1 @node System Configuration, Cryptographic Functions, System Management, Top
2 @c %MENU% Parameters describing operating system limits
3 @chapter System Configuration Parameters
5 The functions and macros listed in this chapter give information about
6 configuration parameters of the operating system---for example, capacity
7 limits, presence of optional POSIX features, and the default path for
8 executable files (@pxref{String Parameters}).
11 * General Limits:: Constants and functions that describe
12 various process-related limits that have
13 one uniform value for any given machine.
14 * System Options:: Optional POSIX features.
15 * Version Supported:: Version numbers of POSIX.1 and POSIX.2.
16 * Sysconf:: Getting specific configuration values
17 of general limits and system options.
18 * Minimums:: Minimum values for general limits.
20 * Limits for Files:: Size limitations that pertain to individual files.
21 These can vary between file systems
22 or even from file to file.
23 * Options for Files:: Optional features that some files may support.
24 * File Minimums:: Minimum values for file limits.
25 * Pathconf:: Getting the limit values for a particular file.
27 * Utility Limits:: Capacity limits of some POSIX.2 utility programs.
28 * Utility Minimums:: Minimum allowable values of those limits.
30 * String Parameters:: Getting the default search path.
34 @section General Capacity Limits
35 @cindex POSIX capacity limits
37 @cindex capacity limits, POSIX
39 The POSIX.1 and POSIX.2 standards specify a number of parameters that
40 describe capacity limitations of the system. These limits can be fixed
41 constants for a given operating system, or they can vary from machine to
42 machine. For example, some limit values may be configurable by the
43 system administrator, either at run time or by rebuilding the kernel,
44 and this should not require recompiling application programs.
47 Each of the following limit parameters has a macro that is defined in
48 @file{limits.h} only if the system has a fixed, uniform limit for the
49 parameter in question. If the system allows different file systems or
50 files to have different limits, then the macro is undefined; use
51 @code{sysconf} to find out the limit that applies at a particular time
52 on a particular machine. @xref{Sysconf}.
54 Each of these parameters also has another macro, with a name starting
55 with @samp{_POSIX}, which gives the lowest value that the limit is
56 allowed to have on @emph{any} POSIX system. @xref{Minimums}.
58 @cindex limits, program argument size
61 @deftypevr Macro int ARG_MAX
62 If defined, the unvarying maximum combined length of the @var{argv} and
63 @var{environ} arguments that can be passed to the @code{exec} functions.
66 @cindex limits, number of processes
69 @deftypevr Macro int CHILD_MAX
70 If defined, the unvarying maximum number of processes that can exist
71 with the same real user ID at any one time. In BSD and GNU, this is
72 controlled by the @code{RLIMIT_NPROC} resource limit; @pxref{Limits on
76 @cindex limits, number of open files
79 @deftypevr Macro int OPEN_MAX
80 If defined, the unvarying maximum number of files that a single process
81 can have open simultaneously. In BSD and GNU, this is controlled
82 by the @code{RLIMIT_NOFILE} resource limit; @pxref{Limits on Resources}.
87 @deftypevr Macro int STREAM_MAX
88 If defined, the unvarying maximum number of streams that a single
89 process can have open simultaneously. @xref{Opening Streams}.
92 @cindex limits, time zone name length
95 @deftypevr Macro int TZNAME_MAX
96 If defined, the unvarying maximum length of a time zone name.
97 @xref{Time Zone Functions}.
100 These limit macros are always defined in @file{limits.h}.
102 @cindex limits, number of supplementary group IDs
105 @deftypevr Macro int NGROUPS_MAX
106 The maximum number of supplementary group IDs that one process can have.
108 The value of this macro is actually a lower bound for the maximum. That
109 is, you can count on being able to have that many supplementary group
110 IDs, but a particular machine might let you have even more. You can use
111 @code{sysconf} to see whether a particular machine will let you have
112 more (@pxref{Sysconf}).
117 @deftypevr Macro int SSIZE_MAX
118 The largest value that can fit in an object of type @code{ssize_t}.
119 Effectively, this is the limit on the number of bytes that can be read
120 or written in a single operation.
122 This macro is defined in all POSIX systems because this limit is never
128 @deftypevr Macro int RE_DUP_MAX
129 The largest number of repetitions you are guaranteed is allowed in the
130 construct @samp{\@{@var{min},@var{max}\@}} in a regular expression.
132 The value of this macro is actually a lower bound for the maximum. That
133 is, you can count on being able to have that many repetitions, but a
134 particular machine might let you have even more. You can use
135 @code{sysconf} to see whether a particular machine will let you have
136 more (@pxref{Sysconf}). And even the value that @code{sysconf} tells
137 you is just a lower bound---larger values might work.
139 This macro is defined in all POSIX.2 systems, because POSIX.2 says it
140 should always be defined even if there is no specific imposed limit.
144 @section Overall System Options
145 @cindex POSIX optional features
146 @cindex optional POSIX features
148 POSIX defines certain system-specific options that not all POSIX systems
149 support. Since these options are provided in the kernel, not in the
150 library, simply using the GNU C library does not guarantee any of these
151 features is supported; it depends on the system you are using.
154 You can test for the availability of a given option using the macros in
155 this section, together with the function @code{sysconf}. The macros are
156 defined only if you include @file{unistd.h}.
158 For the following macros, if the macro is defined in @file{unistd.h},
159 then the option is supported. Otherwise, the option may or may not be
160 supported; use @code{sysconf} to find out. @xref{Sysconf}.
164 @deftypevr Macro int _POSIX_JOB_CONTROL
165 If this symbol is defined, it indicates that the system supports job
166 control. Otherwise, the implementation behaves as if all processes
167 within a session belong to a single process group. @xref{Job Control}.
