from small one page howto to huge articles all in one place
 

search text in:





Poll
Which screen resolution do you use?










poll results

Last additions:
using iotop to find disk usage hogs

using iotop to find disk usage hogs

words:

887

views:

194569

userrating:

average rating: 1.7 (102 votes) (1=very good 6=terrible)


May 25th. 2007:
Words

486

Views

251893

why adblockers are bad


Workaround and fixes for the current Core Dump Handling vulnerability affected kernels

Workaround and fixes for the current Core Dump Handling vulnerability affected kernels

words:

161

views:

140714

userrating:

average rating: 1.4 (42 votes) (1=very good 6=terrible)


April, 26th. 2006:

Druckversion
You are here: manpages





GETRLIMIT

Section: POSIX Programmer's Manual (3P)
Updated: 2013
Index Return to Main Contents
 

PROLOG

This manual page is part of the POSIX Programmer's Manual. The Linux implementation of this interface may differ (consult the corresponding Linux manual page for details of Linux behavior), or the interface may not be implemented on Linux.

 

NAME

getrlimit, setrlimit --- control maximum resource consumption  

SYNOPSIS

#include <sys/resource.h>
int getrlimit(int resource, struct rlimit *rlp);
int setrlimit(int resource, const struct rlimit *rlp);
 

DESCRIPTION

The getrlimit() function shall get, and the setrlimit() function shall set, limits on the consumption of a variety of resources. Each call to either getrlimit() or setrlimit() identifies a specific resource to be operated upon as well as a resource limit. A resource limit is represented by an rlimit structure. The rlim_cur member specifies the current or soft limit and the rlim_max member specifies the maximum or hard limit. Soft limits may be changed by a process to any value that is less than or equal to the hard limit. A process may (irreversibly) lower its hard limit to any value that is greater than or equal to the soft limit. Only a process with appropriate privileges can raise a hard limit. Both hard and soft limits can be changed in a single call to setrlimit() subject to the constraints described above. The value RLIM_INFINITY, defined in <sys/resource.h>, shall be considered to be larger than any other limit value. If a call to getrlimit() returns RLIM_INFINITY for a resource, it means the implementation shall not enforce limits on that resource. Specifying RLIM_INFINITY as any resource limit value on a successful call to setrlimit() shall inhibit enforcement of that resource limit. The following resources are defined:
RLIMIT_CORE
This is the maximum size of a core file, in bytes, that may be created by a process. A limit of 0 shall prevent the creation of a core file. If this limit is exceeded, the writing of a core file shall terminate at this size.
RLIMIT_CPU
This is the maximum amount of CPU time, in seconds, used by a process. If this limit is exceeded, SIGXCPU shall be generated for the process. If the process is catching or ignoring SIGXCPU, or all threads belonging to that process are blocking SIGXCPU, the behavior is unspecified.
RLIMIT_DATA
This is the maximum size of a data segment of the process, in bytes. If this limit is exceeded, the malloc() function shall fail with errno set to [ENOMEM].
RLIMIT_FSIZE
This is the maximum size of a file, in bytes, that may be created by a process. If a write or truncate operation would cause this limit to be exceeded, SIGXFSZ shall be generated for the thread. If the thread is blocking, or the process is catching or ignoring SIGXFSZ, continued attempts to increase the size of a file from end-of-file to beyond the limit shall fail with errno set to [EFBIG].
RLIMIT_NOFILE
This is a number one greater than the maximum value that the system may assign to a newly-created descriptor. If this limit is exceeded, functions that allocate a file descriptor shall fail with errno set to [EMFILE]. This limit constrains the number of file descriptors that a process may allocate.
RLIMIT_STACK
This is the maximum size of the initial thread's stack, in bytes. The implementation does not automatically grow the stack beyond this limit. If this limit is exceeded, SIGSEGV shall be generated for the thread. If the thread is blocking SIGSEGV, or the process is ignoring or catching SIGSEGV and has not made arrangements to use an alternate stack, the disposition of SIGSEGV shall be set to SIG_DFL before it is generated.
RLIMIT_AS
This is the maximum size of total available memory of the process, in bytes. If this limit is exceeded, the malloc() and mmap() functions shall fail with errno set to [ENOMEM]. In addition, the automatic stack growth fails with the effects outlined above. When using the getrlimit() function, if a resource limit can be represented correctly in an object of type rlim_t, then its representation is returned; otherwise, if the value of the resource limit is equal to that of the corresponding saved hard limit, the value returned shall be RLIM_SAVED_MAX; otherwise, the value returned shall be RLIM_SAVED_CUR. When using the setrlimit() function, if the requested new limit is RLIM_INFINITY, the new limit shall be ``no limit''; otherwise, if the requested new limit is RLIM_SAVED_MAX, the new limit shall be the corresponding saved hard limit; otherwise, if the requested new limit is RLIM_SAVED_CUR, the new limit shall be the corresponding saved soft limit; otherwise, the new limit shall be the requested value. In addition, if the corresponding saved limit can be represented correctly in an object of type rlim_t then it shall be overwritten with the new limit. The result of setting a limit to RLIM_SAVED_MAX or RLIM_SAVED_CUR is unspecified unless a previous call to getrlimit() returned that value as the soft or hard limit for the corresponding resource limit. The determination of whether a limit can be correctly represented in an object of type rlim_t is implementation-defined. For example, some implementations permit a limit whose value is greater than RLIM_INFINITY and others do not. The exec family of functions shall cause resource limits to be saved.
 

