GNU Info
(libc.info)Limits on Resources
Limiting Resource Usage
=======================
You can specify limits for the resource usage of a process. When the
process tries to exceed a limit, it may get a signal, or the system call
by which it tried to do so may fail, depending on the resource. Each
process initially inherits its limit values from its parent, but it can
subsequently change them.
There are two per-process limits associated with a resource:
"current limit"
The current limit is the value the system will not allow usage to
exceed. It is also called the "soft limit" because the process
being limited can generally raise the current limit at will.
"maximum limit"
The maximum limit is the maximum value to which a process is
allowed to set its current limit. It is also called the "hard
limit" because there is no way for a process to get around it. A
process may lower its own maximum limit, but only the superuser
may increase a maximum limit.
The symbols for use with `getrlimit', `setrlimit', `getrlimit64',
and `setrlimit64' are defined in `sys/resource.h'.
- Function: int getrlimit (int RESOURCE, struct rlimit *RLP)
Read the current and maximum limits for the resource RESOURCE and
store them in `*RLP'.
The return value is `0' on success and `-1' on failure. The only
possible `errno' error condition is `EFAULT'.
When the sources are compiled with `_FILE_OFFSET_BITS == 64' on a
32-bit system this function is in fact `getrlimit64'. Thus, the
LFS interface transparently replaces the old interface.
- Function: int getrlimit64 (int RESOURCE, struct rlimit64 *RLP)
This function is similar to `getrlimit' but its second parameter is
a pointer to a variable of type `struct rlimit64', which allows it
to read values which wouldn't fit in the member of a `struct
rlimit'.
If the sources are compiled with `_FILE_OFFSET_BITS == 64' on a
32-bit machine, this function is available under the name
`getrlimit' and so transparently replaces the old interface.
- Function: int setrlimit (int RESOURCE, const struct rlimit *RLP)
Store the current and maximum limits for the resource RESOURCE in
`*RLP'.
The return value is `0' on success and `-1' on failure. The
following `errno' error condition is possible:
`EPERM'
* The process tried to raise a current limit beyond the
maximum limit.
* The process tried to raise a maximum limit, but is not
superuser.
When the sources are compiled with `_FILE_OFFSET_BITS == 64' on a
32-bit system this function is in fact `setrlimit64'. Thus, the
LFS interface transparently replaces the old interface.
- Function: int setrlimit64 (int RESOURCE, const struct rlimit64 *RLP)
This function is similar to `setrlimit' but its second parameter is
a pointer to a variable of type `struct rlimit64' which allows it
to set values which wouldn't fit in the member of a `struct
rlimit'.
If the sources are compiled with `_FILE_OFFSET_BITS == 64' on a
32-bit machine this function is available under the name
`setrlimit' and so transparently replaces the old interface.
- Data Type: struct rlimit
This structure is used with `getrlimit' to receive limit values,
and with `setrlimit' to specify limit values for a particular
process and resource. It has two fields:
`rlim_t rlim_cur'
The current limit
`rlim_t rlim_max'
The maximum limit.
For `getrlimit', the structure is an output; it receives the
current values. For `setrlimit', it specifies the new values.
For the LFS functions a similar type is defined in `sys/resource.h'.
- Data Type: struct rlimit64
This structure is analogous to the `rlimit' structure above, but
its components have wider ranges. It has two fields:
`rlim64_t rlim_cur'
This is analogous to `rlimit.rlim_cur', but with a different
type.
`rlim64_t rlim_max'
This is analogous to `rlimit.rlim_max', but with a different
type.
Here is a list of resources for which you can specify a limit.
Memory and file sizes are measured in bytes.
`RLIMIT_CPU'
The maximum amount of CPU time the process can use. If it runs for
longer than this, it gets a signal: `SIGXCPU'. The value is
measured in seconds. Note: Operation Error Signals.
`RLIMIT_FSIZE'
The maximum size of file the process can create. Trying to write a
larger file causes a signal: `SIGXFSZ'. Note: Operation Error
Signals.
