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in the main text of various man pages. Thanks to Warner Losh for adding an option to manck to allow it to scan the entire man page looking for bogus xrefs, instead of just checking the SEE ALSO section.
706 lines
26 KiB
Groff
706 lines
26 KiB
Groff
.\" Copyright (c) 1993, 1980198319861991
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.\" The Regents of the University of California. All rights reserved.
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.\"
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.\" Redistribution and use in source and binary forms, with or without
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.\" modification, are permitted provided that the following conditions
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.\" are met:
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.\" 1. Redistributions of source code must retain the above copyright
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.\" notice, this list of conditions and the following disclaimer.
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.\" 2. Redistributions in binary form must reproduce the above copyright
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.\" notice, this list of conditions and the following disclaimer in the
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.\" documentation and/or other materials provided with the distribution.
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.\" 3. All advertising materials mentioning features or use of this software
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.\" must display the following acknowledgement:
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.\" This product includes software developed by the University of
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.\" California, Berkeley and its contributors.
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.\" 4. Neither the name of the University nor the names of its contributors
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.\" may be used to endorse or promote products derived from this software
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.\" without specific prior written permission.
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.\"
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.\" THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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.\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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.\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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.\" ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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.\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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.\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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.\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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.\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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.\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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.\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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.\" SUCH DAMAGE.
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.\"
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.\" @(#)intro.2 8.3 (Berkeley) 12/11/93
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.\"
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.Dd December 11, 1993
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.Dt INTRO 2
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.Os BSD 4
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.Sh NAME
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.Nm intro
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.Nd introduction to system calls and error numbers
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.Sh SYNOPSIS
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.Fd #include <sys/errno.h>
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.Sh DESCRIPTION
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This section provides an overview of the system calls,
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their error returns, and other common definitions and concepts.
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.\".Pp
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.\".Sy System call restart
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.\".Pp
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.\"<more later...>
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.Sh DIAGNOSTICS
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Nearly all of the system calls provide an error number referenced via
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the external identifier errno. This identifier is defined in
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.Aq Pa sys/errno.h
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for non-threaded programs as:
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.Pp
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.Dl extern int errno
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.Pp
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and for threaded programs as:
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.Pp
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.Dl extern int * __error();
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.Dl #define errno (* __error())
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.Pp
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A threaded program must be compiled with
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.Va _THREAD_SAFE
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defined so that the preprocessor will output the appropriate errno
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definition to the compiler. Failure to do so will mean that error
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variables will not be thread specific.
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.Pp
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The threaded library implementation of
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.Va __error()
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returns a pointer to a field in the thread specific structure for
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threads other than the initial thread. For the initial thread,
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.Va __error()
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returns a pointer to a global
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.Va errno
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variable that is compatible with that used by non-threaded programs.
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This allows the initial thread to call functions in libraries which have
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not been compiled with
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.Va _THREAD_SAFE .
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Programmers should ensure that threads other than the initial thread only
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call functions in libraries that have been compiled with
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.Va _THREAD_SAFE .
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.Pp
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Programmers should include
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.Aq Pa sys/errno.h to obtain the definition of
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.Va errno
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rather than coding the definition as an external reference directly. It is
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planned that the
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.Va extern int errno
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definition will eventually be replaced by the threaded definition so that
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all libraries will have a thread-aware treatment of
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.Va errno .
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.Pp
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When a system call detects an error,
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it returns an integer value
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indicating failure (usually -1)
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and sets the variable
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.Va errno
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accordingly.
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<This allows interpretation of the failure on receiving
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a -1 and to take action accordingly.>
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Successful calls never set
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.Va errno ;
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once set, it remains until another error occurs.
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It should only be examined after an error.
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Note that a number of system calls overload the meanings of these
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error numbers, and that the meanings must be interpreted according
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to the type and circumstances of the call.
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.Pp
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The following is a complete list of the errors and their
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names as given in
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.Aq Pa sys/errno.h .
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.Bl -hang -width Ds
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.It Er 0 Em "Error 0" .
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Not used.
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.It Er 1 EPERM Em "Operation not permitted" .
