayed with the CONDENSED file specification unless the EXPANDED keyword is specified. See the VSI OpenVMS System Manager's Manual, Volume 1: Essentials for more information.
41.2.25 /SYMLINK
/SYMLINK=keyword The valid keywords for this qualifier are [NO]WILDCARD and [NO]ELLIPSIS. Descriptions are as follows: Keyword Explanation WILDCARD Indicates that symlinks are enabled during wildcard searches. NOWILDCARD Indicates that symlinks are disabled during directory wildcard searches. ELLIPSIS Equivalent to WILDCARD (included for command symmetry). NOELLIPSIS Indicates that symlinks are matched for all wildcard fields except for ellipsis. If the file named in the SET SECURITY command is a symlink, the command operates on the symlink itself.
41.3 – Examples
1.$ SHOW SECURITY LNM$GROUP /CLASS=LOGICAL_NAME_TABLE LNM$GROUP object of class LOGICAL_NAME_TABLE Owner: [SYSTEM] Protection: (System: RWCD, Owner: R, Group: R, World: R) Access Control List: (IDENTIFIER=[USER,VARANESE],ACCESS=CONTROL) $ SET SECURITY LNM$GROUP /CLASS=LOGICAL_NAME_TABLE - _$ /ACL=((IDENTIFIER=CHEKOV,ACCESS=CONTROL), - _$ (IDENTIFIER=WU,ACCESS=READ+WRITE)) - _$ /DELETE=ALL - _$ /PROTECTION=(S:RWCD, O:RWCD, G:R, W:R) $ SHOW SECURITY LNM$GROUP /CLASS=LOGICAL_NAME_TABLE LNM$GROUP object of class LOGICAL_NAME_TABLE Owner: [SYSTEM] Protection: (System: RWCD, Owner: RWCD, Group: R, World: R) Access Control List: (IDENTIFIER=[USER,CHEKOV],ACCESS=CONTROL) (IDENTIFIER=[USER,WU],ACCESS=READ+WRITE) This example shows how to make a straightforward change to the security elements of an object. The first SHOW SECURITY command displays the current settings of the LNM$GROUP logical name table. The SET SECURITY command resets the ACL to allow control access for user Chekov, and to allow read and write access for user Wu. Note that without the /DELETE=ALL qualifier, these ACEs would have been added to the existing ACL rather than superseding it. The protection is also changed to allow read, write, create, and delete access for the owner. The last command displays the results of the changes. 2.$ SHOW SECURITY LNM$GROUP /CLASS=LOGICAL_NAME_TABLE LNM$GROUP object of class LOGICAL_NAME_TABLE Owner: [SYSTEM] Protection: (System: RWCD, Owner: R, Group: R, World: R) Access Control List: (IDENTIFIER=[USER,FERNANDEZ],ACCESS=CONTROL) $ SHOW SECURITY LNM$JOB /CLASS=LOGICAL_NAME_TABLE LNM$JOB object of class LOGICAL_NAME_TABLE Owner: [USER,WEISS] Protection: (System: RWCD, Owner: RWCD, Group, World) Access Control List: <empty> $ SET SECURITY LNM$JOB /CLASS=LOGICAL_NAME_TABLE - _$ /LIKE=(NAME=LNM$GROUP, CLASS=LOGICAL_NAME_TABLE) - _$ /COPY_ATTRIBUTES=PROTECTION $ SET SECURITY LNM$JOB /CLASS=LOGICAL_NAME_TABLE - _$ /ACL=(IDENTIFIER=FERNANDEZ, ACCESS=READ) $ SHOW SECURITY LNM$JOB /CLASS=LOGICAL_NAME_TABLE LNM$JOB object of class LOGICAL_NAME_TABLE Owner: [USER,WEISS] Protection: (System: RWCD, Owner: R, Group: R, World: R) Access Control List: (IDENTIFIER=[USER,FERNANDEZ],ACCESS=READ) This example shows how to copy security access information from one object to another and, at the same time, set some elements explicitly. The first SHOW SECURITY commands display the current settings for the LNM$GROUP and LNM$JOB logical name tables. The SET SECURITY command copies the protection code from the LNM$GROUP logical name table to the LNM$JOB logical name table and adds an ACE to allow read access to another user. The final SHOW SECURITY command shows the effect of the changes. 3.$ SHOW SECURITY SECURITY_CLASS /CLASS=SECURITY_CLASS SECURITY_CLASS object of class SECURITY_CLASS Owner: [SYSTEM] Protection: (System: RWED, Owner: RWED, Group: R, World: R) Access Control List: <empty> Template: DEFAULT Owner: [SYSTEM] Protection: (System: RWED, Owner: RWED, Group, World: RE) Access Control List: <empty> $ SET SECURITY SECURITY_CLASS /CLASS=SECURITY_CLASS - _$ /PROFILE=TEMPLATE=DEFAULT - _$ /PROTECTION=(S:RWE, O:RWE, G:RE) $ SHOW SECURITY SECURITY_CLASS /CLASS=SECURITY_CLASS SECURITY_CLASS object of class SECURITY_CLASS Owner: [SYSTEM] Protection: (System: RWED, Owner: RWED, Group: R, World: R) Access Control List: <empty> Template: DEFAULT Owner: [SYSTEM] Protection: (System: RWE, Owner: RWE, Group: RE, World: RE) Access Control List: <empty> This example demonstrates how to change the security elements for the template of a security class object. The first command shows the current settings for the SECURITY_CLASS object. The second command changes the DEFAULT template of the SECURITY_ CLASS object such that the protection is (S:RWE, O:RWE, G:RE). The change is shown in the display of the last command. The world protection of RE remains unchanged. 4.$ DIRECTORY/SECURITY Directory DKA200:[DATA] FILE001.DAT;1 [SYSTEM] (RWED,RWED,RE,) Total of 1 file. $ SET SECURITY/CLASS=FILE/PROTECTION=(WORLD:RE)/LOG FILE001.DAT %SET-I-MODIFIED, DKA200:[DATA]FILE001.DAT;1 modified $ DIRECTORY/SECURITY Directory DKA200:[DATA] FILE001.DAT;1 [SYSTEM] (RWED,RWED,RE,RE) Total of 1 file. $ This example shows how to set UIC-based protection codes on an object. The first DIRECTORY command displays the current security settings on the file FILE001.DAT. The SET SECURITY command changes the protection codes on the file to allow read and execute access for all users. The last command displays the results of the change.
42 – SERVER
42.1 – ACME_SERVER
Valid for Alpha and Integrity server systems only. Controls the ACME server. Requires SYSPRV privilege. Format SET SERVER ACME_SERVER
42.1.1 – Qualifiers
42.1.1.1 /ABORT
Forces the ACME_SERVER process to terminate without graceful shutdown of ACME agents. Pending requests are cancelled. This command can be used if a malfunctioning ACME agent prevents a graceful shutdown.
42.1.1.2 /CANCEL
Cancels pending dialogue requests. Pending dialogue requests are outstanding requests to SYS$ACM callers to supply dialogue response data. Active requests being serviced by the ACME_SERVER process are allowed to complete normally. Can be used only if the /EXIT or /DISABLE qualifier is also specified.
42.1.1.3 /CLUSTER
Issues the SET command to each ACME server in the cluster.
42.1.1.4 /CONFIGURE
/CONFIGURE=(NAME=name [,CREDENTIALS=credentials] [,FACILITY=facility] [,FILE=file] [,THREAD_MAX=n][,...]) Dynamically loads an ACME agent. An ACME agent is a shareable image that conforms to the ACME agent plug-in interface specification. By default, the ACME server looks for an ACME agent file named prefix$name_ACMESHR.EXE, where the prefix is VMS by default and name is the case-insensitive string specified by the NAME keyword. The prefix can be overridden by the FACILITY keyword. Otherwise, a complete file specification can be specified with the FILE keyword. You must specify the CREDENTIALS keyword if the ACME agent is a domain of interpretation (DOI) agent capable of authenticating users and issuing credentials. The CREDENTIALS keyword specifies the name of the persona extension associated with the ACME agent (see the $PERSONA_EXTENSION_LOOKUP system service). The credentials name must match the name registered by the executive loadable image that implements the persona extension. For credentials other than "VMS", see the documentation provided for the ACME agent and the specific persona extension. A maximum of eight ACME agents can be configured. THREAD_MAX Keyword: Usage Considerations An ACME server worker thread is the authentication request processing thread of execution. The number of worker threads determines the number of authentication requests the ACME server can process simultaneously. The ACME server assigns a request slot to each in-progress authentication request. The total number of request slots sets a limit on the maximum number of requests the ACME server can have outstanding. The ACME server limits the number of unprivileged authentication requests it can accept for processing to half the total number of request slots. If a process makes a call to $ACM and no request slots are available, the process remains in resource wait state until a request slot becomes free. The number of ACME server worker threads can range from 1 to 32. The default of 4 satisfies most operating environments in which authentication processing time is largely spent waiting for I/O. You may, however, be able to improve throughput by increasing the number of worker threads if, for example, you have a user-written ACME agent that requires more CPU time than most. You can set the maximum number of ACME server worker threads before you start or restart the server by defining the inner-mode logical name ACME$THREAD_MAXIMUM in the system-wide logical name table. For example: $ DEFINE/SYSTEM/EXECUTIVE_MODE ACME$THREAD_MAXIMUM 8 You can also use the CONFIGURE qualifier to set the maximum number of server worker threads before you enable the ACME server. For example: $ SET SERVER ACME /CONFIGURE=THREAD_MAX=6 The CONFIGURE qualifier overrides the value of the ACME$THREAD_ MAXIMUM logical, if it is defined. Because most authentication processing is I/O bound, defining more threads than about one quarter the number of request slots does not gain more throughput. The ACME server calculates a default number of request slots from the value of MAXPROCESSCNT and the number of available CPUs. You can override the calculated value by defining the inner-mode logical name ACME$REQUEST_MAXIMUM in the system-wide name table before you start or restart the ACME server. For example: $ DEFINE /SYSTEM /EXECUTIVE_MODE ACME$REQUEST_MAXIMUM 64 $ SET SERVER ACME /RESTART
42.1.1.5 /DISABLE
Disables (shuts down) all ACME agents. Additional ACME agents can be configured.
42.1.1.6 /ENABLE
/ENABLE[=NAME=(name[,...])] Enables one or more ACME agents in the specified order. Ordering of ACME agents is significant, as the ACME_SERVER processes user authentication requests in the order specified. The name variable is a case-insensitive string argument. If you do not specify the NAME keyword, the same list of ACME agents will be enabled that were enabled by a previous /ENABLE command. If no previous /ENABLE command was issued, all configured ACME agents are enabled.
42.1.1.7 /EXIT
Requests a graceful shutdown of the ACME agents. The ACME_SERVER process will be shut down after pending requests are completed.
42.1.1.8 /LOG
/LOG /NOLOG (default) Creates and opens a new log file. The log file is named SYS$MANAGER:ACME$SERVER.LOG. It may be redirected by defining the system logical name ACME$SERVER.
42.1.1.9 /NODE
/NODE=(node-name[,...]) Issues the SET command to the ACME server on the specified nodes in the order they are entered. The node names must be located within the current cluster.
42.1.1.10 /RESTART
Requests a graceful shutdown of the ACME agents. The ACME_SERVER process will be shut down after pending requests are completed. The ACME_SERVER is restarted and the SYS$MANAGER:ACME$START.COM startup procedure runs.
42.1.1.11 /RESUME
Resumes normal operation following use of the /SUSPEND qualifier.
