Job Control Language

This article is about IBM mainframe job control language. For open systems, see job control (Unix). For general term, see job control.

Job Control Language (JCL) is a name for scripting languages used on IBM mainframe operating systems to instruct the system on how to run a batch job or start a subsystem.

There are two distinct job control languages: one for the operating system lineage that begins with DOS/360 and whose latest member is z/VSE; and the other for the lineage from OS/360 to z/OS. They share some basic syntax rules and a few basic concepts, but are otherwise very different.

Other mainframe batch systems had some form of job control language, whether called that or not; their syntax was completely different from IBM versions, but they usually provided similar capabilities. Interactive systems include "command languages"command files (such as PCDOS ".bat" files) can be run non-interactively, but these usually do not provide as robust an environment for running unattended jobs as JCL. On some computer systems the job control language and the interactive command language may be different. For example, TSO on z/OS systems uses CLIST or Rexx as command languages along with JCL for batch work. On other systems these may be the same.

Features common to DOS and OS JCL

Jobs, steps and procedures

For both DOS and OS the unit of work is the job. A job consists of one or several steps, each of which is a request to run one specific program. For example, before the days of relational databases, a job to produce a printed report for management might consist of the following steps: a user-written program to select the appropriate records and copy them to a temporary file; sort the temporary file into the required order, usually using a general-purpose utility; a user-written program to present the information in a way that is easy for the end-users to read and includes other useful information such as sub-totals; and a user-written program to format selected pages of the end-user information for display on a monitor or terminal.

In both DOS and OS JCL the first "card" must be the JOB card, which:

Procedures (commonly called procs) are pre-written JCL for steps or groups of steps, inserted into a job. Both JCLs allow such procedures. Procs are used for repeating steps which are used several times in one job, or in several different jobs. They save programmer time and reduce the risk of errors. To run a procedure one simply includes in the JCL file a single "card" which copies the procedure from a specified file, and inserts it into the jobstream. Also, procs can include parameters to customize the procedure for each use.

Basic syntax

Both DOS and OS JCL have a maximum usable line length of 80 characters, because when DOS/360 and OS/360 were first used the main method of providing new input to a computer system was 80-column punched cards. It later became possible to submit jobs via disk or tape files with longer record lengths, but the operating system's job submission components ignored everything after character 80.

Strictly speaking both operating system families use only 71 characters per line. Characters 73-80 are usually card sequence numbers which the system printed on the end-of-job report and are useful for identifying the locations of any errors reported by the operating system. Character 72 is usually left blank, but it can contain a nonblank character to indicate that the JCL statement is continued onto the next card.

All commands, parameter names and values have to be in capitals, except for USS filenames.

All lines except for in-stream input (see below) have to begin with a slash "/", and all lines which the operating system processes have to begin with two slashes // - always starting in the first column. However, there are two exceptions: the delimiter statement and the comment statement. A delimiter statements begins with a slash and an asterisk (/*), and a comment statement in OS JCL begins with a pair of slashes and asterisk (//*) or an asterisk in DOS JCL.

Many JCL statements are too long to fit within 71 characters, but can be extended on to an indefinite number of continuation cards by:

OS JCL DOS JCL
Ending all actual JCL cards except the last at a point where the syntax requires a comma (,) Ending all actual JCL cards except the last at a point where the syntax requires a comma (,) and a non-blank character in column 72
Starting each continuation card with // in column 1 and then at least 1 space Starting each continuation card with spaces and continuing in column 15

The structure of the most common types of card is:

OS JCL DOS JCL
  • //
  • Name field for this statement, following // with no space between. If this statement does not have a name at least one blank immediately follows the //.
  • Space(s)
  • Statement type
  • Space(s)
  • Parameters, which vary depending on the statement type, separated by commas and with no space between them.
  • // (spaces if this is a continuation of a previous line)
  • Statement type for this statement, following // with a space between.
  • Space(s)
  • Name of resource
  • Space(s)
  • Parameters, which vary depending on the statement type, separated by commas and with no space between them. Positional parameters, followed by keyword parameters.

