z/OS DFSMSrmm Implementation and Customization Guide
Previous topic |
Next topic
|
Contents
|
Contact z/OS
|
Library
|
PDF
Contents (exploded view)
z/OS DFSMSrmm Implementation and Customization Guide
SC23-6874-00
Abstract for DFSMSrmm Implementation and Customization Guide
z/OS Version 2 Release 1 summary of changes
Introducing DFSMSrmm
What is a RMMplex?
What libraries and locations can DFSMSrmm manage?
What is in a removable media library?
What is in a system-managed tape library?
Automated tape libraries
Manual tape libraries
What is in a non-system-managed tape library?
What is in a storage location?
How does DFSMSrmm manage these libraries and locations?
Setting up your installation options
Selecting the retention method
Defining retention and movement policies for the VRSEL retention method
Defining home location and target destinations
Defining retention policies
Defining vital record specification chains
Running DFSMSrmm utilities
What resources does DFSMSrmm manage?
Shelf locations
Volumes
DFSMSrmm tape label support
Data sets
Year 2000 support
Software products
Owner information
How does DFSMSrmm help you create reports?
Using DFSMSrmm report generator
Using DFSMSrmm ISPF dialog and RMM TSO subcommands
Using the EDGAUD and EDGRPTD report utilities
Using the DFSMSrmm EDGRRPTE exec
Using the DFSORT ICETOOL utility
Using the DFSMSrmm application programming interface
How does DFSMSrmm authorization and security work?
What tape usage does DFSMSrmm support?
How does DFSMSrmm validate tape mounts?
Why does DFSMSrmm reject tape volumes?
Rejects caused by installation controls
Rejects caused by validation failure
Rejects caused by DFSMSrmm rules
Who can use DFSMSrmm and how?
General user
Tape librarian
Storage administrator
Application programmer
System programmer
Operator
Using DFSMSrmm
What health checks does DFSMSrmm provide?
Implementing DFSMSrmm
Step 1: Preparing to implement DFSMSrmm
Step 2: Running the installation verification procedure (optional)
Step 3: Updating JES3 (optional)
Step 4: Updating installation exits
Step 5: Updating SYS1.PARMLIB members
Updating IEFSSNxx
Defining DFSMSrmm to z/OS
Dynamically adding the DFSMSrmm subsystem
Enabling DFSMSrmm and tape recording
Updating IKJTSOxx to authorize DFSMSrmm commands
Updating SMFPRMxx (optional)
Updating GRSRNLxx (optional)
Updating AUTORxx (optional)
Information for customizing AUTORxx
Enabling DFSMSrmm
Step 6: Using the Problem Determination Aid Facility (optional)
Step 7: Setting up DFSMSrmm disposition processing (optional)
Step 8: Updating the procedure library
Step 9: Assigning DFSMSrmm a RACF user ID
Step 10: Defining parmlib member EDGRMMxx
Step 11: Tailoring parmlib member EDGRMMxx
Step 12: Creating the DFSMSrmm control data set
Roadmap for creating the control data set
Defining the DFSMSrmm control data set
Calculating DASD space for the DFSMSrmm control data set
Placing the DFSMSrmm control data set
Allocating space for the control data set
Protecting the control data set
Initializing the control data set
Planning to back up the control data set
Step 13: Creating the journal
Roadmap for creating the journal
Calculating DASD space for the journal
Placing the journal
Allocating space for the journal
Protecting the journal
Backing up the journal
Step 14: Authorizing users
Step 15: Making the DFSMSrmm ISPF dialog available to users
Adding DFSMSrmm to an ISPF selection panel
Modifying an ISPF selection panel
Enabling ISPF data set list (DSLIST) support
Step 16: Restarting z/OS with DFSMSrmm implemented
Step 17: Tailoring DFSMSrmm set up
Step 18: Updating the workload management service definition for DFSMSrmm
Step 19: Starting DFSMSrmm
Stopping DFSMSrmm
Quiescing DFSMSrmm
Restarting DFSMSrmm
Checking DFSMSrmm status
Step 20: Defining resources
Defining shelf locations
Defining owner information to DFSMSrmm
Defining volumes
Adding volumes for a new removable media library
Adding volumes from an existing removable media library
Adding known volumes
Defining vital record specifications
Step 21: Updating the operational procedures
Step 22: Initializing the DFSMSrmm subsystem and tape recording
