The code snippet shown below works in a way that after forking, the child process ssh from windows to Linux machine, and run script1_bkt.csh on linux machine. And logs are dumped to a windows path ($AngleLogFilePath\Angle_${date}.log === V:\ricky_angle_testing_63.1\depot\vfr\63.10\main\logs\angleLogsrickyPersonal\Angle_${date}.log).
Parent Processes(trialSet.pl and trialSetDepWint.pl) runs in the foreground, and works fine.
V: is network filer or CISF for /dv/lmv/mentor/
Issue::
Child process (after the fork process) which ssh onto Linux machine from windows machine and runs script1_bkt.csh get stuck at some point (not everytime).
Point to Note: On a Linux machine(qwelnx45), the PID of script1_bkt.csh doesn't exist after some time which means the process is completed. But, on windows, the PID of ssh.exe (using which script1_bkt.csh is triggered on windows) exists which means on windows, command ($GoToUnix74 cd $ClientAltRoot/lkg ; source script1_bkt.csh ) isn't completed, and got stuck. The script usually takes 3 hrs in completing, but sometimes it never completes as it gets stuck. ::: This script doesn't get stuck everytime.
Also, one more important point: When child process gets stuck on windows, although script1_bkt.csh is finished on Linux, the log file ( $AngleLogFilePath\Angle_${date}.log) doesn't have all the data which script1_bkt.csh gives i.e. Log file is incomplete (Seems because process got stuck, it stopped writing to log file)
CODE SNIPPET:
use File::Path qw( make_path );
my $ClientAltRoot = "/dv/lmv/mentor/ricky_angle_testing_63.1/depot/vfr/63.10/main/";
my $GoToUnix = "C:\\cygwin\\bin\\ssh.exe qwelnx45";
my $AngleLogFilePath = "V:\\ricky_angle_testing_63.1\\depot\\vfr\\63.10\\main\\logs\\angleLogsrickyPersonal";
my $date = strftime("%Y%m%d_%H%M%S", localtime(time));
make_path("$AngleLogFilePath") or warn "Failed to create dir $AngleLogFilePath";
my $aqpid;
# fork angle process
if ($aqpid = fork()) {
$SIG{CHLD} = 'DEFAULT';
} elsif (defined ($aqpid)) {
sleep 10;
print "Angle child started\n";
$angleReturnStatus = system ("$GoToUnix cd $ClientAltRoot/lkg ; source script1_bkt.csh > $AngleLogFilePath\\Angle_${date}.log ");
$angleFailed += 1 if ($angleReturnStatus > 0);
exit 0;
}
print "##### Starting the foreground script ###### \n";
system "$GoToUnix \"cd /home/ricky/; echo abc ; /home/ricky/trialSet.pl > setTrial_ricky/set_${date}.log\" ";
print "Ended SetDep\n";
print "Waiting as child process has not ended";
1 while (wait() != -1);
system ( "perl C:\\ricky\\Testing\\trialSetDepWint.pl ");
print "Demo script ended\n";
Please tell why is the process getting stuck? What could be the possible solution to eliminate this stuck issue?
-Thanks in Advance.
Actually, the issue was due to the following reasons:
Quick Mode was ON. ## I turned off the quick mode on my system as a solution.
Interruption on the command prompt on which run/script is going on. ## Avoid using the machine while the run/script is going on. Because, when you work on the machine, willy-nilly you switch command prompts; and due to this switching, your run sometimes gets stuck until you press "ENTER" or any key.
I followed these two methods, and not seeing the issue now.
Thanks.
I have a Perl CGI script that isn't working and I don't know how to start narrowing down the problem. What can I do?
Note: I'm adding the question because I really want to add my very lengthy answer to Stack Overflow. I keep externally linking to it in other answers and it deserves to be here. Don't be shy about editing my answer if you have something to add.
This answer is intended as a general framework for working through
problems with Perl CGI scripts and originally appeared on Perlmonks as Troubleshooting Perl CGI Scripts. It is not a complete guide to every
problem that you may encounter, nor a tutorial on bug squashing. It
is just the culmination of my experience debugging CGI scripts for twenty (plus!) years. This page seems to have had many different homes, and I seem
to forget it exists, so I'm adding it to the StackOverflow. You
can send any comments or suggestions to me at
bdfoy#cpan.org. It's also community wiki, but don't go too nuts. :)
Are you using Perl's built in features to help you find problems?