In-stream input

DOS and OS JCL both allow in-stream input, i.e. "cards" which are to be processed by the application program rather than the operating system. Data which is to be kept for a long time will normally be stored on disk, but before the use of interactive terminals became common the only way to create and edit such disk files was by supplying the new data on cards.

DOS and OS JCL have different ways of signaling the start of in-stream input, but both end in-stream input with /* at column 1 of the card following the last in-stream data card. This makes the operating system resume processing JCL in the card following the /* card.

Complexity

Much of the complexity of OS JCL, in particular, derives from the large number of options for specifying dataset information. While files on unix-like operating systems are abstracted into arbitrary collections of bytes with the details handled in large part by the OS, datasets on OS/360 and successors expose their file types and sizes, record types and lengths, block sizes and device-specific information such as magnetic tape density and label information. Although there are system defaults for many options, there is still a lot to be specified by the programmer, through a combination of JCL and information coded in the program. The more information coded in the program the less flexible it is, so most information is usually supplied through JCL.

For example, to copy a file on Unix the user enters a command like:

cp oldFile newFile

JCL like the following might be used to copy a file on OS/360:

//IS198CPY JOB (IS198T30500),'COPY JOB',CLASS=L,MSGCLASS=X
//COPY01   EXEC PGM=IEBGENER
//SYSPRINT DD SYSOUT=*
//SYSUT1   DD DSN=OLDFILE,DISP=SHR
//SYSUT2   DD DSN=NEWFILE,
//            DISP=(NEW,CATLG,DELETE),
//            SPACE=(CYL,(40,5),RLSE),
//            DCB=(LRECL=115,BLKSIZE=1150)
//SYSIN    DD DUMMY

A second explanation for the complexity of JCL is the different expectations for running a job than are found in a PC or unix environment.

Later versions of the DOS/360 and OS/360 operating systems retain most features of the original JCLalthough some simplification has been made, to avoid forcing customers to rewrite all their JCL files. Many users save as a procedure any set of JCL statements which is likely to be used more than once or twice.

The syntax of OS JCL is similar to the syntax of macros in System/360 assembly language, and would therefore have been familiar to programmers at a time when many programs were coded in assembly language.

DOS JCL

Positional parameters

//TLBL TAPEFIL,'COPYTAPE.JOB',,,,2
//ASSGN SYS005,200
//DLBL DISKFIL,'COPYTAPE.JOB',0,SD
//EXTENT SYS005,VOL01,1,0,800,1600

DOS JCL parameters are positional, which makes them harder to read and write, but easier for the system to parse.

DOS JCL to some extent mitigates the difficulties of positional parameters by using more statements with fewer parameters than OS JCL. In the example the ASSGN, DLBL and EXTENT statements do the same work (specifying where a new disk file should be stored) as a single DD statement in OS JCL.

Device dependence

In the original DOS/360 and in most versions of DOS/VS one had to specify the model number of the device which was to be used for each disk or tape fileeven for existing files and for temporary files which would be deleted at the end of the job. This meant that, if a customer upgraded to more modern equipment, many JCL files had to be changed.

Later members of the DOS/360 family reduced the number of situations in which device model numbers were required.

Manual file allocation

DOS/360 originally required the programmer to specify the location and size of all files on DASD. The EXTENT card specifies the volume on which the extent resides, the starting absolute track, and the number of tracks. for z/VSE a file can have up to 256 extents on different volumes.

OS JCL

OS JCL consists of three basic statement types:

Right from the start, JCL for the OS family (up to and including z/OS) was more flexible and easier to use.

The following examples use the old style of syntax which was provided right from the launch of System/360 in 1964. The old syntax is still quite common in jobs that have been running for over 20 years with only minor changes.

Rules for Coding JCL Statements

Each JCL Statement is Divided into 5 fields.

 Identifier-Field Name-Field Operation-Field Parameter-Field Comments-Field
                 ^          ^               ^               ^
              no space     space          space           space

Identifier-Field should be concatenated with Name-Field, i.e. there should be no spaces between them.