42.1.1.12 /START
/START[=AUTO] /START cannot be used with the /ABORT, /EXIT, or /RESTART qualifiers. Starts the server process. The optional keyword, AUTO, causes the server to startup and configure itself using the SYS$MANAGER:ACME$START.COM procedure. By default, the server starts with only the OpenVMS ACME agent configured. The following options are available: To change the default privileges: /PRIVILEGES=(privilege[,...]) To change the default UIC: /UIC=uic To change the default quotas: /AST_LIMIT=n /BUFFER_LIMIT=n /ENQUEUE_LIMIT=n /EXTENT=n /FILE_LIMIT=n /IO_BUFFERED=n /IO_DIRECT=n /JOB_TABLE_QUOTA=n /MAXIMUM_WORKING_SET=n /PAGE_FILE=n /QUEUE_LIMIT=n /SUBPROCESS_LIMIT=n /WORKING_SET=n You can use the following alternate syntax to specify a list of quotas and their values: /QUOTAS=(quota=n[,...]) quota is a PQL-style quota name (for example: ASTLM, BIOLM) See the $CREPRC system service in the VSI OpenVMS System Services Reference Manual for a list of PQL-style quota names and descriptions. To change the image dump setting: /DUMP (default) /NODUMP Forces a process dump in the event of an abnormal process termination. The dump is written to SYS$MANAGER: using the image filename and .DMP extension.
42.1.1.13 /SUSPEND
Suspends operation after all pending requests are completed. ACME agents are returned to their initial state (open files are closed, for example). This permits system management functions, such as system backups, to be performed without file-open conflicts. See also the /RESUME qualifier.
42.1.1.14 /TRACE
/TRACE=n /NOTRACE Enables trace mode in the ACME$SERVER log file. Opens the log file if not already opened. n is a bit-mask with the following assigned bits: 0 agent Enable agent tracing 1 general General (non-specific) tracing 2 vm VM operations 3 ast AST processing 4 wqe WQE parameter values 5 report Agent status/attributes operations 6 message Messaging operations 7 dialogue Dialogue operations 8 resource Agent resource operations 9 callout Agent callout routine 10 callout_status Agent callout return status If you specify /NOTRACE, trace mode is disabled and the log file remains open.
42.1.1.15 /WAIT
/WAIT /NOWAIT (default) Returns to caller once the server returns a status other than ACME$_BUSY. Can only be used with /EXIT, /DISABLE, and /SUSPEND qualifiers.
42.1.2 – Examples
1.$ SET SERVER ACME_SERVER/START/LOG This command starts the ACME server and creates and opens a new log file. 2.$ SET SERVER ACME_SERVER/DISABLE/WAIT/CANCEL This command disables all configured ACME agents, cancelling all requests in progress. Control does not return to the DCL command prompt until the ACME server has completed the cancellations. 3.$ SET SERVER ACME_SERVER/CONFIGURE=(NAME=VMS,CREDENTIALS=VMS) This command loads the VMS ACME agent and identifies its credentials as VMS.
42.2 – REGISTRY_SERVER
Valid for Alpha and Integrity server systems only. Controls the Registry server. Requires SYSPRV privilege. Format SET SERVER REGISTRY_SERVER
42.2.1 – Qualifiers
42.2.1.1 /ABORT
Aborts the Registry server on the specified node or nodes in the cluster. Cannot be used with the /EXIT, /RESTART, or /START qualifiers.
42.2.1.2 /CLUSTER
Issues the SET command to each Registry server in the cluster, setting the Registry master server last. Cannot be used with the /MASTER or /NODE qualifiers.
42.2.1.3 /EXIT
Stops the Registry server on the specified node or nodes in the cluster. Cannot be used with the /ABORT, /RESTART, or /START qualifiers.
42.2.1.4 /LOG
/LOG /NOLOG (default) Closes the current Registry server log file and creates a new file.
42.2.1.5 /MASTER
Requires SYSLCK privilege. Issues the command to the Registry master server only. Cannot be used with the /CLUSTER, /NODE, or /START qualifiers.
42.2.1.6 /NODE
/NODE=(node-name[,...]) Issues the SET command to the Registry servers on the specified nodes in the order they are entered. The node names must be within the current cluster. Cannot be used with the /CLUSTER or /MASTER qualifiers.
42.2.1.7 /RESTART
Restarts the Registry server on the specified node or nodes in the cluster. Cannot be used with the /ABORT, /EXIT, or /START qualifiers.
42.2.1.8 /START
/START cannot be used with the /ABORT, /EXIT, or /RESTART qualifiers. Starts the server process. The following options are available: To change the default privileges: /PRIVILEGES=(privilege[,...]) To change the default UIC: /UIC=uic To change the default quotas: /AST_LIMIT=n /BUFFER_LIMIT=n /ENQUEUE_LIMIT=n /EXTENT=n /FILE_LIMIT=n /IO_BUFFERED=n /IO_DIRECT=n /JOB_TABLE_QUOTA=n /MAXIMUM_WORKING_SET=n /PAGE_FILE=n /QUEUE_LIMIT=n /SUBPROCESS_LIMIT=n /WORKING_SET=n You can use the following alternate syntax to specify a list of quotas and their values: /QUOTAS=(quota=n[,...]) quota is a PQL-style quota name (for example: ASTLM, BIOLM) See the $CREPRC system service in the VSI OpenVMS System Services Reference Manual for a list of PQL-style quota names and descriptions. To change the image dump setting: /DUMP /NODUMP (default) Forces a process dump in the event of an abnormal process termination. The dump is written to SYS$MANAGER: using the image filename and .DMP extension.
42.2.2 – Examples
1.$ SET SERVER REGISTRY_SERVER/RESTART/MASTER This command restarts the detached Registry server on the master server. 2.$ SET SERVER REGISTRY_SERVER/LOG/CLUSTER This command closes the current log files and opens new files on all systems across the cluster. 3.$ SET SERVER REGISTRY_SERVER/EXIT/NODE=(KAKADU,CAIRNS) This command stops the detached Registry server process on nodes KAKADU and CAIRNS.
42.3 – SECURITY_SERVER
Controls the Security server. Requires SYSPRV privilege. Format SET SERVER SECURITY_SERVER
42.3.1 – Qualifiers
42.3.1.1 /EXIT
Stops the detached security server process. /EXIT cannot be used with any other qualifier.
42.3.1.2 /RESTART
Restarts the detached security server process. /RESTART cannot be used with any other qualifier.
42.3.1.3 /START
Starts the detached security server process. /START cannot be used with any other qualifier.
42.3.2 – Examples
1.$ SET SERVER SECURITY_SERVER/EXIT This command stops the detached security server process. 2.$ SET SERVER SECURITY_SERVER/RESTART This command restarts the detached security server process.
43 – SHADOW
Valid for Alpha and Integrity server systems only. Changes the characteristics of shadow sets created using Volume Shadowing for OpenVMS. For more information about volume shadowing, see the VSI Volume Shadowing for OpenVMS manual. Requires SYSPRV privilege. NOTE The following qualifiers are used exclusively to manage host-based minimerge (HBMM) operations and do not apply to other operations: /DELETE /DISABLE /ENABLE /NAME /POLICY If you specify any other (non-HBMM) qualifiers in a command that includes HBMM qualifiers, the command will fail. For more information about HBMM, see the VSI Volume Shadowing for OpenVMS manual. Format SET SHADOW [device-name[:]]
43.1 – Parameter
device-name[:] Specifies the name of a shadow set (DSAn:) or shadow set member (ddcu:), depending on the command qualifiers (see parameter formats specified in some qualifier descriptions). For most qualifiers that take a shadow set (DSAn:) as a parameter the /ALL qualifier can be used in place of the shadow set name to indicate that the requested action applies to all shadow sets on the system. (Exceptions are noted in the description of /ALL.)
43.2 – Description
The SET SHADOW command and its qualifiers are designed to give the user greater control over the behavior of shadow sets. These commands act upon the shadow set (also known as the virtual unit) or, in some cases, on the individual shadow set member that you specify. Unless otherwise noted, the qualifier settings typically remain in effect until they are changed using either the SET SHADOW or SET DEVICE command or until the shadow set or shadow set member is dismounted. If the shadow set is remounted or a shadow set member is returned to the shadow set from which it was dismounted, the settings must be specified again. Some SET SHADOW qualifiers also can be specified using the SET DEVICE command, where they have the same effect. However, if your focus is on changing characteristics of shadow sets, the SET SHADOW command provides more options.
43.3 – Qualifiers
43.3.1 /ABORT_VIRTUAL_UNIT
/ABORT_VIRTUAL_UNIT DSAn: /ABORT_VIRTUAL_UNIT /ALL Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Aborts mount verification on the specified shadow set or on all shadow sets in mount verification on the system. Use this qualifier when you know that the unit cannot be recovered. When you use this qualifier, the shadow set must be in mount verification. The shadow set aborts mount verification immediately on the system from which the command is issued. If the shadow set is not in mount verification, this command returns the error %SYSTEM-E-UNSUPPORTED, unsupported operation or function. After this command completes, the shadow set still must be dismounted. Use the following command to dismount the shadow set: $ DISMOUNT/ABORT/OVERRIDE=CHECKS DSAn:
43.3.2 /ALL
Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Causes the command to operate on all shadow sets that are mounted on the system from which the command is issued. /ALL can be used instead of DSAn: in most commands that take a shadow set device specification as a parameter. Exceptions are /DEMAND_MERGE, /DELETE, and /EVALUATE=RESOURCES. /ALL also cannot be specified with /POLICY or any qualifier that operates only on individual shadow set members (for example, /MEMBER_TIMEOUT and /FORCE_REMOVAL).
43.3.3 /CONFIRM
/CONFIRM /NOCONFIRM (default) Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Specifies whether a query is made before each merge operation to confirm that the operation should be performed on the designated shadow set. This qualifier can be used only in conjunction with the /DEMAND_ MERGE qualifier. The following responses are valid in response to the query: o Affirmative: YES, TRUE, or 1 o Negative: NO, FALSE, 0 (zero), or pressing the Return key. o End the process: QUIT or Ctrl/Z o When you enter ALL, the command continues to process, but no further prompts are given. You can enter word responses in uppercase or lowercase letters, and words can be abbreviated to one or more letters. If you enter an illegal response, DCL redisplays the prompt. (See the SET SHADOW examples.)
43.3.4 /COPY_SOURCE
/COPY_SOURCE ddcu: /COPY_SOURCE DSAn: /COPY_SOURCE /ALL Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Specifies which source member of a shadow set to use as the source for read data during full copy operations when a third member is added to a shadow set that contains two full members. This qualifier affects only those copy operations that do not use disk copy data (DCD) commands. The source specified by this qualifier persists until the shadow set is dismounted. Some storage controllers, such as the HSG80, have a read-ahead cache, which significantly improves a device's read performance. Copy operations normally alternate reads between the two source members, which effectively nullifies the benefits of the read- ahead cache. This qualifier lets you force all reads from a single, specified source member for the duration of a copy operation. In addition to improving copy performance, /COPY_SOURCE can be used to prevent read operations from a specific shadow set member that is considered unreliable. By specifying only the healthy shadow set member, the copy operations can continue to completion. The unreliable shadow set member can be removed once the copy operation completes successfully. If a shadow set (DSAn:) is specified, all reads for full copy operations are performed from the device that is the current "master" member, regardless of the physical location of that device. If a shadow set member (ddcu:) is specified, that member is used as the read source for all copy operations. This setting allows you to choose any source member. For example, you can choose a source member that is at the same site as the member being added, rather than using a master member that is not at the same site. If /ALL is specified, all reads for full copy operations on all currently mounted virtual units are performed from the master member.
43.3.5 /DELETE
/DELETE DSAn: /DELETE /NAME Note: This qualifier applies to HBMM operations only. If you specify any non-HBMM qualifiers with this one, the command will fail. Used in conjunction with /POLICY=HBMM, /DELETE removes a host- based minimerge (HBMM) policy from a specified shadow set, or deletes an HBMM named policy from the entire cluster. For example, the following command removes the policy that is currently associated with shadow set DSA1: $ SET SHADOW /DELETE DSA1 /POLICY=HBMM In contrast, the following command removes COMPANY_POLICY from the cluster: $ SET SHADOW /DELETE /NAME=COMPANY_POLICY /POLICY=HBMM You cannot delete the NODEFAULT policy. You cannot specify /ALL with /DELETE.