`RLIMIT_DATA'
The maximum size of data memory for the process. If the process
tries to allocate data memory beyond this amount, the allocation
function fails.
`RLIMIT_STACK'
The maximum stack size for the process. If the process tries to
extend its stack past this size, it gets a `SIGSEGV' signal.
Note: Program Error Signals.
`RLIMIT_CORE'
The maximum size core file that this process can create. If the
process terminates and would dump a core file larger than this,
then no core file is created. So setting this limit to zero
prevents core files from ever being created.
`RLIMIT_RSS'
The maximum amount of physical memory that this process should get.
This parameter is a guide for the system's scheduler and memory
allocator; the system may give the process more memory when there
is a surplus.
`RLIMIT_MEMLOCK'
The maximum amount of memory that can be locked into physical
memory (so it will never be paged out).
`RLIMIT_NPROC'
The maximum number of processes that can be created with the same
user ID. If you have reached the limit for your user ID, `fork'
will fail with `EAGAIN'. Note: Creating a Process.
`RLIMIT_NOFILE'
`RLIMIT_OFILE'
The maximum number of files that the process can open. If it
tries to open more files than this, its open attempt fails with
`errno' `EMFILE'. Note: Error Codes. Not all systems support
this limit; GNU does, and 4.4 BSD does.
`RLIMIT_AS'
The maximum size of total memory that this process should get. If
the process tries to allocate more memory beyond this amount with,
for example, `brk', `malloc', `mmap' or `sbrk', the allocation
function fails.
`RLIM_NLIMITS'
The number of different resource limits. Any valid RESOURCE
operand must be less than `RLIM_NLIMITS'.
- Constant: int RLIM_INFINITY
This constant stands for a value of "infinity" when supplied as
the limit value in `setrlimit'.
The following are historical functions to do some of what the
functions above do. The functions above are better choices.
`ulimit' and the command symbols are declared in `ulimit.h'.
- Function: int ulimit (int CMD, ...)
`ulimit' gets the current limit or sets the current and maximum
limit for a particular resource for the calling process according
to the command CMD.a
If you are getting a limit, the command argument is the only
argument. If you are setting a limit, there is a second argument:
`long int' LIMIT which is the value to which you are setting the
limit.
The CMD values and the operations they specify are:
`GETFSIZE'
Get the current limit on the size of a file, in units of 512
bytes.
`SETFSIZE'
Set the current and maximum limit on the size of a file to
LIMIT * 512 bytes.
There are also some other CMD values that may do things on some
systems, but they are not supported.
Only the superuser may increase a maximum limit.
When you successfully get a limit, the return value of `ulimit' is
that limit, which is never negative. When you successfully set a
limit, the return value is zero. When the function fails, the
return value is `-1' and `errno' is set according to the reason:
`EPERM'
A process tried to increase a maximum limit, but is not
superuser.
`vlimit' and its resource symbols are declared in `sys/vlimit.h'.
- Function: int vlimit (int RESOURCE, int LIMIT)
`vlimit' sets the current limit for a resource for a process.
RESOURCE identifies the resource:
`LIM_CPU'
Maximum CPU time. Same as `RLIMIT_CPU' for `setrlimit'.
`LIM_FSIZE'
Maximum file size. Same as `RLIMIT_FSIZE' for `setrlimit'.
`LIM_DATA'
Maximum data memory. Same as `RLIMIT_DATA' for `setrlimit'.
`LIM_STACK'
Maximum stack size. Same as `RLIMIT_STACK' for `setrlimit'.
`LIM_CORE'
Maximum core file size. Same as `RLIMIT_COR' for `setrlimit'.
`LIM_MAXRSS'
Maximum physical memory. Same as `RLIMIT_RSS' for
`setrlimit'.
The return value is zero for success, and `-1' with `errno' set
accordingly for failure:
`EPERM'
The process tried to set its current limit beyond its maximum
limit.
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