Keyword parameters

//NEWFILE DD DSN=MYFILE01,UNIT=DISK,SPACE=(TRK,80,10),
//           DCB=(LRECL=100,BLKSIZE=1000),
//           DISP=(NEW,CATLG,DELETE)

All of the major parameters of OS JCL statements are identified by keywords and can be presented in any order. A few of these contain two or more sub-parameters, such as SPACE (how much disk space to allocate to a new file) and DCB (detailed specification of a file's layout) in the example above. Sub-parameters are sometimes positional, as in SPACE, but the most complex parameters, such as DCB, have keyword sub-parameters.

Positional parameter must precede keyword parameters. Keyword parameters always assign values to a keyword using the equals sign (=).

Data access

The DD statement is used to reference data. This statement links a program's internal description of a dataset to the data on external devices: disks, tapes, cards, printers, etc. The DD may provide information such as a device type (e.g. '181','2400-5','TAPE'), a volume serial number for tapes or disks, and the description of the data file, called the DCB subparameter after the Data Control Block (DCB) in the program used to identify the file. Information describing the file can come from three sources: The DD card information, the dataset label information for an existing file stored on tape or disk, and the DCB macro coded in the program. When the file is opened this data is merged, with the DD information taking precedence over the label information, and the DCB information taking precedence over both. The updated description is then written back to the dataset label. This can lead to unintended consequences if incorrect DCB information is provided.[4]

Device independence

From the very beginning, the JCL for the OS family of operating systems offered a high degree of device independence. Even for new files which were to be kept after the end of the job one could specify the device type in generic terms, e.g., UNIT=DISK or UNIT=TAPE. Of course, if it mattered one could specify a model number or even a specific device address.

Parameterized procedures

OS JCL procedures were parameterized from the start, making them rather like macros or even simple subroutines and thus increasing their reusability in a wide range of situations.

//MYPROC PROC FNAME=MYFILE01,SPTYPE=TRK,SPINIT=50,SPEXT=10,LR=100,BLK=1000
.....
//NEWFILE DD DSN=&FNAME,UNIT=DISK,SPACE=(&SPTYPE,&SPINIT,&SPEXT),
//           DCB=(LRECL=&LR,BLKSIZE=&BLK),DISP=(NEW,CATLG,DELETE)
....

In this example, all the values beginning with ampersands "&" are parameters which will be specified when a job requests that the procedure be used. The PROC statement, in addition to giving the procedure a name, allows the programmer to specify default values for each parameter. So one could use the one procedure in this example to create new files of many different sizes and layouts. For example:

//JOB01  JOB ..........
//STEP01 EXEC MYPROC FNAME=JOESFILE,SPTYPE=CYL,SPINIT=10,SPEXT=2,LR=100,BLK=2000
or
//JOB02  JOB ..........
//STEP01 EXEC MYPROC FNAME=SUESFILE,SPTYPE=TRK,SPINIT=500,SPEXT=100,LR=100,BLK=5000

Referbacks

In multi-step jobs, a later step can use a referback instead of specifying in full a file which has already been specified in an earlier step. For example:

//MYPROC ................
//MYPR01 EXEC PGM=..........
//NEWFILE DD DSN=&MYFILE,UNIT=DISK,SPACE=(TRK,50,10),
//           DCB=(LRECL=100,BLKSIZE=1000),DISP=(NEW,CATLG,DELETE)
....
//MYPR02 EXEC PGM=..........
//INPUT01 DD DSN=*.MYPR01.NEWFILE

Here, MYPR02 uses the file identified as NEWFILE in step MYPR01 (DSN means "dataset name" and specifies the name of the file).

In jobs which contain a mixture of job-specific JCL and procedure calls, a job-specific step can refer back to a file which was fully specified in a procedure, for example:

//MYJOB JOB ..........
//STEP01 EXEC MYPROC             Using a procedure
//STEP02 EXEC PGM=.........      Step which is specific to this job
//INPUT01 DD DSN=*.STEP01.MYPR01.NEWFILE

where DSN=*.STEP01.MYPR01.NEWFILE means "use the file identified as NEWFILE in step MYPR01 of the procedure used by step STEP01 of this job". Using the name of the step which called the procedure rather than the name of the procedure allows a programmer to use the same procedure several times in the same job without confusion about which instance of the procedure is used in the referback.