Turn on warnings to let Perl warn you about questionable parts of your code. You can do this from the command line with the -w switch so you don't have to change any code or add a pragma to every file:
% perl -w program.pl
However, you should force yourself to always clear up questionable code by adding the warnings pragma to all of your files:
use warnings;
If you need more information than the short warning message, use the diagnostics pragma to get more information, or look in the perldiag documentation:
use diagnostics;
Did you output a valid CGI header first?
The server is expecting the first output from a CGI script to be the CGI header. Typically that might be as simple as print "Content-type: text/plain\n\n"; or with CGI.pm and its derivatives, print header(). Some servers are sensitive to error output (on STDERR) showing up before standard output (on STDOUT).
Try sending errors to the browser
Add this line
use CGI::Carp 'fatalsToBrowser';
to your script. This also sends compilation errors to the browser window. Be sure to remove this before moving to a production environment, as the extra information can be a security risk.
What did the error log say?
Servers keep error logs (or they should, at least).
Error output from the server and from your script should
show up there. Find the error log and see what it says.
There isn't a standard place for log files. Look in the
server configuration for their location, or ask the server
admin. You can also use tools such as CGI::Carp
to keep your own log files.
What are the script's permissions?
If you see errors like "Permission denied" or "Method not
implemented", it probably means that your script is not
readable and executable by the web server user. On flavors
of Unix, changing the mode to 755 is recommended:
chmod 755 filename. Never set a mode to 777!
Are you using use strict?
Remember that Perl automatically creates variables when
you first use them. This is a feature, but sometimes can
cause bugs if you mistype a variable name. The pragma
use strict will help you find those sorts of
errors. It's annoying until you get used to it, but your
programming will improve significantly after awhile and
you will be free to make different mistakes.
Does the script compile?
You can check for compilation errors by using the -c
switch. Concentrate on the first errors reported. Rinse,
repeat. If you are getting really strange errors, check to
ensure that your script has the right line endings. If you
FTP in binary mode, checkout from CVS, or something else that
does not handle line end translation, the web server may see
your script as one big line. Transfer Perl scripts in ASCII
mode.
Is the script complaining about insecure dependencies?
If your script complains about insecure dependencies, you
are probably using the -T switch to turn on taint mode, which is
a good thing since it keeps you have passing unchecked data to the shell. If
it is complaining it is doing its job to help us write more secure scripts. Any
data originating from outside of the program (i.e. the environment)
is considered tainted. Environment variables such as PATH and
LD_LIBRARY_PATH
are particularly troublesome. You have to set these to a safe value
or unset them completely, as I recommend. You should be using absolute
paths anyway. If taint checking complains about something else,
make sure that you have untainted the data. See perlsec
man page for details.
What happens when you run it from the command line?
Does the script output what you expect when run from the
command line? Is the header output first, followed by a
blank line? Remember that STDERR may be merged with STDOUT
if you are on a terminal (e.g. an interactive session), and
due to buffering may show up in a jumbled order. Turn on
Perl's autoflush feature by setting $| to a
true value. Typically you might see $|++; in
CGI programs. Once set, every print and write will
immediately go to the output rather than being buffered.
You have to set this for each filehandle. Use select to
change the default filehandle, like so:
$|++; #sets $| for STDOUT
$old_handle = select( STDERR ); #change to STDERR
$|++; #sets $| for STDERR
select( $old_handle ); #change back to STDOUT
Either way, the first thing output should be the CGI header
followed by a blank line.
What happens when you run it from the command line with a CGI-like environment?
The web server environment is usually a lot more limited
than your command line environment, and has extra
information about the request. If your script runs fine
from the command line, you might try simulating a web server
environment. If the problem appears, you have an
environment problem.
Unset or remove these variables
PATH
LD_LIBRARY_PATH
all ORACLE_* variables
Set these variables
REQUEST_METHOD (set to GET, HEAD, or POST as appropriate)
SERVER_PORT (set to 80, usually)
REMOTE_USER (if you are doing protected access stuff)
Recent versions of CGI.pm ( > 2.75 ) require the -debug flag to
get the old (useful) behavior, so you might have to add it to
your CGI.pm imports.
use CGI qw(-debug)
Are you using die() or warn?
Those functions print to STDERR unless you have redefined
them. They don't output a CGI header, either. You can get
the same functionality with packages such as CGI::Carp
What happens after you clear the browser cache?
