ADAMUP (Mass Add And Delete)

This document describes the utility "ADAMUP".

The following topics are covered:


Functional Overview

The mass update utility ADAMUP adds records to, or deletes records from a file in a database. It does not require the Adabas nucleus to be active.

The output files produced by the compression utility ADACMP or the unload utility ADAULD may be used as input for a mass add.

Note:
The ADAMUP ADD function can process MUPDTA/MUPDVT files created with earlier Adabas versions, but not MUPDTA/MUPDVT files created with later Adabas versions.

Input files produced by ADACMP or ADAULD with the SINGLE_FILE option or from a previous run of ADAMUP using the DELETE function with the LOG option can also be used.

Input files produced without descriptor value tables (SHORT option in ADAULD or LOG=SHORT option in ADAMUP) can be processed if the database file to be processed does not contain any descriptors.

The input for the DELETE function is provided in an input file. Each record contains one or more ISNs or ISN ranges.

Records may be both added to and deleted from a database file during a single run of ADAMUP.

If the utility writes records to the error file, it will exit with a non-zero status.

Note:
FDTs that contain the same fields, but collation descriptors that belong to different ICU versions are considered to be different. This means you can only load the data into a file with a different ICU version if the file is empty, and if you use the NEW_FDT parameter.

This utility is a single-function utility. For more information about single- and multi-function utilities, see Adabas Basics -> Using Utilities -> Single- and Multi-function utility.

Procedure Flow

Procedure Flow ADAMUP 1

The sequential files MUPDTA, MUPDVT, MUPTMP, MUPLOB and MUPERR can have multiple extents. For detailed information about sequential files with multiple extents, see Adabas Basics, Using Utilities.

Data Set Environment
Variable/
Logical Name
Storage
Medium
Additional Information
Associator ASSOx Disk  
Data storage DATAx Disk  
Compressed input
data
MUPDTA Tape, Disk  
Descriptor values MUPDVT Tape, Disk  
Rejected data MUPERR Disk, Tape (* see note)  
LOB data MUPLOB Disk, Tape Temporary working space, will be deleted again when ADAMUP terminates
Normal index MUPTMP Disk, Tape Temporary working space, will be deleted again when ADAMUP terminates
Sort storage SORTx
TEMPLOCx
Disk Administration Manual, temporary working space
Control statements stdin/
SYS$INPUT
  Utilities Manual
ADAMUP messages stdout/
SYS$OUTPUT
  Messages and Codes
Temporary storage TEMPx Disk  
Work WORK1 Disk  

Note:
(*) A named pipe can be used for this sequential file.

In cases without an active nucleus and no pending AUTORESTART, the WORK may be used as TEMP by setting the environment variable/logical name TEMP1 to the same value as WORK1.

Procedure Flow ADAMUP 2

The sequential files MUPTMP, MUPLBI, MUPLOG and MUPERR can have multiple extents. For detailed information about sequential files with multiple extents, see Adabas Basics, Using Utilities.

Data Set Environment
Variable/
Logical Name
Storage
Medium
Additional Information
Associator ASSOx Disk  
Data storage DATAx Disk  
Rejected data MUPERR Disk, Tape (* see note)  
ISNs to be deleted MUPISN Disk, Tape  
LOB ISNs MUPLBI Disk, Tape Temporary working space, will be deleted again when ADAMUP terminates
Compressed data MUPLOG Disk, Tape  
Normal index MUPTMP Disk, Tape Temporary working space, will be deleted again when ADAMUP terminates
Sort storage SORTx
TEMPLOCx
Disk Administration Manual, temporary working space
Control statements stdin/
SYS$INPUT
  Utilities Manual
ADAMUP messages stdout/
SYS$OUTPUT
  Messages and Codes
Work WORK1 Disk  

Note:
(*) A named pipe can be used for this sequential file.