Enabling the DFSMSrmm subsystem interface
Changing the DFSMSrmm running mode
Activating the tape volume interface
Restarting the DFSMSrmm subsystem
Step 23: Setting up DFSMSrmm utilities
Step 24: Setting up DFSMSrmm web service (optional)
Step 25: Setting up DFSMSrmm common information model (CIM) provider (optional)
Step 26: Installing PTFs and the SMP/E maintenance to DFSMSrmm
Setting up DFSMSrmm client and server systems
Implementing DFSMSrmm client and server systems
Using the DFSMSrmm client and server systems
Managing catalogs in an RMMplex
Setting up DFSMSrmm web service
Implementing the DFSMSrmm web service
Using the z/OS WebSphere Application Server
Using the Apache-Tomcat server
Install Apache Tomcat
Start/Stop Tomcat
Deploy the web service
Authentication and authorization
Basic authentication
SAF/RACF-based security
Using the DFSMSrmm web service sample client
Setting the memory limit for returned XML data when using the z/OS WebSphere Application Server
Setting the memory limit for returned XML data when using the Apache Tomcat server
Debugging the DFSMSrmm web service
Setting up DFSMSrmm common information model (CIM) provider
Implementing the DFSMSrmm CIM provider
Pegasus CIM server prerequisites
For LINUX:
For z/OS:
Installation of the Java 2 standard edition SDK
For LINUX:
For z/OS:
DFSMSrmm CIM provider files
For LINUX:
For z/OS:
Required Java libraries
First time setup
For LINUX:
XML schema file adaptions
For LINUX:
For z/OS:
DFSMSrmm specific environment variables
Customer options
Pretests
Start and stop the CIM server
Export of environmental variables
Exports (demo) for LINUX
Exports (demo) for z/OS
DFSMSrmm CIM provider properties file: rmm.properties
DFSMSrmm CIM provider properties file: rmmcust.properties
Diagnostic log properties: rmmlog.properties
wbemcli CIM command line client for Linux
Installation
Usage
cimcli command line client for z/OS
Set program control flag
Java client for use with invokeMethod
Using the DFSMSrmm CIM provider with DFSMSrmm web service
Common tasks for the DFSMSrmm CIM provider
Organizing the removable media library
Organizing the library by pools
Pooling overview
Pooling considerations
Pool types
Tape drive availability
Operator messages and tape drive displays
Calculating pool size
Defining pools in parmlib member EDGRMMxx
Changing pool definitions
Designing rack pools
Designing scratch pools
Requesting and using scratch pools
Using SMS tape storage groups for DFSMSrmm scratch pooling
Making an ACS storage group assignment
A pooling example
Managing pools with job name and data set name
Assigning policies
Using SMS management class to retain non-system-managed volumes with VRSEL retention method
Making an ACS management class assignment
Managing volumes with special dates
Using volumes with special expiration dates
Using management class to retain system-managed volumes managed by VRSEL retention method
Step 1: Define management class names
Step 2: Update ACS routine
Step 3: Define retention policies for management class names
Step 4: Run DFSMSrmm inventory management vital record processing
Using the SMS pre-ACS interface
Exploiting SMS management class attributes
Managing volumes with duplicate volume serial numbers
Using volumes with duplicate volume serial numbers
Changing duplicate volume serial numbers
Adding a duplicate volume into a system-managed tape library
Managing undefined volume serial numbers
Segregating WORM tapes in separate scratch pools
Running DFSMSrmm with system-managed tape libraries
Using DFSMSrmm with system-managed tape libraries
Associating volumes and system-managed libraries
Cartridge entry processing
Manual cartridge entry processing
Managing scratch pools
Ejecting volumes from system-managed libraries
Returning volumes to the system-managed library
Volume-not-in-library processing
Confirming volume movement for system managed libraries
Defining system-managed volume information
Keeping system-managed volume information consistent
Initializing scratch volumes in system-managed libraries
Using storage group names
Using DFSMSrmm with the IBM totalstorage virtual tape server
Defining logical volumes in a virtual tape server library