If you think your script is doing the right thing, and
when you perform the request manually you get the right
output, the browser might be the culprit. Clear the cache
and set the cache size to zero while testing. Remember that
some browsers are really stupid and won't actually reload
new content even though you tell it to do so. This is
especially prevalent in cases where the URL path is the
same, but the content changes (e.g. dynamic images).
Is the script where you think it is?
The file system path to a script is not necessarily
directly related to the URL path to the script. Make sure
you have the right directory, even if you have to write a
short test script to test this. Furthermore, are you sure
that you are modifying the correct file? If you don't see
any effect with your changes, you might be modifying a
different file, or uploading a file to the wrong place.
(This is, by the way, my most frequent cause of such trouble
;)
Are you using CGI.pm, or a derivative of it?
If your problem is related to parsing the CGI input and you
aren't using a widely tested module like CGI.pm, CGI::Request,
CGI::Simple or CGI::Lite, use the module and get on with life.
CGI.pm has a cgi-lib.pl compatibility mode which can help you solve input
problems due to older CGI parser implementations.
Did you use absolute paths?
If you are running external commands with
system, back ticks, or other IPC facilities,
you should use an absolute path to the external program.
Not only do you know exactly what you are running, but you
avoid some security problems as well. If you are opening
files for either reading or writing, use an absolute path.
The CGI script may have a different idea about the current
directory than you do. Alternatively, you can do an
explicit chdir() to put you in the right place.
Did you check your return values?
Most Perl functions will tell you if they worked or not
and will set $! on failure. Did you check the
return value and examine $! for error messages? Did you check
$# if you were using eval?
Which version of Perl are you using?
The latest stable version of Perl is 5.28 (or not, depending on when this was last edited). Are you using an older version? Different versions of Perl may have different ideas of warnings.
Which web server are you using?
Different servers may act differently in the same
situation. The same server product may act differently with
different configurations. Include as much of this
information as you can in any request for help.
Did you check the server documentation?
Serious CGI programmers should know as much about the
server as possible - including not only the server features
and behavior, but also the local configuration. The
documentation for your server might not be available to you
if you are using a commercial product. Otherwise, the
documentation should be on your server. If it isn't, look
for it on the web.
Did you search the archives of comp.infosystems.www.authoring.cgi?
This use to be useful but all the good posters have either died or wandered off.
It's likely that someone has had your problem before,
and that someone (possibly me) has answered it in this
newsgroup. Although this newsgroup has passed its heyday, the collected wisdom from the past can sometimes be useful.
Can you reproduce the problem with a short test script?
In large systems, it may be difficult to track down a bug
since so many things are happening. Try to reproduce the problem
behavior with the shortest possible script. Knowing the problem
is most of the fix. This may be certainly time-consuming, but you
haven't found the problem yet and you're running out of options. :)
Did you decide to go see a movie?
Seriously. Sometimes we can get so wrapped up in the problem that we
develop "perceptual narrowing" (tunnel vision). Taking a break,
getting a cup of coffee, or blasting some bad guys in [Duke Nukem,Quake,Doom,Halo,COD] might give you
the fresh perspective that you need to re-approach the problem.
Have you vocalized the problem?
Seriously again. Sometimes explaining the problem aloud
leads us to our own answers. Talk to the penguin (plush toy) because
your co-workers aren't listening. If you are interested in this
as a serious debugging tool (and I do recommend it if you haven't
found the problem by now), you might also like to read The Psychology
of Computer Programming.
I think CGI::Debug is worth mentioning as well.
Are you using an error handler while you are debugging?
die statements and other fatal run-time and compile-time errors get
printed to STDERR, which can be hard to find and may be conflated with
messages from other web pages at your site. While you're debugging your
script, it's a good idea to get the fatal error messages to display in your
browser somehow.
One way to do this is to call
use CGI::Carp qw(fatalsToBrowser);
at the top of your script. That call will install a $SIG{__DIE__} handler (see perlvar)display fatal errors in your browser, prepending it with a valid header if necessary. Another CGI debugging trick that I used before I ever heard of CGI::Carp was to
use eval with the DATA and __END__ facilities on the script to catch compile-time errors:
#!/usr/bin/perl
eval join'', <DATA>;
if ($#) { print "Content-type: text/plain:\n\nError in the script:\n$#\n; }
__DATA__
# ... actual CGI script starts here
This more verbose technique has a slight advantage over CGI::Carp in that it will catch more compile-time errors.