RETURN VALUE

Upon successful completion, getrlimit() and setrlimit() shall return 0. Otherwise, these functions shall return -1 and set errno to indicate the error.  

ERRORS

The getrlimit() and setrlimit() functions shall fail if:
EINVAL
An invalid resource was specified; or in a setrlimit() call, the new rlim_cur exceeds the new rlim_max.
EPERM
The limit specified to setrlimit() would have raised the maximum limit value, and the calling process does not have appropriate privileges. The setrlimit() function may fail if:
EINVAL
The limit specified cannot be lowered because current usage is already higher than the limit.

The following sections are informative.  

EXAMPLES

None.  

APPLICATION USAGE

If a process attempts to set the hard limit or soft limit for RLIMIT_NOFILE to less than the value of {_POSIX_OPEN_MAX} from <limits.h>, unexpected behavior may occur. If a process attempts to set the hard limit or soft limit for RLIMIT_NOFILE to less than the highest currently open file descriptor +1, unexpected behavior may occur.  

RATIONALE

It should be noted that RLIMIT_STACK applies ``at least'' to the stack of the initial thread in the process, and not to the sum of all the stacks in the process, as that would be very limiting unless the value is so big as to provide no value at all with a single thread.  

FUTURE DIRECTIONS

None.  

SEE ALSO

exec, fork(), malloc(), open(), sigaltstack(), sysconf(), ulimit() The Base Definitions volume of POSIX.1-2008, <stropts.h>, <sys_resource.h>  

COPYRIGHT

Portions of this text are reprinted and reproduced in electronic form from IEEE Std 1003.1, 2013 Edition, Standard for Information Technology -- Portable Operating System Interface (POSIX), The Open Group Base Specifications Issue 7, Copyright (C) 2013 by the Institute of Electrical and Electronics Engineers, Inc and The Open Group. (This is POSIX.1-2008 with the 2013 Technical Corrigendum 1 applied.) In the event of any discrepancy between this version and the original IEEE and The Open Group Standard, the original IEEE and The Open Group Standard is the referee document. The original Standard can be obtained online at http://www.unix.org/online.html .

Any typographical or formatting errors that appear in this page are most likely to have been introduced during the conversion of the source files to man page format. To report such errors, see https://www.kernel.org/doc/man-pages/reporting_bugs.html .


 

Index

PROLOG
NAME
SYNOPSIS
DESCRIPTION
RETURN VALUE
ERRORS
EXAMPLES
APPLICATION USAGE
RATIONALE
FUTURE DIRECTIONS
SEE ALSO
COPYRIGHT





Support us on Content Nation
rdf newsfeed | rss newsfeed | Atom newsfeed
- Powered by LeopardCMS - Running on Gentoo -
Copyright 2004-2020 Sascha Nitsch Unternehmensberatung GmbH
Valid XHTML1.1 : Valid CSS : buttonmaker
- Level Triple-A Conformance to Web Content Accessibility Guidelines 1.0 -
- Copyright and legal notices -
Time to create this page: 14.5 ms