Logical volume cartridge entry processing
Managing stacked volumes
Defining stacked volumes to DFSMSrmm
Changing stacked volume information
Assigning a shelf location for a stacked volume
Deleting stacked volume information
DFSMSrmm support for stacked volumes when stacked volume support is enabled
Resolving movement conflicts
Confirming stacked volume movement
Using a stacked volume
DFSMSrmm support for export processing when stacked volume support is enabled
DFSMSrmm support for import processing when stacked volume support is enabled
Copy export from the TS7740 Virtualization Engine (3957-V06 or 3957-V07)
DFSMSrmm support for stacked volumes when stacked volume support is not enabled
DFSMSrmm support for export processing when stacked volume support is not enabled
DFSMSrmm support for import processing when stacked volume support is not enabled
Enabling stacked volume support
Performing a virtual export of logical volumes
Recovering a logical volume from an exported stacked volume
Setting up DFSMSrmm for the system-managed tape library
Using the system-managed tape library with new volumes
Using the system-managed tape library with volumes already defined in dfsmsrmm
Method 1
Method 2
Using the system-managed tape library with existing volumes
Using DFSMSrmm with an existing automated tape library
Returning volumes to scratch status
Partitioning system-managed tape libraries
Sharing a system-managed library and a BTLS-managed library
Moving from a non-system-managed to a system-managed IBM automated tape library
Running DFSMSrmm with BTLS
Setting up scratch pools for BTLS-managed volumes
Running DFSMSrmm inventory management with BTLS
Running EDGINERS for BTLS-managed volumes
Restrictions
Defining volume information for BTLS-managed volumes
Returning BTLS-managed volumes to scratch
Managing storage locations
Types of storage locations
Defining storage locations
Implementing installation defined storage locations
Implementing storage locations as home locations
Managing shelf space for home locations
Reusing bins in storage locations
Moving volumes to storage locations
Moving volumes by location
Moving volumes by media shape
Moving volumes manually
Assigning bins in storage locations
Changing storage locations
Deleting storage locations
Switching volumes to installation defined storage locations
Converting from built-in storage locations
Going back to built-in storage locations
Using the parmlib member EDGRMMxx
Defining storage locations: LOCDEF
LOCDEF command syntax
LOCDEF command operands
Defining media information: MEDINF
MEDINF command syntax
MEDINF command operands
Using MEDINF REPLACE commands to implement volume replacement policies
Example of using the MEDINF STK command
Defining mount and fetch messages: MNTMSG
MNTMSG command syntax
MNTMSG command operands
Controlling the use of tape volumes: OPENRULE
OPENRULE command syntax
OPENRULE command operands
Defining system options: OPTION
OPTION command syntax
OPTION command operands
Using the OPTION command to switch from SMF record types to IBM-assigned SMF record types
Partitioning tape volumes: PRTITION
PRTITION command syntax
PRTITION command operands
Implementing PRTITION and OPENRULE parmlib commands
Reviewing installation exits
Identifying basic rules
Examples of PRTITION and OPENRULE commands
Defining tapes not available on systems: REJECT
REJECT command syntax
REJECT command operands
Converting REJECT commands to PRTITION and OPENRULE commands
Examples of converting REJECT commands to OPENRULE and PRTITION commands
Defining security classes: SECCLS
SECCLS command syntax
SECCLS command operands
Defining pools: VLPOOL
VLPOOL command syntax
VLPOOL command operands
Authorizing DFSMSrmm users and ensuring security
Protecting DFSMSrmm resources with RACF profiles
Creating profiles
Setting the level of access for the DFSMSrmm resources
Authorizing resources
General user functions
Storage administrator functions
System programmer functions
Librarian functions
Inventory management functions
Operator functions
Using the tape relabeling resources
Creating audit trails
Control data set information
