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GETRLIMIT(2) System Calls Manual GETRLIMIT(2)

getrlimit, setrlimitcontrol maximum system resource consumption

library “libc”

#include <sys/types.h>
#include <sys/time.h>
#include <sys/resource.h>

int
getrlimit(int resource, struct rlimit *rlp);

int
setrlimit(int resource, const struct rlimit *rlp);

Limits on the consumption of system resources by the current process and each process it creates may be obtained with the () call, and set with the () call.

The resource parameter is one of the following:

The maximum size (in bytes) of a process' total available memory. If this limit is exceeded, the malloc(3) and mmap(2) functions will fail and errno set to ENOMEM. Moreover, the automatic stack growth will fail as well.
The largest size (in bytes) core(5) file that may be created.
The maximum amount of cpu time (in seconds) to be used by each process.
The maximum size (in bytes) of the data segment for a process; this defines how far a program may extend its break with the sbrk(2) system call.
The largest size (in bytes) file that may be created.
The maximum size (in bytes) which a process may lock into memory using the mlock(2) function.
The maximum number of open files for this process.
The maximum number of simultaneous processes for this user id.
The maximum size (in bytes) to which a process's resident set size may grow. This imposes a limit on the amount of physical memory to be given to a process; if memory is tight, the system will prefer to take memory from processes that are exceeding their declared resident set size.
The maximum size (in bytes) of the stack segment for a process; this defines how far a program's stack segment may be extended. Stack extension is performed automatically by the system.
The maximum size (in bytes) of socket buffer usage for this user. This limits the amount of network memory, and hence the amount of mbufs, that this user may hold at any time.
The maximum number of POSIX-type advisory-mode locks available to this user.

A resource limit is specified as a soft limit and a hard limit. When a soft limit is exceeded a process may receive a signal (for example, if the cpu time or file size is exceeded), but it will be allowed to continue execution until it reaches the hard limit (or modifies its resource limit). The structure is used to specify the hard and soft limits on a resource,

struct rlimit {
	rlim_t	rlim_cur;	/* current (soft) limit */
	rlim_t	rlim_max;	/* maximum value for rlim_cur */
};

Only the super-user may raise the maximum limits. Other users may only alter rlim_cur within the range from 0 to rlim_max or (irreversibly) lower rlim_max.

An “infinite” value for a limit is defined as RLIM_INFINITY.

Because this information is stored in the per-process information, this system call must be executed directly by the shell if it is to affect all future processes created by the shell; limit is thus a built-in command to csh(1).

The system refuses to extend the data or stack space when the limits would be exceeded in the normal way: an sbrk(2) call fails if the data space limit is reached. When the stack limit is reached, the process receives a segmentation fault (SIGSEGV); if this signal is not caught by a handler using the signal stack, this signal will kill the process.

A file I/O operation that would create a file larger than the process' soft limit will cause the write to fail and a signal SIGXFSZ to be generated; this normally terminates the process, but may be caught. When the soft cpu time limit is exceeded, a signal SIGXCPU is sent to the offending process.

Upon successful completion, the value 0 is returned; otherwise the value -1 is returned and the global variable errno is set to indicate the error.

Getrlimit() and setrlimit() will fail if:

[]
The address specified for rlp is invalid.
[]
The limit specified to setrlimit() would have raised the maximum limit value, and the caller is not the super-user.

csh(1), quota(1), quotactl(2), sigaction(2), sigaltstack(2), sysctl(3), ulimit(3)

The getrlimit() function call appeared in 4.2BSD.

March 1, 2019 DragonFly-5.6.1