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An attempt was made to perform an operation limited to processes
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with appropriate privileges or to the owner of a file or other
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resources.
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.It Er 2 ENOENT Em "No such file or directory" .
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A component of a specified pathname did not exist, or the
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pathname was an empty string.
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.It Er 3 ESRCH Em "No such process" .
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No process could be found corresponding to that specified by the given
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process ID.
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.It Er 4 EINTR Em "Interrupted function call" .
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An asynchronous signal (such as
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.Dv SIGINT
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or
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.Dv SIGQUIT )
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was caught by the process during the execution of an interruptible
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function. If the signal handler performs a normal return, the
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interrupted function call will seem to have returned the error condition.
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.It Er 5 EIO Em "Input/output error" .
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Some physical input or output error occurred.
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This error will not be reported until a subsequent operation on the same file
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descriptor and may be lost (over written) by any subsequent errors.
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.It Er 6 ENXIO Em "\&No such device or address" .
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Input or output on a special file referred to a device that did not
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exist, or
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made a request beyond the limits of the device.
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This error may also occur when, for example,
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a tape drive is not online or no disk pack is
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loaded on a drive.
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.It Er 7 E2BIG Em "Arg list too long" .
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The number of bytes used for the argument and environment
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list of the new process exceeded the current limit
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of 20480 bytes
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.Pf ( Dv NCARGS
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in
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.Aq Pa sys/param.h ) .
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.It Er 8 ENOEXEC Em "Exec format error" .
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A request was made to execute a file
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that, although it has the appropriate permissions,
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was not in the format required for an
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executable file.
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.It Er 9 EBADF Em "Bad file descriptor" .
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A file descriptor argument was out of range, referred to no open file,
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or a read (write) request was made to a file that was only open for
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writing (reading).
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.It Er 10 ECHILD Em "\&No child processes" .
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A
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.Xr wait 2
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or
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.Xr waitpid 2
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function was executed by a process that had no existing or unwaited-for
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child processes.
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.It Er 11 EDEADLK Em "Resource deadlock avoided" .
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An attempt was made to lock a system resource that
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would have resulted in a deadlock situation.
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.It Er 12 ENOMEM Em "Cannot allocate memory" .
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The new process image required more memory than was allowed by the hardware
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or by system-imposed memory management constraints.
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A lack of swap space is normally temporary; however,
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a lack of core is not.
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Soft limits may be increased to their corresponding hard limits.
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.It Er 13 EACCES Em "Permission denied" .
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An attempt was made to access a file in a way forbidden
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by its file access permissions.
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.It Er 14 EFAULT Em "Bad address" .
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The system detected an invalid address in attempting to
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use an argument of a call.
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.It Er 15 ENOTBLK Em "Not a block device" .
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A block device operation was attempted on a non-block device or file.
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.It Er 16 EBUSY Em "Resource busy" .
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An attempt to use a system resource which was in use at the time
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in a manner which would have conflicted with the request.
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.It Er 17 EEXIST Em "File exists" .
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An existing file was mentioned in an inappropriate context,
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for instance, as the new link name in a
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.Xr link 2
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function.
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.It Er 18 EXDEV Em "Improper link" .
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A hard link to a file on another file system
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was attempted.
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.It Er 19 ENODEV Em "Operation not supported by device" .
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An attempt was made to apply an inappropriate
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function to a device,
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for example,
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trying to read a write-only device such as a printer.
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.It Er 20 ENOTDIR Em "Not a directory" .
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A component of the specified pathname existed, but it was
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not a directory, when a directory was expected.
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.It Er 21 EISDIR Em "Is a directory" .
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An attempt was made to open a directory with write mode specified.
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.It Er 22 EINVAL Em "Invalid argument" .
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Some invalid argument was supplied. (For example,
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specifying an undefined signal to a
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.Xr signal 3
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or
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.Xr kill 2
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function).
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.It Er 23 ENFILE Em "Too many open files in system" .
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Maximum number of file descriptors allowable on the system
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has been reached and a requests for an open cannot be satisfied
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until at least one has been closed.
