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Mainframe VSAM
CHAPTER - 1: Introduction to VSAM
Virtual Storage Access Method - VSAM - is a data management systemintroduced by IBM in the 1970s as part of the OS/VS1 and OS/VS2 operating
systems. Although there are still datasets that are best managed with the severalother (non-VSAM) data management methods, VSAM is a major component of
modern IBM operating systems. VSAM is a high performance access method used toorganize data and to maintain information about that data in an index or library
called a catalog.
VSAM acts as interface between Operating System and Application Program.VSAM is an access method used to organize data and maintain information about the
data in a catalog.
All VSAM data sets reside on DASD Devices and must be defined in a catalog.
There are two major parts to VSAM:
Catalog management
Record management
Catalog Management
The catalog contains information about the VSAM data sets. The catalog canbe an ICF Catalog or a VSAM catalog (older versions of the operating
system). DFSMS/MVS deals only with ICF catalogs.
All VSAM data set information is maintained in the ICF catalog and it can be
easily retrieved using AMS commands (Access Method Services).
Record management
The purpose of record management is to maintain records in a VSAM data set
for an application or a system program. VSAM supports five data set organizations:
Key-sequenced data set (KSDS)
Entry-sequenced data set (ESDS)
Fixed-length relative record data set (RRDS)
Variable-length relative record data set (VRRDS)
Linear data set (LDS)
The primary difference between the VSAM data set organizations is in the way
the records are stored and accessed.
VSAM HISTORY
In the year 1973 VSAM was introduced with ESDS & KSDS only and in theyear 1975 the concept of Alternate Index, RRDS, and Catalog Recovery featureswere introduced. VSAM was re-introduced with a facility called as Integrated Catalog
Facility (ICF). In the year 1983 VSAM was introduced with DFP/VSAM (Data FacilityProduct) which can run under MCS/XA. Later in the year 1987 the DFP/VSAM 2.3
with LDS facility was introduced and another VSAM 3.1 under MVS/ESA with DFSMS(Data Facility Storage Management System). In the year 1991, VSAM 3.3 was
introduced with variable length records for RRDS
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STRUCTURE OF VSAM
VSAM provides a comprehensive catalog facility that stores information aboutVSAM data sets and other files.
There are two types of catalogs:
Master Catalogs
User Catalogs
Master Catalog
Every system that uses VSAM has one, and only one, master catalog. The
master catalog contains entries about system datasets and VSAM structures used tomanage the operation of VSAM. The master catalog is created during the System
Generation process and usually resides on the System Residence volume. The
master catalog "owns" all other VSAM resources in a computer system, and this isdenoted by the position of the master catalog.
User Catalogs
A user catalog is a catalog created to contain entries about application specific
datasets. The information defining a user catalog is stored into a catalog entry in themaster catalog. A production system might have any number of user catalogs, with
the datasets cataloged in a specific user catalog related by application type.
ADVANTAGES & DISADVANTAGES OF VSAM
Advantages:
The retrieval of records is faster because of an efficiently organized index. The
index is small because of a key compression algorithm used to store andretrieve its records.
Imbedded free space makes the insertion of records easy, and data setstherefore require less reorganization.
The deletion of records in VSAM, unlike that in ISAM, means that they are
physically deleted, thus allowing the reclaiming of free space within the data
set.
VSAM data sets are device-independent.
VSAM catalogs and data sets are portable between operating systems.
Records can be accessed randomly by key or by address and can also be
accessed sequentially at the same time.
Disadvantages: To take advantage of the partial self-reorganization capabilities of VSAM data
sets, free space must deliberately be left. For data sets that are used for readonly purposes, no free space is required.
Except for read-only data sets, the integrity of VSAM data sets in cross-
system and cross region sharing must be controlled by the user. Dataintegrity must be a prime consideration in the initial design of applications
that will be shared across systems.
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MAJOR AREAS WHERE VSAM IS USED
It can be used as a stand-alone product. VSAM data sets can be created and
processed by a powerful software product called IDCAMS.
Batch application programs in COBOL, PL/I, Assembler, etc. can access VSAM
data sets.
In data set management, PDS directories, catalogs, and generation datagroups can be manipulated through specific IDCAMS commands. GDGs andcatalogs are themselves VSAM data sets, Also, the IDCAMS utility can be used
to process older, non-VSAM data set organizations.
Many major IBM software products, such as CICS, IMS, DB2 and TSO, useVSAM data sets in a majority of applications. In some of them, VSAM data
sets are the only ones that are compatible.
VSAM is available under all IBMs Mainframe operating systems; MVS, VM,
and VSE. The MVS implementation of VSAM is the most comprehensive. Also, VSAMdata sets can be stored on almost all standard disk drives, such as 3390, 3380,
3350, 3370, etc. Present and future mainframe software released by IBM will bedesigned to process records storage in VSAM data sets. VSAM is going to be around
for a long time to come.
VSAM TERMINOLOGY
Before we discuss VSAM data set organizations in detail, we need to reviewsome terms that will be used throughout the book.
Logical record
Control interval
Control area
Logical record (LR)
A logical record is a unit of information used to store data in a VSAM data set.
Logical records in VSAM data sets are stored differently than logical records in non-
VSAM data sets.
A LR is comparable to the logical-record length (lrecl) for a Non-Vsam dataset, as in
the DCB Parameter of JCL.
Control Interval (CI)
Logical records are contained in a control interval (CI). A group of LRs will
make one CI.
The fundamental building block of every component of a VSAM data set is thecontrol interval. A control interval is the unit of information that VSAM transfers
between the storage device and the virtual storage. One CI can be made of one or
more physical blocks of DASD.
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LR
LR LR LR LR
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A CI consists
Logical records stored from beginning to end
Unused space, referred to as free space, for data records to be inserted intoor lengthened
The maximum size of a CI is 32k and the minimum size is 512 bytes.
Control information, which is made up of two types of fields; one Control
Interval Definition Field (CIDF) per CI, and one or more Record DefinitionFields (RDF) per logical record.
1. CIDF is a 4-byte field. It contains information about the length of data
in the CI and the amount and location of free space.
2. RDF is a 3-byte field. It describes the length of records and how manyadjacent records are of the same length.
Control area (CA)
A control area (CA) is one or more CIs put together into fixed-lengthcontiguous areas of DASD. A VSAM data set is composed of one or more CAs.
The number of CIs in a CA is fixed by VSAM. The CA size is implicitly definedwhen you specify the size of a data set at data set definition.
The maximum size of a CA is one cylinder and the minimum size is one track.
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Control Interval Format for a Non- LDS Cluster.
RDF1
RDF2
RECORD 1 RECORD 2
Logical RecordArea
Free space Area
ControlInterval
Definition
field
Recorddefinition
field
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Figure 1-2 shows the structure of a CA.
REVIEW QUESTIONS
1. What is VSAM?
2. What are the major parts in VSAM?
3. What are the two Catalogs available in VSAM?
4. What is Control Interval?
5. What is Control Area?
6. How many Bytes occupied for RDF and CIDF?
7. The Maximum and minimum size of a Control Area is __________,
_________.
8. What are the advantages and disadvantages of VSAM?
9. What are the different datasets supported by VSAM?
10.What is a logical record?
11.What's the biggest disadvantage of using a VSAM dataset?
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LR1 LR2 FREE SPACE RDF2 RDF1 CIDF
LR3 LR4
LR5 LR6 FREE SPACE
FREE SPACE RDF4 RDF1 CIDF
RDF RDF CIDF
CA1
CA2
CA3
CA 1
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CHAPTER --- 2 : Dataset Organization
VSAM DATASET ORGANIZATION
Whenever a record is retrieved from DASD, the entire CI containing the
record is read into a VSAM I/O buffer in virtual storage. From the VSAM buffer, thedesired record is transferred to a user defined buffer or work area.
The physical organization of VSAM data sets differs considerably from those
used by other access methods. VSAM data sets are held in control intervals andcontrol areas; the size of these is normally determined by the access method, and
the way in which they are used is not visible to you.
TYPES OF DATASET ORGANISATION
VSAM supports 5 different organizations. They are as follows:
Linear Data Set LDS with no record organization
Entry-Sequenced Data Set ESDS - is like a standard sequential data set.
Fixed-length Relative-Record Data Set - FRRDS - Fixed length RRDS
Variable-length Relative Record Data Set - VRRDS - Variable length RRDS
Key-Sequenced Data Set KSDS- is like an indexed sequential accessmethod file.
The VSAM data set organizations are superior to the native access methods.
VSAM provides for alternate indexes, a feature not available in native accessmethods. It has an admirable catalog facility that stores more information about
VSAM and other data sets. The powerful AMS utility in VSAM provides a variety ofservices dealing with catalogs, files, security, file management, etc. It provides
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WORK AREA
CI
LR1 LR2 LR3
LR2
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comprehensive support for application development in many environments such asCOBOL, PL/I, FORTRAN, Assembler and CICS.
LINEAR DATA SET (LDS)
A linear data set (LDS) contains data that can be accessed as byte-addressablestrings in virtual storage. It is a VSAM data set with a control interval size of 4096
bytes.
An LDS has no imbedded control information in its CI, which is, no RDFs and
CIDFs. All LDS bytes are data bytes. Logical records must be blocked and de blockedby the application program, but records do not exist from the point of view of VSAM.
An LDS contains a data component only.
LDS are generally used for fast random access to data that has nohierarchical structure - i.e., for data, that is a large flat file, such as a table or array.