SMF audit information
RACF audit information
Using security classification processing
Preventing the use of IEHINITT
Controlling RACF tape profile processing
Recommendations for tape security
Recommendations for using RACF tape profile processing
Rejecting volumes on specific systems in a system complex
Maintaining the user access list
Using RACF with DFSMSrmm
DFSMSrmm RACF tape security support
DFSMSrmm automatic tape security support processing
Data set profile processing implications
RACF installation exit conversion
TAPEVOL class active. PROTECT=YES JCL option used
TAPEVOL class active. exit requested PROTECT=YES option used
TAPEVOL active. RACF exits using DATASET not TAPEVOL profiles
Using RACF options for authorizing RMM TSO subcommands
Using the SAF interface
SAF calls for authorization checking
Examples: Checking authorization for issuers of RMM TSO subcommands
Examples: Checking for authorization when additional security is in use
Example: Checking authorization to ignore volumes
Example: Checking for authorization to create label and no label volumes
Example: Checking authorization to remove DFSMSrmm from the system
SAF and RACF calls for creating, updating and deleting security profiles
Example: Checking for DATASET class resource
Example: Checking for TAPEVOL class resource
Example: Defining a TAPEVOL class
Example: Defining a TAPEVOL class resource when TAPEDSN is active
Example: Adding a tape volume
Example: Deleting a TAPEVOL profile
Example: Deleting a DATASET profile
Example: Checking for authorization
Using DFSMSrmm programming interfaces
Releasing tapes: EDGTVEXT
Invocation
Input
Output
Processing
Environment
Managing DFSMShsm tapes: EDGDFHSM
Invocation
Input
Output
Processing
Environment
Managing system-managed tape library volumes: EDGLCSUX
Input
Output
Processing
DFSMSrmm processing for OAM support
Change use attribute specific processing
Cartridge entry specific processing
Cartridge eject specific processing
Volume-not-in-library specific processing
Environment
Processing fetch and mount messages: EDGMSGEX
Input
Output
Processing
Environment
Processing JES3 messages: EDG3X71
Input
Output
Processing
Environment
Setting up parallel processing
Setting up parallel processing using SMP/E
Setting up parallel processing outside of SMP/E
Using DFSMSrmm installation exits
Using the DFSMSrmm EDG_EXIT100 installation exit
Planning to manage scratch pools with EDG_EXIT100
Selecting pool types
Controlling pool selection
Managing tape drive availability
Defining operator messages for tape drive display
Managing scratch pools
Step 1: Define the pools
Step 2: Tailor the sample EDGUX100 exit module
Step 3: Activate the EDG_EXIT100 installation exit
Step 4: Define MNTMSG parmlib options
Step 5: Set up cartridge loaders
Step 6: Updating JES3 code (Optional)
Step 7: Activate MONITOR DSNAME
Specifying the retention method to be used for new tape data sets
Copying data set attributes in a tape copy application
Excluding specific data sets from VRSEL processing as they are created or rewritten
Ignoring duplicate or undefined volume serial numbers
Determining volser
Determining RMM versus NORMM
Step 1: Tailor the sample EDGUX100 exit module
Step 2: Activate the sample EDGUX100 exit module
Step 3: Define a RACF FACILITY class entity to check authorization
Step 4: Authorize users
Using vital record specification management values to retain tape volumes
Step 1: Define vital record specification management values
Step 2: Tailor the sample EDGUX100 exit module
Step 3: Activate the sample EDGUX100 exit module
Step 4: Run DFSMSrmm inventory management vital record processing
Using the EDG_EXIT100 installation exit from pre-ACS processing
Creating sticky labels
Step 1: Tailor the sample EDGUX100 exit module
Step 2: Activate the sample EDGUX100 exit module
Modifying DFSMSrmm label output
Controlling tape volume data set recording
Step 1: Tailor the sample EDGUX100 exit module
Step 2: Activate the sample EDGUX100 exit module
Changing location information with EDG_EXIT100
EDG_EXIT100 exit routine processing
Assigning expiration dates
Supplying a scratch pool name