172 @deftypevr Macro int _POSIX_SAVED_IDS
173 If this symbol is defined, it indicates that the system remembers the
174 effective user and group IDs of a process before it executes an
175 executable file with the set-user-ID or set-group-ID bits set, and that
176 explicitly changing the effective user or group IDs back to these values
177 is permitted. If this option is not defined, then if a nonprivileged
178 process changes its effective user or group ID to the real user or group
179 ID of the process, it can't change it back again. @xref{Enable/Disable
183 For the following macros, if the macro is defined in @file{unistd.h},
184 then its value indicates whether the option is supported. A value of
185 @code{-1} means no, and any other value means yes. If the macro is not
186 defined, then the option may or may not be supported; use @code{sysconf}
187 to find out. @xref{Sysconf}.
191 @deftypevr Macro int _POSIX2_C_DEV
192 If this symbol is defined, it indicates that the system has the POSIX.2
193 C compiler command, @code{c89}. The GNU C library always defines this
194 as @code{1}, on the assumption that you would not have installed it if
195 you didn't have a C compiler.
200 @deftypevr Macro int _POSIX2_FORT_DEV
201 If this symbol is defined, it indicates that the system has the POSIX.2
202 Fortran compiler command, @code{fort77}. The GNU C library never
203 defines this, because we don't know what the system has.
208 @deftypevr Macro int _POSIX2_FORT_RUN
209 If this symbol is defined, it indicates that the system has the POSIX.2
210 @code{asa} command to interpret Fortran carriage control. The GNU C
211 library never defines this, because we don't know what the system has.
216 @deftypevr Macro int _POSIX2_LOCALEDEF
217 If this symbol is defined, it indicates that the system has the POSIX.2
218 @code{localedef} command. The GNU C library never defines this, because
219 we don't know what the system has.
224 @deftypevr Macro int _POSIX2_SW_DEV
225 If this symbol is defined, it indicates that the system has the POSIX.2
226 commands @code{ar}, @code{make}, and @code{strip}. The GNU C library
227 always defines this as @code{1}, on the assumption that you had to have
228 @code{ar} and @code{make} to install the library, and it's unlikely that
229 @code{strip} would be absent when those are present.
232 @node Version Supported
233 @section Which Version of POSIX is Supported
237 @deftypevr Macro {long int} _POSIX_VERSION
238 This constant represents the version of the POSIX.1 standard to which
239 the implementation conforms. For an implementation conforming to the
240 1995 POSIX.1 standard, the value is the integer @code{199506L}.
242 @code{_POSIX_VERSION} is always defined (in @file{unistd.h}) in any
245 @strong{Usage Note:} Don't try to test whether the system supports POSIX
246 by including @file{unistd.h} and then checking whether
247 @code{_POSIX_VERSION} is defined. On a non-POSIX system, this will
248 probably fail because there is no @file{unistd.h}. We do not know of
249 @emph{any} way you can reliably test at compilation time whether your
250 target system supports POSIX or whether @file{unistd.h} exists.
252 The GNU C compiler predefines the symbol @code{__POSIX__} if the target
253 system is a POSIX system. Provided you do not use any other compilers
254 on POSIX systems, testing @code{defined (__POSIX__)} will reliably
260 @deftypevr Macro {long int} _POSIX2_C_VERSION
261 This constant represents the version of the POSIX.2 standard which the
262 library and system kernel support. We don't know what value this will
263 be for the first version of the POSIX.2 standard, because the value is
264 based on the year and month in which the standard is officially adopted.
266 The value of this symbol says nothing about the utilities installed on
269 @strong{Usage Note:} You can use this macro to tell whether a POSIX.1
270 system library supports POSIX.2 as well. Any POSIX.1 system contains
271 @file{unistd.h}, so include that file and then test @code{defined
272 (_POSIX2_C_VERSION)}.
276 @section Using @code{sysconf}
278 When your system has configurable system limits, you can use the
279 @code{sysconf} function to find out the value that applies to any
280 particular machine. The function and the associated @var{parameter}
281 constants are declared in the header file @file{unistd.h}.
284 * Sysconf Definition:: Detailed specifications of @code{sysconf}.
285 * Constants for Sysconf:: The list of parameters @code{sysconf} can read.
286 * Examples of Sysconf:: How to use @code{sysconf} and the parameter
287 macros properly together.
290 @node Sysconf Definition
291 @subsection Definition of @code{sysconf}
295 @deftypefun {long int} sysconf (int @var{parameter})
296 This function is used to inquire about runtime system parameters. The
297 @var{parameter} argument should be one of the @samp{_SC_} symbols listed
300 The normal return value from @code{sysconf} is the value you requested.
301 A value of @code{-1} is returned both if the implementation does not
302 impose a limit, and in case of an error.
304 The following @code{errno} error conditions are defined for this function:
308 The value of the @var{parameter} is invalid.
312 @node Constants for Sysconf
313 @subsection Constants for @code{sysconf} Parameters
315 Here are the symbolic constants for use as the @var{parameter} argument
316 to @code{sysconf}. The values are all integer constants (more
317 specifically, enumeration type values).