Checkpoints

The following table shows the nucleus requirements for each function and the checkpoints written:

Function Nucleus must be active Nucleus must NOT be active Nucleus is NOT required Checkpoint written
FDT     X -
UPDATE X(* see note 1) X(* see note 2) X(* see note 3) SYNP
SUMMARY     X -

Notes:

  1. When deleting records in a file with LOB data.
  2. When updating an Adabas system file.
  3. Except when deleting records in a file with LOB data.

Control Parameters

The following control parameters are available:

M    DBID = number

     FDT

     SUMMARY

     UPDATE = number [,FDT]
              [ADD [,add_keywords]]
              [DELETE [,delete_keywords]]
 D            [,[NO]FORMAT]
 D            [LWP = number[K|M]]

DBID

DBID = number

This parameter selects the database to be used.

FDT

FDT

This parameter displays the Field Definition Table (FDT) of the selected file in the database. If records are to be added to a file, the FDT of the sequential input file containing these records can also be displayed. This parameter may also be used in an ADD/DELETE specification.

Depending on the context in which the FDT parameter is used, the Field Definition Table contained in the sequential input file MUPDTA and/or the Field Definition Table contained in the selected database file is displayed.

Examples

adamup db=2 fdt update=11 add 

The FDT stored in the MUPDTA file is displayed.

adamup db=2 update=11,fdt add 

The FDT of file 11 in database 2 is displayed.

adamup db=2 fdt update=11,fdt add 

The FDT stored in the MUPDTA file is displayed first; then the FDT of file 11 in database 2 is displayed.

SUMMARY

SUMMARY

This parameter displays the Descriptor Space Summary (DSS) on the sequential input file that contains the compressed records. This display is identical to the one at the end of the ADACMP, ADAULD or ADAMUP run which generated this input file, and can be used to estimate the space required in the index.

Additionally, the following information is displayed:

  • required SORT size (for default LWP)

  • recommended TEMP size (the size required to do the index update in one pass)

  • current size of SORT (if present)

  • LWP needed for memory-resident sort

  • Recommended size of LWP and SORT (if LWP is large enough to allow a smaller SORT size to be used).

Note:
If the default LWP is large enough to do a memory-resident sort, SORT sizes are not displayed.

See Adabas Basics, Optimization of ADAMUP and ADAINV Processing for further information about ADAMUP SUMMARY processing.

UPDATE

UPDATE  = number [,FDT]
              [ADD [,add_keywords]]
              [DELETE [,delete_keywords]]
              [,[NO]FORMAT]
              [LWP = number[K|M]]

This function specifies the file to which records are to be added/deleted. Since ADAMUP requires exclusive control of the file, it cannot be used for an Adabas system file while the nucleus is active. You are not allowed to specify a LOB file.

ADD

ADD
   [,DE_MATCH = keyword]
   [,FDT]
   [,[NO]NEW_FDT]
   [,NUMREC = number] 
   [,SKIPREC = number]
   [,UQ_CONFLICT = keyword]
   [,RI_CONFLICT = keyword]
   [,[NO]USERISN]

This parameter indicates that records are to be added to the file specified by the UPDATE parameter.

The input for mass add is produced by the compression utility ADACMP, the unload utility ADAULD or by a previous run of the mass update utility ADAMUP using the DELETE function with the LOG option set.

ADAMUP compares the FDT in the sequential input file that contains the compressed records with the FDT of the database file specified. The FDTs must have identical layouts and must use the same field names, formats, lengths and options.

Descriptors in the database file can be a subset of the descriptors defined in the FDT in the sequential input file, but the input file must contain descriptor value table (DVT) entries for all descriptors defined in the database file. Therefore, input files produced without descriptor value tables (SHORT option) can only be processed if there are no descriptors currently defined in the database file to be updated.

If the input for mass update contains LOB data, the Adabas file must have an assigned LOB file.

DE_MATCH = keyword

This parameter is used to indicate which action is to be taken if a descriptor provided with the input data is not a descriptor in the actual FDT of the file. If keyword = IDENTICAL, ADAMUP terminates processing and returns an error message. If keyword = SUBSET, ADAMUP ignores a descriptor which is in the input file, but which has been removed from the database file.