Update: I've never used it, but it looks like CGI::Debug, as Mikael S
suggested, is also a very useful and configurable tool for this purpose.
I wonder how come no-one mentioned the PERLDB_OPTS option called RemotePort; although admittedly, there aren't many working examples on the web (RemotePort isn't even mentioned in perldebug) - and it was kinda problematic for me to come up with this one, but here it goes (it being a Linux example).
To do a proper example, first I needed something that can do a very simple simulation of a CGI web server, preferably through a single command line. After finding Simple command line web server for running cgis. (perlmonks.org), I found the IO::All - A Tiny Web Server to be applicable for this test.
Here, I'll work in the /tmp directory; the CGI script will be /tmp/test.pl (included below). Note that the IO::All server will only serve executable files in the same directory as CGI, so chmod +x test.pl is required here. So, to do the usual CGI test run, I change directory to /tmp in the terminal, and run the one-liner web server there:
$ cd /tmp
$ perl -MIO::All -e 'io(":8080")->fork->accept->(sub { $_[0] < io(-x $1 ? "./$1 |" : $1) if /^GET \/(.*) / })'
The webserver command will block in the terminal, and will otherwise start the web server locally (on 127.0.0.1 or localhost) - afterwards, I can go to a web browser, and request this address:
http://127.0.0.1:8080/test.pl
... and I should observe the prints made by test.pl being loaded - and shown - in the web browser.
Now, to debug this script with RemotePort, first we need a listener on the network, through which we will interact with the Perl debugger; we can use the command line tool netcat (nc, saw that here: Perl如何remote debug?). So, first run the netcat listener in one terminal - where it will block and wait for connections on port 7234 (which will be our debug port):
$ nc -l 7234
Then, we'd want perl to start in debug mode with RemotePort, when the test.pl has been called (even in CGI mode, through the server). This, in Linux, can be done using the following "shebang wrapper" script - which here also needs to be in /tmp, and must be made executable:
cd /tmp
cat > perldbgcall.sh <<'EOF'
#!/bin/bash
PERLDB_OPTS="RemotePort=localhost:7234" perl -d -e "do '$#'"
EOF
chmod +x perldbgcall.sh
This is kind of a tricky thing - see shell script - How can I use environment variables in my shebang? - Unix & Linux Stack Exchange. But, the trick here seems to be not to fork the perl interpreter which handles test.pl - so once we hit it, we don't exec, but instead we call perl "plainly", and basically "source" our test.pl script using do (see How do I run a Perl script from within a Perl script?).
Now that we have perldbgcall.sh in /tmp - we can change the test.pl file, so that it refers to this executable file on its shebang line (instead of the usual Perl interpreter) - here is /tmp/test.pl modified thus:
#!./perldbgcall.sh
# this is test.pl
use 5.10.1;
use warnings;
use strict;
my $b = '1';
my $a = sub { "hello $b there" };
$b = '2';
print "YEAH " . $a->() . " CMON\n";
$b = '3';
print "CMON " . &$a . " YEAH\n";
$DB::single=1; # BREAKPOINT
$b = '4';
print "STEP " . &$a . " NOW\n";
$b = '5';
print "STEP " . &$a . " AGAIN\n";
Now, both test.pl and its new shebang handler, perldbgcall.sh, are in /tmp; and we have nc listening for debug connections on port 7234 - so we can finally open another terminal window, change directory to /tmp, and run the one-liner webserver (which will listen for web connections on port 8080) there:
cd /tmp
perl -MIO::All -e 'io(":8080")->fork->accept->(sub { $_[0] < io(-x $1 ? "./$1 |" : $1) if /^GET \/(.*) / })'
After this is done, we can go to our web browser, and request the same address, http://127.0.0.1:8080/test.pl. However, now when the webserver tries to execute the script, it will do so through perldbgcall.sh shebang - which will start perl in remote debugger mode. Thus, the script execution will pause - and so the web browser will lock, waiting for data. We can now switch to the netcat terminal, and we should see the familiar Perl debugger text - however, output through nc:
$ nc -l 7234
Loading DB routines from perl5db.pl version 1.32
Editor support available.