323 Inquire about the parameter corresponding to @code{ARG_MAX}.
328 Inquire about the parameter corresponding to @code{CHILD_MAX}.
333 Inquire about the parameter corresponding to @code{OPEN_MAX}.
338 Inquire about the parameter corresponding to @code{STREAM_MAX}.
343 Inquire about the parameter corresponding to @code{TZNAME_MAX}.
347 @item _SC_NGROUPS_MAX
348 Inquire about the parameter corresponding to @code{NGROUPS_MAX}.
352 @item _SC_JOB_CONTROL
353 Inquire about the parameter corresponding to @code{_POSIX_JOB_CONTROL}.
358 Inquire about the parameter corresponding to @code{_POSIX_SAVED_IDS}.
363 Inquire about the parameter corresponding to @code{_POSIX_VERSION}.
368 Inquire about the parameter corresponding to @code{CLOCKS_PER_SEC};
373 @item _SC_CHARCLASS_NAME_MAX
374 Inquire about the parameter corresponding to maximal length allowed for
375 a character class name in an extended locale specification. These
376 extensions are not yet standardized and so this option is not standardized
381 @item _SC_REALTIME_SIGNALS
382 Inquire about the parameter corresponding to @code{_POSIX_REALTIME_SIGNALS}.
386 @item _SC_PRIORITY_SCHEDULING
387 Inquire about the parameter corresponding to @code{_POSIX_PRIORITY_SCHEDULING}.
392 Inquire about the parameter corresponding to @code{_POSIX_TIMERS}.
396 @item _SC_ASYNCHRONOUS_IO
397 Inquire about the parameter corresponding to @code{_POSIX_ASYNCHRONOUS_IO}.
401 @item _SC_PRIORITIZED_IO
402 Inquire about the parameter corresponding to @code{_POSIX_PRIORITIZED_IO}.
406 @item _SC_SYNCHRONIZED_IO
407 Inquire about the parameter corresponding to @code{_POSIX_SYNCHRONIZED_IO}.
412 Inquire about the parameter corresponding to @code{_POSIX_FSYNC}.
416 @item _SC_MAPPED_FILES
417 Inquire about the parameter corresponding to @code{_POSIX_MAPPED_FILES}.
422 Inquire about the parameter corresponding to @code{_POSIX_MEMLOCK}.
426 @item _SC_MEMLOCK_RANGE
427 Inquire about the parameter corresponding to @code{_POSIX_MEMLOCK_RANGE}.
431 @item _SC_MEMORY_PROTECTION
432 Inquire about the parameter corresponding to @code{_POSIX_MEMORY_PROTECTION}.
436 @item _SC_MESSAGE_PASSING
437 Inquire about the parameter corresponding to @code{_POSIX_MESSAGE_PASSING}.
442 Inquire about the parameter corresponding to @code{_POSIX_SEMAPHORES}.
446 @item _SC_SHARED_MEMORY_OBJECTS
447 Inquire about the parameter corresponding to@*
448 @code{_POSIX_SHARED_MEMORY_OBJECTS}.
452 @item _SC_AIO_LISTIO_MAX
453 Inquire about the parameter corresponding to @code{_POSIX_AIO_LISTIO_MAX}.
458 Inquire about the parameter corresponding to @code{_POSIX_AIO_MAX}.
462 @item _SC_AIO_PRIO_DELTA_MAX
463 Inquire the value by which a process can decrease its asynchronous I/O
464 priority level from its own scheduling priority. This corresponds to the
465 run-time invariant value @code{AIO_PRIO_DELTA_MAX}.
469 @item _SC_DELAYTIMER_MAX
470 Inquire about the parameter corresponding to @code{_POSIX_DELAYTIMER_MAX}.
474 @item _SC_MQ_OPEN_MAX
475 Inquire about the parameter corresponding to @code{_POSIX_MQ_OPEN_MAX}.
479 @item _SC_MQ_PRIO_MAX
480 Inquire about the parameter corresponding to @code{_POSIX_MQ_PRIO_MAX}.
485 Inquire about the parameter corresponding to @code{_POSIX_RTSIG_MAX}.
489 @item _SC_SEM_NSEMS_MAX
490 Inquire about the parameter corresponding to @code{_POSIX_SEM_NSEMS_MAX}.
494 @item _SC_SEM_VALUE_MAX
495 Inquire about the parameter corresponding to @code{_POSIX_SEM_VALUE_MAX}.
499 @item _SC_SIGQUEUE_MAX
500 Inquire about the parameter corresponding to @code{_POSIX_SIGQUEUE_MAX}.
505 Inquire about the parameter corresponding to @code{_POSIX_TIMER_MAX}.
510 Inquire about the parameter corresponding to @code{_POSIX_PII}.
515 Inquire about the parameter corresponding to @code{_POSIX_PII_XTI}.
520 Inquire about the parameter corresponding to @code{_POSIX_PII_SOCKET}.
524 @item _SC_PII_INTERNET
525 Inquire about the parameter corresponding to @code{_POSIX_PII_INTERNET}.
530 Inquire about the parameter corresponding to @code{_POSIX_PII_OSI}.
535 Inquire about the parameter corresponding to @code{_POSIX_SELECT}.
540 Inquire about the parameter corresponding to @code{_POSIX_UIO_MAXIOV}.
544 @item _SC_PII_INTERNET_STREAM
545 Inquire about the parameter corresponding to @code{_POSIX_PII_INTERNET_STREAM}.
549 @item _SC_PII_INTERNET_DGRAM
550 Inquire about the parameter corresponding to @code{_POSIX_PII_INTERNET_DGRAM}.
554 @item _SC_PII_OSI_COTS
555 Inquire about the parameter corresponding to @code{_POSIX_PII_OSI_COTS}.
559 @item _SC_PII_OSI_CLTS
560 Inquire about the parameter corresponding to @code{_POSIX_PII_OSI_CLTS}.
565 Inquire about the parameter corresponding to @code{_POSIX_PII_OSI_M}.
570 Inquire the value of the value associated with the @code{T_IOV_MAX}
576 Inquire about the parameter corresponding to @code{_POSIX_THREADS}.
580 @item _SC_THREAD_SAFE_FUNCTIONS
581 Inquire about the parameter corresponding to@*
582 @code{_POSIX_THREAD_SAFE_FUNCTIONS}.