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.It Er 24 EMFILE Em "Too many open files" .
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<As released, the limit on the number of
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open files per process is 64.>
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.Xr Getdtablesize 2
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will obtain the current limit.
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.It Er 25 ENOTTY Em "Inappropriate ioctl for device" .
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A control function (see
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.Xr ioctl 2 )
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was attempted for a file or
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special device for which the operation was inappropriate.
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.It Er 26 ETXTBSY Em "Text file busy" .
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The new process was a pure procedure (shared text) file
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which was open for writing by another process, or
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while the pure procedure file was being executed an
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.Xr open 2
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call requested write access.
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.It Er 27 EFBIG Em "File too large" .
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The size of a file exceeded the maximum (about
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.if t 2\u\s-231\s+2\d
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.if n 2.1E9
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bytes).
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.It Er 28 ENOSPC Em "Device out of space" .
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A
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.Xr write 2
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to an ordinary file, the creation of a
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directory or symbolic link, or the creation of a directory
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entry failed because no more disk blocks were available
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on the file system, or the allocation of an inode for a newly
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created file failed because no more inodes were available
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on the file system.
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.It Er 29 ESPIPE Em "Illegal seek" .
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An
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.Xr lseek 2
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function was issued on a socket, pipe or
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.Tn FIFO .
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.It Er 30 EROFS Em "Read-only file system" .
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An attempt was made to modify a file or directory
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was made
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on a file system that was read-only at the time.
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.It Er 31 EMLINK Em "Too many links" .
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Maximum allowable hard links to a single file has been exceeded (limit
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of 32767 hard links per file).
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.It Er 32 EPIPE Em "Broken pipe" .
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A write on a pipe, socket or
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.Tn FIFO
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for which there is no process
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to read the data.
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.It Er 33 EDOM Em "Numerical argument out of domain" .
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A numerical input argument was outside the defined domain of the mathematical
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function.
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.It Er 34 ERANGE Em "Numerical result out of range" .
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A numerical result of the function was too large to fit in the
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available space (perhaps exceeded precision).
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.It Er 35 EAGAIN Em "Resource temporarily unavailable" .
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This is a temporary condition and later calls to the
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same routine may complete normally.
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.It Er 36 EINPROGRESS Em "Operation now in progress" .
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An operation that takes a long time to complete (such as
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a
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.Xr connect 2 )
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was attempted on a non-blocking object (see
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.Xr fcntl 2 ) .
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.It Er 37 EALREADY Em "Operation already in progress" .
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An operation was attempted on a non-blocking object that already
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had an operation in progress.
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.It Er 38 ENOTSOCK Em "Socket operation on non-socket" .
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Self-explanatory.
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.It Er 39 EDESTADDRREQ Em "Destination address required" .
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A required address was omitted from an operation on a socket.
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.It Er 40 EMSGSIZE Em "Message too long" .
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A message sent on a socket was larger than the internal message buffer
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or some other network limit.
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.It Er 41 EPROTOTYPE Em "Protocol wrong type for socket" .
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A protocol was specified that does not support the semantics of the
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socket type requested. For example, you cannot use the
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.Tn ARPA
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Internet
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.Tn UDP
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protocol with type
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.Dv SOCK_STREAM .
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.It Er 42 ENOPROTOOPT Em "Protocol not available" .
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A bad option or level was specified in a
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.Xr getsockopt 2
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or
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.Xr setsockopt 2
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call.
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.It Er 43 EPROTONOSUPPORT Em "Protocol not supported" .
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The protocol has not been configured into the
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system or no implementation for it exists.
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.It Er 44 ESOCKTNOSUPPORT Em "Socket type not supported" .
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The support for the socket type has not been configured into the
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system or no implementation for it exists.
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.It Er 45 EOPNOTSUPP Em "Operation not supported" .
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The attempted operation is not supported for the type of object referenced.
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Usually this occurs when a file descriptor refers to a file or socket
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that cannot support this operation,
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for example, trying to
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.Em accept
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a connection on a datagram socket.
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.It Er 46 EPFNOSUPPORT Em "Protocol family not supported" .