43.3.6 /DEMAND_MERGE
/DEMAND_MERGE DSAn: Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Initiates a merge operation on the specified shadow set. This qualifier is useful if the shadow set was created with the INITIALIZE/SHADOW command without the use of the /ERASE qualifier. For more information about using /DEMAND_MERGE, see the VSI Volume Shadowing for OpenVMS manual. You cannot specify /ALL with /DEMAND_MERGE. An OPCOM message is displayed for each shadow set indicating that a demand merge has been invoked and recording the process ID (PID) of the process that executed the command. For example: %%%%%%%%%%% OPCOM 9-MAR-2004 10:35:23.24 %%%%%%%%%%% Message from user SYSTEM on NODE1 Demand Merge requested for _DSA721:, PID: 2760009A
43.3.7 /DISABLE
/DISABLE=HBMM DSAn: /DISABLE=HBMM /ALL /DISABLE=SPLIT_READ_LBNS Disables host-based minimerge (HBMM) on the specified shadow set or clusterwide on all shadow sets. /DISABLE=SPLIT_READ_LBNS disables the split behavior of logical block numbers and as a result the reads are alternated between the source shadow set members having the same read_cost and device queue length.
43.3.8 /ENABLE
/ENABLE=HBMM /ENABLE=SPLIT_READ_LBNS /ENABLE=HBMM enables host-based minimerge (HBMM) on the specified shadow set or across the entire cluster if an applicable HBMM policy exists. This value applies to HBMM operations only. If you specify any non-HBMM qualifiers with this value, the command will fail. /ENABLE=SPLIT_READ_LBNS logically divides the shadow set members having the same read cost into equal groups of Logical Block Numbers (LBNs). When a virtual unit performs a read, it does so by reading from the corresponding LBN group. This results in the maximum usage of the controller read-ahead cache. To learn more about HBMM policies and their application, see the VSI Volume Shadowing for OpenVMS manual.
43.3.9 /EVALUATE
/EVALUATE=RESOURCES Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Forces the system to evaluate whether it should act on most shadow copy and merge operations currently being managed on the system. It cancels most operations and then, based on the value of system parameter SHADOW_MAX_COPY and the copy/merge priority of each shadow set), it evaluates the order in which the pending copies and merges should be restarted. RESOURCES is the only supported value for /EVALUATE, and it must be included. /EVALUATE does not apply to MSCP-based minimerge operations. MSCP-based minimerge operations are not subject to cancellation and restart by /EVALUATE. This command is intended to be used after changing the value of the dynamic system parameter SHADOW_MAX_COPY or after issuing a SET SHADOW /PRIORITY=n command for a shadow set. After a suitable delay, all available SHADOW_MAX_COPY slots on the system are allocated using the priority list.
43.3.10 /FORCE_REMOVAL
/FORCE_REMOVAL ddcu: /NOFORCE_REMOVAL ddcu: Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Expels the specified shadow set member from the shadow set. The specified device must be a member of a shadow set that is mounted on the system where the command is issued. You cannot specify /ALL with /FORCE_REMOVAL. If connectivity to a device has been lost and the shadow set is in mount verification, this qualifier causes the member to be expelled from the shadow set immediately. If the shadow set is not currently in mount verification, no immediate action is taken. If connectivity to a device has been lost but the shadow set is not in mount verification, this qualifier lets you flag the member to be expelled from the shadow set as soon as the shadow set enters mount verification. If no action has been taken on the specified member and you wish to clear the flag, use /NOFORCE_REMOVAL. If the shadow set is dismounted before the member is expelled, the FORCE_REMOVAL request expires.
43.3.11 /LOG
Instructs the volume shadowing software to Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. display a brief message confirming that the SET SHADOW command completed. If /OUTPUT is also specified, this information is written to the output file.
43.3.12 /MEMBER_TIMEOUT
/MEMBER_TIMEOUT=n ddcu: Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Specifies the timeout value to be used for a shadow set member. The specified device must be a member of a shadow set that is mounted on the system where the command is issued. The value supplied by this qualifier overrides the system parameter SHADOW_MBR_TMO for this specific device. Each member of a shadow set can be assigned a different MEMBER_TIMEOUT value. The valid range for n is 1 through 16777215 seconds. The timeout value set by /MEMBER_TIMEOUT does not persist after the shadow set is dismounted.
43.3.13 /MVTIMEOUT
/MVTIMEOUT=n DSAn: /MVTIMEOUT=n /ALL Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Specifies the mount verification timeout value to be used for all shadow sets on the cluster or for the shadow set specified by its virtual unit name (DSAn:). The specified shadow set must be mounted on the system where the command is issued. The value supplied by this qualifier overrides the value specified by the system parameter MVTIMEOUT for this specific shadow set. NOTE You cannot change the value of MVTIMEOUT for a system disk. Any attempt to do so results in an error. The valid range for n is 1 through 16777215 seconds. The timeout value set by /MVTIMEOUT does not persist after the shadow set is dismounted.
43.3.14 /NAME
/NAME=policy-name Note: This qualifier applies to HBMM operations only. If you specify any non-HBMM qualifiers with this one, the command will fail. Used with /POLICY=HBMM to define a named host-based minimerge (HBMM) policy or used with /DELETE to delete a policy. The policy is defined clusterwide. See detailed descriptions under /DELETE and /POLICY. Policy names are case insensitive and must consist of from 1 to 64 characters. Only letters, numbers, the dollar sign ($), and the underscore (_) are allowed. If you create a default policy, you must assign it the name DEFAULT. For details about creating and using policy names, see the VSI Volume Shadowing for OpenVMS manual.
43.3.15 /OUTPUT
/OUTPUT=file-name Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Outputs any messages to the specified file.
43.3.16 /POLICY
/POLICY=HBMM[=policy-name] /POLICY=HBMM[=policy-specification] Note: This qualifier applies to HBMM operations only. If you specify any non-HBMM qualifiers with this one, the command will fail. Creates or deletes a policy for host-based minimerge (HBMM). HBMM is the only supported value for the /POLICY qualifier, and it must be included. You can optionally specify a named policy, including DEFAULT, or you can specify NODEFAULT to indicate that the shadow set to which it is applied is not to use HBMM, including any DEFAULT policy. For details about specifying policies and using the DEFAULT and NODEFAULT policy names, see the VSI Volume Shadowing for OpenVMS manual. When /POLICY is specified with /DELETE, it removes either a specified HBMM named policy or the HBMM policy for a specific shadow set. You cannot delete the NODEFAULT policy. When /POLICY is specified with /NAME, it defines a clusterwide named policy. When no qualifiers other than /NAME or /DELETE are specified, /POLICY defines a policy for a specific shadow set. Deleting bitmaps with the DELETE/BITMAP command causes a bitmap to be deleted. However, the shadowing software recognizes this condition and starts a new bitmap immediately. To disable HBMM bitmaps, you have to use the command SET SHADOW/DISABLE=HBMM. When defining a policy, you use five keywords (MASTER_LIST, COUNT, RESET_THRESHOLD, MULTIUSE, and DISMOUNT) to control the placement and management of HBMM bitmaps. An HBMM policy specification consists of a list of these keywords enclosed within parentheses. Only the MASTER_LIST keyword is required. If COUNT and RESET_THRESHOLD are omitted, default values are applied. The MULTIUSE and DISMOUNT keywords specify the number of bitmaps to be converted to multiuse bitmaps during the automatic and manual removal of members respectively. If MULTIUSE is omitted, then automatic minicopy on volume processing is not enabled. As a result, no HBMM bitmap is converted to multiuse bitmap. If DISMOUNT is omitted, only a maximum of 6 HBMM bitmaps can be used as multiuse bitmaps. o MASTER_LIST=list The MASTER_LIST keyword is used to identify a set of systems as candidates for a master bitmap. The list value can be a single system name; a parenthesized, comma-separated list of system names; or the wildcard character, as shown in the following examples: MASTER_LIST=NODE1 MASTER_LIST=(NODE1,NODE2,NODE3) MASTER_LIST=* When the system list consists of a single system name or the wildcard character, parentheses are optional. An HBMM policy must include at least one MASTER_LIST. Multiple master lists are optional. If a policy has multiple master lists, the entire policy must be enclosed with parentheses, and each constituent master list must be separated by a comma as shown in the following example: (MASTER_LIST=(NODE1,NODE2), MASTER_LIST=(NODE3,NODE4)) There is no significance to the position of a system name in a master list. o COUNT=n The COUNT keyword specifies how many systems in the master list can have master bitmaps. Therefore, the COUNT keyword and its associated MASTER_LIST must be enclosed within a single parenthetical statement. The COUNT value specifies the number of systems on which you want master bitmaps. It does not necessarily mean that the first n systems in the list will be chosen. When the COUNT keyword is omitted, the default value is 6 or the number of systems in the master list, whichever is smaller. You cannot specify more than one COUNT keyword per master list. Examples: (MASTER_LIST=(NODE1,NODE2,NODE3), COUNT=2) (MASTER_LIST=(NODE1,NODE2,NODE3),COUNT=2),(COUNT=2,MASTER_LIST=(NODE4,NODE5,N NODE6)) o RESET_THRESHOLD=n The RESET_THRESHOLD keyword specifies the number of blocks that can be set before the bitmap is eligible to be cleared. Each set bit in a master bitmap corresponds to a set of blocks to be merged, so this value can affect the merge time. Bitmaps are eligible to be cleared when the RESET_THRESHOLD is exceeded. However, the reset is not guaranteed to occur immediately when the threshold is crossed. For more information about choosing a value for this attribute, see the VSI Volume Shadowing for OpenVMS manual. The reset threshold is associated with a specific HBMM policy, so the RESET_THRESHOLD keyword can be defined only once in a policy specification. Because its scope is the entire policy, the RESET_THRESHOLD keyword cannot be specified inside a constituent master list when the policy uses multiple master lists. When the RESET_THRESHOLD keyword is omitted, the value of 1,000,000 is used by default. See the following example: (MASTER_LIST=*, COUNT=4, RESET_THRESHOLD=1000000) Example: The command in the following example defines the HBMM named policy POLICY_2, which has two master lists. Having multiple master lists can be useful in a multiple-site OpenVMS Cluster configuration because a policy can be defined to ensure that at least one surviving system has an HBMM bitmap in the event of an outage at one or more sites. $ SET SHADOW /POLICY=HBMM=( - _$ (MASTER_LIST=(NODE1,NODE2,NODE3), COUNT=2), - _$ (MASTER_LIST=(NODE4,NODE5,NODE6), COUNT=2), - _$ RESET_THRESHOLD=150000) - _$ /NAME=POLICY_2 In a policy with multiple master lists, a given system name can appear in only one master list. A shadow set need not be mounted to have an HBMM policy defined for it. See the SET SHADOW Examples help topic for several more /POLICY examples. For more information about HBMM policies, see the VSI Volume Shadowing for OpenVMS manual. o MULTIUSE=n The MULTIUSE keyword enables automatic minicopy on volume processing. n specifies the number of existing HBMM master bitmaps to be converted to multiuse bitmaps in the event that a shadow set member is removed from the shadow set by the shadowing driver. During a loss of connectivity to a site or controller, shadowing may remove a member from the shadow set. When the member is added back to the shadow set, a full shadow copy occurs. By converting a few of the HBMM bitmaps to multiuse, all writes that are performed to the shadow set are recorded. Thus, when the member is added back to the shadow set, the multiuse bitmap can be used for a minicopy operation. This is much faster than a full copy operation. The value of n cannot exceed the implied or explicit value of COUNT. If MULTIUSE is not specified, then bitmaps are not converted to multiuse and a full copy operation is required. Fatal drive errors that remove a shadow set member do not cause a multiuse conversion as the drive has to be replaced and therefore requires a full copy operation. o DISMOUNT=n The DISMOUNT keyword allows all the 12 write bitmaps to be used by Shadowing as multiuse bitmaps, thereby reducing the single point of failure of single minicopy master bitmaps. n specifies the number of HBMM bitmaps to be converted to multiuse bitmaps every time a member is dismounted from a shadow set with the following command: DISMOUNT/POLICY=MINICOPY
43.3.17 /PRIORITY
/PRIORITY=n DSAn: Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Overrides the current default priority setting. Priorities range from 0 (lowest) to 10000 (highest). The default priority is 5000. A shadow set with a priority of 0 is never considered for a merge or a copy on the system. When a recovery operation (that is, either a merge or a copy) is needed on multiple shadow sets, the shadow sets are recovered in priority order from highest to lowest. The priority setting is system specific; any change in priority made on a single system does not propagate to the entire cluster and does not persist across a system reboot. Once this qualifier has been applied to a virtual unit that is mounted, the setting persists across any subsequent DISMOUNT and MOUNT commands.
