OS390::Stdio - z/OS and OS/390 standard I/O functions with POSIX/XPG extensions
use OS390::Stdio qw( &dynalloc &dynfree &get_dcb &getname &pds_mem &sysdsnr &mvsopen &mvswrite &flush &forward &rewind &resetpos &remove &tmpnam &smf_record &svc99 &vsamdelrec &vsamlocate &vsamupdate # future dslist &dsname_level &vol_ser ); @dslist = dsname_level("FRED"); $uniquename = tmpnam; $fh = mvsopen("//MY.STUFF","a recfm=F") or die $!; $name = getname($fh); print $fh "Hello, world!\n"; flush($fh); rewind($fh); $line = <$fh>; undef $fh; # closes data set $fh = mvsopen("dd:MYDD(MEM)", "recfm=U"); sysread($fh,$data,128); close($fh); remove("dd:MYDD(MEM)"); @members = pds_mem("//'SYS1.PARMLIB'"); @aliases = pds_mem("//'SYS1.PARMLIB'",1);
This package gives Perl scripts running on z/OS or OS/390 access via POSIX extensions to several C stdio operations not available through Perl's CORE I/O functions. The specific routines are described below. These functions are prototyped as unary operators, with the exception of mvsopen which takes two arguments, mvswrite and smf_record each of which takes three arguments, svc99 which take several arguments, and tmpnam which takes none.
mvsopen
mvswrite
smf_record
svc99
tmpnam
All of the routines are available for export, though none are exported by default. All of the constants used by vsamupdate to specify update options are exported by default, other constants that are not exported are available via explicit calls to constant or via Exporter tags *_CONSTANTS (see below).
vsamupdate
constant
The routines are associated with the Exporter tag FUNCTIONS, the experimental routines are associated with the Exporter tag EXPERIMENAL, and the stdio.h VSAM constants are associated with the Exporter tag CONSTANTS, so you can more easily choose what you'd like to import:
# import constants, but not functions use OS390::Stdio; # same as use OS390::Stdio qw( :DEFAULT ); # import functions, but not constants use OS390::Stdio qw( !:CONSTANTS :FUNCTIONS ); # import both use OS390::Stdio qw( :CONSTANTS :FUNCTIONS ); # import nothing use OS390::Stdio (); # import everything use OS390::Stdio qw( :CONSTANTS :FUNCTIONS :EXPERIMENTAL :ALCUNIT_CONSTANTS :DISP_CONSTANTS :DSORG_CONSTANTS :RECFM_CONSTANTS :MISCFL_CONSTANTS :VSAM_CONSTANTS :DSNT_CONSTANTS :PATH_CONSTANTS );
Of course, you can also choose to import specific functions by name, as usual.
This package ISA IO::File, so that you can call IO::File methods on the handles returned by mvsopen. The IO::File package is not initialized, however, until you actually call a method that OS390::Stdio doesn't provide. This is done to save startup time for users who don't wish to use the IO::File methods.
ISA
The constants handled by OS390::Stdio derive from #define preprocessor statements in three C header files on z/OS or OS/390: stdio.h, fcntl.h, and dynit.h.
Constants related to VSAM usage in stdio.h have corresponding constants in OS390::Stdio. They are:
&KEY_FIRST &KEY_LAST &KEY_EQ &KEY_EQ_BWD &KEY_GE &RBA_EQ &RBA_EQ_BWD
These are ordinarily imported by either use OS390::Stdio; or use OS390::Stdio qw(:CONSTANTS);
use OS390::Stdio;
use OS390::Stdio qw(:CONSTANTS);
fcntl.h constants intended for use with open() are also handled by OS390::Stdio. They are:
&O_APPEND &O_CREAT &O_EXCL &O_NDELAY &O_NOWAIT &O_RDONLY &O_RDWR &O_TRUNC &O_WRONLY
These are ordinarily not imported.