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The protocol family has not been configured into the
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system or no implementation for it exists.
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.It Er 47 EAFNOSUPPORT Em "Address family not supported by protocol family" .
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An address incompatible with the requested protocol was used.
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For example, you shouldn't necessarily expect to be able to use
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.Tn NS
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addresses with
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.Tn ARPA
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Internet protocols.
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.It Er 48 EADDRINUSE Em "Address already in use" .
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Only one usage of each address is normally permitted.
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.It Er 49 EADDRNOTAVAIL Em "Cannot assign requested address" .
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Normally results from an attempt to create a socket with an
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address not on this machine.
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.It Er 50 ENETDOWN Em "Network is down" .
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A socket operation encountered a dead network.
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.It Er 51 ENETUNREACH Em "Network is unreachable" .
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A socket operation was attempted to an unreachable network.
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.It Er 52 ENETRESET Em "Network dropped connection on reset" .
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The host you were connected to crashed and rebooted.
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.It Er 53 ECONNABORTED Em "Software caused connection abort" .
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A connection abort was caused internal to your host machine.
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.It Er 54 ECONNRESET Em "Connection reset by peer" .
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A connection was forcibly closed by a peer. This normally
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results from a loss of the connection on the remote socket
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due to a timeout or a reboot.
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.It Er 55 ENOBUFS Em "\&No buffer space available" .
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An operation on a socket or pipe was not performed because
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the system lacked sufficient buffer space or because a queue was full.
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.It Er 56 EISCONN Em "Socket is already connected" .
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A
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.Xr connect 2
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request was made on an already connected socket; or,
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a
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.Xr sendto 2
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or
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.Xr sendmsg 2
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request on a connected socket specified a destination
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when already connected.
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.It Er 57 ENOTCONN Em "Socket is not connected" .
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An request to send or receive data was disallowed because
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the socket was not connected and (when sending on a datagram socket)
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no address was supplied.
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.It Er 58 ESHUTDOWN Em "Cannot send after socket shutdown" .
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A request to send data was disallowed because the socket
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had already been shut down with a previous
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.Xr shutdown 2
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call.
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.It Er 60 ETIMEDOUT Em "Operation timed out" .
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A
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.Xr connect 2
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or
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.Xr send 2
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request failed because the connected party did not
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properly respond after a period of time. (The timeout
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period is dependent on the communication protocol.)
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.It Er 61 ECONNREFUSED Em "Connection refused" .
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No connection could be made because the target machine actively
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refused it. This usually results from trying to connect
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to a service that is inactive on the foreign host.
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.It Er 62 ELOOP Em "Too many levels of symbolic links" .
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A path name lookup involved more than 8 symbolic links.
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.It Er 63 ENAMETOOLONG Em "File name too long" .
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A component of a path name exceeded 255
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.Pq Dv MAXNAMELEN
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characters, or an entire
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path name exceeded 1023
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.Pq Dv MAXPATHLEN Ns -1
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characters.
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.It Er 64 EHOSTDOWN Em "Host is down" .
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|
A socket operation failed because the destination host was down.
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.It Er 65 EHOSTUNREACH Em "No route to host" .
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A socket operation was attempted to an unreachable host.
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.It Er 66 ENOTEMPTY Em "Directory not empty" .
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|
A directory with entries other than
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.Ql \&.
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and
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.Ql \&..
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was supplied to a remove directory or rename call.
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.It Er 67 EPROCLIM Em "Too many processes" .
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.It Er 68 EUSERS Em "Too many users" .
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The quota system ran out of table entries.
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.It Er 69 EDQUOT Em "Disc quota exceeded" .
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A
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.Xr write 2
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to an ordinary file, the creation of a
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directory or symbolic link, or the creation of a directory
|
|
entry failed because the user's quota of disk blocks was
|
|
exhausted, or the allocation of an inode for a newly
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|
created file failed because the user's quota of inodes
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was exhausted.
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.It Er 70 ESTALE Em "Stale NFS file handle" .
|
|
An attempt was made to access an open file (on an
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.Tn NFS
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filesystem)
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|
which is now unavailable as referenced by the file descriptor.