Enter h or `h h' for help, or `man perldebug' for more help.
main::(-e:1): do './test.pl'
DB<1> r
main::(./test.pl:29): $b = '4';
DB<1>
As the snippet shows, we now basically use nc as a "terminal" - so we can type r (and Enter) for "run" - and the script will run up do the breakpoint statement (see also In perl, what is the difference between $DB::single = 1 and 2?), before stopping again (note at that point, the browser will still lock).
So, now we can, say, step through the rest of test.pl, through the nc terminal:
....
main::(./test.pl:29): $b = '4';
DB<1> n
main::(./test.pl:30): print "STEP " . &$a . " NOW\n";
DB<1> n
main::(./test.pl:31): $b = '5';
DB<1> n
main::(./test.pl:32): print "STEP " . &$a . " AGAIN\n";
DB<1> n
Debugged program terminated. Use q to quit or R to restart,
use o inhibit_exit to avoid stopping after program termination,
h q, h R or h o to get additional info.
DB<1>
... however, also at this point, the browser locks and waits for data. Only after we exit the debugger with q:
DB<1> q
$
... does the browser stop locking - and finally displays the (complete) output of test.pl:
YEAH hello 2 there CMON
CMON hello 3 there YEAH
STEP hello 4 there NOW
STEP hello 5 there AGAIN
Of course, this kind of debug can be done even without running the web server - however, the neat thing here, is that we don't touch the web server at all; we trigger execution "natively" (for CGI) from a web browser - and the only change needed in the CGI script itself, is the change of shebang (and of course, the presence of the shebang wrapper script, as executable file in the same directory).
Well, hope this helps someone - I sure would have loved to have stumbled upon this, instead of writing it myself :)
Cheers!
For me, I use log4perl . It's quite useful and easy.
use Log::Log4perl qw(:easy);
Log::Log4perl->easy_init( { level => $DEBUG, file => ">>d:\\tokyo.log" } );
my $logger = Log::Log4perl::get_logger();
$logger->debug("your log message");
Honestly you can do all the fun stuff above this post.
ALTHOUGH, the simplest and most proactive solution I found was to just "print it".
In example:
(Normal code)
`$somecommand`;
To see if it's doing what I really want it to do:
(Trouble shooting)
print "$somecommand";
It will probably also be worth mentioning that Perl will always tell you on what line the error occurs when you execute the Perl script from the command line. (An SSH Session for example)
I will usually do this if all else fails. I will SSH into the server and manually execute the Perl script. For example:
% perl myscript.cgi
If there is a problem then Perl will tell you about it. This debugging method does away with any file permission related issues or web browser or web server issues.
You may run the perl cgi-script in terminal using the below command
$ perl filename.cgi
It interpret the code and provide result with HTML code.
It will report the error if any.
The Perl subroutine below uses File::FcntlLock to check if a file is locked.
Why does it return 0 and print /tmp/test.pid is unlocked. even if the file is locked?
sub getPidOwningLock {
my $filename = shift;
my $fs = new File::FcntlLock;
$fs->l_type( F_WRLCK );
$fs->l_whence( SEEK_SET );
$fs->l_start( 0 );
$fs->l_len( 0 );
my $fd;
if (!open($fd, '+<', $filename)) {
print "Could not open $filename\n";
return -1;
}
if (!$fs->lock($fd, F_GETLK)) {
print "Could not get lock information on $filename, error: $fs->error\n";
close($fd);
return -1;
}
close($fd);
if ($fs->l_type() == F_UNLCK) {
print "$filename is unlocked.\n";
return 0;
}
return $fs->l_pid();
}
The file is locked as follows (lock.sh):
#!/bin/sh
(
flock -n 200
while true; do sleep 1; done
) 200>/tmp/test.pid
The file is indeed locked:
~$ ./lock.sh &
[2] 16803
~$ lsof /tmp/test.pid
COMMAND PID USER FD TYPE DEVICE SIZE/OFF NODE NAME
bash 26002 admin 200w REG 8,5 0 584649 test.pid
sleep 26432 admin 200w REG 8,5 0 584649 test.pid
fcntl and flock locks are invisible to each other.
This is a big problem for your use case because the flock utility that you're using in your shell script depends on flock semantics: the shell script runs a flock child process, which locks an inherited file descriptor and then exits. The shell keeps that file descriptor open (because the redirection is on a whole sequence of commands) until it wants to release the lock.