A relational database is just this. You specify the LDS organization with the IDCAMSDEFINE command specifying the LINEAR parameter.
ENTRY SEQUENCED DATA SET (ESDS)
An ESDS is a sequential file, in which records are typically retrieved in theorder in which they were written to the data set and additions are always made at
the end of the file. Each record can be identified by a relative byte address or RBA.Records cannot be physically deleted. Since records in an ESDS are not sequenced
on any key field, there is no primary key index component. Imbedded free space isnot allocated at the time of allocation of an ESDS, since records are not added to the
middle of the file. Records in an ESDS may be of variable length.
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DATADATA CA
DATA CA
DATA
DATA
DATA
DATA
DATA
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Records can be updated, but without length change. To change the length of
a record, you must either store it at the end of the data set as a new record, oroverride an existing record of the same length that you have flagged as inactive.
A record can be accessed sequentially or directly by its RBA:
Relative Byte Address (RBA) is the address of a record in a dataset. Records
can be accessed sequentially or by relative byte address (RBA).The RBA of the firstlogical record is 0. The second record has an RBA equal to the length of the first
record and so on.
TYPICAL ESDS PROCESSING
Sequential processing:VSAM automatically retrieves records in stored sequence. Sequential
processing can be started from the beginning or somewhere in the middle of a dataset. If processing is to begin in the middle of a data set, positioning is necessary
before sequential processing can be performed.
Direct processing:
When a record is loaded or added, VSAM indicates its RBA. To retrieve recordsdirectly, you must supply the RBA for the record as a search argument. Although an
ESDS does not contain an index component, you can build an alternate index to keeptrack of these RBAs.
Empty spaces in the CI are referred to as unused space because they can
never be used.
You specify ESDS organization using the IDCAMS DEFINE command andspecifying the NONINDEXED parameter.
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RECORD1 RECORD2 RECORD3 RECORD4
RECORD5 RECORD6RECORD7 RECORD8
UNUSED SPACE
RBA
0
RBA
4096
RBA 8192
CI 1
CI 2
CI 3
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RELATIVE RECORD DATASET (RRDS)
1) FIXED LENGTH RECORDS
In an RRDS the entire data set is a string of fixed length slots. Each slot occupies a
fixed position and is identified by its position relative to the first slot of the data set.
The relative position of each slot is called relative record number (RRN). An
RRN is an integer that identifies the position of the slot no the value of a particularfield within the slot. Each slot of an RRDS may or may not contain a record. Records
in an RRDS may be inserted, retrieved, updated, and deleted both sequentially andrandomly. Records in an RRDS are always fixed in the length. RRDS has only data
component. When a record is deleted from a particular slot, the slot remains in thesame physical location although a record does not exist in that slot anymore
You specify the RRDS organization using the IDCAMS DEFINE command with
the NUMBERED option.
TYPICAL RRDS PROCESSING
CONTROL AREA 2
SLOT 8
CONTROL AREA 1
Slot8
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RECORD1 RECORD2 RECORD3 RECORD4
RECORD5 RECORD6 RECORD7 RECORD8
RECORD9 RECORD10 RECORD11 RECORD12
RECORD13 RECORD14 RECORD15 RECORD16
RECORD17 RECORD18 RECORD19 RECORD20
RECORD21 RECORD22 RECORD23 RECORD24
DATACA
DATACA
APPLICATION
PROGRAM
GET RECORD 25
CI
29 30 31 32
CI
25 26 27 28
CI
21 22 23 24
CI
17 18 19 20
CI13 14 15 16
CI
9 10 11 12 CI
5 6 7 8
CI
1 2 3 4
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The relative record number can be used as a search argument. Theapplication program inputs the relative record number of the target record and VSAM
is able to find its location quickly using an internal algorithm. An RRDS can beprocessed sequentially, directly or skip-sequentially.
RRDS sequential processing is treated the same way as ESDS sequentialprocessing. Empty slots are automatically skipped by VSAM.
An RRDS can be processed directly by supplying the relative record number
as a key. VSAM accesses the appropriate slot and returns the record to theusers buffer. RRDS direct address processing by supplying the RBA is not
supported.
Skip-sequential processing is treated like an RRDS direct processing request,but the position is maintained. Records must be in ascending sequence.
2. VARIABLE RELATIVE RECORD DATA SET (VRRDS)
A VRRDS is similar to a fixed-length RRDS, except that it contains variable-
length records. Each record has a unique relative record number, and is placed inascending relative record number order. Each record is stored and retrieved using its
relative record number. VRRDS has no preformatted slots.
The relative record number of a record cannot change. When that record iserased, the relative record number can be reused for a new record.
You can specify free space for inserting records and increasing the length of a
record. VRRDS is a KSDS processed as an RRDS, so an index will be created.
You specify the VRRDS organization with the IDCAMS DEFINE command withthe NUMBERED option and variable length record.
REVIEW QUESTIONS.
1. Which VSAM cluster support only fixed length records?
a) LDS
b) RRDS
c) ESDS
d) KSDS
2. FREESPACE can be specified for which type of cluster?
a) LDS
b) B. RRDS
c) C. ESDS
d) D. KSDS
3. For a KSDS, the larger the data CA size, the smaller the number of index CIs.
A. TRUE
B. FALSE.
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4. VSAM control intervals containing data records have at least one RDF and one
CIDF.
A. TRUE
B. FALSE
5. In which cluster type are records always added at the end of the data set?
a) LDS
b) RRDS
c) ESDS
d) KSDS
6. Which VSAM clusters support only fixed length records?
a) LDS
b) RRDS
c) ESDS
d) KSDS
7. The types of processing supported by RRDS are
a) sequential
b) skip-sequential
c) direct
d) a and b
e) a, b and c
8. The types of processing supported by ESDS are
a) Sequential
b) skip-sequential
c) Direct
d) a and b
e) a and c
9. What is the Difference between LDS & ESDS?
10. How Many Times Secondary Space Allocated?
11. What is the RRN for the first record in RRDS?
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CHAPTER - 3: KSDS
KEY SEQUENCED DATASET (KSDS)
In a KSDS, records are placed in the data set in ascending collating sequenceby key. The records for KSDS can be fixed-length or variable-length records. The key
of the record contains a unique value that determines the record's collating positionin the data set. The key must be in the same position in each record.
The key data must be contiguous and each record's key must be unique. After
it is specified, the value of the key cannot be altered, but the entire record can bedeleted. When a new record is added to the data set, it is inserted in its collating
sequence by key.
A KSDS has a data and an Index Component. The Index Component keepstrack of the used keys and is used by VSAM to retrieve quickly a record from the
data component, when a request is made for a record with a certain key. A KSDS
can have fixed or variable length records. A KSDS can be accessed eithersequentially or directly or skip-sequentially.
You specify the KSDS organization using the IDCAMS DEFINE command with theINDEXED parameter.
DATA / INDEX RELATIONSHIP
A KSDS has an index that relates key values to the relative locations of thelogical records in a data set. This index is called the Prime Index. It has two uses:
Locate the collating position when inserting records.
Locate records for retrieval.
When initially loading a data set, records must be presented to VSAM in keysequence. The Index is built automatically by VSAM as the data set is loaded withrecords. When a data CI is loaded with records, VSAM makes an entry in the index.
The entry consists of the highest possible key in the data CI and a pointer to thebeginning of that CI.
VSAM index can consists of more than one index level. Each level contains a
set of records with entries giving The location of the records in the next lower level.
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INDEX COMPONENT
DATA COMPONENT
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Sequence Set: contains the index CIs at the lowest level.
There is one CI in the sequence set for each data CA. It contains pointers and high
key information for each CI within the data CA. It contains also horizontal pointersfrom one sequence set CI to the next sequence set CI.
Index Set: remainder of the index component.
If there is more than one sequence set level record, VSAM automatically buildsanother index level. Each CI in the index set contains pointers and high key
information for CIs in the next lower level of the index.
TYPICAL KSDS PROCESSING:
INDEX COMPONENT
DATA COMPONENT
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IS1
IS2IS3
SS1 SS2 SS3 SS4 SS5
CI1
CI2
CI3
CI1
CI2
CI3
CI1
CI2
CI3
CI1
CI2
CI3
CI1
CI2
CI3
CA5CA4CA3CA2CA1
IndexComponent
DataComponent
Index set
Sequence set
079 236
007 021 079 FS 099 124 236 FS
001 002 004 007
008 012 018 021
067 079
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CONTROL AREAS
There are threemethods by which to
access a KSDS. These aresequential, direct, or skip-
sequential.
Sequential accessis used to load a KSDS,
and to retrieve, update,add and delete records in
an existing data set.Sequential access means that records are retrieved one-by-one, starting from the
first record, in the order that they are placed in the dataset.. When retrievingrecords, you do not need to specify key values because VSAM automatically obtains
the next logical record in sequence. The sequence set is used to find the next logicalCI. Sequential access allows you to avoid searching the index more than once.
Sequential is faster than direct for accessing multiple data records in ascending key
order.
Direct access is used to retrieve, update, add and delete records in an
existing data set. You need to supply a key value for each record to be processed.You can supply the full key or a generic key. The generic key is the high order
portion of a full key. For example, you might want to retrieve all records whose keysbegin with XY (where XY is the generic key), regardless of the full key value. VSAM
searches the index from the highest-level index set CI to the sequence set for arecord to be accessed. Vertical pointers in the sequence set CI are used to access the
data CA containing the record. Direct access saves you a lot of overhead by notretrieving the entire data set sequentially to process a small percentage of the total
number of records.