43.3.18 /READ_COST
/READ_COST=n ddcu: /READ_COST=n DSAn: /READ_COST=n $n$DGAn: Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Enables you to modify the default cost assigned to each shadow set member (ddcu:). By modifying the assignments, you can bias the reads in favor of one member of a two-member shadow set or, in the case of three-member shadow sets, in favor of one or two members of the set over the remaining members. The device specified must be a shadow set or member of a shadow set that is mounted on the system where the command is issued. The valid range for the specified cost is 1 through 65,535 units. The shadowing driver assigns default READ_COST values to shadow set members when each member is initially mounted. The default value depends on the device type and its configuration relative to the system mounting it. The following list of device types is ordered by the default READ_COST assignments, from the lowest cost to the highest cost: o DECram device o Directly connected device in the same physical location o Directly connected device in a remote location o DECram served device o Default value for other served devices The value supplied by the /READ_COST qualifier overrides the default assignment. The shadowing driver adds the value of the current queue depth of the shadow set member to the READ_COST value and then reads from the member with the lowest value. Different systems in the cluster can assign different costs to each shadow set member. When this qualifier specifies a shadow set (DSAn:) instead of a shadow set member, the /READ_COST qualifier switches the read cost setting for all shadow set members back to the default read cost settings established automatically by the shadowing software. The specified shadow set must be mounted on the system where the command is issued. You cannot specify a value for /READ_COST when you specify /ALL. If the /SITE command qualifier has been specified, the shadowing driver takes site values into account when it assigns default READ_COST values. In order for the shadowing software to determine whether a device is in the category of "directly connected device in a remote location," the /SITE command qualifier must have been applied to both the shadow set and the shadow set member. Reads requested for a shadow set from a system at site 1 are performed from a shadow set member that is also at site 1. Reads requested for the same shadow set from site 2 can read from the member located at site 2.
43.3.19 /RECOVERY_OPTIONS
/RECOVERY_OPTIONS=DELAY_PER_SERVED_MEMBER=n Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Allows the system manager to adjust the rating assigned to a system based on a delay assessed for each MSCP served shadow set member on that system. The value specified by this qualifier overrides the value established by the SHADOW_PSM_RDLY system parameter. The default delay for each MSCP served member is 30 seconds and the valid range for the specified delay is 0 through 65,535 seconds. When a copy or merge operation is needed on a shadow set that is mounted on multiple systems, OpenVMS Volume Shadowing attempts to perform this work on a system that has a local connection to all of the shadow set members. Systems are rated with a penalty (delay time) assessed for each shadow set member that is MSCP served to the system. No delay is added for local members, so a system with all locally accessible shadow set members is likely to perform the work before a system where one or more members is served. IF /ALL is also specified, the specified delay is applied to all currently mounted shadow sets. See the VSI Volume Shadowing for OpenVMS manual for more information.
43.3.20 /RESET_COUNTERS
Note: This qualifier applies to HBMM operations only. If you specify any non-HBMM qualifiers with this one, the command will fail. Resets the shadowing specific counters that are maintained for each shadow set. These counters can be displayed using the SHOW SHADOW command. The counters that are reset to 0 are the following: HBMM Reset Count Copy Hotblocks Copy Collisions SCP Merge Repair Cnt APP Merge Repair Cnt The HBMM Reset Count is a running total of the number of times that the HBMM Reset Threshold was exceeded and therefore, the number of times the bitmaps were reset. (The threshold is set by the RESET_THRESHOLD keyword in the /POLICY qualifier.) For more information, see the VSI Volume Shadowing for OpenVMS.
43.3.21 /SITE
/SITE=n ddcu: /SITE=n DSAn: Note: Do not include any HBMM-specific qualifiers in a command with this qualifier; doing so causes the command to fail. Indicates to the shadowing driver the site location of the specified shadow set (DSAn:) or shadow set member (ddcu:). The SHADOW_SITE_ID system parameter defines the default site location of the shadow set. You can override the default location of the shadow set with the /SITE qualifier. The valid range for the site location, represented by n, is 1 through 255. If /ALL is specified, all virtual units are assigned the new value. The shadow set's member site values remain unchanged. After you apply this qualifier, the setting remains in effect until you change it using a SET SHADOW/SITE command. This qualifier can improve read performance because the member that is physically local to the system will be the preferred disk from which to read, provided that you specify the /SITE qualifier for each shadow set member and for the shadow set. (In a Fibre Channel configuration, shadow set members at different sites are directly attached to the system. For the Volume Shadowing and OpenVMS Cluster software, there is no distinction between local and remote in multiple-site Fibre Channel configurations.)
43.3.22 /STALL
/STALL=WRITES[=nnn] /NOSTALL=WRITES[=nnn] Using /STALL=WRITES[=nnn] qualifier, you can stall the write operations for nnn seconds. nnn is the number of seconds for which you can stop write operations. If no value is specified for nnn, the lock is released after SHADOW_MBR_TMO seconds. The default is SHADOW_MBR_TMO. /NOSTALL=WRITES[=nnn] releases the lock after nnn seconds so that write operations can continue on the shadow set.
43.4 – Examples
1.$ ! Command sequence used on system 1 at site 1: $ MOUNT/SYSTEM DSA0:/SHADOW=($1$DGA0:,$1$DGA1:) TEST $ SET SHADOW/SITE=1 DSA0: $ ! $ ! Command sequence used on system 2 at site 2: $ MOUNT/SYSTEM DSA0:/SHADOW=($1$DGA0:,$1$DGA1:) TEST $ SET SHADOW/SITE=2 DSA0: $ ! $ ! Commands used on both system 1 and system 2: $ SET SHADOW/SITE=1 $1$DGA0: $ SET SHADOW/SITE=2 $1$DGA1: In this example, the system at site 1 will perform reads from $1$DGA0, which is located at that site, while the system at site 2 will perform reads from $1$DGA1, which is located at site 2. 2.$ SET SHADOW DSA1: /POLICY=HBMM= - _$ (MASTER_LIST=(NODE1,NODE2,NODE3), COUNT=2, - _$ RESET_THRESHOLD=75000) This command defines an HBMM policy for shadow set DSA1:. The policy specifies that no more than two systems of the three systems listed can have an HBMM master bitmap. Once 75000 blocks have been modified on DSA1:, any existing HBMM bitmaps are zeroed. 3.$ SET SHADOW /POLICY=HBMM=(MASTER_LIST= - _$ (NODE1,NODE2,NODE3), RESET_THRESHOLD=75000, COUNT=2) - _$ /NAME=HONESTY_IS_BEST This command defines the named policy HONESTY_IS_BEST. This policy is available to all cluster members, but is not applied to any specific shadow set. 4.$ SET SHADOW DSA1: /POLICY=HBMM=HONESTY_IS_BEST This command associates the named policy HONESTY_IS_BEST with shadow set DSA1. 5.$ SET SHADOW /POLICY=HBMM=( - _$ (MASTER_LIST=(NODE1,NODE2,NODE3), COUNT=2), - _$ (MASTER_LIST=(NODE4,NODE5,NODE6), COUNT=2), - _$ RESET_THRESHOLD=150000) - _$ /NAME=POLICY_2 This command defines the HBMM named policy POLICY_2, which has two master lists. 6.$ SET SHADOW DSA2: /POLICY=HBMM=POLICY_2 This command associates the named policy POLICY_2 with shadow set DSA2. 7.$ SET SHADOW /POLICY=HBMM /DELETE /NAME=POLICY_2 This command deletes the named policy POLICY_2. Note that any shadow set that had acquired the attributes of POLICY_ 2 by execution of a SET SHADOW DSAn: /POLICY=HBMM=POLICY_2 command is not affected. Changes made to a named policy are not retroactive to a mounted shadow set that was assigned the characteristics of a previous version of that named policy. 8.$ SET SHADOW DSA1: /POLICY=HBMM /DELETE This command deletes the existing HBMM policy from DSA1:. If this HBMM policy is enabled on DSA1:, you must first execute the following command to disable the policy before you can delete it: $ SET SHADOW DSA1: /DISABLE=HBMM 9.$ SET SHADOW /DEMAND_MERGE/CONFIRM Allow merge of _DSA721:? [N]:y Allow merge of _DSA850:? [N]: TRUE Allow merge of _DSA1010:? [N]:N $ In this example, a merge operation is initiated on DSA721: and DSA850: but not on DSA1010:. 10$ SET SHADOW DSA1/POLICY=HBMM=(MASTER=*,COUNT=12,MULTIUSE=12,DISMOUNT=1) In this example, a policy is set in which all 12 bitmaps can be used as multiuse bitmaps. When you execute the command DISMOUNT/POLICY=MINICOPY, 1 minimerge bitmap is converted to multiuse bitmap. You can use this multiuse bitmap with the MINICOPY command to add the dismounted member back to the shadow set. In other words, it specifies that 12 bitmaps can be used during the automatic and 1 bitmap during the manual removal of the shadow set member. 11$SET SHADOW DSA42 /STALL=WRITES In this example, the writes are stalled to the shadow set for a period of SHADOW_MBR_TMO seconds. 12$SET SHADOW DSA42 /STALL=WRITES=60 In this example, the writes are stalled to the shadow set for a period of 60 seconds. 13$SET SHADOW DSA42 /NOSTALL=WRITES=30 In this example, the writes are allowed to the shadow set after a period of 30 seconds.
44 – SYMBOL
Controls access to local and global symbols in command procedures. Format SET SYMBOL
44.1 – Qualifiers
44.1.1 /ALL
/ALL (default) Specifies that the values of the /SCOPE qualifier pertain both to the translation of the first token on a command line and to general symbol substitution. The /ALL qualifier is incompatible with the /GENERAL or the /VERB qualifier.
44.1.2 /GENERAL
Specifies that the values of the /SCOPE qualifier pertain to the translation of all symbols except the first token on a command line. The /GENERAL qualifier is incompatible with the /ALL or the /VERB qualifier.
44.1.3 /SCOPE
/SCOPE=(keyword,...) Controls access to local and global symbols. Lets you treat symbols as being undefined. Possible keywords are as follows: NOLOCAL Causes all local symbols defined in outer procedure levels to be treated as being undefined by the current procedure and by all inner procedure levels. LOCAL Removes any symbol translation limit set by the current procedure level. NOGLOBAL Causes all global symbols to be inaccessible to the current procedure level and to all inner procedure levels unless otherwise changed. GLOBAL Restores access to all global symbols.