Constants defined in dynit.h are grouped and mapped to slightly different names by OS390::Stdio. There are 8 distinct groupings of dynit.h constants: ALCUNIT_CONSTANTS, DISP_CONSTANTS, DSORG_CONSTANTS, RECFM_CONSTANTS, MISCFL_CONSTANTS, VSAM_CONSTANTS, DSNT_CONSTANTS, and PATH_CONSTANTS. These constants are frequently used with routines like dynalloc() and dynfree().
dynalloc()
dynfree()
ALCUNIT_CONSTANTS
Corresponding to allocation unit constants. These can either be imported via use OS390::Stdio qw(:ALCUNIT_CONSTANTS); or they can be used individually as in:
use OS390::Stdio qw(:ALCUNIT_CONSTANTS);
use OS390::Stdio; my $cylinder = OS390::Stdio::constants('ALCUNIT_CYL');
The constants and the corresponding definitions in this group are:
ALCUNIT_CYL __CYL ALCUNIT_TRK __TRK
DISP_CONSTANTS
These constants handle status (status), normal dispostion (normdisp), and conditional disposition (conddisp) types. These may optionally be imported via use OS390::Stdio qw(:DISP_CONSTANTS);.
use OS390::Stdio qw(:DISP_CONSTANTS);
DISP_OLD __DISP_OLD DISP_MOD __DISP_MOD DISP_NEW __DISP_NEW DISP_SHR __DISP_SHR DISP_UNCATLG __DISP_UNCATLG DISP_CATLG __DISP_CATLG DISP_DELETE __DISP_DELETE DISP_KEEP __DISP_KEEP
DSORG_CONSTANTS
These are data set organization type constants. These may optionally be imported via use OS390::Stdio qw(:DSORG_CONSTANTS);.
use OS390::Stdio qw(:DSORG_CONSTANTS);
DSORG_unknown __DSORG_unknown DSORG_VSAM __DSORG_VSAM DSORG_GS __DSORG_GS DSORG_PO __DSORG_PO DSORG_POU __DSORG_POU DSORG_DA __DSORG_DA DSORG_DAU __DSORG_DAU DSORG_PS __DSORG_PS DSORG_PSU __DSORG_PSU DSORG_IS __DSORG_IS DSORG_ISU __DSORG_ISU
RECFM_CONSTANTS
These constants correspond to various record format types recognized by dynfree(). These may optionally be imported via use OS390::Stdio qw(:RECFM_CONSTANTS);.
use OS390::Stdio qw(:RECFM_CONSTANTS);
RECFM_M _M_ RECFM_A _A_ RECFM_S _S_ RECFM_B _B_ RECFM_D _D_ RECFM_V _V_ RECFM_F _F_ RECFM_U _U_ RECFM_FB _FB_ RECFM_VB _VB_ RECFM_FBS _FBS_ RECFM_VBS _VBS_
MISCFL_CONSTANTS
Miscellaneous flags constants. These may optionally be imported via use OS390::Stdio qw(:MISCFL_CONSTANTS);.
use OS390::Stdio qw(:MISCFL_CONSTANTS);
MISCFL_CLOSE __CLOSE MISCFL_RELEASE __RELEASE MISCFL_PERM __PERM MISCFL_CONTIG __CONTIG MISCFL_ROUND __ROUND MISCFL_TERM __TERM MISCFL_DUMMY_DSN __DUMMY_DSN MISCFL_HOLDQ __HOLDQ
VSAM_CONSTANTS
These constants designate VSAM record organizations types. They may optionally be imported via use OS390::Stdio qw(:VSAM_CONSTANTS);.
use OS390::Stdio qw(:VSAM_CONSTANTS);
VSAM_KS __KS VSAM_ES __ES VSAM_RR __RR VSAM_LS __LS
DSNT_CONSTANTS
These are PDS type constants and may optionally be imported via use OS390::Stdio qw(:DSNT_CONSTANTS);.
use OS390::Stdio qw(:DSNT_CONSTANTS);
DSNT_HFS __DSNT_HFS DSNT_PIPE __DSNT_PIPE DSNT_PDS __DSNT_PDS DSNT_LIBRARY __DSNT_LIBRARY
PATH_CONSTANTS
The constants in this group correspond to path options and to path attributes. They may optionally be imported via use OS390::Stdio qw(:PATH_CONSTANTS);.