Skip-sequential access is used to retrieve, update, add and delete records inan existing data set. In skip-sequential method of access, the record pointer can be
placed anywhere within the dataset (by giving the key) and records can then beretrieved sequentially from that point.
LOADING A KSDS:
When loading a KSDS, logical records are stored in ascending key sequence
within a data CI. The data component for a KSDS can contain user specifiedFREESPACE. This free space is used later, when records are inserted or expanded.
CI Free Space: Percentage of CI left empty / unused at load time.
CA Free Space: Percentage of CIs in each data CA empty / unused at loadtime.
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084 087 099
111 124
2
38
SEQUENCE SET CI
FS
407740654037
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UPDATING A KSDS CLUSTER:
Insertion:
While Inserting a Record in the KSDS Cluster, the records are placed in logical
sequence. The CI free space is used. The Index Component is not altered.
Deletion:While deleting a record from the KSDS Cluster, the records are physically removed
from CI. The records in CI with higher keys are shifted left and the available freespace in the CI is increased. The Index Component is not altered.
INSERT 4058
SEQUENCE SET CI
CI 0
CI 1
DATA CA CI 2
CI 3
CONTROL INTERVAL SPLIT
When inserting a record in the CI, if there is no enough free space in the CI,
then the CI will be split as follows:
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4012 4023 4034 4037 FREE SPACE
4041 4050 4052 4085 FREE SPACE
4072 4073 4075 4077 FREE SPACE
FREESPACE
CI 0
CI 1
CI 2
CI 3
4037 4065 4077 FS
4012 4023 4034 4037 FREESPACE
4041 4050 4052 4058 4065
FREE SPACE
4072 4073 4075 4077 FREESPACE
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Half of the full CI is moved to an empty / free CI within same CA. So, CA free
space is used.
A new index entry is inserted in the sequence set record.
The existing index entry is updated in the sequence set record.
As a result of the CI split, the physical sequence of the data is no longer the
same as the logical sequence.This will be illustrated by the following diagram.
.
INSERT 4046
SEQUENCE SET
CI 0
CI 1
DATA CA
CI 2
CI 3
CONTROL AREA SPLIT
When there are no more free CI s in the CA then VSAM performs a controlarea split.
o VSAM allocates a new CA at the end of the data component
o Approximately half of the data CI s are moved from the full CA to the
new CA.
o A new sequence set CI is created for the new data CA.
o The old sequence set CI is modified
o The index set is updated. In the given below example a new index set
CI will be created that will be the highest-level index set CI. Then VSAM
performs a control Interval split.
This will be illustrated by the following diagram.
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4037 4050 4065 4077
4012 4023 4034 4037 FREE SPACE
4041 4046 4050 FREE SPACE
4072 4073 4075 4077 FREE SPACE
4052 4058 4065 FREE SPACE
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TO INSERT 4074
CA1
4076 4077 4075
CA2
SPANNED RECORDS
Spanned records are records with a record size greater than the CI sizespecified.
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BEFOREAFTER
4077406540504037
SEQUENCE SET CI INDEX SET CI
40774065
SEQUENCE SET CI
4037 4050 4065
4037403440234012
405040464041
407740764073 4075
4072
406540584052
4037403440234012
4050
40464041
FREE SPACE
406540584052
407440734072
FREE SPACE
FREE SPACE
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Spanned records can only be used in ESDS or KSDS organizations.
Spanned records can span control intervals, but not control areas. So, onespanned record is stored in several CIs.
As in the above diagram, the spanned record spans three CIs. The segmentof the first CI contains part of data along with two RDFs and one CIDF. The right
RDF gives the length of the segment. The left RDF gives the update number of thesegment (used to maintain update consistency of all segments during an update).
A CI that contains the records segment of a spanned record contains controlinformation. However a new record cannot be inserted into the same CI. As in the
diagram, the third CI contains the spanned data, and the rest of the space becomes
unused space. A new record would move into the fourth CI.
ACCESSING SPANNED RECORDS
Spanned records must be accessed in MOVE mode. The application program must
contain a work area as the largest spanned record in the data set.
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RECORD 1
RECORD 1 R R CSEGMENT1 D D I
F F D2 1 F
RECORD 1 R R CSEGMENT2 D D I
F F D2 1 F
RECORD 1 UNUSED R R CSEGMENT3 SPACE D D I
F F D2 1 F
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REVIEW QUESTIONS:
1. Specifying CISZ (4096) at the cluster level for a KSDS results in
a) VSAM ignoring the specification
b) Data and index CISZ 4k each
c) Data CISZ 4k; index CISZ selected by VSAM
2. What is the use of Free Space in KSDS?
3. How do you define a KSDS?
4. VS COBOL II supports SKIP processing.
a) TRUE
b) FALSE
5. VSAM request macros (e.g., GET, PUT) point to which other macro(s)?
a) OPEN
b) ACB
c) RPL
d) CLOSE
e) (B) and (C)
6. NONSPANNED records may be accessed in either MOVE mode or LOCATE
mode.
a) TRUE
b) FALSE
7. What does a file status of 02 on a VSAM indicate?
8. Explain CI split and CA split
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CI 1
CI 2
CI 3
DATA BUFFERS
WORK AREA
ADDRESS SPACE
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CHAPTER - 4: ACCESS METHOD SERVICES (AMS)
One of VSAMs strength is that a single set of data management facilities
called Access Method Service (AMS) manages both VSAM and non-VSAM datasets.
IDCAMS is a general-purpose utility program, used with VSAM, to establish
and maintain catalogs and data sets. It provides the services described above, andmore.
AMS uses a command processor called IDCAMS to handle a variety of
functions such as creating, reproducing, printing datasets and listing catalogcontents. These functions of AMS are performed thru functional commands.
A functional command can have one or more parameters that can be
positional or keyword. Positional parameters are identified by its position in relationto other parameters: a keyword parameters can be used in any place in relation to
other keyword parameters because it is identified by the particular keyword used.
Types of AMS commands
Functional commands
Modal commands
Commonly used AMS commandsAMS command Function
Functional commands
ALTER Changes information specified for a catalog, cluster,alternate index, or path at define time.
BLDINDEX Builds an alternate index.
DEFINE ALTERNATE
INDEX
Defines an alternate index.
LISTCAT List information about data sets
REPRO Copies records from one file to another. The input and
output files can be VSAM or non-VSAMPRINT Prints the contents of a VSAM or non-VSAM file.
DEFINE CLUSTER Defines a VSAM file, whether its KSDS, ESDS, or RRDS
DEFINE MASTER
CATALOG
Defines a master catalog
DEFINE PATH Defines a path that relates an alternate index to its basecluster
DEFINE USERCATALOG Defines a user catalog.
DELETE Removes a catalog entry for a catalog, cluster, alternate
index or path
EXPORT Produces a transportable file.IMPORT Copies a previously exported file.
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Modal commands
IF Controls the flow of command execution by testingcondition codes returned by functional commands
SET Controls the flow of command execution by altering
condition codes returned by functional commandsPARM Sets options values that effect the way AMS executes.
AMS PERFORMANCE PARAMETERS
1) CONTROL INTERVAL SIZE
Syntax : CONTROLINTERVALSIZE (bytes)
Abbr : CISZ or CISIZE
Default : Calculated by VSAM
Control Interval size (CIDF & RDF) & FREESPACE must be taken into account
Thumb Rule for CISIZE
If the record length is =8192, multiples of 2048
2) FREESPACE
Syntax : FREESPACE (CI% CA%)
Default : FREESPACE(0 0)
High Free space results in more I/O & consumes larger DASD space
Very low FREESPACE results in CI splits and degrades performance
Amount of FREESPACE depends ono Rate of growth of records
o Expected number of records to be deleted
o Reorganization frequency
o Performance consideration
o
o 3) BUFFERSPACE
o Syntax : BUFFERSPACE (bytes)
o Abbr : BUFSP
o
Default : Two data buffers plus oneadditional index buffer for KSDS
o Used to improve Input/output performance
o Can also be specific in JCL EXEC parameter
o
o //DD1 DD DSNAME=ANYVSAM1,
o // AMP=('BUFND=4,BUFNI=4,STRNO=2')
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o
o More on VSAM Buffers
o
Strings (STRNO in AMP parameter)
o Defines number of concurrent access
o For batch processing, a string of 1 is enough
o For online processing more strings is required
Data Buffers (BUFND in AMP parameter)
Random Access
o Minimum of 2 (One for normal access and one for split
processing) is required
Sequential Access
Ideal to process a track
Allocate number of buffers based on the number of CI/TRK
For READ add 1 more buffer and for WRITE add 2 more buffers
Index Buffers (BUFNI in AMP parameter)
Default of 1 index buffer is enough
Random Access
Ideal to keep the index set in virtual memory
Determine the number of levels (using LISTCAT)
Allocate number of levels + 1 buffer
o
o 4) RECOVERY / SPEED
Mutually ExclusiveRECOVERY allows you to recover if the job initially loading the dataset fails
SPEED is faster, but does not provide restart feature
Default:RECOVERY
5) SPANNED
Syntax:
SPANNED/NONSPANNED
Default:
NONSPANNED
Allows large records to span more than one Control Interval
However, the records cannot span across Control areas
RRDS does not support spanned records.