The default is DE_MATCH=IDENTICAL.

[NO]NEW_FDT

If NEW_FDT is specified, the FDT of the file is replaced by the FDT of the MUPDTA file. NEW_FDT can only be specified if the file is empty when ADAMUP is started.

NEW_FDT must be specified if the FDT of the file in the database and the FDT of the MUPDTA file are different - a mass update is not possible if the FDTs are different and the file is not empty.

The default is NONEW_FDT.

NUMREC = number

This parameter specifies the number of records to be added. If NUMREC is specified, ADAMUP terminates after adding the predefined number of records, unless an end-of-file condition on the input file causes ADAMUP processing to end. If NUMREC is omitted and SKIPREC is not specified, all records in the input file are added.

SKIPREC = number

This parameter specifies the number of records in the input file to be skipped before starting to add records.

UQ_CONFLICT = keyword

This parameter is used to indicate which action is to be taken if duplicate values are found for a unique descriptor. 'keyword` may take the values ABORT or RESET. If ABORT is specified, ADAMUP terminates execution and returns an error status if duplicate UQ descriptor values are found. If RESET is specified, conflicting ISNs are written to the error log, the UQ status of the descriptors in question is removed and processing continues.

The default is UQ_CONFLICT=ABORT.

RI_CONFLICT

This parameter is used to indicate which action is to be taken if referential integrity is violated. 'keyword` may take the values ABORT or RESET. If ABORT is specified, ADAMUP terminates execution and returns an error status. The index is marked as not accessible. If RESET is specified, the violated constraint is removed. In both cases the violating ISNs are stored in the error log.

The default is RI_CONFLICT=ABORT.

[NO]USERISN

This option indicates whether the ISN to be assigned to each record is to be taken from the input file or not.

This option should be set to USERISN if the user wants to control ISN assignment for each record added to the database file. Each ISN provided must be:

  • a four-byte binary number immediately preceding each data record;

  • within the current limit (MAXISN) for the file - the file's Address Converter is not automatically extended;

  • unique within the specified file.

Otherwise ADAMUP terminates execution and returns an error message.

Note that problems could arise if this option is set to USERISN for an input file created by an unload that is based on a descriptor which is a multiple-value field. This is because the same record may have been unloaded more than once. Please refer to the ADAULD utility, SORTSEQ parameter for more information.

If this option is set to NOUSERISN, the ISN for each record is assigned by ADAMUP. However, the ISN of a DVT record that has been previously re-vectored by a hyperexit will not be changed by ADAMUP.

The default is NOUSERISN.

DELETE

DELETE
      [,DATA_FORMAT = keyword]
      [,FDT]
      [,ISN_NOT_PRESENT = keyword]
      [,LOG = keyword | ,NOLOG]

This parameter indicates that records are to be deleted from the file specified by the UPDATE parameter. The ISNs of the records to be deleted are given in an input file.

DATA_FORMAT = keyword

This parameter defines the data type of the records in the input file containing the ISNs to be deleted. Each record contains one or more ISNs or ISN ranges.

Valid ISNs are within the range 1...MAXISN.

In accordance with the formats supported, `keyword' may take the following values:

Keyword Meaning
BINARY

A single ISN is contained in a 4 byte binary value, an ISN range is contained in two consecutive binary values, with the high-order bit set in the second value.

Blocks in this file start with 2 byte exclusive length field.

Note:
ISNs >= 2**31 (2147483648) cannot be deleted with DATA_FORMAT=BINARY.

DECIMAL

Each record has the following layout:

[number[-number] [,number[-number]]...] [;comment]

where `number' is decimal number with 1 to 10 digits.

ADAMUP validates all input records in a first step. ADAMUP displays the line number and the offset for each error that is detected. If an error is detected, ADAMUP terminates execution once the input file has been completely parsed.

The default is DATA_FORMAT = BINARY.