Using the system name to select a scratch pool
Using storage group for manual tape library pooling
Using the DFSMSrmm API from an EDG_EXIT100 exit module
Setting up the EDG_EXIT100 routine environment
Installing the EDGUX100 default exit routine
Deleting the EDG_EXIT100 exit routines
Writing an exit routine for the EDG_EXIT100 exit
Registers on entry to an EDG_EXIT100 exit routine
EDG_EXIT100 parameter list
Registers on return from a EDG_EXIT100 exit routine
EDG_EXIT100 installation exit routine return codes
Using the EDG_EXIT200 installation exit
EDG_EXIT200 exit routine processing
Setting up the EDG_EXIT200 routine environment
Installing the EDGUX200 default exit routine
Deleting the EDG_EXIT200 exit routines
Writing an exit routine for the EDG_EXIT200 exit
Registers on entry to an EDG_EXIT200 exit routine
EDG_EXIT200 parameter list
Registers on return from the EDG_EXIT200 exit routine
EDG_EXIT200 installation exit routine return codes
Using the EDG_EXIT300 installation exit
EDG_EXIT300 exit routine processing
Setting up the EDG_EXIT300 routine environment
Installing the EDGUX300 default exit routine
Deleting the EDG_EXIT300 exit routines
Writing an exit routine for the EDG_EXIT300 exit
Registers on entry to an EDG_EXIT300 exit routine
EDG_EXIT300 parameter list
Registers on return from the EDG_EXIT300 exit routine
EDG_EXIT300 installation exit return codes
Running DFSMSrmm with DFSMShsm
Defining DFSMShsm to RACF
Authorizing DFSMShsm to DFSMSrmm resources
Authorizing ABARS to DFSMSrmm resources
Setting DFSMSrmm options when using DFSMShsm
Setting DFSMShsm options when using DFSMSrmm
Setting DFSMShsm system options
Setting DFSMShsm dump definitions
DFSMSrmm support for DFSMShsm naming conventions
DFSMSrmm support for retention and pooling
Retaining DFSMShsm tapes using expiration dates
Using the EXPDT retention method to manage DFSMShsm tapes
Using the VRSEL retention method to manage DFSMShsm tapes
Retaining all DFSMShsm tapes
Retaining open data sets
Retaining single file format migration tapes
Retaining multifile format migration tapes
Retaining single file format backup tapes
Retaining multifile format backup tapes
Retaining and moving TAPECOPY tapes or DUPLEX tapes
Retaining and moving dump tapes
Retaining and moving tapes written by ABARS
Retaining and moving ABARS accompany tapes
Retaining DFSMShsm control data set backup tapes
Retaining cycles of dump tapes
Retaining ABARS backup tapes
Retaining DFSMShsm tapes with extra days retention
Disaster recovery using DFSMShsm alternate tapes with DFSMSrmm
Securing tapes when running DFSMShsm and DFSMSrmm
Recommendations for using DFSMSrmm and DFSMShsm
Running DFSMSrmm with JES3
Preventing JES3 from validating volumes
Updating JES3 fetch and mount messages
Steps for using the EDG3UX71 USERMOD
Using the EDG3IIP1 USERMOD
Using the EDG3LVVR USERMOD
Using the EDG3UX62 USERMOD to create and mount no label tapes
Performing inventory management
Scheduling DFSMSrmm utilities
Running inventory management
Inventory management considerations for EXPROC and VRSEL processing
Managing exceptions in retention
Inventory management considerations
DFSMSrmm inventory management considerations when client/server support is enabled
Allocating data sets for inventory management
Creating an extract data set
Calculating DASD space and placement for the extract data set
Placing the extract data set
JCL for creating an extract data set
JCL for EDGHSKP
EXEC parameters for EDGHSKP
SYSIN file for the EDGHSKP utility
EXPROC command
RPTEXT command
EDGSPLCS file for the EDGHSKP utility
Running vital record processing
JCL for vital record processing
Using the vital records retention report
Using the inventory management ACTIVITY file
How vital record processing works
How DFSMSrmm processes vital record specification chains
How DFSMSrmm processes primary and secondary vital record specifications
Combining retention types
How DFSMSrmm selects retention and movement policies
Considerations for retaining data sets and volumes
Moving volumes
Inventory management trial run
Running storage location management processing
JCL for storage location management processing