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6) KEYRANGES
Syntax: KEYRANGES (Low - Val; High - Val)
Default : None (No range assumed)
Example :
KEYRANGES ((000001 100000)+
100001 200000))
The Key Ranges correspond to VOLUMES if ORDERED clause is specified.
7) ORDERED
Syntax: ORDERED / UNORDERED
Default: UNORDERED
Goes together with KEYRANGES clause specifies the volume to which
the key values should go.
8) REUSE
Syntax : REUSE/NOREUSE Default : NOREUSE
REUSE specifies that the cluster can be loaded with fresh records with
an implicit delete of existing RECORDS
REUSE cannot be used under following circumstances and hence not
recommended
When KEYRANGES parameter is coded
When alternate indexed are defined
9) REPLICATE
Directs the VSAM to duplicate each index as many times as it will fit onits assigned track
Applies only to KSDS index component
To reduce rotational delay and to make I/O faster
Syntax: Replicate / No replicate
Default : No replicate
10) VOLUMES
Can specify different volumes for
Data component
Index component
11) IMBED
Directs the VSAM to place the sequence set (the lowest level of indexnext to the data component) on the first track of the data control area and
duplicate it as many times as it will fit. This process will reduce rotationaldelay because the desired sequence set record is found faster
Default: NO IMBED
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Syntax : IMBED / NO IMBED
Note:
IMBED applies to the index component. Hence it is limited to a KSDS.
IMBED places the sequence set CI for a data control area within the controlarea.
Uses IMBED only with large control area sizes.
IMBED requires additional DASD space.
IMBED should provide faster access to data.
12) SHARE OPTION
Syntax: SHAREOPTIONS (Cross-region-value Cross-system-Val)
Cross-region : Concurrent data access on a standalone system(ex: TSO&CICS accessing same data)
Cross-system : Data access for multiple computers (Twodifferent computers that are inter-connected)
Default : SHAREOPTIONS (1 3)
Multiple jobs can read only if no update takes place - Complete data integrity
Multiple jobs can read and at the same time one job can update - Write, butnot read integrity
Multiple jobs can read & write simultaneously - No integrity
Same as option 3, but refreshes buffer after every read
Share options 1 & 2 are not allowed for cross-system
For cross region sharing, each batch job must have DISP=SHR
For cross system sharing DISP parameter in the JCL is immaterial
13) ERASE / NOERASE
Default : NOERASE
ERASE instructs VSAM to move zeroes to all the bytes once the cluster isdeleted.
INVOKING IDCAMS
//MYJOB JOB
//STEPA EXEC PGM = IDCAMS
//SYSPRINT DD SYSOUT = *
//SYSIN DD * DEFINE CLUSTER
.
.
IDCAMS commands can be processed as a job or job step (byspecifying PGM=IDCAMS) on the EXEC card.
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BASIC IDCAMS COMMANDS
The following are the commands which will be used with IDCAMS procedure.
BUILDINDEX
DEFINE
IMPORT/EXPORT
LISTCAT
REPRO
VERIFY
AMS COMMAND SYNTAX
Margins Default to 2&72
Separators BLANK,COMMA
Comments /*----------------*/
Continuation HYPEN, PLUS SIGN
Terminator SEMICOLON or Absence of Continuation mark
There are two possible continuation characters:
The PLUS sign (+): ignores the leading blanks on the next line. The HYPEN sign (-): doesnt ignore the leading blanks on the next line.
DEFINE SPECIFICATONS
When defining a VSAM cluster using the DEFINE CLUSTER command, the
following must or can be specified.
iFrames Technologies 25
COMMAND PARAMETERS TERMINATOR
SERVICEFURTHER END OF COMMANDREQUESTED DESCRIBES COMMAND
Data Set Name
Data Set Type
Space Allocation
Where?
How much?
Data Set Attributes
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The data set name:
The cluster name is required.
Component name(s) is/are optional.
The type of the date set type:
KSDS, ESDS, RRDS, LDS.
The data set attributes:
Record size and control interval size.
For a KSDS: Key information and free space distribution.
BASIC DEFINE COMMAND SYNTAX FOR CLUSTER:
The DEFINE CLUSTER Command
DEFINE CLUSTER ( NAME(entry name)
[ OWNER(owner id) ]
[ FOR(days) | TO(date) ]
[ INDEXED | NONINDEXED | NUMBERED ] [ RECORDSIZE (avg max) ]
[ CISZ(size)]
[ SPANNED | NONSPANNED]
[ KEYS (length offset)]
[ FREESPACE ( ci ca) ]
[ VOLUMES ( vol-ser no..)]
[ FILE (ddname) ]
[ { cylinders /kilobytes/megabytes/tracks/records} (primary
secondary)}]
[ UNIQUE | SUBALLOCATION]
[ REUSE | NOUSE]
[ SHAREOPTIONS ( a b)]
[ IMBED | NOIMBED]
[ STORAGECLASS(storage class)]
[ DATACLASS(data-class)]
[MANAGEMENTCLASS (management- class)]
[ DATA ( [ NAME (entry name) ]
[ VOLUMES (vol ser .)]
[ FILE (ddname) ] [ { cylinders/kilobytes/megabytes/tracks/ records} (primary
secondary) ] ) ]
[ INDEX ( [ NAME( entry name) ]
[ VOLUMES ( Vol ser .)]
[ { cylinders/kilobytes/megabytes/tracks/ records} (primarysecondary) ] ) ]
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[CATALOG ( name [/ password]) ]
Explanation
NAME (entry name) Specifies the name of the cluster or
component
OWNER (owner id) Specifies a 1 to 8 character owner-id.
FOR (days) TO (date) Specifies a retention period ( in the formatdddd) or an expiration date (in the format
yyddd)
INDEXED / NONINDEXED/NUMBERED Specifies the file organization: SDS
INDEXED), SDS NONINDEXED), OR RRDS
NUMBERED). The default is INDEXED.
RECORDSIZE ( avg max) Specifies the average and maximumrecord size.
CISZ (Size) Specifies the size of the control intervals.
SPANNED / NONSPANNED Specifies whether records can cross
control interval boundaries. The
default is NONSPANNED.
KEYS (length offset) Specifies the length and offset of the
primary key.
FREESPACE (ci ca) specifies the percentage of free space to
reserve in the control intervals andcontrol areas.
VOLUMES (Vol-ser) Specifies one or more volumes that willcontain the cluster or component.
FILE (dd name) Specifies a dd name that identifies a DDstatement that allocates the
volumes .Required only for mountableDASD volumes.
Primary Specifies the amount of space to initially
allocate, expressed in terms of cylinders,kilobytes, megabytes, tracks or
records.
Secondary Specifies the secondary space allocation.
UNIQUE/SUBALLOCATION Specifies whether the file is unique or sub
allocated. The default is
SUBALLOCATION. REUSE / NOREUSE Specifies whether a file is reusable. The
default is NOREUSE.
SHAREOPTIONS ( a b) Specifies the level of the file sharingpermitted.
IMBED / NOIMBED Specifies whether sequence set recordsshould be imbedded in the data component of
a KSDS. The default is NOIMBED.
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CATLOG (name[/password]) Specifies the name and password of the
catalog that will own the cluster. Ifomitted, the high- level qualifier of the
cluster name or the stepcat, jobcat,or master catalog identifies the catalog.
NAME is a positional keyword parameter and must be coded first. Other
keywords can be placed anywhere
EXAMPLES OF THE DEFINE CLUSTER:
Example #1
Define a key-sequenced data set (KSDS)
DEFINE CLUSTER ( NAME (MTRG.CUSTOMER.MASTER) -
OWNER(MTRG) -
INDEXED -
RECORDSIZE(80 80) -
KEYS(6 0) - VOLUMES(SMS007) -
UNIQUE -
SHAREOPTIONS( 2 3) -
IMBED) -
DATA ( NAME(MTRG.CUSTOMER.MASTER.DATA) -
CYLINDERS(50 5) -
CISZ(4096) ) -
INDEX ( NAME(MTRG.CUSTOMER.MASTER.INDEX))
Example #2
Define an entry-sequenced data set (ESDS)
DEFINE CLUSTER (NAME (MTRG.CUSTOMER.MASTER) -
OWNER (MTRG) -
NONINDEXED -
RECORDSIZE (180 80) -
VOLUMES (SMS007) -REUSE)
-
DATA ( NAME (MTRG.CUSTOMER.MASTER.DATA) -
CYLINDERS (50 5) )
Example #3
Define an relative-record data set (RRDS)
DEFINE CLUSTER (NAME (MTRG.CUSTOMER.MASTER) -
OWNER (MTRG) -
NUMBERED -
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RECORDSIZE (180 80) -
VOLUMES (SMS007) -UNIQUE)
-
DATA (NAME (MTRG.CUSTOMER.MASTER.DATA) -
CYLINDERS (50 5) )
REVIEW QUESTIONS:
1. What is IDCAMS? And what is the purpose of it?
2. What is the significance of the SHAREOPTIONS parameter?
3. What is the use of REPRO command?
4. What are the different types of AMS commands?
5. What are the basic IDCAMS commands?
6. AMS will generate a data component name if it is not explicitly coded.
a) TRUE
b) FALSE
7. What are the parameters used in AMS commands?
8. Can AMS commands be run from the TSO prompt?
9. What is the base cluster?
CHAPTER - 5: Creation of Clusters
CREATION OF VSAM DATA SETS THROUGH JCL
A Data Class is a description of data set characteristics under control
of SMS.