44.1.4 /VERB
Specifies that the values of the /SCOPE qualifier pertain to the translation of the first token on a command line as a symbol before processing only. It does not affect general symbol substitution. NOTE Caution must be used if the SET SYMBOL/VERB/SCOPE command is used more than once in a command procedure. Because DCL uses the translation behavior when looking for a label or subroutine, execution may be different running in one mode than in another. VSI recommends that the SET SYMBOL/VERB/SCOPE command be used once as part of the command procedure setup and left in that mode for the duration of the procedure. The /VERB qualifier is incompatible with the /ALL or the /GENERAL qualifier.
44.2 – Examples
1.$ SET SYMBOL/SCOPE=NOLOCAL In this example, all local symbols defined in outer procedure levels are now undefined for the current procedure level and all inner procedure levels. 2.$ SET SYMBOL/SCOPE=NOGLOBAL In this example, all global symbols are now inaccessible to the current procedure level and all inner procedure levels unless otherwise changed. 3.$ NOW :== SHOW TIME $ ! $ NOW 3-NOV-2001 11:48:58 $ ! $ SET SYMBOL /VERB /SCOPE=NOGLOBAL $ NOW %DCL-W-IVVERB, unrecognized command verb-check validity and spelling \NOW\ $ ! $ SHOW SYMBOL NOW NOW == "SHOW TIME" This example demonstrates the use of the /VERB qualifier. The symbol NOW is assigned to the SHOW TIME command. The next line shows the default behavior, where DCL attempts to translate the first string on the command line (NOW). Because NOW translates to the SHOW TIME command, this is used instead of NOW. The SET SYMBOL command on the next line changes the behavior so that DCL does not attempt a translation. When NOW is subsequently entered, DCL uses the string NOW as the command verb and cannot find it in the command table. This results in the error message. Notice that the scoping of the verb translation has no effect on general symbol translations, as demonstrated by the SHOW SYMBOL command in the example.
45 – TERMINAL
Sets the characteristics of a terminal. Entering a qualifier changes a characteristic; omitting a qualifier leaves the characteristic unchanged. Format SET TERMINAL [device-name[:]]
45.1 – Parameter
device-name[:] Specifies the device name of the terminal. The default is SYS$COMMAND if that device is a terminal. If the device is not a terminal, an error message is displayed.
45.2 – Qualifiers
45.2.1 /ADVANCED_VIDEO
/ADVANCED_VIDEO /NOADVANCED_VIDEO Controls whether the terminal has advanced video attributes and is capable of 132-column video. If the terminal width is set to 132 columns and you specify the /ADVANCED_VIDEO qualifier, the terminal page limit is set to 24 lines. If you specify the /NOADVANCED_VIDEO qualifier, the terminal page limit is set to 14 lines.
45.2.2 /ALTYPEAHD
Causes the terminal driver to create a permanent, alternate type- ahead buffer. The system parameter TTY_ALTYPEAHD determines the size of the type-ahead buffer. To enable /ALTYPEAHD, you must also set the qualifier /TYPE_ AHEAD. You should specify SETTERMINAL/PERMANENT/ALTYPEAHD in SYS$STARTUP:SYSTARTUP_VMS.COM for those communication lines that require this capability. To use this feature interactively, specify SET TERMINAL/PERMANENT/ALTYPEAHD. This specification is effective at your next login.
45.2.3 /ANSI_CRT
/ANSI_CRT (default) /NOANSI_CRT Controls whether the terminal conforms to ANSI CRT programming standards. Because ANSI standards are a proper subset of the DEC_ CRT characteristics, the default for all VT100 family terminals is /ANSI_CRT.
45.2.4 /APPLICATION_KEYPAD
Specifies that the keypad is to be set to application keypad mode, which allows you to enter DCL commands defined with the DEFINE/KEY command. By default, the terminal is set to numeric keypad mode.
45.2.5 /AUTOBAUD
/AUTOBAUD /NOAUTOBAUD Controls whether the terminal baud rate is set when you log in and sets the default terminal speed to 9600. You must press Return two or more times at intervals of at least 1 second for the baud rate to be determined correctly. If you press a key other than Return, the /AUTOBAUD qualifier may detect the wrong baud rate. If this happens, wait for the login procedure to time out before continuing. The /AUTOBAUD qualifier must be used with the /PERMANENT qualifier. The valid baud rates are as follows: 50 150 1800 4800 38400 75 300 2000 7200 57600 110 600 2400 9600 76800 134 1200 3600 19200 115200
45.2.6 /BACKSPACE
/BACKSPACE=keyword Controls how the system responds to the backspace key (Ctrl/H) in line editing mode. There are two possible keywords: o BACKSPACE (default) - The terminal driver returns the user to the beginning of the line. (This is the traditional way OpenVMS has always worked.) o DELETE - The terminal driver interprets the backspace key as a delete character instruction. Note the following exceptions: - If the terminal is set in PASSALL or PASTHRU mode, the backspace key is not interpreted as a delete character instruction. - If the user issues an IO$_READVBLK with IO$M_NOFILTR or IO$_READPBLK, the backspace key is not interpreted as a delete character instruction. You can use SYSGEN to make /BACKSPACE=DELETE the default for all terminals by setting the system parameter TTY_DEFCHAR3 to 16. If the default is set to DELETE, the user can still go to the start of a line by pressing F12 or by entering the following sequence: Ctrl/V Ctrl/H Ctrl/H. If you use SET HOST, both the local node and the remote node must be capable of responding to your definition of the BACKSPACE key.
45.2.7 /BLOCK_MODE
/BLOCK_MODE /NOBLOCK_MODE Controls whether block mode transmission, local editing, and field protection are performed.
45.2.8 /BRDCSTMBX
/BRDCSTMBX /NOBRDCSTMBX Controls whether broadcast messages are sent to an associated mailbox if one exists.
45.2.9 /BROADCAST
/BROADCAST (default) /NOBROADCAST Controls whether reception of broadcast messages (such as those issued by MAIL and REPLY) is enabled. Specify the /NOBROADCAST qualifier when you are using a terminal as a noninteractive device or when you do not want special output to be interrupted by messages. Use the SET BROADCAST command to exclude certain types of messages from being broadcast, rather than eliminating all messages.
45.2.10 /COLOR
Sets the ANSI_COLOR terminal characteristic and identifies the terminal as capable of supporting the ANSI color escape sequences.
45.2.11 /COMMSYNC
/COMMSYNC /NOCOMMSYNC (default) Allows connection of asynchronous printers and other devices to terminal ports, using standard modem control signals as flow control. Transmission to the device stops if either data set ready (DSR) or clear to send (CTS) EIA modem control signals are dropped. Transmission resumes when both signals are present. The /COMMSYNC qualifier and the /MODEM qualifier are mutually exclusive. The COMMSYNC feature has the following limitations: o Cannot be used on LAT ports o Can only be used on ports with full modem control o Should not be used in conjunction with Xon/Xoff flow control (the port may hang) CAUTION The /COMMSYNC qualifier should never be set on a line with a modem that is intended for interactive use. The qualifier disables the modem terminal characteristic that disconnects a user process from the terminal line in case of a modem phone line failure. With the /COMMSYNC qualifier enabled, the next call on the terminal line could be attached to the previous user's process. Security administrators should be aware that the characteristic should not be used on interactive terminal ports. In addition, the /COMMSYNC qualifier is not supported on a port connected to a LAT line.
45.2.12 /CRFILL
/CRFILL[=fill-count] Generates the specified number of null characters after each carriage return before transmitting the next meaningful character (to ensure that the terminal is ready for reception). The value must be an integer in the range 0 to 9. The default is the /CRFILL=0 qualifier.
45.2.13 /DEC_CRT
/DEC_CRT[=(value1,value2,value3)] /NODEC_CRT[=(value1,value2,value3)] Controls whether the terminal conforms to DIGITAL VT100-, VT200-, VT300-, VT400-, or VT500-family standards and supports the minimum standards, including the additional DIGITAL escape sequences. You can specify one of the following values: 1 Requests that the DEC_CRT terminal characteristic be (default) set. 2 Requests that the DEC_CRT2 terminal characteristic be set. 3 Requests that the DEC_CRT3 terminal characteristic be set. A level 3 terminal supports the following additional features: o A status line (line 25, at the bottom of the screen) o The ISO Latin1 character set o Terminal state interrogation (describes what state your terminal is in) 4 Requests that the DEC_CRT4 terminal characteristic be set. A level 4 terminal supports the following additional features: o Extended keyboard o Key position mode o Secure reset o Novice mode o Selective erase o On-line transaction processing (OLTP) features: - Page memory - Rectangular editing - Text macros - Data integrity reports Note that DEC_CRT2, DEC_CRT3, and DEC_CRT4 are supersets of DEC_ CRT. Clearing DEC_CRT causes DEC_CRT2, DEC_CRT3, and DEC_CRT4 to be cleared. Similarly, setting DEC_CRT4 causes all subsets of DEC_CRT4 (including ANSI_CRT) to be set.
45.2.14 /DEVICE_TYPE
/DEVICE_TYPE=terminal-type Informs the system of the terminal type and sets characteristics according to the device type specified. You can specify any of the following terminal types: UNKNOWN LA100 PRO_SERIES VT102 VT200 FT1-FT8 LA120 VT05 VT105 VT300 LA12 LA210 VT52 VT125 VT400 LA34 LN01K VT55 VT131 VT500 LA36 LN03 VT100 VT132 LA38 LQP02 VT101 VT173 The default characteristics for the VT100-, VT102-, and VT125- series terminals are as follows: /ADVANCEDVIDEO /NOALTYPEAHD /ANSI_CRT /NOAUTOBAUD /NOBLOCK_MODE /NOBRDCSTMBX /BROADCAST /CRFILL=0 /ECHO /NOEIGHT_BIT /NOESCAPE /NOFORM /FULLDUP /NOHOSTSYNC /LFFILL=0 /LOWERCASE /NODMA /PAGE=24 /NOPARITY /NOPASTHRU /NOREADSYN /SPEED=9600 /TAB /TTSYNC /TYPE_AHEAD /WIDTH=80 /WRAP
45.2.15 /DIALUP
/DIALUP /NODIALUP (default) Controls whether the terminal is a dialup terminal.
45.2.16 /DISCONNECT
/DISCONNECT /NODISCONNECT (default) Controls whether the process connected to this terminal is disconnected if the line detects a hangup. The /DISCONNECT qualifier is valid only when the /PERMANENT qualifier is specified.
45.2.17 /DISMISS
/DISMISS /NODISMISS (default) Controls whether the terminal driver ignores data that causes a parity error (instead of terminating the currently outstanding I/O with an error status).
45.2.18 /DMA
/DMA /NODMA Controls whether direct memory access (DMA) mode is used on a controller that supports this feature.
45.2.19 /ECHO
/ECHO (default) /NOECHO Controls whether the terminal displays the input it receives. With the /NOECHO qualifier, the terminal displays only system or user application output, or both.
45.2.20 /EDIT_MODE
/EDIT_MODE /NOEDIT_MODE Controls whether the terminal can perform ANSI-defined advanced editing functions.
45.2.21 /EIGHT_BIT
/EIGHT_BIT /NOEIGHT_BIT Controls whether the terminal uses the 8-bit ASCII protocol rather than the 7-bit ASCII protocol. You can use the Terminal Fallback Facility (TFF) to set the 8-bit characteristic on terminals. If the terminal you specify has the TFF enabled, the /EIGHT_BIT qualifier has no effect. For more information on terminal fallback, see the OpenVMS Terminal Fallback Utility Manual (available on the Documentation CD-ROM).
45.2.22 /ESCAPE
/ESCAPE /NOESCAPE (default) Controls whether escape sequences are validated.
45.2.23 /FALLBACK
/FALLBACK /NOFALLBACK Controls whether the 8-bit DEC Multinational character set characters are displayed on the terminal in their 7-bit representation. The default depends on the /EIGHTBIT setting of the terminal. If the OpenVMS Terminal Fallback Facility (TFF) is enabled, it activates the default character conversion tables for the named terminal. For more information, see the OpenVMS Terminal Fallback Utility Manual (available on the Documentation CD-ROM). If TFF is not enabled on your system, the /FALLBACK qualifier has no effect and no error message is displayed.