How storage location management processing works
Running expiration processing
JCL for expiration processing
How expiration processing works
Returning volumes to scratch status
Volume replacement policies
Tracking volumes with permanent errors
Managing open data sets
Running multiple copies of the EDGHSKP EXPROC utility
Running DFSMSrmm catalog synchronization
DFSMSrmm catalog processing
JCL for catalog synchronization
Synchronizing the DFSMSrmm control data set with user catalogs in a fully shared catalog environment
Synchronizing the DFSMSrmm control data set with user catalogs when catalogs are not fully shared
Confirming global volume movement
Confirming global release actions
Backing up the control data set
Ensuring a consistent copy of the DFSMSrmm CDS
JCL for using backup to create a CDS copy
JCL for backing up the control data set and journal
Backing up the journal
JCL for backing up the journal
Steps for automating control data set backup and journal clearing
Return codes for EDGHSKP
Maintaining the control data set
DFSMSrmm considerations when client/server support is enabled
Using EDGBKUP
JCL for EDGBKUP
EXEC parameters for EDGBKUP
DD statements for EDGBKUP
SYSIN file for EDGBKUP
Return codes for EDGBKUP
Additional EDGBKUP return code information
Customizing the DSSOPT DD statement
Backing up the control data set
Backing up the DFSMSrmm control data set and journal
Updating the active control data set
JCL for EDGUPDT
DD statements for EDGUPDT
SYSIN file for EDGUPDT
Restoring the control data set
Controlling the control data set recovery point
Restoring the control data set with forward recovery
Restoring the control data set without forward recovery
Forward recovering the control data set
Restoring the control data set at a recovery site
Using non-dfsmsrmm utilities to restore the control data set
Reorganizing the control data set
Monitoring the space used by the control data set
Changing the size of the control data set and journal
Recovering from control data set update failures
Recovery processing
Handling I/O requests following a failure
Automatic recovery
Manual recovery
Moving the control data set and journal to a different device
Steps for moving the control data set and journal using the DFSMSrmm EDGHSKP utility with the PARM='BACKUP' parameter
Steps for moving the control data set and journal using DFSMSrmm utility EDGHSKP utility with the PARM='BACKUP(DSS)' parameter
Moving the journal using DFSMSrmm utilities
Steps for moving the control data set using non-dfsmsrmm utilities
Using EDGUTIL for tasks such as creating and verifying the control data set
JCL for EDGUTIL
JCL for creating the control data set
JCL for updating the control data set
JCL for verifying the contents of the control data set
JCL for mending the control data set
EXEC parameters for EDGUTIL
SYSIN file for VERIFY and MEND processing
How EDGUTIL performs VERIFY and MEND processing for volumes
Creating or updating the control data set control record
Verifying the contents of the control data set
Verifying the control data set and tape configuration database
Synchronizing the contents of the control data set
Mending the control data set
Setting up DFSMSrmm stacked volume support
Setting up DFSMSrmm common time support
Daylight savings time considerations
Enabling extended bin support
EDGSPLCS file for the EDGUTIL utility
Return codes for EDGUTIL
Using EDGSPLCS to issue commands to OAM for system-managed volumes
EXEC parameters for EDGSPLCS
INDD input file
OUTDD output file
Return codes for EDGSPLCS
Sharing the DFSMSrmm control data set
Running DFSMSrmm inventory management when sharing the control data set
Running EDGINERS when sharing the control data set
Defining volume information when sharing the control data set
Confirming volume movement when sharing the control data set
Returning volumes to scratch when sharing the control data set
Initializing, erasing, and scanning tape volumes
Replacing IEHINITT with EDGINERS
Using EDGINERS
Initializing and erasing volumes automatically
Initializing,Erasing, and scanning volumes manually
Initializing and erasing volumes automatically using multiple tape drives