586 @item _SC_GETGR_R_SIZE_MAX
587 Inquire about the parameter corresponding to @code{_POSIX_GETGR_R_SIZE_MAX}.
591 @item _SC_GETPW_R_SIZE_MAX
592 Inquire about the parameter corresponding to @code{_POSIX_GETPW_R_SIZE_MAX}.
596 @item _SC_LOGIN_NAME_MAX
597 Inquire about the parameter corresponding to @code{_POSIX_LOGIN_NAME_MAX}.
601 @item _SC_TTY_NAME_MAX
602 Inquire about the parameter corresponding to @code{_POSIX_TTY_NAME_MAX}.
606 @item _SC_THREAD_DESTRUCTOR_ITERATIONS
607 Inquire about the parameter corresponding to
608 @code{_POSIX_THREAD_DESTRUCTOR_ITERATIONS}.
612 @item _SC_THREAD_KEYS_MAX
613 Inquire about the parameter corresponding to @code{_POSIX_THREAD_KEYS_MAX}.
617 @item _SC_THREAD_STACK_MIN
618 Inquire about the parameter corresponding to @code{_POSIX_THREAD_STACK_MIN}.
622 @item _SC_THREAD_THREADS_MAX
623 Inquire about the parameter corresponding to @code{_POSIX_THREAD_THREADS_MAX}.
627 @item _SC_THREAD_ATTR_STACKADDR
628 Inquire about the parameter corresponding to@*a
629 @code{_POSIX_THREAD_ATTR_STACKADDR}.
633 @item _SC_THREAD_ATTR_STACKSIZE
634 Inquire about the parameter corresponding to@*
635 @code{_POSIX_THREAD_ATTR_STACKSIZE}.
639 @item _SC_THREAD_PRIORITY_SCHEDULING
640 Inquire about the parameter corresponding to
641 @code{_POSIX_THREAD_PRIORITY_SCHEDULING}.
645 @item _SC_THREAD_PRIO_INHERIT
646 Inquire about the parameter corresponding to @code{_POSIX_THREAD_PRIO_INHERIT}.
650 @item _SC_THREAD_PRIO_PROTECT
651 Inquire about the parameter corresponding to @code{_POSIX_THREAD_PRIO_PROTECT}.
655 @item _SC_THREAD_PROCESS_SHARED
656 Inquire about the parameter corresponding to
657 @code{_POSIX_THREAD_PROCESS_SHARED}.
662 Inquire about whether the system has the POSIX.2 C compiler command,
668 Inquire about whether the system has the POSIX.2 Fortran compiler
669 command, @code{fort77}.
674 Inquire about whether the system has the POSIX.2 @code{asa} command to
675 interpret Fortran carriage control.
679 @item _SC_2_LOCALEDEF
680 Inquire about whether the system has the POSIX.2 @code{localedef}
686 Inquire about whether the system has the POSIX.2 commands @code{ar},
687 @code{make}, and @code{strip}.
691 @item _SC_BC_BASE_MAX
692 Inquire about the maximum value of @code{obase} in the @code{bc}
698 Inquire about the maximum size of an array in the @code{bc}
703 @item _SC_BC_SCALE_MAX
704 Inquire about the maximum value of @code{scale} in the @code{bc}
709 @item _SC_BC_STRING_MAX
710 Inquire about the maximum size of a string constant in the
715 @item _SC_COLL_WEIGHTS_MAX
716 Inquire about the maximum number of weights that can necessarily
717 be used in defining the collating sequence for a locale.
721 @item _SC_EXPR_NEST_MAX
722 Inquire about the maximum number of expressions nested within
723 parentheses when using the @code{expr} utility.
728 Inquire about the maximum size of a text line that the POSIX.2 text
729 utilities can handle.
733 @item _SC_EQUIV_CLASS_MAX
734 Inquire about the maximum number of weights that can be assigned to an
735 entry of the @code{LC_COLLATE} category @samp{order} keyword in a locale
736 definition. The GNU C library does not presently support locale
742 Inquire about the version number of POSIX.1 that the library and kernel
748 Inquire about the version number of POSIX.2 that the system utilities
754 Inquire about the virtual memory page size of the machine.
755 @code{getpagesize} returns the same value (@pxref{Query Memory Parameters}).
759 @item _SC_NPROCESSORS_CONF
760 Inquire about the number of configured processors.
764 @item _SC_NPROCESSORS_ONLN
765 Inquire about the number of processors online.
770 Inquire about the number of physical pages in the system.
774 @item _SC_AVPHYS_PAGES
775 Inquire about the number of available physical pages in the system.
780 Inquire about the number of functions which can be registered as termination
781 functions for @code{atexit}; @pxref{Cleanups on Exit}.
785 @item _SC_XOPEN_VERSION
786 Inquire about the parameter corresponding to @code{_XOPEN_VERSION}.
790 @item _SC_XOPEN_XCU_VERSION
791 Inquire about the parameter corresponding to @code{_XOPEN_XCU_VERSION}.
796 Inquire about the parameter corresponding to @code{_XOPEN_UNIX}.
800 @item _SC_XOPEN_REALTIME
801 Inquire about the parameter corresponding to @code{_XOPEN_REALTIME}.
805 @item _SC_XOPEN_REALTIME_THREADS
806 Inquire about the parameter corresponding to @code{_XOPEN_REALTIME_THREADS}.
810 @item _SC_XOPEN_LEGACY
811 Inquire about the parameter corresponding to @code{_XOPEN_LEGACY}.
815 @item _SC_XOPEN_CRYPT
816 Inquire about the parameter corresponding to @code{_XOPEN_CRYPT}.
820 @item _SC_XOPEN_ENH_I18N
821 Inquire about the parameter corresponding to @code{_XOPEN_ENH_I18N}.
826 Inquire about the parameter corresponding to @code{_XOPEN_SHM}.
831 Inquire about the parameter corresponding to @code{_XOPEN_XPG2}.
836 Inquire about the parameter corresponding to @code{_XOPEN_XPG3}.
841 Inquire about the parameter corresponding to @code{_XOPEN_XPG4}.
846 Inquire about the number of bits in a variable of type @code{char}.
851 Inquire about the maximum value which can be stored in a variable of type
857 Inquire about the minimum value which can be stored in a variable of type
863 Inquire about the maximum value which can be stored in a variable of type
869 Inquire about the minimum value which can be stored in a variable of type
875 Inquire about the number of bits in a variable of type @code{long int}.
880 Inquire about the number of bits in a variable of a register word.
885 Inquire the maximum length of a multi-byte representation of a wide
891 Inquire about the value used to internally represent the zero priority level for
892 the process execution.