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This may indicate the file was deleted on the
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.Tn NFS
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server or some
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other catastrophic event occurred.
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.It Er 72 EBADRPC Em "RPC struct is bad" .
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|
Exchange of
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.Tn RPC
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information was unsuccessful.
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.It Er 73 ERPCMISMATCH Em "RPC version wrong" .
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The version of
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.Tn RPC
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on the remote peer is not compatible with
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the local version.
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.It Er 74 EPROGUNAVAIL Em "RPC prog. not avail" .
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The requested program is not registered on the remote host.
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.It Er 75 EPROGMISMATCH Em "Program version wrong" .
|
|
The requested version of the program is not available
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on the remote host
|
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.Pq Tn RPC .
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.It Er 76 EPROCUNAVAIL Em "Bad procedure for program" .
|
|
An
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.Tn RPC
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|
call was attempted for a procedure which doesn't exist
|
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in the remote program.
|
|
.It Er 77 ENOLCK Em "No locks available" .
|
|
A system-imposed limit on the number of simultaneous file
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locks was reached.
|
|
.It Er 78 ENOSYS Em "Function not implemented" .
|
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Attempted a system call that is not available on this
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system.
|
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.Sh DEFINITIONS
|
|
.Bl -tag -width Ds
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|
.It Process ID .
|
|
Each active process in the system is uniquely identified by a non-negative
|
|
integer called a process ID. The range of this ID is from 0 to 30000.
|
|
.It Parent process ID
|
|
A new process is created by a currently active process; (see
|
|
.Xr fork 2 ) .
|
|
The parent process ID of a process is initially the process ID of its creator.
|
|
If the creating process exits,
|
|
the parent process ID of each child is set to the ID of a system process,
|
|
.Xr init 8 .
|
|
.It Process Group
|
|
Each active process is a member of a process group that is identified by
|
|
a non-negative integer called the process group ID. This is the process
|
|
ID of the group leader. This grouping permits the signaling of related
|
|
processes (see
|
|
.Xr termios 4 )
|
|
and the job control mechanisms of
|
|
.Xr csh 1 .
|
|
.It Session
|
|
A session is a set of one or more process groups.
|
|
A session is created by a successful call to
|
|
.Xr setsid 2 ,
|
|
which causes the caller to become the only member of the only process
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|
group in the new session.
|
|
.It Session leader
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|
A process that has created a new session by a successful call to
|
|
.Xr setsid 2 ,
|
|
is known as a session leader.
|
|
Only a session leader may acquire a terminal as its controlling terminal (see
|
|
.Xr termios 4 ) .
|
|
.It Controlling process
|
|
A session leader with a controlling terminal is a controlling process.
|
|
.It Controlling terminal
|
|
A terminal that is associated with a session is known as the controlling
|
|
terminal for that session and its members.
|
|
.It "Terminal Process Group ID"
|
|
A terminal may be acquired by a session leader as its controlling terminal.
|
|
Once a terminal is associated with a session, any of the process groups
|
|
within the session may be placed into the foreground by setting
|
|
the terminal process group ID to the ID of the process group.
|
|
This facility is used
|
|
to arbitrate between multiple jobs contending for the same terminal;
|
|
(see
|
|
.Xr csh 1
|
|
and
|
|
.Xr tty 4 ) .
|
|
.It "Orphaned Process Group"
|
|
A process group is considered to be
|
|
.Em orphaned
|
|
if it is not under the control of a job control shell.
|
|
More precisely, a process group is orphaned
|
|
when none of its members has a parent process that is in the same session
|
|
as the group,
|
|
but is in a different process group.
|
|
Note that when a process exits, the parent process for its children
|
|
is changed to be
|
|
.Xr init ,
|
|
which is in a separate session.
|
|
Not all members of an orphaned process group are necessarily orphaned
|
|
processes (those whose creating process has exited).
|
|
The process group of a session leader is orphaned by definition.
|
|
.It "Real User ID and Real Group ID"
|
|
Each user on the system is identified by a positive integer
|
|
termed the real user ID.