JCL for EDGINERS
EXEC parameters for EDGINERS
SYSIN commands for EDGINERS
ERASE and INIT commands
SCAN command
SCAN output
WTO SCAN results messages
Label data comparison with DFSMSrmm data
Using EDGINERS with system-managed tape libraries
Checking volumes in system-managed tape libraries
Requesting volume mounts for system-managed tape libraries
Running EDGINERS on multiple system complexes
Running EDGINERS on a 3494 in manual mode
Mounting and demounting volumes
Using DFSMSdfp processing to label volumes
Setting status for a volume in a system-managed tape library
Labeling new tape volumes with EDGINERS
Using the automatic cartridge loader with EDGINERS
Controlling access to EDGINERS
How DFSMSrmm selects an ISO/ANSI label Version
Producing label symmetry
How EDGINERS processing works
Return codes for EDGINERS
EDGINERS examples
Example 1: Write IBM standard labels on three tapes
Example 2: Write an ISO/ANSI label on a tape
Example 3: Place two groups of serial numbers on six tape volumes
Example 4: Place serial numbers on eight tape volumes
Example 5: Relabel a volume
Example 6: Automatically initialize or erase 3480 volumes
Example 7: Automatically initialize and erase volumes in a system-managed library
Example 8: Automatically initialize 50 scratch enhanced capacity cartridges
Example 9: Manually erase a volume
Example 10: Automatically initialize volumes using multiple tape drives
Example 11: Manually labeling duplicate volumes using EDGINERS
Example 12: Selecting EHPCT volumes for processing automatically
Example 13: Manually scanning a system managed DFSMSrmm volume
Customizing DFSMSrmm
Changing the initial entry point to the DFSMSrmm dialog
Adding local dialog extensions
Customizing the local dialog with 'U' line command
Customize point-and-shoot fields in the DFSMSrmm dialog
Changing the ADD product volume defaults
Customizing DFSMSrmm messages for report titles and user notification
Customizing DFSMSrmm report titles
Customizing notification messages and notes
Modifying text for release notification
Modifying text in notes to product owners
Modifying notify messages
Managing VM tape volumes
Replenishing scratch volumes in a system-managed library
Automating backup
Using the LABEL procedure
Processing NL label tapes: EDG019VM
Input
Output
Processing
Environment
Using the Problem Determination Aid Facility
Roadmap for using the Problem Determination Aid
Planning to use the PDA facility
Determining how long to keep trace information
Short-term trace history
Long-term trace history
Determining Problem Determination Aid (PDA) log data set size
Enabling the Problem Determination Aid (PDA) facility
Allocating the Problem Determination Aid (PDA) log data sets
Increasing the size of the Problem Determination Aid (PDA) log data sets
Maintaining a history of Problem Determination Aid (PDA) log data
Printing the Problem Determination Aid (PDA) log data sets
Setting up DFSMSrmm disposition processing
Implementing DFSMSrmm disposition control file processing
Modifying the contents of the disposition control file
Selecting the method used for label processing
Modifying tape labels
Running DFSMSrmm with the IBM Tivoli Workload Scheduler for z/OS
Using a Tivoli special resource when running DFSMSrmm with the IBM Tivoli Workload Scheduler for z/OS
Setting up DFSMSrmm to use the IBM Tivoli Workload Scheduler for z/OS
Descriptions of DFSMSrmm jobs to run with the IBM Tivoli Workload Scheduler for z/OS
IBM Tivoli Workload Scheduler for z/OS applications for DFSMSrmm
Customizing the IBM Tivoli Workload Scheduler for z/OS batch loader statements
Setting up IBM Tivoli Workload Scheduler for z/OS workstations
Event triggered tracking
DFSMSrmm mapping macros
OAM interface: EDGLCSUP
Installation exit mapping macro: EDGPL100
Installation exit mapping macro: EDGPL200
Installation exit mapping macro: EDGPL300
Sticky label data: EDGSLAB
Using DFSMSrmm samples
Evaluating removable media management needs
Problem Determination Aid log data set size work sheet for long-term trace history
Problem Determination Aid log data set size work sheet for short-term trace history
Copyright IBM Corporation 1990, 2014