897 Inquire about the maximum value which can be stored in a variable of type
903 Inquire about the maximum value which can be stored in a variable of type
909 Inquire about the minimum value which can be stored in a variable of type
915 Inquire about the maximum value which can be stored in a variable of type
921 Inquire about the minimum value which can be stored in a variable of type
927 Inquire about the maximum value which can be stored in a variable of type
928 @code{unsigned char}.
933 Inquire about the maximum value which can be stored in a variable of type
939 Inquire about the maximum value which can be stored in a variable of type
940 @code{unsigned long int}.
945 Inquire about the maximum value which can be stored in a variable of type
946 @code{unsigned short int}.
951 Inquire about the parameter corresponding to @code{NL_ARGMAX}.
956 Inquire about the parameter corresponding to @code{NL_LANGMAX}.
961 Inquire about the parameter corresponding to @code{NL_MSGMAX}.
966 Inquire about the parameter corresponding to @code{NL_NMAX}.
971 Inquire about the parameter corresponding to @code{NL_SETMAX}.
976 Inquire about the parameter corresponding to @code{NL_TEXTMAX}.
979 @node Examples of Sysconf
980 @subsection Examples of @code{sysconf}
982 We recommend that you first test for a macro definition for the
983 parameter you are interested in, and call @code{sysconf} only if the
984 macro is not defined. For example, here is how to test whether job
985 control is supported:
990 have_job_control (void)
992 #ifdef _POSIX_JOB_CONTROL
995 int value = sysconf (_SC_JOB_CONTROL);
997 /* @r{If the system is that badly wedged,}
998 @r{there's no use trying to go on.} */
999 fatal (strerror (errno));
1006 Here is how to get the value of a numeric limit:
1015 int value = sysconf (_SC_CHILD_MAX);
1017 fatal (strerror (errno));
1024 @section Minimum Values for General Capacity Limits
1026 Here are the names for the POSIX minimum upper bounds for the system
1027 limit parameters. The significance of these values is that you can
1028 safely push to these limits without checking whether the particular
1029 system you are using can go that far.
1034 @item _POSIX_AIO_LISTIO_MAX
1035 The most restrictive limit permitted by POSIX for the maximum number of
1036 I/O operations that can be specified in a list I/O call. The value of
1037 this constant is @code{2}; thus you can add up to two new entries
1038 of the list of outstanding operations.
1042 @item _POSIX_AIO_MAX
1043 The most restrictive limit permitted by POSIX for the maximum number of
1044 outstanding asynchronous I/O operations. The value of this constant is
1045 @code{1}. So you cannot expect that you can issue more than one
1046 operation and immediately continue with the normal work, receiving the
1047 notifications asynchronously.
1051 @item _POSIX_ARG_MAX
1052 The value of this macro is the most restrictive limit permitted by POSIX
1053 for the maximum combined length of the @var{argv} and @var{environ}
1054 arguments that can be passed to the @code{exec} functions.
1055 Its value is @code{4096}.
1059 @item _POSIX_CHILD_MAX
1060 The value of this macro is the most restrictive limit permitted by POSIX
1061 for the maximum number of simultaneous processes per real user ID. Its
1066 @item _POSIX_NGROUPS_MAX
1067 The value of this macro is the most restrictive limit permitted by POSIX
1068 for the maximum number of supplementary group IDs per process. Its
1073 @item _POSIX_OPEN_MAX
1074 The value of this macro is the most restrictive limit permitted by POSIX
1075 for the maximum number of files that a single process can have open
1076 simultaneously. Its value is @code{16}.
1080 @item _POSIX_SSIZE_MAX
1081 The value of this macro is the most restrictive limit permitted by POSIX
1082 for the maximum value that can be stored in an object of type
1083 @code{ssize_t}. Its value is @code{32767}.
1087 @item _POSIX_STREAM_MAX
1088 The value of this macro is the most restrictive limit permitted by POSIX
1089 for the maximum number of streams that a single process can have open
1090 simultaneously. Its value is @code{8}.
1094 @item _POSIX_TZNAME_MAX
1095 The value of this macro is the most restrictive limit permitted by POSIX
1096 for the maximum length of a time zone name. Its value is @code{3}.
1100 @item _POSIX2_RE_DUP_MAX
1101 The value of this macro is the most restrictive limit permitted by POSIX
1102 for the numbers used in the @samp{\@{@var{min},@var{max}\@}} construct
1103 in a regular expression. Its value is @code{255}.
1106 @node Limits for Files
1107 @section Limits on File System Capacity
1109 The POSIX.1 standard specifies a number of parameters that describe the
1110 limitations of the file system. It's possible for the system to have a
1111 fixed, uniform limit for a parameter, but this isn't the usual case. On
1112 most systems, it's possible for different file systems (and, for some
1113 parameters, even different files) to have different maximum limits. For
1114 example, this is very likely if you use NFS to mount some of the file
1115 systems from other machines.
1118 Each of the following macros is defined in @file{limits.h} only if the
1119 system has a fixed, uniform limit for the parameter in question. If the
1120 system allows different file systems or files to have different limits,
1121 then the macro is undefined; use @code{pathconf} or @code{fpathconf} to
1122 find out the limit that applies to a particular file. @xref{Pathconf}.