ISN_NOT_PRESENT = keyword

This parameter indicates the action to be taken when an ISN given in the input file of records to be deleted is:

  • not within the current limit (MAXISN) for the file;

  • not in the file's Address Converter.

`keyword' may take the following values:

Keyword Meaning
ABORT ADAMUP aborts execution and returns an error message if a conflicting ISN is detected.
IGNORE ADAMUP writes the conflicting ISNs to the error log and continues processing.

The default is ISN_NOT_PRESENT=IGNORE

LOG = keyword
NOLOG

LOG=keyword indicates that the deleted records are logged in a sequential file. The records are written in compressed format and are identical to those produced by the compression utility ADACMP and the unload utility ADAULD. Because each data record is preceded by its ISN, these ISNs can be used as user ISNs when reloading or mass-adding this file (see the USERISN option described above).

`keyword' may take the following values:

Keyword Meaning
FULL The descriptor values which are required to build the index, are included in the output file.
SHORT The descriptor values which are required to build the index, are omitted from the output file.

ADAMUP writes both the compressed data records and the descriptor values generated to a single file.

The default is NOLOG.

[NO]FORMAT

This option may be used to format blocks at the end of the file's Normal Index (NI) and Upper Index (UI) extents if the new index (after the modifications have been made) requires less space than the old index did. This may be the result of deletions within the index, recovery of lost index blocks or re-establishing the padding factor.

Because these blocks are returned to the file's unused blocks, there are no side-effects if the data stored in these blocks is not deleted. If this option is set to FORMAT, ADAMUP overwrites these blocks with binary zeros.

The default is NOFORMAT.

LWP = number[K|M]

For the sort of descriptor values, ADAMUP uses a work pool in memory. The default size of the work pool in most cases results in an optimal performance for ADAMUP. The LWP parameter allows you to increase the work pool; it defines the additional space added to the default work pool size in bytes, kilobytes (K) or megabytes (M).

Increasing the work pool size may be useful in the following cases:

  • If you notice that in your environment the performance is better with a large work pool.

  • If the SORT container is too small for sorting the descriptor values; an adequate LWP parameter can decrease the required size of the SORT container.

You can use the SUMMARY function to determine the required value for this parameter.

Restart Considerations

ADAMUP has no restart capability. An abnormally terminated ADAMUP must be rerun from the beginning.

If the Data Storage space becomes exhausted, ADAMUP will not abort, but will attempt to build the index for the records that have already been loaded; this means that the file is consistent, and the remaining records can then be loaded with the SKIPREC option after additional Data Storage space has been allocated.

SORT Data Set Placement

It is recommended that the SORT data set does not reside on the same volume as the Associator and the input file that contains the Descriptor Value Tables.

The SORT data set may be omitted when adding only small amounts of data. ADAMUP then performs an in-core sort.

Use the SUMMARY function to get information about the required SORT and LWP sizes.

TEMP Data Set Placement

It is recommended that the TEMP data set does not reside on the same volume as the input file that contains the Descriptor Value Tables and the SORT. Although the size of TEMP is closely related to the performance when loading the Normal/Main Index, successful execution does not depend on a given size or the presence of a TEMP.

Use the SUMMARY function to display the recommended TEMP size.

Examples

Example 1:

adamup: dbid=1
adamup: update=10
adamup: add, userisn

File 10 of database 1 is updated by adding new records. The ISN given with each input record is used.

Example 2:

adamup: dbid=1
adamup: update=10
adamup: delete

The records identified by the ISNs provided on the input file are to be deleted from file 10 of database 1. The ISNs to be deleted are in binary format.

Example 3:

adamup: dbid=1
adamup: update=10
adamup: add, skiprec=1000
adamup: delete, data_format=decimal, log=full

New records are to be added while old ones are deleted from file 10 of database 1. The first thousand records found on the input file are not added. The ISN for each record added is assigned by ADAMUP. The ISNs of the records to be deleted are supplied in decimal format on the input file. All records which have been deleted are logged on an output file. The values required to re-create the inverted list when reloading are included in the log.