JCL parameter overrides the specifications from a Data Class. VSAMaccomplishes JCL simplification by centralizing functions such as defining,
iFrames Technologies 29
// DD statement
with new parameters
and/orinfo from DATA CLASS
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deleting, and altering file characteristics in the AMS Utility program. VSAMhas much simpler JCL requirements than files of other access methods.
How to allocate existing VSAM files
The DSNAME parameter
The DUMMY parameter
The DISP parameter
The AMP Parameter
How to create VSAM files using JCL.
The DD statement for allocating existing VSAM File
//ddname dd DSNAME={data-set-name}
{Dummy}[,Disp={old/shr},Normal-disp,Abnormal-disp]
[,AMP=(option,option.)]
Explanation:
DSNAME Specifies the name of the VSAM dataset. Normally, the high
level qualifier of the name identifies the owning catalog.
DUMMY Specifies that a VSAM file should not be allocated; instead, MVS
should simulate a VSAM FILE.
DISP Specifies the files status and, the files normal & abnormal
disposition. The valid status options are OLD for exclusive accessand SHR for shared access. All of the disposition options
except UNCATLG are valid for VSAM files.
AMP Specifies one or more processing options for VSAM files.
The AMP parameter
The AMP parameter is for VSAM files & the DCB parameter is for non-VSAM files. It specifies execution time information that affects how the file is
processed.
The AMORG sub parameter
AMORG indicates that the files being accessed is a VSAM file.
Normally, MVS realizes that a VSAM file is being processed when it retrievesthe catalog information for the file. So we need to specify AMP=AMORG when
MVS doesnt search the catalog.
The AMP parameter
AMP=[ AMPORG]
[,BUFND=n]
[,BUFNI=n]
[,BUFSP=n]
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[,OPTCD=OPTIONS]
[,RECFM=FORMAT]
[,STRNO=N]
Explanation
AMORG Specifies that the data set is a VSAM file. Normally not
required.
BUFND Specifies the number of buffers to allocate for the data
component.
BUFNI Specifies the number of buffers to allocate for the index
component.
BUFSP Specifies the total amount of space in bytes to allocate for the
data and index buffers.
OPTCD options for the ISAM interface. Code I , L, or IL. I means that
if OPTCD=L is specified for the file in the processingprogram, records marked for deletion by hex FF in the first
byte should be physically deleted from the file. If OPTCD=L
is not specified in the program, Specify OPTCD=IL in the DDstatement for the same effect.
RECFM Specifies the format in which the ISAM program expects to
process records.
STRNO Specifies the number of concurrent requests the program may
issue against the file.
Example #1
//CUSTMAST DD DSNAME=MTRG.CUSTOMER.MASTER, DISP=SHR,
// AMP=(BUFND=2,BUFNI=6)
Allocate a VSAM file for shared access, specifying that 2 data buffersand 6 index buffers should be used.
Example # 2
//CUSTISAM DD DSNAME=MTRG.CUSTOMER.MASTER,DISP=SHR,
// AMP=(AMORG,OPTCD=IL,RECFM=FB)
Allocate VSAM file using the ISAM interface program, AMORG identifiesthe file as VSAM, OPTCD specifies how logically deleted records should be
handled and RECFM specifies that the program expects fixed-length blockedrecords.
NEW PARAMETER USED IN VSAM
RECORG =
KEYOFF = offset-to-key
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ESKSRRLS
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(for KSDS Only)
KEYLEN =Bytes
(for KSDS and some non-VSAM data sets)
RECORG parameter
o KS specifies a VSAM key-sequenced data set
o ES specifies a VSAM entry-sequenced data set
o RR specifies a VSAM relative record data set.
o LS specify a VSAM linear space data set.
o
o KSDS (EX1)
o
o
o
o
o
o
o
o
o ESDS (EX2)
o
o
o
o
o
o
o RRDS (EX3)
o
o
o
o
o
o
o Not all VSAM options can be specified in the JCL, more options
and defaults may come from a Data class.
EX1 shows a JCL statement containing all required information for a KSDS
data set.
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KSDS //DD1 DD DSNAME = MY.KSDATA,// DISP=(NEW,CATLG),// SPACE=(400,(50,5)),// AVGREC=K,// RECORG =KS// KEYLEN= 15,// KEYOFF=0,// LRECL=250
// DD2 DD DSNAME=MY.ESDATA// DISP=(NEW,CATLG),
// SPACE=(100,(10,8)),// RECORG =ES// LRECL=50
LINEAR //DD3 DD DSNAME=&LIN,// DISP=(NEW,PASS),// SPACE=(1,(10)),// AVGREC=M,// RECORG=LS
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Ex2 shows a JCL statement containing all required information for an ESDS
data set.
Ex 3 shows a JCL statement of a temporary linear data set. This example
requires the assignment of a so-called storage Class.
REPRO Command REPRO is an all-purpose load and backup utility command .
It loads an empty VSAM cluster with records. The data and index components
(for a KSDS) are build automatically.
It creates a backup of a VSAM dataset on a physical sequential dataset, andthen restore and rebuilds the VSAM dataset using this dataset as input
It merges data from two VSAM datasets.
REPRO terminates if One physical I/O error while writing to the outputdataset.
A total of four errors encountered in any combination: A logical error while writing to the output data set.
A logical error while reading the input data set.
A physical error while reading the input data set.
CREATION OF ESDS CLUSTER
The definition of an ESDS cluster with the parameters describedabove.
//IFMAIN2 JOB (12345678),IFMAIN2,MSGCLASS=H,
// MSGLEVEL=(1,1),CLASS=A,NOTIFY=&SYSUID //STEP1 EXEC PGM=IDCAMS
//SYSOUT DD SYSOUT=*
//SYSPRINT DD SYSOUT=*
//SYSIN DD *
DEFINE CLUSTER -
(NAME (IFMAIN2.esds.CLUST) -
RECORDSIZE (80,80) -
TRACKS(5, 1) -
CISZ(4096) -
NONINDEXED -
REUSE) -
DATA (NAME(IFMAIN2.IFRAME.CLUST.DATA))
/*
//
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The above example shows the creation of an ESDS cluster. After the
execution of this JCL the blank cluster will be created and it will be in the usercatalog for usability.
COPYING ENTIRE DATA SETS
The following screen shot will copy the EMP1.PS content to the abovecreated ESDS cluster, KSDS
In this example, an entire input data set is copied to the output data set.
Two parameters of REPRO are used.
INDATASET (or IDS) Name of the entry to be copied or of the user catalog tobe merged.
OUTDATASET (or ODS) Name of the target data set.
Both INDATASET and OUTDATASET can be used to reference VSAM or non-
VSAM data sets.
Example:
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//DD1 DD DSN=IFMAIN2.EMP1.PS,DISP=SHR
//DD2 DD DSN=IFMAIN2.ESDS.CLUSTER,DISP=SHR
//SYSIN DD *
REPRO INDATASET(IFMAIN2.EMP1.PS) -
OUTDATASET(IFMAIN2.ESDS.CLUSTER) /*
//
CREATION OF KSDS CLUSTER WITH REUSE OPTION.
REUSE specifies that the cluster can be loaded with fresh records withan implicit delete of existing records. The REUSE parameter can be specified
on both the DEFINE CLUSTER and the REPRO command.
Example:
//ifmain2 job notify=&sysuid
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//SYSIN DD *
DEFINE CLUSTER(NAME(IFMAIN2.KSDS.CLUSTER)-
TRACKS(2,5)-
RECORDSIZE(80,80)-
iFrames Technologies 34Here the KSDS
cluster is
created withREUSE option
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CONTROLINTERVALSIZE(512)-
FREESPACE(20,20)-
KEYS(4,0)-
REUSE-
INDEXED))-
DATA(NAME(IFMAIN2.KSDS.DATA))-
INDEXED(NAME(IFMAIN2.KSDS.INDEX)) /*
//
REUSE cannot be used under following circumstances and hence not
recommended
When KEYRANGES parameter is coded
When alternate indexed are defined
CREATION OF RRDS CLUSTER
The following screenshot shows the definition of an KSDS cluster withthe parameters described above
Example:
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//SYSIN DD *
DEFINE CLUSTER(NAME(IFMAIN2.RRDS.CLUSTER)-
TRACKS(2,5)-
RECORDSIZE(80,80)- CONTROLINTERVALSIZE(512)-
NUMBERED))-
DATA(NAME(IFMAIN2.RRDS.DATA))
/*
//
REPRO RECORD SELECTION
DATA set can be copied partially using starting and ending delimiterparameters on the REPRO command
number = Number of records
key-value = Record key for a KSDS
rba = relative byte address for a record in a KSDS or ESDS
rrn = Relative record number(slot) for RRDS records
Where to start Whereto stop
KSDS FROMKEY (rec-key) TOKEY (rec-key)
iFrames Technologies 35Here thEMP1.PS is
entirely copied toESDS.CLUSTER
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KSDS, ESDS FROMADDRESS(rba) TOADDRESS(rba)
RRDS FROMNUMBER (rrn) TONUMBER (rrn)
KSDS, ESDS SKIP(number) COUNT(number)
RRDS, ISAM
The Following The Selection Of Records In Different VSAM Files.