45.2.24 /FORM
/FORM /NOFORM Controls whether a form feed is transmitted rather than translated into multiple line feeds.
45.2.25 /FRAME
/FRAME=n Specifies the number of data bits that the terminal driver expects for every character that is input or output. The value of n can be from 5 to 8. The default value depends on the settings for the terminal established by the /PARITY and /EIGHTBIT qualifiers.
45.2.26 /FULLDUP
/FULLDUP (default) /NOFULLDUP Controls whether the terminal operates in full-duplex mode. The /FULLDUP qualifier is equivalent to the /NOHALFDUP qualifier.
45.2.27 /HALFDUP
/HALFDUP /NOHALFDUP (default) Controls whether the terminal operates in half-duplex mode. The /HALFDUP qualifier is equivalent to the /NOFULLDUP qualifier.
45.2.28 /HANGUP
/HANGUP /NOHANGUP (default) May require LOG_IO (logical I/O) or PHY_IO (physical I/O) privilege depending on system generation parameter settings. Controls whether the terminal modem is hung up when you log out.
45.2.29 /HARDCOPY
/HARDCOPY /NOHARDCOPY Controls whether the device is established as a hardcopy terminal and outputs a backslash (\) when the Delete key is pressed. The /HARDCOPY qualifier is equivalent to the /NOSCOPE qualifier.
45.2.30 /HOSTSYNC
/HOSTSYNC /NOHOSTSYNC (default) Controls whether system transmission from the terminal is stopped (by generating a Ctrl/S) when the input buffer is full and resumed (by generating a Ctrl/Q) when the input buffer is empty.
45.2.31 /INQUIRE
Sets the device type when the /INQUIRE qualifier is specified and the DEC_CRT characteristic is set. The SET TERMINAL command reads the current screen size from the terminal and sets the corresponding page length and page width values appropriately. The default device type is UNKNOWN. Works only on DIGITAL terminals, and not on LA36 or VT05 terminals. Some VT100 family terminals, including the VT101 and VT105, return a VT100 type response. LA38 terminals respond as LA43 terminals. NOTE The SET TERMINAL/INQUIRE command works correctly on DIGITAL supplied VT100 and later terminals. Some personal computer terminal emulators may not work correctly, because they do not correctly emulate all VT100 escape sequences. VSI recommends that users who experience problems with these terminal emulators contact the terminal emulator supplier. You can include the SET TERMINAL/INQUIRE command in your LOGIN.COM file to detect the terminal type automatically. If you specify /INQUIRE=OLD, OpenVMS sets the terminal window to 24 lines by 80 columns and ignores the real terminal size. (This is the behavior of the SET TERMINAL/INQUIRE command prior to OpenVMS Version 6.2.) CAUTION This qualifier clears the type-ahead buffer. If the response sequence is unrecognized, no action message or error message is displayed. The /INQUIRE qualifier should be used only on DIGITAL terminals; however, the LA36 and VT05 terminals do not support this feature.
45.2.32 /INSERT
Sets the terminal to insert mode. This feature allows you to insert characters when editing command lines. The default mode is overstrike, which allows you to type over the current character when editing a command line. Press Ctrl/A to switch from one mode to the other.
45.2.33 /LFFILL
/LFFILL[=fill-count] Transmits to the terminal the specified number of null characters after each line feed before transmitting the next meaningful character (to ensure that the terminal is ready for reception). The value must be an integer in the range 0 to 9. The default is installation dependent.
45.2.34 /LINE_EDITING
/LINE_EDITING /NOLINE_EDITING Controls whether advanced line-editing features are enabled for editing command lines: pressing Return and pressing Ctrl/Z are recognized as line terminators, as are escape sequences.
45.2.35 /LOCAL_ECHO
/LOCAL_ECHO /NOLOCAL_ECHO (default) Controls whether the terminal echoes characters locally (rather than the host echoing them) for command level terminal functions. (Do not use the /LOCAL_ECHO qualifier with utilities that require control over echoing, such as line editing or EDT's screen mode.) CAUTION When logging in to terminals with the LOCAL_ECHO characteristic, the OpenVMS system has no control over the echoing of passwords.
45.2.36 /LOWERCASE
/LOWERCASE /NOLOWERCASE Controls whether lowercase characters are passed to the terminal. The /NOLOWERCASE qualifier translates all input to uppercase. The /LOWERCASE qualifier is equivalent to the /NOUPPERCASE qualifier.
45.2.37 /MANUAL
Indicates manual switching of terminal lines to dynamic asynchronous DDCMP lines when your local terminal emulator does not support automatic switching. The /MANUAL qualifier should be specified with the /PROTOCOL=DDCMP and /SWITCH=DECNET qualifiers.
45.2.38 /MODEM
/MODEM /NOMODEM Specifies whether the terminal is connected to a modem or a cable that supplies standard EIA modem control signals. If your terminal has the MODEM characteristic, entering SET TERMINAL/NOMODEM automatically logs you out. The /MODEM qualifier and the /COMMSYNC qualifier are mutually exclusive.
45.2.39 /NUMERIC_KEYPAD
/NUMERIC_KEYPAD (default) Specifies whether the keys of the numeric keypad are used to type numbers and punctuation marks (/NUMERIC_KEYPAD) or to enter DCL commands defined with the DEFINE/KEY command (/APPLICATION_KEYPAD).
45.2.40 /OVERSTRIKE
/OVERSTRIKE (default) Sets the terminal to overstrike mode. This feature allows you to type over the current character when you are editing a command line. Set your terminal to insert mode if you want to insert characters when editing command lines. Press Ctrl/A to switch from one mode to the other.
45.2.41 /PAGE
/PAGE[=lines-per-page] Specifies the number of print lines between perforations for hardcopy terminals. (When the terminal reads a form feed, it advances the paper to the next perforation.) The value of the lines-per-page parameter can be from 0 to 255 and defaults to 0 (which treats a form feed as a line feed).
45.2.42 /PARITY
/PARITY[=option] /NOPARITY (default) Controls whether the terminal passes data with only odd or even parity, where option equals ODD or EVEN. If you specify the /PARITY qualifier without an option, the value defaults to EVEN.
45.2.43 /PASTHRU
/PASTHRU /NOPASTHRU (default) Controls whether the terminal passes all data (including tabs, carriage returns, line feeds, and control characters) to an application program as binary data. The setting of /TTSYNC is allowed. Make sure that you spell both these qualifiers exactly as they appear in the text.
45.2.44 /PERMANENT
Requires LOG_IO (logical I/O) or PHY_IO (physical I/O) privilege. Sets characteristics on a permanent basis, that is, over terminal sessions; however, the characteristics revert to their initial values if the system is halted and restarted. Use in a system startup file to establish characteristics for all terminals on the system.
45.2.45 /PRINTER_PORT
/PRINTER_PORT /NOPRINTER_PORT Specifies whether the terminal has a printer port (an attribute not set by the SET TERMINAL/INQUIRE command). The default is installation dependent.
45.2.46 /PROTOCOL
/PROTOCOL=DDCMP /PROTOCOL=NONE (default) On VAX, controls whether the terminal port specified is changed into an asynchronous DDCMP line. The /PROTOCOL=NONE qualifier changes an asynchronous DDCMP line back into a terminal line. Note that /PROTOCOL=DDCMP is a permanent characteristic; therefore, the /PERMANENT qualifier is not required.
45.2.47 /READSYNC
/READSYNC /NOREADSYNC (default) Controls whether the terminal uses the Ctrl/S and Ctrl/Q functions to synchronize data transmitted from the terminal. CAUTION SET TERMINAL/READSYNC should not be used on LAT terminal lines. Setting this characteristic may cause unexpected results. The default is the /NOREADSYNC qualifier; the system does not use the Ctrl/S and Ctrl/Q functions to control reads to the terminal. The /READSYNC qualifier is useful for certain classes of terminals that demand synchronization or for special-purpose terminal lines where data synchronization is appropriate.
45.2.48 /REGIS
/REGIS /NOREGIS Specifies whether the terminal understands ReGIS graphic commands.
45.2.49 /SCOPE
/SCOPE /NOSCOPE Controls whether the device is established as a video terminal. The /SCOPE qualifier is equivalent to the /NOHARDCOPY qualifier.
45.2.50 /SECURE_SERVER
/SECURE_SERVER /NOSECURE_SERVER (default) Requires either LOG_IO (logical I/O) or PHY_IO (physical I/O) privilege. Controls whether the Break key on the terminal logs out the current process (except on a virtual terminal). With the /SECURE_ SERVER qualifier in effect, pressing the Break key when there is no current process initiates the login sequence. With the /NOSECURE_SERVER qualifier in effect, the break is ignored. On terminals with the AUTOBAUD and SECURE_SERVER characteristics, pressing the Break key disconnects the current process, but is not required to start a new login sequence. However, when the NOAUTOBAUD characteristic is set, the SECURE_SERVER characteristic requires a break to initiate a new login sequence.
45.2.51 /SET_SPEED
/SET_SPEED /NOSET_SPEED Requires either LOG_IO (logical I/O) or PHY_IO (physical I/O) privilege. Controls whether the /SPEED qualifier can be used to change the terminal speed.
45.2.52 /SIXEL_GRAPHICS
/SIXEL_GRAPHICS /NOSIXEL_GRAPHICS Specifies whether the terminal is capable of displaying graphics using the sixel graphics protocol. The default is device dependent.
45.2.53 /SOFT_CHARACTERS
/SOFT_CHARACTERS /NOSOFT_CHARACTERS Specifies whether the terminal is capable of loading a user- defined character set. The default is device dependent.
45.2.54 /SPEED
/SPEED=(input-rate,output-rate) Sets the baud rate at which the terminal receives and transmits data. If the input and output rates are the same, specify /SPEED=rate. Not all terminals support different input and output baud rates. For specific information on baud rates for your terminal, consult the manual for that terminal. The default transmission rates are installation dependent. The valid values for input and output baud rates are as follows: 50 150 1800 4800 38400 75 300 2000 7200 57600 110 600 2400 9600 76800 134 1200 3600 19200 115200
45.2.55 /SWITCH
/SWITCH=DECNET On VAX, causes the terminal lines at each node to be switched to dynamic asynchronous DDCMP lines, when specified with the /PROTOCOL=DDCMP qualifier. Note that /SWITCH=DECNET is a permanent characteristic; therefore, the /PERMANENT qualifier is not required.
45.2.56 /SYSPASSWORD
/SYSPASSWORD /NOSYSPASSWORD (default) Requires LOG_IO (logical I/O) privilege. Determines whether the terminal requires that a system password be entered before the Username: prompt.
45.2.57 /TAB
/TAB /NOTAB Controls whether tab characters are converted to multiple blanks. The /NOTAB qualifier expands all tab characters to blanks and assumes tab stops at 8-character intervals. The default is device dependent.
45.2.58 /TTSYNC
/TTSYNC (default) /NOTTSYNC Controls whether transmitting to the terminal is stopped when Ctrl/S is pressed and resumes transmission when Ctrl/Q is pressed.
45.2.59 /TYPE_AHEAD
/TYPE_AHEAD (default) /NOTYPE_AHEAD Controls whether the terminal accepts unsolicited input to the limit of the type-ahead buffer. When you specify the /NOTYPE_AHEAD qualifier, the terminal accepts input only when a program or the system issues a read to the terminal, such as for user input at the DCL prompt ($). When you specify the /TYPE_AHEAD qualifier, the amount of data that can be accepted is governed by the size of the type-ahead buffer. That size is determined by system generation parameters.
45.2.60 /UNKNOWN
Specifies a terminal type that is unknown to the system, which then uses the default terminal characteristics for unknown terminals.