That plan can't work with fcntl because fcntl locks are not shared among processes. If there was a utility identical to flock but using fcntl, the lock would be released too early (as soon as the child process exits).
For coordination of a file lock between a perl process and a shell script, some options you can consider are:
port the shell script to zsh and use the zsystem flock builtin from the zsh/system module (note: in the documentation it claims to use fcntl in spite of its name being flock)
rewrite the shell script in perl
just use flock in the perl script (give up byte range locking and the "get locker PID" feature - but you can emulate that on Linux by reading /proc/locks)
write your own fcntl utility in C for use in the shell script (the usage pattern will be different - the shell script will have to background it and then kill it later to unlock - and it will need some way to tell the parent process when it has obtained or failed to obtain the lock, which will be hard because it's happening asynchronously now... maybe use the coprocess feature that some shells have).
run a small perl script from the shell script to do the locking (will need the same background treatment that a dedicated fcntl utility would need)
For more information on features of the different kinds of locks, see What is the difference between locking with fcntl and flock.
I have, for example, a c program that prints three lines, two seconds apart, that is:
printf("Wait 2 seconds...\n");
sleep(2);
printf("Two more\n");
sleep(2);
printf("Quitting in 2 seconds...\n");
sleep(2);
I execute the program and redirect it to a pipe:
./printer > myPipe
On another terminal
cat < myPipe
The second terminal prints all at once, 6 seconds later! I would like it to print the available lines immediatly. How can i do it?
Obs: I can't change the source code. It's actually the output of a boardgame algorithm, i have to get it immediatly so that i can plug it into another algorithm, get the answer back and plug into the first one...
Change the program to this approach:
printf("Wait 2 seconds...\n");
fflush (stdout);
sleep(2);
printf("Two more\n");
fflush (stdout);
sleep(2);
printf("Quitting in 2 seconds...\n");
fflush (stdout);
sleep(2);
Additional:
If you can't change the program, there really is no way to affect the program's built-in buffering without hacking it.
If you can relink the program, you could substitute a printf() function which flushes after each call. Or changes the startup initialization of stdout to be unbuffered—or at least line buffered.
If you can't change the source, you might want to try some of the solutions to this related question:
bash: force exec'd process to have unbuffered stdout
Basically, you have to make the OS execute this program interactively.
I'm assuming that the actual source file is complete. If so, then you have to compile the source and run it to get it to do anything. Using cat will just print the contents of the file, not run it.
If it was written in bash then it would have to be set mode bit +x, which would then make it executable. Allowing you to run it from a terminal ./script
No need to worry about the syntax since you've stated it's not an option to change it and... It's correctly written in C.
Is it possible to have Perl run a Linux OS function with a modified scheduling and/or IO scheduling priority without external commands? I am trying to simulate the following:
nice -n19 ionice -c2 -n7 cp largefile largefile2
Can I somehow do this with File::Copy, the setpriority function, and the CPAN module Linux::IO_Prio? Would I just need to lower the scheduling priority of $0?
EDIT:
If I do the following will the priority and IO be lowered for copy()? Is there a better way to do this?
use Linux::IO_Prio qw(:all);
use File::Copy;
setpriority(0, 0, -20);
ionice(IOPRIO_WHO_PROCESS, $$, IOPRIO_CLASS_IDLE, 7);
copy("file1","file2") or die "Copy failed: $!";
Refining Oesor’s answer:
use BSD::Resource qw(PRIO_PROCESS setpriority);
use Linux::IO_Prio qw(IOPRIO_WHO_PROCESS IOPRIO_PRIO_VALUE IOPRIO_CLASS_BE ioprio_set);
BEGIN { require autodie::hints; autodie::hints->set_hints_for(\&ioprio_set, { fail => sub { $_[0] == -1 } } ) };
use autodie qw(:all setpriority ioprio_set);
setpriority(
PRIO_PROCESS, # 1
$$,
19
);
ioprio_set(
IOPRIO_WHO_PROCESS, # 1
$$,
IOPRIO_PRIO_VALUE(IOPRIO_CLASS_BE, 7) # 0x4007
);
By the way, you can find out library call and similar stuff with strace.
You're probably best off simply changing the priority of the currently running pid as needed. Not portable, of course, but doing this is in and of itself non-portable. Anything performing this sort of thing is going to boil down to making the same library calls the external commands do.
my $pid = $$;
`ionice -c2 -p$pid`;
`renice +19 $pid`;