use OS390::Stdio qw(:PATH_CONSTANTS);
PATH_OCREAT __PATH_OCREAT PATH_OEXCL __PATH_OEXCL PATH_ONOCTTY __PATH_ONOCTTY PATH_OTRUNC __PATH_OTRUNC PATH_OAPPEND __PATH_OAPPEND PATH_ONONBLOCK __PATH_ONONBLOCK PATH_ORDWR __PATH_ORDWR PATH_ORDONLY __PATH_ORDONLY PATH_OWRONLY __PATH_OWRONLY PATH_SISUID __PATH_SISUID PATH_SISGID __PATH_SISGID PATH_SIRUSR __PATH_SIRUSR PATH_SIWUSR __PATH_SIWUSR PATH_SIXUSR __PATH_SIXUSR PATH_SIRWXU __PATH_SIRWXU PATH_SIRGRP __PATH_SIRGRP PATH_SIWGRP __PATH_SIWGRP PATH_SIXGRP __PATH_SIXGRP PATH_SIRWXG __PATH_SIRWXG PATH_SIROTH __PATH_SIROTH PATH_SIWOTH __PATH_SIWOTH PATH_SIXOTH __PATH_SIXOTH PATH_SIRWXO __PATH_SIRWXO
In the following DSH refers to a data set handle such as returned by the mvsopen routine. For OS data sets NAME refers to either a double slashed name such as //BETTY.BAM, or members such as //BETTY.BAM(BAM); or to dd names such as dd:WILMA.PEBBLES.
DSH
NAME
//BETTY.BAM
//BETTY.BAM(BAM)
dd:WILMA.PEBBLES
Dynamically allocates a data set via the C RTL dynalloc() routine. Returns a true value on success, undef on failure.
You may wish to refer to your system's /usr/include/dynit.h header file for information on the __dyn_t struct typedef as well as constants used by the C version of dynalloc(). You might also be interested in symbolic constant names as can be found in dynit.ph after running h2ph on dynit.h (see the INSTALL document for perl).
The hashref to be passed to dynalloc may contain keys with names derived from the __dyn_t member names with the two leading underscores removed. For example:
my $hashref = {("ddname" -=> "MYDD", "dsname" => "FRED.DSN", ... )};
While most of the hash values can be character strings (SvPV below) some of the hash values must be integers or chars ((cast)SvIV below):
Perl C __dyn_t Perl -> C hash key member value type ddname __ddname = SvPV(hval,len); dsname __dsname = SvPV(hval,len); sysout __sysout = (char)SvIV(hval); sysoutname __sysoutname = SvPV(hval,len); member __member = SvPV(hval,len); status __status = (char)SvIV(hval); normdisp __normdisp = (char)SvIV(hval); conddisp __conddisp = (char)SvIV(hval); unit __unit = SvPV(hval,len); volser __volser = SvPV(hval,len); dsorg __dsorg = (short)SvIV(hval); alcunit __alcunit = (char)SvIV(hval); primary __primary = SvIV(hval); secondary __secondary = SvIV(hval); dirblk __dirblk = SvIV(hval); avgblk __avgblk = SvIV(hval); recfm __recfm = (short)SvIV(hval); blksize __blksize = (short)SvIV(hval); lrecl __lrecl = (unsigned short)SvIV(hval); volrefds __volrefds = SvPV(hval,len); dcbrefds __dcbrefds = SvPV(hval,len); dcbrefdd __dcbrefdd = SvPV(hval,len); misc_flags __misc_flags = (unsigned char)SvIV(hval); password __password = SvPV(hval,len); miscitems __miscitems = (char **)SvPV(hval,len); infocode __infocode = (short)SvIV(hval); errcode __errcode = (short)SvIV(hval); storclass __storclass = SvPV(hval,len); mgntclass __mgntclass = SvPV(hval,len); dataclass __dataclass = SvPV(hval,len); recorg __recorg = (char)SvIV(hval); keyoffset __keyoffset = (short)SvIV(hval); keylength __keylength = (short)SvIV(hval); refdd __refdd = SvPV(hval,len); like __like = SvPV(hval,len); dsntype __dsntype = (char)SvIV(hval); pathname __pathname = SvPV(hval,len); pathopts __pathopts = SvIV(hval); pathmode __pathmode = SvIV(hval); pathndisp __pathndisp = (char)SvIV(hval); pathcdisp __pathcdisp = (char)SvIV(hval);
See also the C/C++ Run-Time Library Reference for information on dynalloc() and __dyn_t. See also svc99.