1124 Each parameter also has another macro, with a name starting with
1125 @samp{_POSIX}, which gives the lowest value that the limit is allowed to
1126 have on @emph{any} POSIX system. @xref{File Minimums}.
1128 @cindex limits, link count of files
1131 @deftypevr Macro int LINK_MAX
1132 The uniform system limit (if any) for the number of names for a given
1133 file. @xref{Hard Links}.
1136 @cindex limits, terminal input queue
1139 @deftypevr Macro int MAX_CANON
1140 The uniform system limit (if any) for the amount of text in a line of
1141 input when input editing is enabled. @xref{Canonical or Not}.
1146 @deftypevr Macro int MAX_INPUT
1147 The uniform system limit (if any) for the total number of characters
1148 typed ahead as input. @xref{I/O Queues}.
1151 @cindex limits, file name length
1154 @deftypevr Macro int NAME_MAX
1155 The uniform system limit (if any) for the length of a file name component.
1160 @deftypevr Macro int PATH_MAX
1161 The uniform system limit (if any) for the length of an entire file name (that
1162 is, the argument given to system calls such as @code{open}).
1165 @cindex limits, pipe buffer size
1168 @deftypevr Macro int PIPE_BUF
1169 The uniform system limit (if any) for the number of bytes that can be
1170 written atomically to a pipe. If multiple processes are writing to the
1171 same pipe simultaneously, output from different processes might be
1172 interleaved in chunks of this size. @xref{Pipes and FIFOs}.
1175 These are alternative macro names for some of the same information.
1179 @deftypevr Macro int MAXNAMLEN
1180 This is the BSD name for @code{NAME_MAX}. It is defined in
1186 @deftypevr Macro int FILENAME_MAX
1187 The value of this macro is an integer constant expression that
1188 represents the maximum length of a file name string. It is defined in
1191 Unlike @code{PATH_MAX}, this macro is defined even if there is no actual
1192 limit imposed. In such a case, its value is typically a very large
1193 number. @strong{This is always the case on the GNU system.}
1195 @strong{Usage Note:} Don't use @code{FILENAME_MAX} as the size of an
1196 array in which to store a file name! You can't possibly make an array
1197 that big! Use dynamic allocation (@pxref{Memory Allocation}) instead.
1200 @node Options for Files
1201 @section Optional Features in File Support
1203 POSIX defines certain system-specific options in the system calls for
1204 operating on files. Some systems support these options and others do
1205 not. Since these options are provided in the kernel, not in the
1206 library, simply using the GNU C library does not guarantee that any of these
1207 features is supported; it depends on the system you are using. They can
1208 also vary between file systems on a single machine.
1211 This section describes the macros you can test to determine whether a
1212 particular option is supported on your machine. If a given macro is
1213 defined in @file{unistd.h}, then its value says whether the
1214 corresponding feature is supported. (A value of @code{-1} indicates no;
1215 any other value indicates yes.) If the macro is undefined, it means
1216 particular files may or may not support the feature.
1218 Since all the machines that support the GNU C library also support NFS,
1219 one can never make a general statement about whether all file systems
1220 support the @code{_POSIX_CHOWN_RESTRICTED} and @code{_POSIX_NO_TRUNC}
1221 features. So these names are never defined as macros in the GNU C
1226 @deftypevr Macro int _POSIX_CHOWN_RESTRICTED
1227 If this option is in effect, the @code{chown} function is restricted so
1228 that the only changes permitted to nonprivileged processes is to change
1229 the group owner of a file to either be the effective group ID of the
1230 process, or one of its supplementary group IDs. @xref{File Owner}.
1235 @deftypevr Macro int _POSIX_NO_TRUNC
1236 If this option is in effect, file name components longer than
1237 @code{NAME_MAX} generate an @code{ENAMETOOLONG} error. Otherwise, file
1238 name components that are too long are silently truncated.
1243 @deftypevr Macro {unsigned char} _POSIX_VDISABLE
1244 This option is only meaningful for files that are terminal devices.
1245 If it is enabled, then handling for special control characters can
1246 be disabled individually. @xref{Special Characters}.
1250 If one of these macros is undefined, that means that the option might be
1251 in effect for some files and not for others. To inquire about a
1252 particular file, call @code{pathconf} or @code{fpathconf}.
1256 @section Minimum Values for File System Limits
1258 Here are the names for the POSIX minimum upper bounds for some of the
1259 above parameters. The significance of these values is that you can
1260 safely push to these limits without checking whether the particular
1261 system you are using can go that far. In most cases GNU systems do not
1262 have these strict limitations. The actual limit should be requested if
1268 @item _POSIX_LINK_MAX
1269 The most restrictive limit permitted by POSIX for the maximum value of a
1270 file's link count. The value of this constant is @code{8}; thus, you
1271 can always make up to eight names for a file without running into a
1276 @item _POSIX_MAX_CANON
1277 The most restrictive limit permitted by POSIX for the maximum number of
1278 bytes in a canonical input line from a terminal device. The value of
1279 this constant is @code{255}.
1283 @item _POSIX_MAX_INPUT
1284 The most restrictive limit permitted by POSIX for the maximum number of
1285 bytes in a terminal device input queue (or typeahead buffer).
1286 @xref{Input Modes}. The value of this constant is @code{255}.
1290 @item _POSIX_NAME_MAX
1291 The most restrictive limit permitted by POSIX for the maximum number of
1292 bytes in a file name component. The value of this constant is
1297 @item _POSIX_PATH_MAX
1298 The most restrictive limit permitted by POSIX for the maximum number of
1299 bytes in a file name. The value of this constant is @code{256}.
1303 @item _POSIX_PIPE_BUF
1304 The most restrictive limit permitted by POSIX for the maximum number of
1305 bytes that can be written atomically to a pipe. The value of this
1306 constant is @code{512}.