|
|
.Pp
|
|
Each user is also a member of one or more groups.
|
|
One of these groups is distinguished from others and
|
|
used in implementing accounting facilities. The positive
|
|
integer corresponding to this distinguished group is termed
|
|
the real group ID.
|
|
.Pp
|
|
All processes have a real user ID and real group ID.
|
|
These are initialized from the equivalent attributes
|
|
of the process that created it.
|
|
.It "Effective User Id, Effective Group Id, and Group Access List"
|
|
Access to system resources is governed by two values:
|
|
the effective user ID, and the group access list.
|
|
The first member of the group access list is also known as the
|
|
effective group ID.
|
|
(In POSIX.1, the group access list is known as the set of supplementary
|
|
group IDs, and it is unspecified whether the effective group ID is
|
|
a member of the list.)
|
|
.Pp
|
|
The effective user ID and effective group ID are initially the
|
|
process's real user ID and real group ID respectively. Either
|
|
may be modified through execution of a set-user-ID or set-group-ID
|
|
file (possibly by one its ancestors) (see
|
|
.Xr execve 2 ) .
|
|
By convention, the effective group ID (the first member of the group access
|
|
list) is duplicated, so that the execution of a set-group-ID program
|
|
does not result in the loss of the original (real) group ID.
|
|
.Pp
|
|
The group access list is a set of group IDs
|
|
used only in determining resource accessibility. Access checks
|
|
are performed as described below in ``File Access Permissions''.
|
|
.It "Saved Set User ID and Saved Set Group ID"
|
|
When a process executes a new file, the effective user ID is set
|
|
to the owner of the file if the file is set-user-ID, and the effective
|
|
group ID (first element of the group access list) is set to the group
|
|
of the file if the file is set-group-ID.
|
|
The effective user ID of the process is then recorded as the saved set-user-ID,
|
|
and the effective group ID of the process is recorded as the saved set-group-ID.
|
|
These values may be used to regain those values as the effective user
|
|
or group ID after reverting to the real ID (see
|
|
.Xr setuid 2 ) .
|
|
(In POSIX.1, the saved set-user-ID and saved set-group-ID are optional,
|
|
and are used in setuid and setgid, but this does not work as desired
|
|
for the super-user.)
|
|
.It Super-user
|
|
A process is recognized as a
|
|
.Em super-user
|
|
process and is granted special privileges if its effective user ID is 0.
|
|
.It Special Processes
|
|
The processes with process IDs of 0, 1, and 2 are special.
|
|
Process 0 is the scheduler. Process 1 is the initialization process
|
|
.Xr init ,
|
|
and is the ancestor of every other process in the system.
|
|
It is used to control the process structure.
|
|
Process 2 is the paging daemon.
|
|
.It Descriptor
|
|
An integer assigned by the system when a file is referenced
|
|
by
|
|
.Xr open 2
|
|
or
|
|
.Xr dup 2 ,
|
|
or when a socket is created by
|
|
.Xr pipe 2 ,
|
|
.Xr socket 2
|
|
or
|
|
.Xr socketpair 2 ,
|
|
which uniquely identifies an access path to that file or socket from
|
|
a given process or any of its children.
|
|
.It File Name
|
|
Names consisting of up to 255
|
|
.Pq Dv MAXNAMELEN
|
|
characters may be used to name
|
|
an ordinary file, special file, or directory.
|
|
.Pp
|
|
These characters may be selected from the set of all
|
|
.Tn ASCII
|
|
character
|
|
excluding 0 (NUL) and the
|
|
.Tn ASCII
|
|
code for
|
|
.Ql \&/
|
|
(slash). (The parity bit,
|
|
bit 7, must be 0.)
|
|
.Pp
|
|
Note that it is generally unwise to use
|
|
.Ql \&* ,
|
|
.Ql \&? ,
|
|
.Ql \&[
|
|
or
|
|
.Ql \&]
|
|
as part of
|
|
file names because of the special meaning attached to these characters
|
|
by the shell.