ESDS CLUSTER
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//INPUT DD DSN=IFMAIN2.ESDS.CLUSTER,DISP=SHR
//SYSIN DD *
PRINT-
INFILE(INPUT)-
CHAR-
FROMADDRESS(0)TOADDRESS(160)
/*
//
The above program will display only the selected RBA address records whichare shown by the following screenshots.
KSDS CLUSTER
The following use the keys to select the particular records from the kSDS
cluster
Example:
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//INPUT DD DSN=IFMAIN2.KSDS.CLUSTER,DISP=SHR
//SYSIN DD *
PRINT-
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INFILE(INPUT)-
CHAR-
FROMKEY(1000)TOKEY(1004)
/*
//
RRDS CLUSTER
The following screen shots use the keys to select the particular records fromthe kSDS cluster
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//INPUT DD DSN=IFMAIN2.RRDS.CLUSTER,DISP=SHR
//SYSIN DD *
PRINT-
INFILE(INPUT)-
CHAR-
FROMNUMBERED(1000)TONUMBERED(1004)
/*
//
REVIEW QUESTIONS:
1. Which of the following repro selection parameters can be specified for anLDS?
a) From key b) from address
c) From number d) skip e) none of the above.
2. REPRO will stop processing records when a total of four physical I/O errors
occur while writing to the output data set.
A. TRUE
B. FALSEC.
D. 3. REPRO REUSE against a non-empty target data set with NOREUSE willreset target data set.
A. TRUE
B. FALSE
C.
D. 4. AMS will generate a data component name if it is not explicitly coded.
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A. TRUE
B. FALSE
C.
D. 5. When defining a KSDS, which of the following parameters is not required?
E.
A. Space allocation (either CYL, REC or TRK)
B. VOLUMES
C. KEYS
D. NAME
E.
F. 6. DEFINE CLUSTER for a KSDS will generate CLUSTER, DATA and INDEXinformation even if only CLUSTER information is specified.
A. TRUE
B. FALSE
C.
D. 7. A candidate volume is not used when the data set is initially loaded.
A. TRUE
B. FALSE
C.
D. 8. If the key of a KSDS record begins in the second field (first field is 25 bytes
long), the offset in the KEYS parameter is:
E.
F. a) 24 b) 25 c) 26 d) None of the above.
G.
H. 9. Suppose TEST.DATASET is a KSDS. The following statement will printCLUSTER information only: LISTCAT ENTRIES (TEST.DATASET) ALL
a. TRUE
b. FALSE.
c.
d.
e.
f.
g.
h.
i.j.
k.
l.
m.
n.
o.
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p.
q.
r. CHAPTER --- 6 : Print and Additional Commands
s.
t. PRINT COMMAND
u. The PRINT command of Access Method Services is used to printthe contents of both VSAM and non-VSAM data sets. The command
syntax is similar to that of REPRO. While REPRO copies an input dataset into another output data set, PRINT dumps an input data set to a
printer. This command is versatile and can be used to print a completedata set or only a selected part of it.
v.
w. The PRINT command
x.
y. PRINT { INDATASET(entry-name [/ password])}
z. [{CHARACTER/HEX/DUMP}]
aa. [{SKIP(count)/
FROMKEY(key)/FROMNUMBER(number)/FROMADDRESS(address)}]
bb.
[{COUNT(count)/TOKEY(key)/TONUMBER(number)/TOADDRESS(address)]
cc.
dd.Explanation
ee. CHARACTER/HEX/DUMP -Specifies the format of the output.
CHARACTER & HEX print the data in character or hex format. DUMPprints data in both character and hex format. DUMP is default.
ff.
gg.Example
hh.To print records 29, 30 & 31 in character format.
ii. PRINT INDATASET(MTRG.CUSTOMER.MASTER) -
jj. CHARACTER -
kk. SKIP(28) -
ll. COUNT(3)
mm.
nn.To print records 29,30 & 31 in dump format.
oo. PRINT INDATASET (MTRG.CUSTOMER.MASTER) -pp. DUMP -
qq. SKIP(28) -
rr. COUNT(3)
ss.
tt. Example:
uu. //ifmain2 job notify=&sysuid
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vv. //step1 exec pgm=idcams
ww. //sysprint dd sysout=*
xx. //sysout dd sysout=*
yy. //input dd dsn=ifmain2.rrds.cluster,disp=shr
zz. //sysin dd *
aaa. Print-
bbb. Infile(input)-
ccc. Char-
ddd. Skip(1)-
eee. Count(3)
fff. /*
ggg. //
hhh.
iii. EXPORT/IMPORT COMMAND
jjj. Export extracts catalog information and creates a copy of thedata records. When a base cluster and its alternate index are
permanently exported, the alternate index must be exported beforethe base cluster. When exporting a data set for backup purpose specify
TEMPORARY to preserve the original data set.
kkk.
lll. EXPORT IMPORT
mmm.
nnn. Advantages
Used for backup and recovery
Catalog information also exported along with the data, unlike REPRO
DFSMS classes are preserved
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Cluster deletion and redefinition are not necessary during the import
Can be easily ported to other systems
Disadvantages
The EXPORTED file not reusable until it is imported
Slower than REPRO
SYNTAX FOR EXPORT
EXPORT entryname[/password] -
{outfile(ddname) outdataset(entryname)} -
[CIMODE | RECORDMODE] -
[TEMPORARY | PERMANENT] -
[INHIBITSOURCE
NOINHIBITSOURCE] -
[INHIBITTARGET
|NOINHIBITTARGET] -
[ERASE | NOERASE] -
[PURGE | NOPURGE]
RECORD MODE RECORDS ARE EXPORTED ONE LOGICAL RECORD AT A
TIME.
RECORDMODE is the default for ESDS, KSDS, and RRDS.
CIMODE CI rather than logical record exports data. CIMOD isdefault for LDS.
TEMPORARY The data set is not deleted after export.
PERMANENT- The data set is deleted after export.
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Catalog Data set
EXPORT
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INHIBITSOURCE The original data set becomes read-only.
NOINHIBITSOURCE- The original data can be updated.
INHIBITTARGET- The copy data set becomes read-only.
NOINHIBITTARGET- The target data set can be updated.
ERASE - Causes the exported item to be overwritten with zeros
when it is deleted.
NOERASE Override whatever was specified for the item when it
was created.
Example:
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//DD1 DD DSN=IFMAIN2.BACKUP.PS,
// DISP=(NEW,CATLG,DELETE),
// UNIT=SYSDA,
// SPACE=(TRK,(2,3),RLSE), // DCB=(LRECL=80,RECFM=FB,BLKSIZE=800,DSORG=PS)
//SYSIN DD *
EXPORT-
IFMAIN2.KSDS.CLUSTER-
OUTFILE(DD1)
/*
//
Now the above exported file is not available in user catalog. It ispermanently exported to the new PS which is created. To get back the
exported cluster we want to use import option to get back it in our usercatalog. This is illustrated in the following snapshots.
SYNTAX OF IMPORT
IMPORT-
{INFILE(DDNAME) | INDATASET(ENTERYNAME)}
{OUTFILE(DDNAME) | UTDATASET(ENTERYNAME)} -
[OBJECTS((ENTERYNAME - [NEWNAME(NAME)] -
VOLUMES(VOLSER])[ENTRYNAME.)])]
[INTOEMPTY]
NEWNAME Objects beginning imported can be renamed.
VOLUMES Specifies the volume on which the cluster is to reside ifomitted the original volume is the receiving
volume
INTOEMPTY Indicates that the receiving dataset is empty.
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On IMPORT the existing catalog entry is deleted unless the receiving data set
is empty.
The following procedure provides backup and recovery capabilities and alsopermits the modification of data set attributes when the data set is imported
during recovery or reorganization.
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Catalog Data set
IMPORT
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Example:
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//DD1 DD DSN=IFMAIN2.BACKUP.PS, //SYSIN DD *
IMPORT-
INFLIE(DD)-
OUTDATASET(IFMAIN2.KSDS.CLUSTER)
/*
//
VERIFY COMMAND
Verifies the catalog HURBA (High Used Relative Byte Address) field and storesthe true values from the control block HURBA field.
It should be used against cluster name only and not against data or indexcomponents.
It is used to rectify some of the problems due to data corruption
It can be issued from TSO or from a JCL
Syntax: VERIFY FILE ()
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STEP 1EXPORT
STEP 4IMPORTINTOEMPTY
ORIGINALMASTER
STEP 2DELETE
STEP 3DEFINE NEW
MASTER
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VERIFY DATASET ()
Compares Catalog Information with the Data Set
Corrects Catalog If A Disagreement Is Found
Run VERIFY after a system failure.
When sharing data sets, run VERIFY before opening a data set.
VERIFY cannot be used for an empty data set or an LDS.
Example:
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS //SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//SYSIN DD *
VERIFY DATASET(IFMAIN2.KSDS.CLUSTER)
/*
//
LISTCAT
LISTCAT Command identify the catalog, the names of the entries to be
listed, the types of entries to be listed, and the amount of information about
each entry to be listed.
LISTCAT [ CATALOG (name) ]
[ ENTRIES (name - of - entries) ]
[LEVEL (generic-level-names)]
[ NAME/HISTORY/VOLUME/ALLOCATION/ALL}]
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TEST.DATA.SETEND-OF-DATA
END-OF-KEY-RANGE
END-OF-DATA
END-OF-KEY-RANGE
?
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Catalog(name[/password]) Specifies the name and if, required,
password of the catalog from whichentries are to be listed.