1311 Maximum number of bytes in a symbolic link.
1315 @item POSIX_REC_INCR_XFER_SIZE
1316 Recommended increment for file transfer sizes between the
1317 @code{POSIX_REC_MIN_XFER_SIZE} and @code{POSIX_REC_MAX_XFER_SIZE}
1322 @item POSIX_REC_MAX_XFER_SIZE
1323 Maximum recommended file transfer size.
1327 @item POSIX_REC_MIN_XFER_SIZE
1328 Minimum recommended file transfer size.
1332 @item POSIX_REC_XFER_ALIGN
1333 Recommended file transfer buffer alignment.
1337 @section Using @code{pathconf}
1339 When your machine allows different files to have different values for a
1340 file system parameter, you can use the functions in this section to find
1341 out the value that applies to any particular file.
1343 These functions and the associated constants for the @var{parameter}
1344 argument are declared in the header file @file{unistd.h}.
1348 @deftypefun {long int} pathconf (const char *@var{filename}, int @var{parameter})
1349 This function is used to inquire about the limits that apply to
1350 the file named @var{filename}.
1352 The @var{parameter} argument should be one of the @samp{_PC_} constants
1355 The normal return value from @code{pathconf} is the value you requested.
1356 A value of @code{-1} is returned both if the implementation does not
1357 impose a limit, and in case of an error. In the former case,
1358 @code{errno} is not set, while in the latter case, @code{errno} is set
1359 to indicate the cause of the problem. So the only way to use this
1360 function robustly is to store @code{0} into @code{errno} just before
1363 Besides the usual file name errors (@pxref{File Name Errors}),
1364 the following error condition is defined for this function:
1368 The value of @var{parameter} is invalid, or the implementation doesn't
1369 support the @var{parameter} for the specific file.
1375 @deftypefun {long int} fpathconf (int @var{filedes}, int @var{parameter})
1376 This is just like @code{pathconf} except that an open file descriptor
1377 is used to specify the file for which information is requested, instead
1380 The following @code{errno} error conditions are defined for this function:
1384 The @var{filedes} argument is not a valid file descriptor.
1387 The value of @var{parameter} is invalid, or the implementation doesn't
1388 support the @var{parameter} for the specific file.
1392 Here are the symbolic constants that you can use as the @var{parameter}
1393 argument to @code{pathconf} and @code{fpathconf}. The values are all
1400 Inquire about the value of @code{LINK_MAX}.
1405 Inquire about the value of @code{MAX_CANON}.
1410 Inquire about the value of @code{MAX_INPUT}.
1415 Inquire about the value of @code{NAME_MAX}.
1420 Inquire about the value of @code{PATH_MAX}.
1425 Inquire about the value of @code{PIPE_BUF}.
1429 @item _PC_CHOWN_RESTRICTED
1430 Inquire about the value of @code{_POSIX_CHOWN_RESTRICTED}.
1435 Inquire about the value of @code{_POSIX_NO_TRUNC}.
1440 Inquire about the value of @code{_POSIX_VDISABLE}.
1445 Inquire about the value of @code{_POSIX_SYNC_IO}.
1450 Inquire about the value of @code{_POSIX_ASYNC_IO}.
1455 Inquire about the value of @code{_POSIX_PRIO_IO}.
1459 @item _PC_SOCK_MAXBUF
1460 Inquire about the value of @code{_POSIX_PIPE_BUF}.
1464 @item _PC_FILESIZEBITS
1465 Inquire about the availability of large files on the filesystem.
1469 @item _PC_REC_INCR_XFER_SIZE
1470 Inquire about the value of @code{POSIX_REC_INCR_XFER_SIZE}.
1474 @item _PC_REC_MAX_XFER_SIZE
1475 Inquire about the value of @code{POSIX_REC_MAX_XFER_SIZE}.
1479 @item _PC_REC_MIN_XFER_SIZE
1480 Inquire about the value of @code{POSIX_REC_MIN_XFER_SIZE}.
1484 @item _PC_REC_XFER_ALIGN
1485 Inquire about the value of @code{POSIX_REC_XFER_ALIGN}.
1488 @node Utility Limits
1489 @section Utility Program Capacity Limits
1491 The POSIX.2 standard specifies certain system limits that you can access
1492 through @code{sysconf} that apply to utility behavior rather than the
1493 behavior of the library or the operating system.
1495 The GNU C library defines macros for these limits, and @code{sysconf}
1496 returns values for them if you ask; but these values convey no
1497 meaningful information. They are simply the smallest values that
1502 @deftypevr Macro int BC_BASE_MAX
1503 The largest value of @code{obase} that the @code{bc} utility is
1504 guaranteed to support.
1509 @deftypevr Macro int BC_DIM_MAX
1510 The largest number of elements in one array that the @code{bc} utility
1511 is guaranteed to support.
1516 @deftypevr Macro int BC_SCALE_MAX
1517 The largest value of @code{scale} that the @code{bc} utility is
1518 guaranteed to support.
1523 @deftypevr Macro int BC_STRING_MAX
1524 The largest number of characters in one string constant that the
1525 @code{bc} utility is guaranteed to support.
1530 @deftypevr Macro int COLL_WEIGHTS_MAX
1531 The largest number of weights that can necessarily be used in defining
1532 the collating sequence for a locale.
1537 @deftypevr Macro int EXPR_NEST_MAX
1538 The maximum number of expressions that can be nested within parenthesis
1539 by the @code{expr} utility.
1544 @deftypevr Macro int LINE_MAX
1545 The largest text line that the text-oriented POSIX.2 utilities can
1546 support. (If you are using the GNU versions of these utilities, then
1547 there is no actual limit except that imposed by the available virtual
1548 memory, but there is no way that the library can tell you this.)