45.2.61 /UPPERCASE
/UPPERCASE /NOUPPERCASE Controls whether lowercase characters are translated to uppercase. The /UPPERCASE qualifier is equivalent to the /NOLOWERCASE qualifier.
45.2.62 /WIDTH
/WIDTH=characters-per-line Specifies the maximum characters per line. This value must be an integer in the range 1 to 511. With the /WRAP qualifier, the terminal generates a carriage return and line feed when the width specification is reached. If the specified width on an ANSI terminal is 132, the screen is set to 132-character mode. If the terminal does not have advanced video option (AVO), the page length limit is set to 14 lines.
45.2.63 /WRAP
/WRAP (default) /NOWRAP Controls whether a carriage return and line feed are generated when the value of the /WIDTH qualifier is reached.
45.3 – Examples
1.$ SET TERMINAL/DEVICE=VT102 In this example, the SET TERMINAL command establishes the current terminal as a VT102 terminal and sets the default characteristics for that terminal type. 2.$ SET TERMINAL/WIDTH=132/PAGE=60/NOBROADCAST $ TYPE MEMO.DOC . . . $ SET TERMINAL/DEVICE=LA36 In this example, the first SET TERMINAL command indicates that the width of terminal lines is 132 characters and that the size of each page is 60 lines. The /NOBROADCAST qualifier disables the reception of broadcast messages while the terminal is printing the file MEMO.DOC. The next SET TERMINAL command restores the terminal to its default state.
46 – TIME
Resets the system clock, which is used as a timer to record intervals between various internal events and as a source clock for displaying the time of day. Requires both OPER (operator) and LOG_IO (logical I/O) privileges. Format SET TIME[=time]
46.1 – Parameter
time Specifies a date in the format day-month-year, or a time in the format hour:minute:second.hundredth, or both. These fields accept the following values: Field Type Values Day Integer 1 to 31 Month String JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, or DEC Year Integer 1858 to 9999 Hour Integer 0 to 23 Minute Integer 0 to 59 Second Integer 0 to 59 Hundredth Integer 0 to 99 The hyphens (-), colons (:), and period (.) are required delimiters. Separate the date and time, when both are specified, with a colon. The syntax is sometimes specified as follows: [dd-mmm-yyyy[:]] [hh:mm:ss.cc] Alpha systems also allow a 2-digit year format: [dd-mmm-yy[:]] [hh:mm:ss.cc] The century applied to the 2-digit year format is determined by the corresponding year in the supported Alpha date range (1957- 2056). A 2-digit year in the range 57-99 is assumed to mean the years 1957-1999; a 2-digit year in the range 00-56 is assumed to mean the years 2000-2056. (To specify years outside the 1957-2056 range, you must enter a 4-digit year.) If the explicit time value is not specified, the interval system clock is automatically reset according to the time-of-year clock. For further information about the time-of-year clock, see the hardware documentation for your computer. NOTE Alpha systems maintain system time during power failures and system down time. When a system is booted, if the time is known to be earlier than the time value of the last time modification, or greater than five years in the future, you are prompted to enter the time at the console prompt.
46.2 – Description
Resets the system clock, which is used as a timer to record intervals between various internal events and as a source clock for displaying the time of day. NOTE The SET TIME command will not work if there is a time service available on your system or OpenVMS Cluster.
46.3 – Qualifier
46.3.1 /CLUSTER
Requires OPER and LOG_IO privilege, and in an OpenVMS Cluster environment, SYSLCK privilege. Sets the time on all nodes in a cluster to the same system time. The format of the SET TIME /CLUSTER command is the following: Format SET TIME[=time] [/CLUSTER]
46.4 – Examples
1.$ SET TIME=14-DEC-2001:19:31:0.0 The SET TIME command in this example sets the date and time to December 14, 2001, 7:31 P.M. 2.$ SET TIME $ SHOW TIME 14-DEC-2001 03:21:27.53 The SET TIME command in this example sets the system time according to the time-of-year clock. The SHOW TIME command requests a display of the current time. 3.$ SET TIME=14-DEC-2001:15:31:0.0/CLUSTER This example sets the date and time to December 14, 2001, 3:31 P.M. on all nodes in the cluster where the command was entered.
47 – VERIFY
Controls whether command lines and data lines in command procedures are displayed at the terminal or are printed in a batch job log. The information displayed by the SET VERIFY command can help you in debugging command procedures. Format SET VERIFY [=([NO]PROCEDURE, [NO]IMAGE)] SET NOVERIFY
47.1 – Parameter
([NO]PROCEDURE, [NO]IMAGE) Specifies one or both types of verification. Procedure verification causes each DCL command line in a command procedure to be written to the output device. Image verification causes data lines (input data that is included as part of the SYS$INPUT input stream) to be written to the output device. By default, both types of verification are set or cleared with SET VERIFY and SET NOVERIFY. If you specify only one keyword, the other is not affected. If you specify only one keyword, omit the parentheses.
47.2 – Examples
1.$ SET VERIFY = PROCEDURE In this example, procedure verification is turned on. If image verification was on, it remains on; if image verification was off, it remains off. 2.$ SET VERIFY $ INDEX == "$INDEX.EXE" $ CONTENTS == "$CONTENTS.EXE" $ TABLE == "$TABLE.EXE" $ SET NOVERIFY $ EXIT Procedure and image verification are turned on at the beginning of the command procedure so that the system displays all the command and data lines in the procedure as it reads them. At the end of the procedure, the SET NOVERIFY command restores the system default (no procedure or image verification). 3.$ PROC_VER = F$ENVIRONMENT("VERIFY_PROCEDURE") $ IMAGE_VER = F$ENVIRONMENT("VERIFY_IMAGE") $ HOLD_PREFIX = F$ENVIRONMENT("VERIFY_PREFIX") $ SET PREFIX "(!%T)" $ SET VERIFY . . . $ TEMP = F$VERIFY(PROC_VER, IMAGE_VER) $ SET PREFIX "''HOLD_PREFIX'" This command procedure uses the F$ENVIRONMENT lexical function to save the current procedure and image verification setting, as well as the current verification prefix string. The SET PREFIX command sets the verification prefix to be used in the current command procedure. It uses an FAO control string to produce the time each command is read by the command interpreter (DCL), surrounded by parentheses. Then the SET VERIFY command turns on both procedure and image verification. Subsequently, the F$VERIFY lexical function is used to restore the original verification settings. The SET PREFIX command returns the verification prefix to its previous setting. Note how the symbol HOLD_PREFIX is used in the SET PREFIX command. This preserves casing and special characters in the stored string. 4.$ SET VERIFY $ @TEST $ RUN AVERAGE 1 2 3 $ EXIT In this example, the SET VERIFY command turns procedure and image verification on. When the command procedure TEST.COM is executed interactively, the command lines and the data lines for the program AVERAGE are displayed on the terminal. The data lines were entered in the command procedure on lines that did not begin with the DCL prompt. 5.$ SET VERIFY $ COUNT = 1 $ IF P'COUNT' .NES. "" THEN GOTO &P'COUNT' . . . $ EXIT When this command procedure is executed interactively, the SET VERIFY command causes the command and data lines to be displayed. Symbols that are substituted during the first phase of symbol substitution (such as 'COUNT') are displayed by the SET VERIFY command, but other symbols are not. The following lines are displayed when this procedure is executed interactively: $ COUNT = 1 $ IF P1 .NES. "" THEN GOTO &P1 . . . Although these values are not displayed, the value for P1 is substituted during the third phase of symbol substitution, and the value for &P1 is substituted during the second phase.
48 – VOLUME
Changes the characteristics of one or more mounted Files-11 volumes. The SET VOLUME command affects only the node on which the command is issued, and will not affect any other nodes, even when a volume is mounted on multiple nodes in an OpenVMS Cluster configuration. If you are not the owner of the volume, requires control access to the volume. Format SET VOLUME device-name[:][,...]
48.1 – Parameter
device-name[:][,...] Specifies the name of one or more mounted Files-11 volumes.
48.2 – Qualifiers
48.2.1 /ACCESSED
/ACCESSED[=n] Requires OPER (operator) privilege. Specifies the number of directories to be maintained in system space for ready access. You can specify a value n in the range of 0 to 255. If you specify the qualifier /ACCESSED and omit the number of directories, a default value of 3 is used. If you specify a value greater than the current value, the new value is effective immediately; otherwise, the new value is not effective until the next time the volume is mounted.
48.2.2 /CACHE
/CACHE=(option[,...]) Enables or disables XFC caching for the volume. If CLEAR_DATA option is specified, then contents of the volume already in cache are cleared. (If you do not specify the /CACHE qualifier, XFC caching attributes of the volume as well as the contents of the volume already in cache are not affected.) Keywords are as follows: Keyword Description DATA Enables XFC caching for the volume. [NO]DATA Disables XFC caching for the volume. CLEAR_DATA Clears contents of the volume present in the XFC cache (if any).
48.2.3 /DATA_CHECK
/DATA_CHECK[=(option[,...])] Defines a default for data check operations following all read and write operations to the specified volume. (If you do not specify the /DATA_CHECK qualifier, no checks are made.) Keywords are as follows: [NO]READPerforms checks following all read operations. [NO]WRITPerforms checks following all write operations (default).
48.2.4 /ERASE_ON_DELETE
/ERASE_ON_DELETE /NOERASE_ON_DELETE (default) Determines whether the space occupied by a file is overwritten with a system-specified pattern when a file on the volume is deleted.
48.2.5 /EXTENSION
/EXTENSION[=n] Specifies the number of blocks to be used as a default extension size for all files on the volume. You can specify a value n in the range of 0 to 65,535. If you specify the /EXTENSION qualifier without specifying a value, a default value of 0 (the OpenVMS RMS default) is used. For example, during an update operation, the extension default is used when a file increases to a size greater than its initial default allocation.
48.2.6 /FILE_PROTECTION
/FILE_PROTECTION=(ownership[:access][,...]) Sets the default protection to be applied to all files on the specified disk volume. Specify the ownership parameter as system (S), owner (O), group (G), or world (W) and the access parameter as read (R), write (W), execute (E), or delete (D). A null access specification means no access. NOTE This attribute is not used while the volume is in use on an OpenVMS system, but the attribute is provided to control the process use of the volume on RSX-11M systems. The OpenVMS system always uses the default file protection; the protection can be changed with the DCL command SET PROTECTION/DEFAULT.
48.2.7 /HIGHWATER_MARKING
/HIGHWATER_MARKING /NOHIGHWATER_MARKING Determines whether the file highwater mark (FHM) volume attribute is set. The FHM attribute guarantees that a user cannot read data that was not written by the user. Applies to Files-11 On-Disk Structure Level 2 (ODS-2) and 5 (ODS-5) volumes only.
48.2.8 /LABEL
/LABEL=volume-label Specifies a 1- to 12-character ANSI name to be encoded on the volume. The specified label remains in effect until it is changed explicitly; dismounting the volume does not affect the label. VSI strongly recommends that a volume label should consist of only alphanumeric characters, dollar signs ($), underscores (_), and hyphens (-). NOTE Changing the volume label does not change other structures that used the original volume label. For example, the DISK$label logical volume name is not changed nor is the device-lock name that is kept internally by OpenVMS. As a result, if you attempt to access another disk that has the same volume label as the original volume of this device, you may get error messages such as the following: "%MOUNT-F- VOLALRMNT, another volume of same label already mounted". VSI recommends that, if you change a disk volume label, you also dismount and remount the disk on all nodes in the cluster so that the names and locks are consistent. If you change the volume label on a nonsystem disk and the PRODUCT INSTALL command has been used to install software products on that disk, you must update the software product database to reflect this change. To accomplish this, first dismount and remount the disk. Then use the PRODUCT REGISTER VOLUME command to replace all occurrences of the old DISK$label with the new logical volume name that was created by the MOUNT command. NOTE You do not need to take this action when you change the label of the system disk. The POLYCENTER Software Installation Utility continues to use the old logical volume name until the system is rebooted. After reboot (when the system disk is remounted), the utility automatically identifies the system disk using its new logical volume name.