ENTRIES(entry-name[/password]) Specifies the names of the entries youwant to list. If omitted, all entries in
the specified catalog are listed.
LEVEL(level) Specifies one or more levels of
qualifications. Any data sets whose namematches those levels are listed.
Entry type Specifies the type of entries you wantlisted. If both ENTRIES / LEVEL and
entry-type are omitted, all
entries of all types in thespecified catalog are listed. Code one of these
values: ALIAS, CLUSTER, DATA, INDEX, & PATH
NAME Specifies that only the names and types ofthe specified entries are to be listed.
Name is the default. HISTORY Specifies that the information listed by
NAME, Plus the history information(such as creation and expiration dates) is
to be listed.
VOLUME Specifies that the information listed by
HISTORY, plus the volume locations ofthe specified entries, is to be listed.
ALLOCATION Specifies that the information listed byVOLUME, plus detailed extent
information, is to be listed.
ALL Specifies that all available catalog
information for the specified entries is to be
listed.
Examples
To list the catalog entry for a VSAM file namedMTRG.CUSTOMER.MASTER
ENTRIES (MTRG.CUSTOMER.MASTER)
To list information for more than one file, just code several file names
in a single ENTRIES parameter, like this:
ENTRIES (MTRG.CUSTOMER.MASTER -
MTRG.SUPPLIER.MASTER -
MTRG.ITEM.TRANS)
We can specify a generic entry name by replacing one or more levels
of the file name with an asterisk.
ENTRIES (MTRG.*.MASTER)
All files whose names consists of three levels with MTRG as the firstlevel and MASTER as the third level, are listed. MTRG.CUSTOMER.MASTER
AND MTRG.SUPPLIER.MASTER meet these criteria, so they would be listed.
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Example:
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//SYSIN DD *
LISTCAT ENTRIES(IFMAIN2.VSAM.PDS)
LISTCAT ENTRIES(IFMAIN2.VSAM.*)
/*
//
ALTER
We can use this powerful command to change certain attributes of
previously defined VSAM object. These objects include base cluster and itsdata and index component and even alternate index cluster and its data or
index component and even a VSAM or ICF catalog. If you are properlyauthorized you can ALTER NON-VSAM data set attributes also.
SYNTAX OF ALTER COMMAND
ALTER entryname[/password] -
SHAREOPTION(cross region cross system)
Examples: ALTER MTRG.CUSTOMER.MASTER -
NEWNAME(MTRG.CUSTMAST)
ALTER EMPLOYEE.KSDS.CLUSTER
FREESPACE(25,25)
Change the filename of MTRG.CUSTOMER.MASTER to MTRG.CUSTMAST
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ALTER EXAMPLE.KSDS
SHAREOPTIONS(2 3)
CATALOG CATALOG
EXAMPLE.KSDS
SHAREOPTIONS(13)
EXAMPLE.KSDS
SHAREOPTIONS(23)
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ALTER MTRG.CUSTOMER.MASTER.DATA -
ADDVOLUMES(VOL291 VOL292) -
REMOVEVOLUMES(VOL 281 VOL 282)
Add VOL291 and VOL292 to list of eligible volumes forMTRG.CUSTOMER.MASTER.DATA and remove VOL281 and VOL282.
Example:
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//SYSIN DD *
ALTER IFMAIN2.KSDS.DATA
NEWNAME(IFMAIN2.VSAM.KSDS)
/*
//
Likewise we can alter the other data attributes like:
ADDVOLUME
ATTEMPTS
SHAREOPTIONS
BUFFERSPACE
FREESPACE
PASSWORD
ENTRY NAME is the cluster, data or index component name.
PASSWORD is the master password if the VSAM data set is passwordprotected
ALTERcan also be used as a migration path to change an ESDS to LDS
ALTER with ADDVOLUME/REMOVEVOLUME
ADD VOLUME:
//ALTJOB JOB ,,NOTIFY=userid //STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSIN DD *
ALTER -
USER1.KSDS.DATA -
ADDVOLUMES(VS012)
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REMOVE VOLUME:
ALTER
USER1.KSDS.DATA -
REMOVEVOLUME(RTD2)
ALTER WITH FREESPACE
ALTER entryname[/password] -
FREESPACE(CI-percent[ CA-percent]))
Example:
//ALTJOB JOB .
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSIN DD *
ALTER - USER1.KSDS.DATA -
FREESPACE(30 30)
Entryname must be the name of the clusters data component.
This procedure has the following advantages.
It prevents wasting space.
It minimizes CI and CA splits.
ALTERING PASSWORD
Adding/Changing PASSWORD
ALTER entryname[/password] -
[READPW (password)] -
[UPDATEPW (password)] -
[CONTROLPW (password)]-
[MASTERPW (password)]
Nullifying PASSWORD
ALTER entryname[/password] -
NULLIFY - [READPW] -
[UPDATEPW] -
[CONTROLPW] -
[MASTERPW ]
DELETE COMMAND
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DELETE command is used to remove entries from a VSAM catalog. To
delete more than one file, list the names in parentheses. The IDCAMS DELETEcommand can be used to delete both VSAM and non-VSAM objects
SYNTAX:
DELETE entry name/password
Example 1 We can specify a generic name in a DELETE command by replacing
ONE level of the entry name with an asterisk, like this
DELETE MTRG.CUSTOMER.*
Example 2
To delete MTRG.CUSTOMER.MASTER, whether or not it is expired.
DELETE MTRG.CUSTOMER.MASTER
PURGE
Example 3
To delete the 3 named files.
DELETE ( MTRG.CUSTOMER.MASTER -
MTRG.CUSTMAST.AIX -
MTRG.CUSTMAST.PATH)
Example:
//IFMAIN2 JOB NOTIFY=&SYSUID
//STEP1 EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT=*
//SYSOUT DD SYSOUT=*
//SYSIN DD *
DELETE IFMAIN2.KSDS.CLUSTER
/*
//
Some other options for Delete are:
ALIAS
ALTERNATEIND
CLUSTER
SPACE
PURGE
PATH
REVIEW QUESTIONS:
1. The default print format is:a. character
b. dump
c. hexadecimal
d. none of the above.
e. 2. Which of the following repro selection parameters can be specified
for an LDS?
A. from key
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B. from address
C. from number
D. skip
E. none of the above
F. 3. The replace parameter causes:
a. KSDS records to be replaced by an input record with the same key
b. ESDS records to be replaced by an input record with the same RBA
c. RRDS records to be replaced by an input record with the same RRN
d. a) and c)
e. all of the above
f. 4. Generic keys can be specified in PRINT FROM KEY and TOKEY
A. TRUE
B. FALSE
C. 5. REPRO will stop processing records when a total of four
physical I/O errors occur while writing to the output data set.
A. TRUE
B. FALSE
C. 6. Which of the following is not a valid command?
a. IF
b. THEN
c. ELSE
d. DO
e. GOTO
f. 7. REPRO REUSE against a non-empty target data set with NOREUSEwill reset the target data set.
A. TRUE
B. FALSE
C. 8. Can VSAM files be deleted with the DELETE option of the
DISPOSITION parameter of JCL?
D. 9. During processing of a VSAM file, some system erroroccurs and it is subsequently unusable What do you do?
E.
F.
G. CHAPTER --- 7 : Alternate Indexes
H. An alternate index is used to an access the records of aVSAM key-sequenced data set in an order other than the files
primary key (or base key). The data set over which analternate index exists is called a base cluster. Even we can
use an entry-sequenced data set as the base cluster for analternate index, most alternate indexes are built over KSDS
clusters. Used whenever the data is required to be retrieved
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on the basis of other field (than primary key field). Analternate index cannot be defined for RRDS or LDS
I.
J.
K. MULTIPLE ALTERNATE INDEXES (AIXs) may be defined over a
base cluster.
L. If the user is sequentially retrieving records using AIX1,then department number retrieves records in logical sequence
Access via AIX2 with an alternate key of social security
number results in the retrieval of base cluster records insocial security number sequence.
M. ADVANTAGES
Can be defined for both KSDS & ESDS
Reduce data redundancy
Can have duplicates Easy to define using IDCAMS
Allow datasets to be accessed sequentially or randomly
Can be updated automatically
DISADVANTAGES
Performance degradation
Complex update logic
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ALTERNATEINDEX 1(DEPT NO)
ALTERNATEINDEX 2(SOCIAL SECNO)
3235 NEWTON $3240 WRIGHT $..3247 ADAMS $..3247 PETTY $
ADAMS 3247 $ARNOLD 4711 $KINNEY 3247 $NEWTON 3235 $..
015-35-78183-96-41
234-04-23
BASECLUSTER(NAME)
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NEED FOR ALTERNATE INDEX:
Alternate Indexes save sorting or maintaining duplicate data thatmight otherwise be required.An alternate index cannot be defined for an
RRDS or LDS
KSDS
A. ACCESS A KSDS BY KEY OTHER THAN THE PRIMARY KEY
1. SOCIAL SECURITY NUMBER
2. DEPARTMENT NUMBER
3. EMPLOYEE NUMBER4. ZIP CODE
5. B. ACCESS AN ESDS BY KEY
6.
7. ALTERNATE INDEX DATA RECORD FORMAT
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18. Each AIX data record is variable length and contains system
header information, the alternate key and at least one pointer to the
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PRIME KEY LENGTH *
NUMBER NONUNIQUE
PRIME KEYSRECORD = 5 + ALTERNATE KEY + -0R-
SIZE LENGTH 4 *NUMBER
NONUNI UE POINTERS
INDEX:EMPLOYEE NAME
DATA:
EMPLOYEE RECORDS
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base cluster. AIX s are spanned record data sets, since there may bemany base cluster records associated with a given alternate key.