Comments

JCL files can be long and complex, and the language is not easy to read. (JCL has been described as "user hostile".) OS JCL allows programmers to include two types of explanatory comment:

//MYJOB JOB ..........
//*  Lines containing only comments.
//******** Often used to divide JCL listing into sections ********
//STEP01 EXEC MYPROC             Comment 2 on same line as statement
//STEP02 EXEC PGM=.........      Comment 3 has been extended and       X
//         overflows into another line.
//INPUT01 DD DSN=STEP01.MYPR01.NEWFILE

Concatenating input files

OS JCL allows programmers to concatenate ("chain") input files so that they appear to the program as one file, for example

//INPUT01 DD DSN=MYFILE01,DISP=SHR
//        DD DSN=JOESFILE,DISP=SHR
//        DD DSN=SUESFILE,DISP=SHR

The 2nd and third statements have no value in the name field, so OS treats them as concatenations. The files must be of the same basic type (almost always sequential), and must have the same record length.

Conditional processing

OS expects programs to set a return code which specifies how successful the program thought it was. The most common conventional values are:

OS JCL refers to the return code as COND ("condition code"), and can use it to decide whether to run subsequent steps. However, unlike most modern programming languages, conditional steps in OS JCL are not executed if the specified condition is truethus giving rise to the mnemonic, "If it's true, pass on through [without running the code]." To complicate matters further, the condition can only be specified after the step to which it refers. For example:

//MYJOB JOB ...........
//STEP01 EXEC PGM=PROG01
....
//STEP02 EXEC PGM=PROG02,COND=(4,GT,STEP01)
....
//STEP03 EXEC PGM=PROG03,COND=(8,LE)
....
//STEP04 EXEC PGM=PROG04,COND=(ONLY,STEP01)
....
//STEP05 EXEC PGM=PROG05,COND=(EVEN,STEP03)
....

means:

  1. Run STEP01, and collect its return code.
  2. Don't run STEP02 if the number 4 is greater than STEP01's return code.
  3. Don't run STEP03 if the number 8 is less than or equal to any previous return code.
  4. Run STEP04 only if STEP01 abnormally ended.
  5. Run STEP05, even if STEP03 abnormally ended.

This translates to the following pseudocode:

run STEP01
if STEP01's return code is greater than or equal to  4 then
    run STEP02
end if
if any previous return code is less than  8 then
    run STEP03
end if
if STEP01 abnormally ended then
    run STEP04
end if
if STEP03 abnormally ended then
    run STEP05
else
    run STEP05
end if

Note that by reading the steps containing COND statements backwards, one can understand them fairly easily. This is an example of logical transposition. However, IBM later introduced IF condition in JCL thereby making coding somewhat easier for programmers while retaining the COND parameter (to avoid making changes to the existing JCLs where COND parm is used).

Utilities

Jobs use a number of IBM utility programs to assist in the processing of data. Utilities are most useful in batch processing. The utilities can be grouped into three sets:

Job Entry Control Language

On IBM mainframe systems Job Entry Control Language or JECL is the set of command language control statements that provide information for the spooling subsystem JES2 or JES3 on z/OS or VSE/POWER for z/VSE. JECL statements may "specify on which network computer to run the job, when to run the job, and where to send the resulting output."[5]

JECL is distinct from job control language (JCL), which instructs the operating system how to run the job.

There are different versions of JECL for the three environments.

OS/360

An early version of Job Entry Control Language for OS/360 Remote Job Entry (Program Number 360S-RC-536) used the identifier  ..  in columns 12 of the input record and consisted of a single control statement: JED (Job Entry Definition). "Workstation Commands" such as LOGON, LOGOFF, and STATUS also began with  .. .[6]

z/OS

For JES2 JECL statements start with /*, for JES3 they start with //*, except for remote  /*SIGNON  and  /*SIGNOFF  commands. The commands for the two systems are completely different.