48.2.9 /LIMIT
/LIMIT[=n] Specifies that the volume is to be enabled for volume expansion. n specifies the upper limit of the expansion (in blocks). If no value is specified, the maximum expansion potential is set up. The maximum expansion size depends on the cluster size defined for the volume using the INITIALIZE/CLUSTER_SIZE command. If the cluster size is 8 or more, the current maximum expansion supported on OpenVMS (1TB) is set up. If the cluster size is less than 8, the expansion limit is set to 65535*4096*Cluster-size because the maximum size of the bitmap is 65535 blocks. For more information about volume expansion, see the VSI Volume Shadowing for OpenVMS manual. This command must be executed while the disk is mounted privately. If you add additional physical storage in the future, you can use the /SIZE qualifier to increase the volume size.
48.2.10 /LOG
/LOG /NOLOG (default) Determines whether the volume specification of each volume is displayed after the modification.
48.2.11 /MOUNT_VERIFICATION
/MOUNT_VERIFICATION /NOMOUNT_VERIFICATION Determines whether mount verification is enabled. Mount verification prevents interruption to user input/output operations and notifies the operator of problems with the disk.
48.2.12 /OWNER_UIC
/OWNER_UIC[=uic] Sets the owner user identification code (UIC) of the volume to the specified UIC. The default UIC is that of the current process. Brackets ([]) are required around the UIC. Specify the UIC by using standard UIC format as described in the VSI OpenVMS Guide to System Security.
48.2.13 /PROTECTION
/PROTECTION=(ownership[:access][,...]) Specifies the protection to be applied to the volume. The following rules apply: o Specify the ownership parameter as system (S), owner (O), group (G), or world (W). o Specify the access parameter as read (R), write (W), create (C), or delete (D). The default protection is all types of access by all categories of user.
48.2.14 /REBUILD
/REBUILD[=FORCE] Recovers caching limits for a volume that was dismounted improperly. If a disk volume was dismounted improperly (such as during a system failure), and was then remounted with the MOUNT/NOREBUILD command, you can use SET VOLUME/REBUILD to recover the caching that was in effect at the time of the dismount. The FORCE option forces the disk to be rebuilt unconditionally, thus updating the free block count in the disk volume's lock value block.
48.2.15 /RETENTION
/RETENTION=(min[,max]) Specifies the minimum and maximum retention times to be used by the file system to determine the expiration date for files on the volume. When a file is created, its expiration date is set to the current time plus the maximum time. Each time the file is accessed, the current time is added to the minimum time. If the sum is greater than the expiration date, a new expiration date is computed. If you omit the maximum value, a default value that is the smaller of (2 x min) or (min + 7) days is used. For example, /RETENTION=3- is the same as /RETENTION=(3-,6-), while /RETENTION=10- is the same as /RETENTION=(10-,17-). The command SET VOLUME/RETENTION=0 disables retention times on the volume.
48.2.16 /SIZE
/SIZE[=nnn] Specifies the amount of disk space (in blocks) that is usable for the file system. This value must be greater than the current logical volume size and less than or equal to the physical size of the disk or the expansion limit (specified by /LIMIT), whichever is smaller. If the value is omitted, the usable space is increased to the physical size of the disk or the expansion limit, whichever is smaller.
48.2.17 /STRUCTURE_LEVEL
/STRUCTURE_LEVEL=n Sets the structure level of the volume. Use the value 5 to set the volume to ODS-5. When the /STRUCTURE_LEVEL qualifier is used with other qualifiers, the volume structure level is set prior to the other qualifiers being performed. You cannot use the SET VOLUME command to change a volume from ODS-5 to ODS-2. To reset a volume to ODS-2, see the instructions in the VSI OpenVMS System Manager's Manual, Volume 1: Essentials.
48.2.18 /SUBSYSTEM
/SUBSYSTEM /NOSUBSYSTEM Enables the processing of subsystem ACEs. Requires the SECURITY privilege. By default, the disk from which you boot has protected subsystems enabled but other disks do not. For further details on subsystems, see the VSI OpenVMS Guide to System Security.
48.2.19 /UNLOAD
/UNLOAD (default) /NOUNLOAD Specifies whether the volume is unloaded (spun down) when the DCL command DISMOUNT is entered.
48.2.20 /USER_NAME
/USER_NAME[=user-name] Specifies a user name of up to 12 alphanumeric characters to be recorded on the volume. The default name is the current process user name.
48.2.21 /VOLUME_CHARACTERISTICS
/VOLUME_CHARACTERISTICS=([[NO]HARDLINKS,] [[NO]ACCESS_ DATES[=delta-time]]) Enables or disables hardlinks and automatic updates of access dates on ODS-5 volumes. To limit the performance impact if a file is accessed frequently, you can suppress update of the access time if the change is small. A delta time is used to determine when a new access time is significant. The default value for delta-time is 1 second, chosen to comply with the "seconds since EPOCH" time interface required by POSIX st_atime. A site can choose a larger delta time to reduce overhead if 1-second granularity is not required. To disable access date support on a volume, use the SET VOLUME/VOLUME_CHARACTERISTICS=NOACCESS_DATES command. This command affects only the node on which the command is issued. Other nodes are not affected by the change until the next time the volume is mounted. For additional information about ODS-5 volumes, see the Guide to OpenVMS File Applications and to the sections about File Service Extensions in the OpenVMS Alpha Version 7.3-1 New Features and Documentation Overview. This archived manual is on the OpenVMS documentation Web site: http://www.hp.com/go/openvms/doc Click on "Archived documents" in the left sidebar to link to this manual.
48.2.22 /WINDOWS
/WINDOWS[=n] Specifies the number of mapping pointers to be allocated for file windows. The value of n can be from 7 to 80; the default value is 7.
48.2.23 /WRITETHROUGH
/WRITETHROUGH /NOWRITETHROUGH This qualifier only affects applications such as PATHWORKS that can request deferred writes to file headers. You use it to control whether these applications can use the deferred write feature. Use /NOWRITETHROUGH to allow these applications to use the deferred write feature. When one of these applications explicitly requests a deferred write when updating a file header, control returns to the application when the I/O request has been queued; the application does not have to wait until the data is on disk. Note that although the SHOW DEVICES/FULL command shows the volume status as write-back caching enabled, the extended file cache (XFC) will still be in write-through mode. Use /WRITETHROUGH to disable the deferred write feature, so that no applications can use it. The SHOW DEVICES/FULL command shows the volume status as write-through caching enabled. The deferred write feature is not available on Files-11 ODS-1 volumes.
48.3 – Examples
1.$ SET VOLUME/DATA_CHECK=(READ,WRITE) DKA5 The SET VOLUME command in this example requests that data checks be performed following all read and write operations to DKA5. 2.$ SET VOLUME/FILE_PROTECTION=(S:RWED,O:RWED,G:RE,W:RE) DKA5 The SET VOLUME command in this example sets the default protection to be applied to all files created on volume DKA5. System (S) and owner (O) are granted all types of access; group (G) and world (W) are permitted only to read and execute files on DKA5. 3.$ SET VOLUME/LABEL=LICENSES DKA5 The SET VOLUME command in this example encodes the label LICENSES on the volume DKA5. Note that if characters in labels are entered in lowercase, they are changed to uppercase by the /LABEL qualifier. 4.$ SET VOLUME/ACCESSED=25/USER_NAME=MANAGER/LOG DKA0: The SET VOLUME command in this example specifies that 25 directories are to be maintained in system space for ready access for the volume DKA0. The command also assigns the user name MANAGER to the volume and displays the volume specification after the volume is modified. 5.$ SET VOLUME/REBUILD/LOG NODE$DKA2: %SET-I-MODIFIED, _NODE$DKA2: modified The SET VOLUME command in this example causes a rebuild operation to begin on the volume that is mounted on NODE$DKA2. The /LOG qualifier directs the SET VOLUME command to display a notification message. 6.$ DISMOUNT/CLUSTER/NOUNLOAD $252$DUA716: $ MOUNT $252$DUA716: TST716 $ SET VOLUME/LIMIT $252$DUA716: $ DISMOUNT/NOUNLOAD $252$DUA716: $ MOUNT/CLUSTER $252$DUA716: TST716 This example shows how to increase the expansion limit of a volume mounted in a cluster. 7.$ SET VOLUME SYS$DISK/VOLUME_CHARACTERISTICS=NOHARDLINKS This command disables hard links on SYS$DISK. 8.$ SET VOLUME $DKA100/CACHE=CLEAR_DATA This command clears the contents of the volume $DKA100 present in the XFC cache (if any). The caching mode of the volume $DKA100 is not altered. 9.$ SET VOLUME $DKA100/CACHE=DATA This command enables XFC caching for the volume $DKA100. The contents of the volume $DKA100 already present in the XFC cache is not affected in anyway. 10$ SET VOLUME $DKA100/CACHE=(DATA,CLEAR_DATA) This command enables XFC caching for the volume $DKA100 and clears the contents of the volume $DKA100 present in the XFC cache (if any).
49 – WORKING_SET
Redefines the default working set size for the process, or sets an upper limit to which the working set size can be changed by an image that the process executes. Working set limits cannot be set to exceed those defined in the user authorization file (UAF). Specify the value of n as a number of 512-byte pagelets on Alpha. Note that the OpenVMS system rounds up this value to the nearest CPU-specific page so that the actual amount of physical memory allowed may be larger than the specified amount on Alpha. Format SET WORKING_SET
49.1 – Qualifiers
49.1.1 /ADJUST
/ADJUST (default) /NOADJUST Controls whether the system can automatically adjust the size of the process working set.
49.1.2 /EXTENT
/EXTENT=n Specifies the maximum number of physical pages that can be resident in the working set during image execution. The extent value must be greater than the minimum working set defined at system generation, and it must be less than or equal to the authorized extent defined in the UAF. If you specify a value greater than the authorized extent, the command sets the working set limit at the maximum authorized value.
49.1.3 /LIMIT
/LIMIT=n Specifies the size to which the working set is to be reduced at image exit. If you specify a value greater than the current quota, the quota value is also increased.
49.1.4 /LOG
/LOG /NOLOG (default) Determines whether confirmation of the SET WORKING_SET command is displayed.
49.1.5 /QUOTA
/QUOTA=n Specifies the maximum number of physical pages that any image executing in the process context can request. An image can set the working set size for the process by calling the $ADJWSL (Adjust Working Set Limit) system service. If you specify a quota value that is greater than the authorized quota, the working set quota is set to the authorized quota value.
49.2 – Examples
1.$ SHOW WORKING_SET Working Set /Limit= 150 /Quota= 700 /Extent= 700 Adjustment enabled Authorized Quota= 700 Authorized Extent= 700 $ SET WORKING_SET/QUOTA=1000 %SET-I-NEWLIMS, new working set: Limit = 150 Quota = 700 Extent = 700 The SHOW WORKING_SET command in this example displays the current limit, quota, and extent, as well as the authorized quota and authorized extent. The SET WORKING_SET command attempts to set a quota limiting the maximum number of pages any image can request that is greater than the authorized quota. Note from the response that the quota was not increased. 2.$ SHOW WORKING_SET Working Set /Limit= 150 /Quota= 350 /Extent= 350 Adjustment enabled Authorized Quota= 350 Authorized Extent= 350 $ SET WORKING_SET/LIMIT=100 %SET-I-NEWLIMS, new working set: Limit = 100 Quota = 350 Extent = 350 $ SHOW WORKING_SET Working Set /Limit= 100 /Quota= 350 /Extent= 350 Adjustment enabled Authorized Quota= 350 Authorized Extent= 350 The SET WORKING_SET command in this example sets the working set size for any image in the process to 100.