__dyn_t
Deallocates a data set via the C RTL dynfree() routine. Returns a true value on success, undef on failure. For information on the form of the HASHREF see dynalloc. Note that the only __dyn_t struct members that are used by the underlying dynfree() rotuine are:
dynalloc
ddname dsname member pathname normdisp pathndisp miscitems
See also svc99.
This function causes the contents of stdio buffers for the specified data set handle to be flushed. If undef is used as the argument to flush, all currently open data set handles are flushed. Like the CRTL fflush() routine, the buffering mode and file type can have an effect on when output data is flushed. flush returns a true value if successful, and undef if not.
undef
flush
forward resets the current position of the specified data set handle to the end of the data set. It's really just a convenience method equivalent in effect to fseek($fh,0L,SEEK_END). It returns a true value if successful, and undef if it fails. See also rewind and resetpos.
forward
fseek($fh,0L,SEEK_END)
rewind
resetpos
This function retrieves the data control block information for the data set name or the data set handle passed to it and returns it in a hash with keys approximated by the names of the elements of the fldata_t struct (see the documentaton for the fldata() C RTL routine for further information).
fldata_t
fldata()
For example:
use OS390::Stdio qw(get_dcb); my %slate_dcb = get_dcb("//SEDIMENT.SLATE"); for (sort(keys(%slate_dcb))) { print "$_ = $slate_dcb{$_}\n"; }
For an example using the older data set handle mechanism:
use OS390::Stdio qw(mvsopen get_dcb); my $dshandle = mvsopen("//SEDIMENT.SLATE","r"); my %slate_dcb = get_dcb($dshandle); close($dshandle); for (sort(keys(%slate_dcb))) { print "$_ = $slate_dcb{$_}\n"; }
For the inverse (i.e. setting data set attributes) use appropriate arguments with either mvsopen, dynalloc, or svc99. For just the filename you can use getname in place of get_dcb.
getname
get_dcb
The getname function returns the full data set filename associated either with the given name or with a supplied Perl I/O handle (via fldata()). If an error occurs, it returns undef.
As an example consider:
$fullname = getname("//FOO.BAR"); $hlq = $fullname; $hlq =~ s/\'([^\.]+)\..*/$1/; # strip leading ' and trailing DS names print "The high level qualifier (HLQ) is $hlq\n";
The version of that previous example carried out with a Data Set Handle might appear as:
$dshandle = mvsopen("//FOO.BAR","r"); $fullname = getname($dshandle); $hlq = $fullname; $hlq =~ s/\'([^\.]+)\..*/$1/; # strip leading ' and trailing DS names print "The high level qualifier (HLQ) is $hlq\n";
or, assuming you are authorized to do so, in order to switch to a different HLQ:
$mydshandle = mvsopen("//FOO.BAR","r"); $myfullname = getname($mydshandle); $bobsuid = '214'; setuid($bobsuid); $bobsdshandle = mvsopen("//FOO.BAR","r"); $bobsfullname = getname($bobsdshandle); $bobshlq = $bobsfullname; $bobshlq =~ s/\'([^\.]+)\..*/$1/; print "Bob's pwname is ",(getpwuid($<))[0],"\n"; print "Bob's high level qualifier (HLQ) is $bobshlq\n";
Note that both of these examples assume that UIDs map directly to profile prefixes, whereas they may not in general. To obtain more extensive information for a given data set handle see get_dcb.