|
|
.It Path Name
|
|
A path name is a
|
|
.Tn NUL Ns -terminated
|
|
character string starting with an
|
|
optional slash
|
|
.Ql \&/ ,
|
|
followed by zero or more directory names separated
|
|
by slashes, optionally followed by a file name.
|
|
The total length of a path name must be less than 1024
|
|
.Pq Dv MAXPATHLEN
|
|
characters.
|
|
.Pp
|
|
If a path name begins with a slash, the path search begins at the
|
|
.Em root
|
|
directory.
|
|
Otherwise, the search begins from the current working directory.
|
|
A slash by itself names the root directory. An empty
|
|
pathname refers to the current directory.
|
|
.It Directory
|
|
A directory is a special type of file that contains entries
|
|
that are references to other files.
|
|
Directory entries are called links. By convention, a directory
|
|
contains at least two links,
|
|
.Ql \&.
|
|
and
|
|
.Ql \&.. ,
|
|
referred to as
|
|
.Em dot
|
|
and
|
|
.Em dot-dot
|
|
respectively. Dot refers to the directory itself and
|
|
dot-dot refers to its parent directory.
|
|
.It "Root Directory and Current Working Directory"
|
|
Each process has associated with it a concept of a root directory
|
|
and a current working directory for the purpose of resolving path
|
|
name searches. A process's root directory need not be the root
|
|
directory of the root file system.
|
|
.It File Access Permissions
|
|
Every file in the file system has a set of access permissions.
|
|
These permissions are used in determining whether a process
|
|
may perform a requested operation on the file (such as opening
|
|
a file for writing). Access permissions are established at the
|
|
time a file is created. They may be changed at some later time
|
|
through the
|
|
.Xr chmod 2
|
|
call.
|
|
.Pp
|
|
File access is broken down according to whether a file may be: read,
|
|
written, or executed. Directory files use the execute
|
|
permission to control if the directory may be searched.
|
|
.Pp
|
|
File access permissions are interpreted by the system as
|
|
they apply to three different classes of users: the owner
|
|
of the file, those users in the file's group, anyone else.
|
|
Every file has an independent set of access permissions for
|
|
each of these classes. When an access check is made, the system
|
|
decides if permission should be granted by checking the access
|
|
information applicable to the caller.
|
|
.Pp
|
|
Read, write, and execute/search permissions on
|
|
a file are granted to a process if:
|
|
.Pp
|
|
The process's effective user ID is that of the super-user. (Note:
|
|
even the super-user cannot execute a non-executable file.)
|
|
.Pp
|
|
The process's effective user ID matches the user ID of the owner
|
|
of the file and the owner permissions allow the access.
|
|
.Pp
|
|
The process's effective user ID does not match the user ID of the
|
|
owner of the file, and either the process's effective
|
|
group ID matches the group ID
|
|
of the file, or the group ID of the file is in
|
|
the process's group access list,
|
|
and the group permissions allow the access.
|
|
.Pp
|
|
Neither the effective user ID nor effective group ID
|
|
and group access list of the process
|
|
match the corresponding user ID and group ID of the file,
|
|
but the permissions for ``other users'' allow access.
|
|
.Pp
|
|
Otherwise, permission is denied.
|
|
.It Sockets and Address Families
|
|
.Pp
|
|
A socket is an endpoint for communication between processes.
|
|
Each socket has queues for sending and receiving data.
|
|
.Pp
|
|
Sockets are typed according to their communications properties.
|
|
These properties include whether messages sent and received
|
|
at a socket require the name of the partner, whether communication
|
|
is reliable, the format used in naming message recipients, etc.
|
|
.Pp
|
|
Each instance of the system supports some
|
|
collection of socket types; consult
|
|
.Xr socket 2
|
|
for more information about the types available and
|
|
their properties.
|
|
.Pp
|
|
Each instance of the system supports some number of sets of
|
|
communications protocols. Each protocol set supports addresses
|
|
of a certain format. An Address Family is the set of addresses
|
|
for a specific group of protocols. Each socket has an address
|
|
chosen from the address family in which the socket was created.
|
|
.Sh SEE ALSO
|
|
.Xr intro 3 ,
|
|
.Xr perror 3
|