1553 @deftypevr Macro int EQUIV_CLASS_MAX
1554 The maximum number of weights that can be assigned to an entry of the
1555 @code{LC_COLLATE} category @samp{order} keyword in a locale definition.
1556 The GNU C library does not presently support locale definitions.
1559 @node Utility Minimums
1560 @section Minimum Values for Utility Limits
1565 @item _POSIX2_BC_BASE_MAX
1566 The most restrictive limit permitted by POSIX.2 for the maximum value of
1567 @code{obase} in the @code{bc} utility. Its value is @code{99}.
1571 @item _POSIX2_BC_DIM_MAX
1572 The most restrictive limit permitted by POSIX.2 for the maximum size of
1573 an array in the @code{bc} utility. Its value is @code{2048}.
1577 @item _POSIX2_BC_SCALE_MAX
1578 The most restrictive limit permitted by POSIX.2 for the maximum value of
1579 @code{scale} in the @code{bc} utility. Its value is @code{99}.
1583 @item _POSIX2_BC_STRING_MAX
1584 The most restrictive limit permitted by POSIX.2 for the maximum size of
1585 a string constant in the @code{bc} utility. Its value is @code{1000}.
1589 @item _POSIX2_COLL_WEIGHTS_MAX
1590 The most restrictive limit permitted by POSIX.2 for the maximum number
1591 of weights that can necessarily be used in defining the collating
1592 sequence for a locale. Its value is @code{2}.
1596 @item _POSIX2_EXPR_NEST_MAX
1597 The most restrictive limit permitted by POSIX.2 for the maximum number
1598 of expressions nested within parenthesis when using the @code{expr} utility.
1599 Its value is @code{32}.
1603 @item _POSIX2_LINE_MAX
1604 The most restrictive limit permitted by POSIX.2 for the maximum size of
1605 a text line that the text utilities can handle. Its value is
1610 @item _POSIX2_EQUIV_CLASS_MAX
1611 The most restrictive limit permitted by POSIX.2 for the maximum number
1612 of weights that can be assigned to an entry of the @code{LC_COLLATE}
1613 category @samp{order} keyword in a locale definition. Its value is
1614 @code{2}. The GNU C library does not presently support locale
1618 @node String Parameters
1619 @section String-Valued Parameters
1621 POSIX.2 defines a way to get string-valued parameters from the operating
1622 system with the function @code{confstr}:
1626 @deftypefun size_t confstr (int @var{parameter}, char *@var{buf}, size_t @var{len})
1627 This function reads the value of a string-valued system parameter,
1628 storing the string into @var{len} bytes of memory space starting at
1629 @var{buf}. The @var{parameter} argument should be one of the
1630 @samp{_CS_} symbols listed below.
1632 The normal return value from @code{confstr} is the length of the string
1633 value that you asked for. If you supply a null pointer for @var{buf},
1634 then @code{confstr} does not try to store the string; it just returns
1635 its length. A value of @code{0} indicates an error.
1637 If the string you asked for is too long for the buffer (that is, longer
1638 than @code{@var{len} - 1}), then @code{confstr} stores just that much
1639 (leaving room for the terminating null character). You can tell that
1640 this has happened because @code{confstr} returns a value greater than or
1643 The following @code{errno} error conditions are defined for this function:
1647 The value of the @var{parameter} is invalid.
1651 Currently there is just one parameter you can read with @code{confstr}:
1657 This parameter's value is the recommended default path for searching for
1658 executable files. This is the path that a user has by default just
1663 @item _CS_LFS_CFLAGS
1664 The returned string specifies which additional flags must be given to
1665 the C compiler if a source is compiled using the
1666 @code{_LARGEFILE_SOURCE} feature select macro; @pxref{Feature Test Macros}.
1670 @item _CS_LFS_LDFLAGS
1671 The returned string specifies which additional flags must be given to
1672 the linker if a source is compiled using the
1673 @code{_LARGEFILE_SOURCE} feature select macro; @pxref{Feature Test Macros}.
1678 The returned string specifies which additional libraries must be linked
1679 to the application if a source is compiled using the
1680 @code{_LARGEFILE_SOURCE} feature select macro; @pxref{Feature Test Macros}.
1684 @item _CS_LFS_LINTFLAGS
1685 The returned string specifies which additional flags must be given to
1686 the lint tool if a source is compiled using the
1687 @code{_LARGEFILE_SOURCE} feature select macro; @pxref{Feature Test Macros}.
1691 @item _CS_LFS64_CFLAGS
1692 The returned string specifies which additional flags must be given to
1693 the C compiler if a source is compiled using the
1694 @code{_LARGEFILE64_SOURCE} feature select macro; @pxref{Feature Test Macros}.
1698 @item _CS_LFS64_LDFLAGS
1699 The returned string specifies which additional flags must be given to
1700 the linker if a source is compiled using the
1701 @code{_LARGEFILE64_SOURCE} feature select macro; @pxref{Feature Test Macros}.
1705 @item _CS_LFS64_LIBS
1706 The returned string specifies which additional libraries must be linked
1707 to the application if a source is compiled using the
1708 @code{_LARGEFILE64_SOURCE} feature select macro; @pxref{Feature Test Macros}.
1712 @item _CS_LFS64_LINTFLAGS
1713 The returned string specifies which additional flags must be given to
1714 the lint tool if a source is compiled using the
1715 @code{_LARGEFILE64_SOURCE} feature select macro; @pxref{Feature Test Macros}.
1718 The way to use @code{confstr} without any arbitrary limit on string size
1719 is to call it twice: first call it to get the length, allocate the
1720 buffer accordingly, and then call @code{confstr} again to fill the
1726 get_default_path (void)
1728 size_t len = confstr (_CS_PATH, NULL, 0);
1729 char *buffer = (char *) xmalloc (len);
1731 if (confstr (_CS_PATH, buf, len + 1) == 0)