JES2 JECL

The following JES2 JECL statements are used in z/OS 1.2.0.[7]

JECL statement Function Example
/*$command Enters an operator (console) command /*$S PRINTER3
/*JOBPARM Specifies values for job-related parameters /*JOBPARM TIME=10
/*MESSAGE Sends a message to the operator console /*MESSAGE CALL JOE AT HOME IF JOB ABENDS
/*NETACCT Specifies account number for network job /*NETACCT 12345
/*NOTIFY Specifies destination for notification messages /*NOTIFY SAM
/*OUTPUT Specifies SYSOUT dataset options /*OUTPUT FORMS=BILL
/*PRIORITY Sets job selection priority /*PRIORITY 15
/*ROUTE Specifies output destination or execution node /*ROUTE PRT RMT5
/*SETUP Requests volume mounting or other offline operation /*SETUP TAPE01,TAPE02
/*SIGNOFF Ends remote session /*SIGNOFF
/*SIGNON Begins remote session /*SIGNON REMOTE5 password
/*XEQ Specifies execution node /*XEQ DENVER
/*XMIT Indicates job or dataset to be transmitted to another network node /*XMIT NYC

JES3 JECL

The following JES3 JECL statements are used in z/OS 1.2.0[8]

JECL statement Function Example
//**command Enters a JES3 operator (console) command
//*DATASET Marks the beginning of an in-stream dataset
//*ENDDATASET Marks the end of an in-stream dataset
//*ENDPROCESS Marks the end of a series of  //*PROCESS  statements
//*FORMAT Specifies  SYSOUT  dataset options
//*MAIN Specifies values for job-related parameters
//*NET Identifies relationships among jobs using JES3 dependent job control
//*NETACCT Specifies account number for network job
//*OPERATOR Sends a message to the operator console
//*PAUSE Stops the input reader
//*PROCESS Identifies a non-standard job
//*ROUTE Specifies the execution node for the job
/*SIGNOFF Ends remote session /*SIGNOFF
/*SIGNON Begins remote session

z/VSE

For VSE JECL statements start with '* $$' (note the single space). The Job Entry Control Language defines the start and end lines of JCL jobs. It advises VSE/POWER how this job is handled. JECL statements define the job name (used by VSE/POWER), the class in which the job is processed, and the disposition of the job (i.e. D, L, K, H).

JECL statement[9] Function Example
* $$ CTL Establishes a default input class * $$ CTL CLASS=A
* $$ JOB Specifies attributes of a job * $$ JOB JNM=PYRL,PRI=9
* $$ EOJ Marks the end of a job * $$ EOJ
* $$ RDR Inserts a file from a 3540 diskette into the input stream * $$ RDR SYS005,'fname',2
* $$ PRT Specifies characteristics of spooled print files
"LST' is a synonym for "PRT" 		* $$ PRT FNO=STD,COPY=2
* $$ PUN Specifies characteristics of spooled punch files * $$ PUN DISP=T,TADDR=280
* $$ SLI Inserts data ("book") from source statement library into the input stream * $$ SLI A.JCL1
* $$ DATA Inserts data from the card reader into a book retrieved from the source statement library * $$ DATA INPUT1

Example:

* $$ JOB JNM=NAME,DISP=K,CLASS=2

[some JCL statements here]

* $$ EOJ

See also

References

  1. "IBM Archives: System/360 Model 30". www-03.ibm.com. 2003-01-23. Retrieved 2016-04-25.
  2. IBM PC
  3. IBM-compatible computers History of PCs Archived August 14, 2007, at the Wayback Machine.
  4. IBM Corporation (August 1978). OS/VS MVS Data Management Services Guide (PDF). Retrieved Oct 17, 2014.
  5. Brown, Gary DeWard (2002). zOS JCL. John Wiley & Sons,. Retrieved 2014-05-05.
  6. IBM Corporation (1968). IBM System/360 Operating System Remote Job Entry (PDF). Retrieved 2014-05-05.
  7. IBM Corporation. "Job Entry Subsystem 2 (JES2) Control Statements". z/OS V1R2.0 MVS JCL. Retrieved February 25, 2013.
  8. IBM Corporation. "Job Entry Subsystem 3 (JES3) Control Statements". z/OS V1R2.0 MVS JCL. Retrieved February 25, 2013.
  9. IBM Corporation (1974). DOS/VS POWER/VS Installation and Operations (PDF).

Sources

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