19. Pointers to the base cluster are of two forms, either an RBA (foran ESDS base cluster)or a prime key for a ksds base cluster).The
pointers are the same type throughout the entire AIX.
20.
21.ALTERNATE INDEX ORGANIZATION
Alternate Indexes are KSDS by themselves and have their own data and indexcomponents
AIX data components contain the alternate index key values and pointers toeach record containing the key value
AIX index components contain highest key value in an AIX data CI and a
pointer to that CI
AIX data component has variable length records if duplicate is allowed (due tomultiple pointers)
STEPS FOR CREATING ALTERNATE INDEX
Define AIX using IDCAMS DEFINE AIX
Build AIX & populate it using IDCAMS BLDINDEX
Specify Alternate Index Path using IDCAMS DEFINE PATH
CREATING AN ALTERNATE INDEX
DEFINE ALTERNATEINDEX-
(NAME(AIX NAME)-
RELATE(BASE CLUSTER NAME)-
KEYS (LENGTH OFFSET)- UNIQUEKEY/NONUNIQUEKEY-
UPGRADE/ NOUPGRADE
RECORDSIZE (AVG MAX)-
VOL (VOLSER)
CYL/TRK/REC(PRI SEC))
NAME
Syntax: NAME
Required parameter: Specifies the name of AIX
VOLUMES
Syntax: Volumes (Vol-ser-1 ..... vol-ser-n)
Required parameter: Assigning base cluster & AIX in different volumesimproves performance
RELATE
Syntax: RELATE (base cluster name)
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Required parameter: Establishes relationship between the base cluster & AIX
UPGRADE/NOUPGRADE
Syntax: UPGRADE/NOUPGRADE
UPGRADE specifies that records in AIX are to be updated automatically
whenever the base cluster is updated .The use of UPGRADE makes thealternate index part of the clusters so called UPGRADE SET
Default: UPGRADE
AIX 1
AIX 2 AIX 3
Base cluster
KEYS
Syntax: KEYS (length offset)
Optional: primary key values are taken as default, if not specified.Defeats the
purpose of Alternate Index, if not specified
RECORD SIZE
Syntax: RECORD SIZE (average maximum)
Default: RECORDSIZE (4086 32600)
Abbr: RECSZ
Average & max. Are same for UNIQUEKEY AIX and may be different forNONUNIQUEKEY
HOW TO CALCULATE THE RECORD SIZE?
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AIX for a KSDS RECSZ = 5 + AIXKL + (n x BCKL)
AIX for ESDS RECSZ = 5 + AIXKL + (n x 4)
Where:
AIXKL is the alternate-key length
BCKL is the base cluster's prime-key length
n = 1 when UNIQUEKEY is specified
n = the number of data records in the base cluster that contain the
same alternate-key value, when NONUNIQUEKEY is specified.
Other AIX parameter
ATTEMPTS
AUTH (entry point)
BUFFERSPACE (bytes)
CATALOG (catalog/pw)
CODE (code) CISZ (bytes)
CONTROLPW (password)
ERASE (NOERASE)
EXCEPTIONEXIT (entry point)
KEYRANGES (low-key high key)
MASTERPW (password)
ORDERED/UNORDERED
READPW (password)
REPLICATE/NOREPLICATE
REUSE/NOREUSE
SHAREP[TOPMS
SPEED/RECOVERY
UNIQUEKEY/NONUNIQUEKEY
UPDATEPW (password)
WRITECHECK/NOWRITECHECK
EXAMPLE:
//STEP1 EXEC PGM =IDCAMS
//SYSPRINT DD SYSOUT = *
//SYSIN DD * DEFINE ALTERNATEINDEX(USER1.KSDS.AIX)-
VOLUME(V001) -
RELATE(USER1.KSDS.CLUSTER)-
UPGRADE-
CYLINDERS(2 1)-
KEYS(25 9)-
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RECORDSIZE(70 110)-
FREESPACE(20 10)-
NONUNIQUEKEY-
DATA
(NAME(USER1.KSDS.AIX.DATA))-
INDEX
(NAME(USER1.KSDS.AIX.INDEX))
BUILD INDEX
SYNTAX:
BLDINDEX
{INFILE(ddname) / INDATASET (base cluster name)} -
{OUTFILE(ddname) / OUTDATASET (AIX NAME)} -
[EXTERNALSORT / INTERNALSORT] -
[WORKFILES(ddname ddname) ] INFILE /INDATASET IDENTIFIES THE BASE CLUSTER.
OUTFILE / OUTDATASET IDENTIFIES THE AIX TO BE LOADED
INTERNALSORT Requires AMS to build the Alternate Index Records
within the users address space if possible
EXTERNALSORT Indicates that two ESDS work Files are to be used by
AMS for the sort
WORKFILES Specifies The DD names to be used instead of the defaultNames
EXAMPLE BLDINDEX INDATASET(USER1.KSDS.CLUSTER)-
OUTDATASET(USER1.KSDS.AIX)
CREATION OF PATH
Once you have defined any alternate indexes, You must define a separatepath for each one, using the IDCAMS DEFINE PATH command.
This path name is the dataset name that you use in the jcl when processingan alternate index. It is a separate catalog entry and forms a logical
connection(path) through the alternate index to the base cluster
A path is a catalog record. It is normally used to relate the alternate index
and the base cluster
IDCAMS DEFINE PATH is used to create a path record in the catalog.
SYNTAX:
DEFINE PATH(NAME(PATH NAME) -
PATHENTRY(AIX NAME) -
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UPDATE / NOUPDATE)
NAME specifies the name of the PATH.
PATHENTRY associates the AIX with the path name.
UPDATE / NOUPDATE specifies whether all of the upgrade setshould be maintained by VSAM when accessing through this path
EXAMPLE:
DEFINE PATH ( -
NAME(USER1.KSDS.PATH)
PATHENTRY(USER1.KSDS.AIX)-
UPDATE )
ALTERNATE INDEX FOR ESDS
Same syntax & parameters as KSDS
Not supported in Batch COBOL (OS/VS & VSII)
Used under CICS environment Step 2: BUILDING THE INDEX
BLDINDEX Command actually builds the index and populates it with
records
//BLDINDX EXEC PGM=IDCAMS
//SYSPRINT DD SYSOUT = *
//DD1 DD DSN=XIND.NLT.VSAM,DISP=OLD
//DD2 DD DSN=XIND.NLT.VSAM.DEPT.AIX,DISP=OLD
//IDCVT1 DD DSN=XIND.NLT.WRKFILE1, DISP=OLD
//IDCVT2 DD DSN=XIND.NLT.WRKFILE2, DISP=OLD //SYSIN DD *
BLDINDEX INFILE (DD1) OUTFILE (DD2) -
INTERNALSORT
/*
Step 3: SPECIFYING THE ALTERNATE INDEX PATH
Example:
DEFINE PATH -
(NAME(XIND.NLT.VSAM.DEPT.PATH) -
PATHENTRY -
(XIND.NLT.VSAM.DEPT.AIX) UPDATE)
- Path is a VSAM object though it doesnt contain any records
- Same command for KSDS & ESDS
- Path is used to link JCL DSN to VSAM AIX (specifies that the given AIX is tobe used).
NAME
Syntax: NAME (pathname). Pathname becomes the DSN in the run JCL
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PATHENTRY
Syntax: PATHENTRY (entry name/password).
Entry name: name assigned to alternate index cluster. Required for an
alternate index
RESTRICTIONS FOR ALTERNATE INDEX
No Alternate Index For RRDS and LDS.
Base Cluster Must Not Be Empty For Buildindex.
Length Of The Alternate Index Not Exceed 255
Maximum Number Of Alternate Key Pointers Is 32k.
Records Larger Than 32760 Not Supported By Repro/Export.
For A Base Cluster With Alternate Index(Es) And Path(S),Delete Cluster
Deletes Not Only The Base Cluster But Also The Associated Alternate Index
Maximum Alternate Indexes Can Be 253 For A Single Dataset(ESDS&KSDS)
REVIEW QUESTIONS:
1. An alternate index can be defined for which cluster type(s)?
a.) KSDS AND RRDS
b) KSDS AND ESDS
c) KSDS only
d) KSDS,ESDS AND RRDS.
2. The size of an alternate index is about the same of its base cluster.
a) true
b)false
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3. If an application program accesses a base cluster in alternate key
sequence,
then DD statements are needed for which data set(s)?
a) Base cluster
b) alternate index
c) path
d) (a) and(b)
e) (a) and c
4. An alternate index itself is which cluster type?
a) LDS
b) RRDS
c) ESDS
d) KSDS
e) NONE OF THE ABOVE.
5 An alternate index is a spanned record dataset. a) true
b)false
6) A path is required so that an application program base cluster keysand retrieve alternate records.
a) true
b) false
7) Is it slower if you access a record through ALTERNATIVE INDEX as
compared to Primary INDEX?
8) What could be the maximum number of the AIXs per base cluster?
9) Can AIX be defined over an ESDS, which does not have any Key?
10) What is an Alternate Index?
11) What are the steps used to create an Alternate Index?
12) What are the restrictions to be considered while creating an Alternate
Index?