The mvsopen function enables you to specify optional arguments to the CRTL when opening a data set. Its operation is similar to the built-in Perl open function (see perlfunc for a complete description), but it will only open normal data sets; it cannot open pipes or duplicate existing I/O handles. The MODE is typically taken from:
open
MODE
qw(r w a r+ w+ a+ rb wb ab rt wt at rb+ wb+ ab+ rt+ wt+ at+)
Additional MODE keyword parameters can be passed from:
qw(acc= blksize= byteseek lrecl= recfm= type= asis password= noseek)
(See the C/C++ MVS Programming Guide and the C/C++ Run-Time Library Reference descriptions of fopen() for detailed information on NAME and MODE arguments.) If successful, mvsopen returns a data set handle; if an error occurs, it returns undef.
fopen()
You can use the data set handle returned by mvsopen just as you would any other Perl file handle. The class OS390::Stdio ISA IO::File, so you can call IO::File methods using the handle returned by mvsopen. However, useing OS390::Stdio does not automatically use IO::File; you must do so explicitly in your program if you want to call IO::File methods. This is done to avoid the overhead of initializing the IO::File package in programs which intend to use the handle returned by mvsopen as a normal Perl data set handle only. When the scalar containing a OS390::Stdio data set handle is overwritten, undefd, or goes out of scope, the associated data set is closed automatically.
use
The mvswrite function provides access to stdio's fwrite() function. For example:
fwrite()
use OS390::Stdio qw(mvsopen mvswrite); my $dshandle = mvsopen("//BED.ROCK","w+"); my $fred,$data,$chrs_written; $fred = 100.00; $data = sprintf("Fred's salary is \$%3.2f",$fred); $chrs_written = mvswrite($dshandle,$data,length($data)); close($dshandle);
Returns a list of members for the named PDS directory. Alias names may be returned depending on the value of the optional FLAG argument:
FLAG pds_mem() returns member names (if any) - this is the default 0 member names (if any) 1 alias names only (if there are any) 2 member and alias names (if any)
A list with a single undef element is returned for PDS directories that have no members as well as for data set names that are not partitioned (in the latter case a warning may appear on STDERR depending on how OS390::Stdio was compiled on your system). For example:
use OS390::Stdio qw(pds_mem); my @member_list = pds_mem("//'SLATE.PDS'"); print " Members that are not aliases are:\n"; foreach my $mem (@member_list) { print "SLATE.PDS($mem)\n"; } print " Aliases are:\n"; my @alias_list = pds_mem("//'SLATE.PDS'",1); foreach my $alias (@alias_list) { print "SLATE.PDS($alias)\n"; }
This function deletes the data set (member) named in its argument, returning a true value if successful and undef if not. It differs from the CORE Perl function unlink in that it does not try to reset DS access if you are not authorized to delete the data set.
unlink
resetpos resets the current position of the specified data set handle to the current position. This is useful for switching between input and output at a given location. It's really just a convenience method equivalent in effect to fseek($fh,0L,SEEK_CUR). It returns a true value if successful, and undef if it fails. See also forward and rewind or Perl's builtin seek. (This was not called setpos to avoid namespace collision).
fseek($fh,0L,SEEK_CUR)
seek
rewind resets the current position of the specified data set handle to the beginning of the data set. It's really just a convenience method equivalent in effect to seek($fh,0,0). It returns a true value if successful, and undef if it fails. See also forward and resetpos.
seek($fh,0,0)
If the System Management Facility is running and the BPX.SMF facility does not exclude writing the type of record that you want then you may use smf_record. For example:
use OS390::Stdio ('smf_record'); if ( smf_record($type,$sub_type,$record) ) { print "record successfully recorded with SMF\n"; } warn "a problem recording with SMF was encountered"; }
Returns true if the named data set is available to fopen() in "r" mode. Note that perl's built in stat() function as well as the various file test operators such as -r do not work with OS data sets, but that sysdsnr will.
stat()
-r
sysdsnr
This function provides access to the SVC 99 system service via a C RTL svc99() call. Returns a true value on success, undef on failure.
svc99()
The hashref to be passed to svc99 may contain keys with names derived from the __S99struc member names with the two leading underscores removed. For example:
While most of the hash values can be integers ((cast)SvIV below), S99S99X can be a character string, and the S99TXTPP key must have a value that is an array reference pointing to an array of specially formatted "text units":
Perl C __S99struc Perl -> C S99VERB .__S99VERB (unsigned char)SvIV(hval) S99FLAG1 .__S99FLAG1 (unsigned short)SvIV(hval) S99FLAG2 .__S99FLAG2 (unsigned short)SvIV(hval) S99RBLN .__S99RBLN (unsigned char)SvIV(hval) S99S99X .__S99S99X (void * )SvPV(hval,len) S99TXTPP .__S99TXTPP [array reference]
Note that S99FLAG2 can only be set by perl programs that are APF authorized. See also the C/C++ Run-Time Library Reference for information on svc99().
The tmpnam function returns a unique string which can be used as an HFS (POSIX) data set name when creating temporary storage. If, for some reason, it is unable to generate a name, it returns undef. Note that in order to ensure the creation of an OS data set try using mvsopen with a data set name of the form //&&name.
//&&name
Deletes a record from a VSAM data set via the C RTL fdelrec() routine. You must seek to the proper record before invoking vsamdelrec of course. See also mvsopen, vsamlocate, and vsamupdate.
fdelrec()
vsamlocate
Locates a record in a VSAM data set via the C RTL flocate() routine. See also mvsopen, vsamdelrec, and vsamupdate.
flocate()
vsamdelrec
Updates a record in a VSAM data set via the C RTL fupdate() routine. See also mvsopen, vsamdelrec, and vsamlocate.
fupdate()
The following functions are experimental. Some are not currently working and either produce fatal errors or simply do not work as intended.
This function returns a ds list for a given HLQ plus optional additional qualifiers. It returns undef if it encounters an error. (The name was taken from the ISPF 3.4 panel entry). See also vol_ser.
vol_ser
V 0.003..0.007: This routine is not yet implemented and causes a fatal error.
Until this is working properly you can from perl code things such as:
@listcat = `tso listcat`;
Returns a dslist for a given volume serial input. (The name was taken from the ISPF 3.4 panel entry).
The following messages may be seen when programming with this extension:
Seen during a call to pds_mem() if the named data set does not have the __dsorgPDSdir organization and if the module was compiled without -DNO_WARN_IF_NOT_PDS.
Try calling pds_mem() with the name of a PDS or re-install this module being sure to specify -DNO_WARN_IF_NOT_PDS duruing the build process.
The initial attempt to read the data set from pds_mem() did not return a valid FILE * pointer. Perhaps the name that you gave to pds_mem() was not a valid data set name?
An error occurred while attempting to fread() a PDS.
An fatal error occurred while attempting to fread() a PDS.
An error occurred while attempting to malloc() space for a PDS member name.
Seen if an attempt to call pds_mem() with more than 2 arguments is made. pds_mem() ought to be called with a PDS name and an optional integer. Try reducing the list of items passed to pds_mem() to one or two.
Seen if the optional second argument passed to pds_mem() is not an integer. Try using an integer expression that evaluates to 0 or 1 or 2 instead.
You tried calling dynalloc() or dynfree() with a hash ref, one of whose keys was not a recognized part of the __dyn_t struct.
An internal error was encountered in smf_record. Contact the author.
A system diagnostic. Try to allocate more storage.
Contact your system administrator about the BPX.SMF facility.
An error was encountered in calling __smf_record().
Be sure to pass a hash reference to svc99().
Be sure that the 'S99TXTPP' key of the hash reference passed to svc99() points to a value that is an array reference.
Trim down the size of the 'S99TXTPP' referenced array or up the value of the OS390_STDIO_SVC99_TEXT_UNITS constant and re-install the extensions (please contact the author if you find this necessary).
Pass a hash reference to svc99() that contains only recognized keys.
The internal call to the C run time svc99() failed for the indicated reasons (in hex).
A problem was encountered with the argument passed to svc99().
Seen if an attempt to call an unfinished sub routine is made. dsname_level() and vol_ser() are not yet implemented.
This document was last revised on 31-August-2002, for Perl 5.8.0.
13-June-2001, VERSION 0.006 for Perl 5.6.1.
18-May-2001, VERSION 0.005 for Perl 5.6.1.
14-Apr-2001, VERSION 0.004 for Perl 5.6.1.
13-Apr-1999, VERSION 0.003 for Perl 5.005_03.
31-Aug-1998, VERSION 0.002 for Perl 5.005_02.
To install OS390::Stdio, copy and paste the appropriate command in to your terminal.
cpanm
cpanm OS390::Stdio
CPAN shell
perl -MCPAN -e shell install OS390::Stdio
For more information on module installation, please visit the detailed CPAN module installation guide.